專家信息:
徐立軍����, 男,1968年7月出生。博士����,教授����,博士生導(dǎo)師。 現(xiàn)任北京航空航天大學(xué)儀器科學(xué)與光電工程學(xué)院教授����、院長(zhǎng),“測(cè)試計(jì)量技術(shù)及儀器”學(xué)科和“熱能工程”學(xué)科博導(dǎo)����,國(guó)家杰出青年科學(xué)基金獲得者、教育部“長(zhǎng)江學(xué)者”特聘教授����、國(guó)家“萬人計(jì)劃”領(lǐng)軍人才、科技部“中青年科技創(chuàng)新領(lǐng)軍人才”����,2016年第七屆全國(guó)優(yōu)秀科技工作者。
分別于1990����、1993和1996年在天津大學(xué)獲得學(xué)士����、碩士與博士學(xué)位����,1997年晉升為副教授,于1998-1999年在德國(guó)卡爾斯魯厄大學(xué)做博士后研究����,2002.1-2006.4分別在英國(guó)格林尼治大學(xué)、肯特大學(xué)和倫敦大學(xué)癌癥研究所做Research Fellow和Higher Scientific Officer.長(zhǎng)期從事過程監(jiān)測(cè)與成像等方面的研究工作����,在過程層析成像、激光測(cè)試與診斷����、激光雷達(dá)等研究中與英國(guó)����、美國(guó)、德國(guó)����、意大利等多個(gè)國(guó)家的多所大學(xué)和研究機(jī)構(gòu)保持緊密的聯(lián)系與合作����,取得了多項(xiàng)重要?jiǎng)?chuàng)新成果����,得到業(yè)界的高度評(píng)價(jià),在國(guó)際本學(xué)科領(lǐng)域具有較大影響力����。主持包括國(guó)家杰出青年科學(xué)基金、國(guó)家自然科學(xué)基金儀器研制����?铐(xiàng)目、國(guó)際交流合作項(xiàng)目����、面上項(xiàng)目、973計(jì)劃課題����、863計(jì)劃子課題、國(guó)家重大專項(xiàng)子課題等省部級(jí)以上項(xiàng)目20余項(xiàng)。至今已發(fā)表論文250篇����,其中SCI檢索78篇,EI 檢索133篇����,SCI 引用550余次,SCI他引400余次����;其中25篇發(fā)表在IEEE 會(huì)刊,其他發(fā)表在Optics Express����、Applied Optics、App. Phy. B����、Energy、Energy & Fuel����、Comb. Sci. Techn.、Meas. Sci. Techn., Rev. Sci. Instrum. 等刊物上����,申請(qǐng)國(guó)家發(fā)明專利76 項(xiàng),已授權(quán)49 項(xiàng)����,獲省部級(jí)獎(jiǎng)勵(lì)4項(xiàng)。現(xiàn)任國(guó)際期刊《Measurement Science and Technology》編委����、《北京航空航天大學(xué)學(xué)報(bào)》副主編、IEEE高級(jí)會(huì)員����、中國(guó)計(jì)量測(cè)試學(xué)會(huì)理事、中國(guó)儀器儀表學(xué)會(huì)理事����、中國(guó)計(jì)量測(cè)試學(xué)會(huì)多相流測(cè)試專委會(huì)副主任。作為組委會(huì)主席���、大會(huì)主席主辦IEEE系列國(guó)際會(huì)議3次���,在國(guó)內(nèi)外本領(lǐng)域具有較大的影響力。
 教育經(jīng)歷:
1993.03-1996.03 天津大學(xué)精密儀器與光電子工程學(xué)院���,獲工學(xué)博士學(xué)位���。
1990.09-1993.03 天津大學(xué)電力及自動(dòng)化工程系���,獲工學(xué)碩士學(xué)位。
1986.09-1990.07 天津大學(xué)電力及自動(dòng)化工程系���,獲工學(xué)學(xué)士學(xué)位���。
工作經(jīng)歷:
2006.05至今 北京航空航天大學(xué)儀器光電學(xué)院測(cè)控系,教授���。
2004.12-2006.04 英國(guó)倫敦大學(xué)癌癥研究所物理系, Higher Scientific Officer���。
2002.01-2004.12 英國(guó)肯特大學(xué)電子系儀表與嵌入式系統(tǒng)研究組, Research Fellow。
1998.05-1999.11 德國(guó)卡爾斯魯厄大學(xué)化工過程工程與應(yīng)用機(jī)械研究所博士后研究���。
1997.11-2001.12 天津大學(xué)電氣工程與自動(dòng)化學(xué)院自動(dòng)化系任副教授���,碩士指導(dǎo)教師。系支部書記���、系副主任���。
1996.10-1997.01 德國(guó)卡爾斯魯厄大學(xué)測(cè)量與控制研究所學(xué)習(xí)訪問。
1995.07-1997.11 天津大學(xué)電力及自動(dòng)化工程系工業(yè)自動(dòng)化儀表教研室任講師���。
1993.07-1995.07 天津大學(xué)電力及自動(dòng)化工程系工業(yè)自動(dòng)化儀表教研室任助教���。
學(xué)術(shù)兼職:
(1) 學(xué)術(shù)機(jī)構(gòu)與團(tuán)體
2004-IEEE高級(jí)會(huì)員
2001- 中國(guó)化工裝備協(xié)會(huì)石化工業(yè)儀表委員會(huì)委員
2000- 中國(guó)計(jì)量協(xié)會(huì)能源計(jì)控技術(shù)工作委員會(huì)委員
1998- 中國(guó)計(jì)量測(cè)試學(xué)會(huì)多相流測(cè)試專業(yè)委員會(huì)委員
(2) 下述學(xué)術(shù)刊物審稿人
IEEE Transactions on Signal Processing
IEEE Transactions on Instrumentation and Measurement
IEEE Sensors Journal
Measurement Science and Technology
Flow Measurement and Instrumentation
 教學(xué)和人才培養(yǎng):
主講課程:
1、計(jì)算機(jī)測(cè)控系統(tǒng)(自動(dòng)測(cè)試技術(shù))(本科生必修)
2���、信號(hào)分析與處理(本科生必修)
3���、計(jì)算機(jī)控制系統(tǒng)與技術(shù)(研究生必修)
教學(xué)成果:
獲批國(guó)家精品課程一門(排名第二)。培養(yǎng)的碩士和博士研究生中2人次獲IEEE系列國(guó)際會(huì)議最佳論文獎(jiǎng)���,多人次分別獲國(guó)家獎(jiǎng)學(xué)金���、中國(guó)儀器儀表學(xué)會(huì)獎(jiǎng)學(xué)金等。
培養(yǎng)研究生情況:
已培養(yǎng)博士后3人���,博士9人���,碩士20人���。
 科學(xué)研究:
研究方向:
1、過程層析成象與多相流測(cè)量
2���、激光吸收光譜診斷技術(shù)與燃燒過程監(jiān)測(cè)
3���、激光雷達(dá)技術(shù)及應(yīng)用
承擔(dān)科研項(xiàng)目情況:
1、3D elastography for cancer diagnosis using radiation force���,英國(guó)NEAT Programme
2���、An integrated sensor system for combustion plant optimisation,英國(guó)貿(mào)工部項(xiàng)目
3���、On-line fuel tracking by advanced flame monitoring���,英國(guó)貿(mào)工部項(xiàng)目
4、Mass flow metering using electrostatic sensors���,英國(guó)Natural Resources Centre
5���、非對(duì)稱管流多參數(shù)電磁檢測(cè)技術(shù)研究���,國(guó)家自然科學(xué)基金
6、流體粘度的非浸入式在線測(cè)量研究���,天津自然科學(xué)基金
7、智能型高效混輸泵技術(shù)探索���,國(guó)家863計(jì)劃
8���、基于電磁感應(yīng)的流體流變參數(shù)的在線測(cè)量,教育部骨干教師資助計(jì)劃
9���、氣液兩相流體的電阻抗層析成象測(cè)試技術(shù)的研究���,國(guó)家自然科學(xué)基金
10、基于感應(yīng)原理的電磁層析成象技術(shù)及系統(tǒng)研究���,國(guó)家科學(xué)自然基金
11���、電阻抗層析成象技術(shù)的研究���,天津市自然科學(xué)基金
12、煤漿質(zhì)量流量計(jì)���,機(jī)械部"八五"攻關(guān)項(xiàng)目
13���、超聲流動(dòng)成像技術(shù)及系統(tǒng)的研究,國(guó)家自然科學(xué)基金
14���、活動(dòng)式井口計(jì)量裝置研制���,大慶石油有限責(zé)任公司
15、大廈實(shí)時(shí)電耗分布式監(jiān)測(cè)系統(tǒng)���,香港城市大學(xué)委托項(xiàng)目
16���、微機(jī)仿真磁帶及熱敏打印機(jī)仿真膠片繪圖儀的研究,中科院沈陽計(jì)算所
17���、電導(dǎo)含水率--相關(guān)流量計(jì)的信號(hào)采集系統(tǒng)���,大慶石油管理局
科研成果:
1 燃煤鍋爐制粉���、送粉及燃燒過程在線監(jiān)測(cè) 徐立軍;李小路;曹章;李曉敏;成艷亭;許晨峰 北京航空航天大學(xué)
2 燃煤鍋爐安全高效運(yùn)行關(guān)鍵參數(shù)檢測(cè)技術(shù)及系統(tǒng) 徐立軍;李小路;曹章;李曉敏;成艷亭;許晨峰 北京航空航天大學(xué) 2012
3 非對(duì)稱管流多參數(shù)電磁檢測(cè)技術(shù)研究 徐立軍;王亞;董峰;徐苓安 天津大學(xué) 2009
4 一種單極性輸入雙極性輸出壓控恒流源 王亞;李鵬;徐立軍 天津大學(xué) 2009
5 兩相流過程截面檢測(cè)信息提取研究 董峰;徐立軍;許燕斌;譚超;鄧湘 天津大學(xué) 2008
發(fā)明專利:
發(fā)明公開:
[1]徐立軍, 張曉倩, 曹章, 溫晉婷, 王釔丁. 一種結(jié)合波長(zhǎng)調(diào)制大吸收修正的溫度濃度離散成像方法[P]. 北京市: CN119125074A, 2024-12-13.
[2]徐立軍, 王釔丁, 曹章, 溫晉婷, 張曉倩, 趙鍇. 一種適于少角度投影的二值分布斷層圖像重建方法[P]. 北京市: CN118918210A, 2024-11-08.
[3]李小路, 付文明, 蘇麗軒, 徐立軍. 一種基于次鄰幀約束位姿圖優(yōu)化的點(diǎn)云三維重建方法[P]. 北京市: CN118887345A, 2024-11-01.
[4]曹章, 周文彬, 徐立軍, 張曉倩, 侯廣羽. 一種基于激光吸收光譜的發(fā)動(dòng)機(jī)燃燒室推力非接觸式測(cè)量方法[P]. 北京市: CN118857541A, 2024-10-29.
[5]郭晶晶, 脫佳霖, 徐立軍. 一種柔性可拉伸的多模態(tài)光纖傳感器及其制備方法[P]. 北京市: CN118500454A, 2024-08-16.
[6]李端, 徐立軍, 呂林杰, 蔣燕宏, 江麗沙, 王昕宇. 一種高精度單光子探測(cè)激光雷達(dá)深度及強(qiáng)度反演方法[P]. 北京市: CN118311595A, 2024-07-09.
[7]李端, 蔣燕宏, 徐立軍, 呂林杰. 一種基于模式時(shí)間拉伸的目標(biāo)距離-反射光譜一體化主動(dòng)探測(cè)系統(tǒng)及方法[P]. 北京市: CN118244289A, 2024-06-25.
[8]曹章, 李微卿, 徐立軍, 張曉倩, 羅家豪. 一種基于數(shù)字頻率鎖定雙光梳系統(tǒng)的氣體溫度測(cè)量方法[P]. 北京市: CN118168682A, 2024-06-11.
[9]鐘景, 孫世杰, 徐立軍, 張銳, 孫少奇. 一種基于頻域-空間域信息融合的磁粒子成像方法及裝置[P]. 北京市: CN118121180A, 2024-06-04.
[10]徐立軍, 侯廣羽, 曹章, 王釔丁. 一種基于干涉波形同步可調(diào)諧吸收光譜的氣體流速測(cè)量方法[P]. 北京市: CN118068040A, 2024-05-24.
[11]徐立軍, 張曉倩, 曹章, 溫晉婷, 趙鍇, 王釔丁. 一種基函數(shù)參數(shù)自適應(yīng)選取的二維溫度場(chǎng)和濃度場(chǎng)成像方法[P]. 北京市: CN117934645A, 2024-04-26.
[12]孫世杰, 鐘景, 徐立軍, 蔡榮, 趙明陽. 一種基于數(shù)據(jù)快速生成的磁粒子成像圖像重建方法[P]. 北京市: CN117934655A, 2024-04-26.
[13]謝躍東, 劉福祿, 杜可鈺, 徐立軍. 一種氣液兩相流氣泡分布及相含率的測(cè)量方法及裝置[P]. 北京市: CN117825492A, 2024-04-05.
[14]曹章, 周文彬, 徐立軍, 侯廣羽, 王釔丁. 一種高溫高速氣流總溫、靜溫���、動(dòng)溫���、流速同步測(cè)量系統(tǒng)[P]. 北京市: CN117825630A, 2024-04-05.
[15]孫江濤, 白旭, 徐立軍, 索鵬, 高歌, 李效霖, 劉康祺. 一種基于接觸阻抗噪聲分布的肺部先驗(yàn)EIT成像方法[P]. 北京市: CN117808910A, 2024-04-02.
[16]孫江濤, 廉依倪, 李效霖, 白旭, 索鵬, 徐立軍. 一種用于微尺度電特性分布檢測(cè)的電學(xué)層析成像傳感器[P]. 北京市: CN117723603A, 2024-03-19.
[17]孫江濤, 劉康祺, 索鵬, 白旭, 徐立軍. 一種融合位置形狀約束的膀胱EIT三維成像方法[P]. 北京市: CN117204841A, 2023-12-12.
[18]徐立軍, 吳易恭, 曹章, 陸方皞, 李泓瑤, 趙鍇. 一種基于單步經(jīng)驗(yàn)?zāi)B(tài)分解的波長(zhǎng)調(diào)制光譜諧波提取方法[P]. 北京市: CN117214134A, 2023-12-12.
[19]馬建國(guó), 徐立軍, 張騰. 一種消除球差的菲涅爾聲透鏡及其設(shè)計(jì)方法[P]. 北京市: CN117180648A, 2023-12-08.
[20]曹章, 曹李培, 徐立軍, 湯曉陽. 基于三波長(zhǎng)剪切干涉圖的瞬態(tài)燃燒溫度場(chǎng)測(cè)量方法與系統(tǒng)[P]. 北京市: CN117168642A, 2023-12-05.
[21]曹章, 李心語, 徐立軍, 周文彬, 李雪嬌. 一種基于開放光路可調(diào)衰蕩腔的氣體溫度及濃度測(cè)量方法[P]. 北京市: CN117030638A, 2023-11-10.
[22]付博, 徐立軍, 王剛, 張淙彧, 孫婧軒, 張程宏. 一種激光脈沖類型的實(shí)時(shí)切換方法[P]. 北京市: CN117039589A, 2023-11-10.
[23]李端, 徐立軍, 江麗沙, 肖奕瑩, 呂林杰. 一種基于激光雷達(dá)的低慢小目標(biāo)探測(cè)系統(tǒng)及方法[P]. 北京市: CN116990782A, 2023-11-03.
[24]曹章, 溫晉婷, 徐立軍, 趙鍇. 一種融合優(yōu)化高斯濾波的激光吸收光譜層析圖像重建方法[P]. 北京市: CN116957994A, 2023-10-27.
[25]李端, 肖奕瑩, 徐立軍, 江麗沙, 呂林杰. 一種用于主動(dòng)三維成像的APD焦平面器件計(jì)時(shí)精度測(cè)試系統(tǒng)[P]. 北京市: CN116859372A, 2023-10-10.
[26]徐立軍, 譚雨田, 曹章, 周文彬, 李泓瑤. 一種基于激光吸收光譜低速采樣參數(shù)辨識(shí)的溫度測(cè)量方法[P]. 北京市: CN116558665A, 2023-08-08.
[27]孫世杰, 王穎, 徐立軍, 孫江濤. 一種基于動(dòng)態(tài)圖像融合的三維電學(xué)成像方法[P]. 北京市: CN116509367A, 2023-08-01.
[28]李小路, 余瑞欽, 畢騰飛, 徐立軍. 一種基于激光雷達(dá)強(qiáng)度校正與點(diǎn)云上采樣的交通標(biāo)志牌分類方法[P]. 北京市: CN116468933A, 2023-07-21.
[29]曹章, 邱爽, 徐立軍, 張曉倩, 溫晉婷. 一種基于歸一化二次諧波線性模型的溫度和濃度重建方法[P]. 北京市: CN116337155A, 2023-06-27.
[30]孫江濤, 索鵬, 徐立軍, 白旭, 李效霖, 孫世杰. 一種基于區(qū)塊自適應(yīng)稀疏表達(dá)的電學(xué)成像方法[P]. 北京市: CN116342730A, 2023-06-27.
[31]徐立軍, 龐應(yīng)飛, 曹章, 張曉倩, 張宏宇. 一種基于單腔雙光梳的溫度測(cè)量方法與裝置[P]. 北京市: CN116295907A, 2023-06-23.
[32]徐立軍, 郭尚, 曹章, 田雨. 一種適于硬件實(shí)現(xiàn)的稀疏阻抗頻譜快速測(cè)量方法與系統(tǒng)[P]. 北京市: CN116298528A, 2023-06-23.
[33]孫江濤, 白旭, 徐立軍, 索鵬, 劉康祺, 高歌. 一種基于結(jié)構(gòu)先驗(yàn)的肺部電阻抗層析成像方法[P]. 北京市: CN116309481A, 2023-06-23.
[34]孫江濤, 申夢(mèng)嫻, 白旭, 索鵬, 徐立軍. 適用于電極陣列外部區(qū)域的氣液兩相電阻抗分布成像方法[P]. 北京市: CN116203080A, 2023-06-02.
[35]馬建國(guó), 徐立軍, 蔡奕奇, 劉鐵銘. 一種具備功率輸出和成像能力的低損耗超聲換能器[P]. 北京市: CN116173432A, 2023-05-30.
[36]李小路, 畢騰飛, 陳文彬, 徐立軍. 一種基于波形補(bǔ)償?shù)募す饫走_(dá)飽和信號(hào)在線測(cè)距方法[P]. 北京市: CN116125429A, 2023-05-16.
[37]馬建國(guó), 徐立軍, 韓佳琪, 孫其振, 謝準(zhǔn), 樊夢(mèng)之, 孫鵬飛. 一種基于定量超聲的乳腺腫瘤快速篩查方法[P]. 北京市: CN116077094A, 2023-05-09.
[38]孫江濤, 李效霖, 張瀟愷, 白旭, 孫世杰, 徐立軍. 基于相關(guān)系數(shù)約束互相關(guān)的高動(dòng)態(tài)氣液兩相流量測(cè)量方法[P]. 北京市: CN116086559A, 2023-05-09.
[39]曹章, 高欣, 徐立軍, 溫晉婷, 李泓瑤. 一種基于混合徑向基迭代求解的二維溫度濃度重建方法[P]. 北京市: CN116067912A, 2023-05-05.
[40]饒靜, 謝躍東, 馬建國(guó), 徐立軍. 基于聲波無線傳感技術(shù)的新型水下溫度監(jiān)測(cè)系統(tǒng)及方法[P]. 北京市: CN116026488A, 2023-04-28.
[41]郭晶晶, 郭校言, 徐立軍, 脫佳霖, 尚策. 一種能感知接觸壓力的光纖消融探針[P]. 北京市: CN115919456A, 2023-04-07.
[42]孫世杰, 陳瑤瑤, 鐘景, 徐立軍. 一種基于稀疏表征的磁納米粒子成像圖像重建方法[P]. 北京市: CN115844362A, 2023-03-28.
[43]謝躍東, 劉福祿, 黃曉菲, 饒靜, 徐立軍. 管道缺陷與管內(nèi)流體流量同步測(cè)量裝置及方法[P]. 北京市: CN115824330A, 2023-03-21.
[44]謝躍東, 黃曉菲, 劉福祿, 饒靜, 徐立軍. 一種基于電磁超聲導(dǎo)波的儲(chǔ)箱液面高度檢測(cè)裝置及方法[P]. 北京市: CN115790781A, 2023-03-14.
[45]謝躍東, 劉福祿, 黃曉菲, 饒靜, 徐立軍. 基于管道周向環(huán)形加載的電磁超聲多相流測(cè)量裝置及方法[P]. 北京市: CN115791960A, 2023-03-14.
[46]謝躍東, 黃曉菲, 劉福祿, 饒靜, 徐立軍. 一種基于多頻電磁超聲導(dǎo)波的管內(nèi)流速測(cè)量裝置及方法[P]. 北京市: CN115774120A, 2023-03-10.
[47]郭晶晶, 尚策, 徐立軍, 脫佳霖, 郭校言, 付博. 一種溫度壓力雙參量柔性光纖觸覺傳感器、制備方法及測(cè)量系統(tǒng)[P]. 北京市: CN115727882A, 2023-03-03.
[48]馬建國(guó), 徐立軍, 章曦. 一種可配置的雙頻超聲陣列發(fā)射接收系統(tǒng)及其信號(hào)收發(fā)方法[P]. 北京市: CN115644923A, 2023-01-31.
[49]鐘景, 徐立軍, 孫少奇, 孫世杰, 田捷. 一種多頻磁場(chǎng)激勵(lì)下磁納米粒子磁化響應(yīng)及頻譜測(cè)量裝置與方法[P]. 北京市: CN115656898A, 2023-01-31.
[50]徐立軍, 陸方皞, 曹章, 李泓瑤, 吳易恭, 張曉倩. 一種抑制乘性噪聲的激光吸收光譜提取方法與系統(tǒng)[P]. 北京市: CN115639171A, 2023-01-24.
[51]徐立軍, 陸方皞, 曹章, 張曉倩, 吳易恭, 李泓瑤. 一種基于波分復(fù)用的抗光學(xué)偏折吸收譜提取方法與系統(tǒng)[P]. 北京市: CN115639170A, 2023-01-24.
[52]徐立軍, 張銳, 鐘景, 孫世杰, 孫少奇. 一種基于尼爾弛豫的磁納米粒子檢測(cè)與成像方法[P]. 北京市: CN115568841A, 2023-01-06.
[53]曹章, 徐立軍, 朱曉琳, 李泓瑤, 樊澤騰. 一種高動(dòng)態(tài)沖擊信號(hào)的頻率解算方法與系統(tǒng)[P]. 北京市: CN115510786A, 2022-12-23.
[54]徐立軍, 陸方皞, 曹章, 吳易恭. 一種基于激光氣體吸收光譜的溫度超幀率測(cè)量系統(tǒng)與方法[P]. 北京市: CN115468932A, 2022-12-13.
[55]曹章, 周文彬, 徐立軍, 段小艷, 李心語. 一種開放路徑上痕量氣體濃度的實(shí)時(shí)測(cè)量方法與裝置[P]. 北京市: CN115343233A, 2022-11-15.
[56]孫江濤, 白旭, 索鵬, 劉康祺, 魏晉釗, 徐立軍. 一種基于參數(shù)水平集三維EIT圖像重建的膀胱體積測(cè)量方法[P]. 北京市: CN115311227A, 2022-11-08.
[57]曹章, 曹李培, 徐立軍, 湯曉陽. 基于三波長(zhǎng)剪切干涉圖的燃燒場(chǎng)瞬態(tài)溫度測(cè)量系統(tǒng)與方法[P]. 北京市: CN115290210A, 2022-11-04.
[58]馬建國(guó), 徐立軍, 孫其振, 謝準(zhǔn), 孫鵬飛. 一種基于寬帶超聲回波特征的乳腺腫瘤篩查方法和裝置[P]. 北京市: CN115227293A, 2022-10-25.
[59]徐立軍, 張宏宇, 曹章, 龐應(yīng)飛, 李微卿. 一種基于無鎖相雙光梳吸收光譜的氣體參數(shù)測(cè)量方法[P]. 北京市: CN115165781A, 2022-10-11.
[60]孫江濤, 徐立軍, 白旭, 梁特, 孫世杰. 一種基于鎖相放大的阻抗測(cè)量系統(tǒng)及方法[P]. 北京市: CN114983383A, 2022-09-02.
[61]曹章, 李春怡, 徐立軍, 侯廣羽. 一種免標(biāo)定抗振動(dòng)的吸收光譜測(cè)量方法與系統(tǒng)[P]. 北京市: CN114993941A, 2022-09-02.
[62]徐立軍, 侯廣羽, 曹章, 周文彬. 基于吸收光譜幅值調(diào)制的溫度及氣體濃度測(cè)量方法與系統(tǒng)[P]. 北京市: CN114993987A, 2022-09-02.
[63]曹章, 徐立軍, 田雨, 陸方皞, 李泓瑤. 一種用于電學(xué)層析成像的先驗(yàn)濾波迭代解調(diào)方法與系統(tǒng)[P]. 北京市: CN114966208A, 2022-08-30.
[64]徐立軍, 郭宇東, 曹章, 李泓瑤. 一種適用于雙線激光吸收譜測(cè)溫的譜線優(yōu)化選取方法[P]. 北京市: CN114936340A, 2022-08-23.
[65]曹章, 溫晉婷, 徐立軍, 李泓瑤. 一種基于點(diǎn)擴(kuò)散函數(shù)漸近序列的層析成像系統(tǒng)評(píng)價(jià)方法[P]. 北京市: CN114913139A, 2022-08-16.
[66]付博, 徐立軍, 孫婧軒, 朝家樂, 金紅, 趙小麗. 基于多模光纖的全光纖可調(diào)諧時(shí)空鎖模激光器及系統(tǒng)[P]. 北京市: CN114825008A, 2022-07-29.
[67]曹章, 徐立軍, 李微卿, 張宏宇, 張萬鵬. 一種基于關(guān)聯(lián)成像的物體表面溫度分布測(cè)量方法與系統(tǒng)[P]. 北京市: CN114777931A, 2022-07-22.
[68]曹章, 徐立軍, 高欣, 溫晉婷, 李泓瑤, 陸方皞. 一種基于Zernike多項(xiàng)式擬合的二維溫度場(chǎng)和濃度場(chǎng)成像方法[P]. 北京市: CN114782583A, 2022-07-22.
[69]孫世杰, 盧旭鵬, 王穎, 孫江濤, 徐立軍. 一種耐高壓耐低溫的三維電容陣列傳感器[P]. 北京市: CN114705735A, 2022-07-05.
[70]徐立軍, 陸方皞, 曹章, 李泓瑤. 一種用于波長(zhǎng)調(diào)制光譜信號(hào)在線遞推解調(diào)的方法與系統(tǒng)[P]. 北京市: CN114544547A, 2022-05-27.
[71]徐立軍, 陸方皞, 曹章, 張曉倩. 一種波長(zhǎng)調(diào)制激光氣體吸收光譜的參數(shù)提取方法與系統(tǒng)[P]. 北京市: CN114548172A, 2022-05-27.
[72]馬建國(guó), 徐立軍, 謝準(zhǔn), 孫其振. 基于超聲回波時(shí)頻譜特征的生物組織辨識(shí)方法和裝置[P]. 北京市: CN114548179A, 2022-05-27.
[73]徐立軍, 王仁德, 曹章, 李泓瑤. 一種基于激光色散光譜的溫度和振幅遙測(cè)系統(tǒng)與方法[P]. 北京市: CN114518180A, 2022-05-20.
[74]徐立軍, 湯曉陽, 曹章, 曹李培. 一種基于波長(zhǎng)調(diào)制剪切干涉的火焰溫度分布測(cè)量系統(tǒng)與方法[P]. 北京市: CN114518181A, 2022-05-20.
[75]曹章, 周文彬, 徐立軍, 侯廣羽. 一種痕量氣體濃度和路徑長(zhǎng)度實(shí)時(shí)檢測(cè)系統(tǒng)與方法[P]. 北京市: CN114384045A, 2022-04-22.
[76]孫江濤, 徐立軍, 李效霖, 白旭, 劉康祺. 一種適用于微通道異質(zhì)物檢測(cè)的電阻抗層析成像傳感器[P]. 北京市: CN114295688A, 2022-04-08.
[77]孫江濤, 申夢(mèng)嫻, 白旭, 徐立軍. 一種適用于開域流場(chǎng)的氣液兩相流測(cè)量裝置及方法[P]. 北京市: CN114216933A, 2022-03-22.
[78]馬建國(guó), 徐立軍, 劉鐵銘, 蔡奕奇. 一種雙頻超聲換能器陣列及其工作方法[P]. 北京市: CN114190976A, 2022-03-18.
[79]徐立軍, 王仁德, 曹章, 陸方皞, 黃昂. 一種高精度溫度遙測(cè)系統(tǒng)與方法[P]. 北京市: CN113959581A, 2022-01-21.
[80]孫江濤, 李效霖, 田文斌, 白旭, 徐立軍. 一種應(yīng)用少電極ECT的氣液兩相含率檢測(cè)方法[P]. 北京市: CN113777139A, 2021-12-10.
[81]徐立軍, 曹章, 李卓川, 劉怡, 王仁德, 解恒. 一種基于低速采樣的衰蕩腔高速衰蕩信號(hào)系數(shù)提取方法[P]. 北京市: CN113702294A, 2021-11-26.
[82]徐立軍, 曹章, 王晨冉, 黃昂, 陸方皞. 一種波長(zhǎng)調(diào)制激光吸收光譜線型參數(shù)在線提取方法與系統(tǒng)[P]. 北京市: CN113702330A, 2021-11-26.
[83]徐立軍, 孫江濤, 索鵬, 孫世杰, 謝躍東, 白旭. 一種基于三維聚焦磁場(chǎng)的地下空間探測(cè)裝置[P]. 北京市: CN113504570A, 2021-10-15.
[84]孫江濤, 張瀟愷, 徐立軍, 謝躍東, 孫世杰, 索鵬. 一種基于聚焦磁場(chǎng)的井周電阻率測(cè)量裝置[P]. 北京市: CN113504573A, 2021-10-15.
[85]孫江濤, 白雪, 白旭, 徐立軍. 一種用于小尺度管道內(nèi)異質(zhì)物識(shí)別的電特性檢測(cè)方法[P]. 北京市: CN113466295A, 2021-10-01.
[86]曹章, 徐立軍, 黃昂, 王仁德, 溫晉婷. 一種基于激光吸收阻抗譜的氣體溫度與濃度參數(shù)測(cè)量方法[P]. 北京市: CN113447458A, 2021-09-28.
[87]付博, 徐立軍, 張程宏, 郭晶晶, 程湲, 孫婧軒. 一種腔衰蕩雙光梳光譜檢測(cè)標(biāo)志性呼吸氣體濃度的方法[P]. 北京市: CN113376111A, 2021-09-10.
[88]徐立軍, 索鵬, 孫江濤, 孫世杰, 謝躍東. 一種基于聚焦磁場(chǎng)的井周電阻率測(cè)量方法[P]. 北京市: CN113359199A, 2021-09-07.
[89]徐立軍, 曹章, 侯廣羽, 邱爽, 黃昂, 張宏宇. 一種基于幅度調(diào)制的激光吸收光譜溫度測(cè)量方法[P]. 北京市: CN113252204A, 2021-08-13.
[90]徐立軍, 胡蝶, 曹章, 田雨. 一種用于環(huán)形燃燒場(chǎng)溫度分布的可視化測(cè)量方法[P]. 北京市: CN113237569A, 2021-08-10.
[91]徐立軍, 孫江濤, 索鵬, 孫世杰, 謝躍東. 一種地下目標(biāo)高精度成像探測(cè)方法[P]. 北京市: CN113240791A, 2021-08-10.
[92]付博, 郭晶晶, 徐立軍, 尚策. 一種基于金納米復(fù)合材料光纖的反射式葡萄糖傳感器及測(cè)量系統(tǒng)[P]. 北京市: CN113203712A, 2021-08-03.
[93]郭晶晶, 徐立軍, 尚策, 付博. 一種可植入式水凝膠光纖光柵葡萄糖傳感器���、制備方法及測(cè)量系統(tǒng)[P]. 北京市: CN113171091A, 2021-07-27.
[94]付博, 吉訓(xùn)明, 李靜, 徐立軍, 尚策, 王子皓, 張奡杰. 一種血管內(nèi)光學(xué)相干斷層成像激光消融導(dǎo)管[P]. 北京市: CN112842522A, 2021-05-28.
[95]付博, 吉訓(xùn)明, 李靜, 徐立軍, 程湲, 張奡杰, 王子皓. 一種偏心性內(nèi)窺鏡激光導(dǎo)管[P]. 北京市: CN112842523A, 2021-05-28.
[96]吉訓(xùn)明, 付博, 李靜, 尚策, 徐立軍, 呂文浩, 歐陽昊. 一種血管內(nèi)光聲成像激光消融導(dǎo)管[P]. 北京市: CN112842524A, 2021-05-28.
[97]吉訓(xùn)明, 付博, 尚策, 徐立軍, 李靜, 歐陽昊, 呂文浩. 一種血管內(nèi)窺鏡激光消融導(dǎo)管[P]. 北京市: CN112842525A, 2021-05-28.
[98]謝躍東, 黃璞, 浦航, 徐立軍, 孫江濤. 渦流檢測(cè)裝置和系統(tǒng)[P]. 北京市: CN112858470A, 2021-05-28.
[99]孫世杰, 王景浩, 王穎, 盧旭鵬, 張銳, 徐立軍. 一種基于深度學(xué)習(xí)的三維電阻抗成像系統(tǒng)[P]. 北京市: CN112754456A, 2021-05-07.
[100]徐立軍, 曹章, 譚雨田, 解恒, 楊亞如. 一種基于低帶寬光電探測(cè)器的激光吸收光譜溫度測(cè)量系統(tǒng)與方法[P]. 北京市: CN112729591A, 2021-04-30.
[101]劉頓, 索鵬, 孫江濤, 徐立軍, 謝躍東. 一種用于離散相非導(dǎo)電顆粒的非接觸電磁檢測(cè)方法[P]. 北京市: CN112683754A, 2021-04-20.
[102]謝躍東, 浦航, 黃璞, 李繼堯, 徐立軍. 脫粘缺陷檢測(cè)方法、裝置���、電子設(shè)備及存儲(chǔ)介質(zhì)[P]. 北京市: CN112540125A, 2021-03-23.
[103]曹章, 劉怡, 徐立軍, 宋振源, 解恒, 馬瑞. 一種基于衰蕩腔的振動(dòng)及氣體溫度濃度測(cè)量方法與系統(tǒng)[P]. 北京市: CN112525841A, 2021-03-19.
[104]馬建國(guó), 徐立軍, 蔡奕奇. 一種堆疊式超聲換能器[P]. 北京市: CN112403873A, 2021-02-26.
[105]謝躍東, 黃璞, 李繼堯, 孫江濤, 徐立軍. 一種用于無損檢測(cè)的傳感系統(tǒng)[P]. 北京市: CN112378993A, 2021-02-19.
[106]曹章, 王秦璀, 徐立軍, 高欣, 田雨. 一種基于模糊PID控制的X射線層析成像圖像重建方法[P]. 北京市: CN112381902A, 2021-02-19.
[107]孫江濤, 朱海, 白旭, 徐立軍, 田文斌. 基于混合精度訓(xùn)練的深度ECT圖像增強(qiáng)方法[P]. 北京市: CN112330761A, 2021-02-05.
[108]謝躍東, 楊晴曌, 孫江濤, 徐立軍. 一種人機(jī)交互系統(tǒng)[P]. 北京市: CN112269469A, 2021-01-26.
[109]孫世杰, 王景浩, 王穎, 盧旭鵬, 徐立軍. 一種三維雙模態(tài)電阻抗成像傳感器及制造方法[P]. 北京市: CN112179950A, 2021-01-05.
[110]曹章, 田雨, 徐立軍, 胡蝶, 高欣. 一種用于二值化電容層析成像的閉環(huán)圖像重建方法[P]. 北京市: CN112147189A, 2020-12-29.
[111]曹章, 鄭昊軒, 徐立軍, 楊心月, 陸方皞. 一種吸收光譜數(shù)據(jù)的自適應(yīng)實(shí)時(shí)壓縮方法與系統(tǒng)[P]. 北京市: CN112134567A, 2020-12-25.
[112]馬建國(guó), 徐立軍, 馬向東, 付博. 一種基于光致超聲和激光干涉的全光學(xué)超聲探測(cè)裝置[P]. 北京市: CN111912908A, 2020-11-10.
[113]曹章, 黃昂, 徐立軍, 趙文帥, 張宏宇. 一種基于頻分復(fù)用和主峰掃描的激光吸收光譜層析成像方法[P]. 北京市: CN111579532A, 2020-08-25.
[114]孫江濤, 白旭, 田文斌, 謝躍東, 徐立軍. 一種動(dòng)態(tài)細(xì)胞阻抗成像裝置[P]. 北京市: CN111543993A, 2020-08-18.
[115]單光存, 周文霞, 韓露, 王紅宇, 徐立軍, 高圣喬. 根據(jù)細(xì)胞影像進(jìn)行藥物療效分類的方法與電子設(shè)備[P]. 北京市: CN111476267A, 2020-07-31.
[116]曹章, 田雨, 徐立軍, 胡蝶, 高欣. 一種基于閉環(huán)控制原理的離散電容層析成像圖像重建方法[P]. 北京市: CN111407272A, 2020-07-14.
[117]曹章, 徐立軍, 楊亞如, 高欣, 陳麒屾. 一種基于單一組分吸收光譜的多組分濃度分布的估計(jì)方法[P]. 北京市: CN111272680A, 2020-06-12.
[118]高碩, 孫世杰, 呂瑞函, 黃安彪, 徐立軍. 基于觸摸屏應(yīng)用Calderon算法重建圖像的方法[P]. 北京市: CN111192338A, 2020-05-22.
[119]高碩, 孫世杰, 呂瑞函, 黃安彪, 徐立軍. 一種電容式傳感器及通過電容成像確定觸摸屏定位的方法[P]. 北京市: CN111176496A, 2020-05-19.
[120]徐立軍, 胡蝶, 曹章, 田雨. 一種用于單連通燃燒場(chǎng)溫度分布的可視化測(cè)量方法[P]. 北京市: CN111157139A, 2020-05-15.
[121]高碩, 石佳卉, 陳君亮, 代晏寧, 徐立軍. 提高壓電觸摸屏在階梯力下測(cè)力準(zhǔn)確度的裝置及方法[P]. 北京市: CN111158528A, 2020-05-15.
[122]高碩, 黃安彪, 代晏寧, 徐立軍. 終端控制方法���、裝置、終端及可讀存儲(chǔ)介質(zhì)[P]. 北京市: CN111159669A, 2020-05-15.
[123]曹章, 邱爽, 徐立軍, 黃昂, 楊亞如. 一種基于激光吸收光譜的溫度快速提取方法[P]. 北京市: CN111089661A, 2020-05-01.
[124]徐立軍, 曹章, 楊亞如, 黃昂, 陸方皞. 一種基于單一組分吸收光譜的多組分濃度的估計(jì)方法[P]. 北京市: CN111089850A, 2020-05-01.
[125]高碩, 黃安彪, 郭嶸, 邵明啟, 徐立軍. 一種基于電容檢測(cè)和機(jī)器學(xué)習(xí)的觸摸角度估計(jì)方法[P]. 北京市: CN111078064A, 2020-04-28.
[126]曹章, 蔡兆雨, 徐立軍, 張宏宇, 黃昂. 一種基于雙光梳光譜技術(shù)的溫度和濃度測(cè)量系統(tǒng)和方法[P]. 北京市: CN111077109A, 2020-04-28.
[127]徐立軍, 張宏宇, 曹章, 蔡兆雨, 陸方皞. 一種基于雙光梳光譜的溫度場(chǎng)和濃度場(chǎng)測(cè)量系統(tǒng)和方法[P]. 北京市: CN111077110A, 2020-04-28.
[128]高碩, 孫世杰, 呂瑞函, 黃安彪, 徐立軍. 一種電容傳感器及對(duì)其電容信號(hào)進(jìn)行處理的成像定位方法[P]. 北京市: CN111077193A, 2020-04-28.
[129]高碩, 陳君亮, 林凱澤, 徐立軍. 利用多傳感系統(tǒng)檢測(cè)針灸技法的裝置及相應(yīng)的方法[P]. 北京市: CN111076776A, 2020-04-28.
[130]高碩, 劉勇, 黃安彪, 徐立軍. 觸摸力度識(shí)別方法及其模型的訓(xùn)練方法���、裝置和電子系統(tǒng)[P]. 北京市: CN111061394A, 2020-04-24.
[131]高碩, 孫世杰, 呂瑞函, 黃安彪, 徐立軍. 基于迭代算法處理電容信號(hào)并應(yīng)用于觸摸屏定位的方法[P]. 北京市: CN111061399A, 2020-04-24.
[132]高碩, 孫世杰, 呂瑞函, 黃安彪, 徐立軍. 基于Calderon算法對(duì)觸摸屏圖像重建的方法[P]. 北京市: CN111061400A, 2020-04-24.
[133]高碩, 孫世杰, 呂瑞函, 黃安彪, 徐立軍. 基于觸摸屏應(yīng)用迭代算法成像重建的定位方法[P]. 北京市: CN111063002A, 2020-04-24.
[134]高碩, 方潮銘, 王軼軒, 徐立軍. 基于表面肌電信號(hào)與足底力的地形分類裝置及方法[P]. 北京市: CN111053555A, 2020-04-24.
[135]高碩, 陳君亮, 石佳卉, 代晏寧, 徐立軍. 檢測(cè)用戶手指施加靜態(tài)力與手指抖動(dòng)大小的裝置及方法[P]. 北京市: CN111060235A, 2020-04-24.
[136]高碩, 陳君亮, 代晏寧, 石佳卉, 劉勇, 徐立軍. 矯正動(dòng)態(tài)力下壓電系數(shù)的裝置及相應(yīng)的方法[P]. 北京市: CN111060250A, 2020-04-24.
[137]徐立軍, 張宏宇, 曹章, 蔡兆雨, 黃昂. 一種可變幀率的激光吸收光譜層析成像系統(tǒng)[P]. 北京市: CN111024615A, 2020-04-17.
[138]孫江濤, 梁小鳳, 徐立軍, 謝躍東, 田文斌. 一種對(duì)尿液電導(dǎo)率不敏感的動(dòng)態(tài)膀胱體積測(cè)量方法[P]. 北京市: CN110859636A, 2020-03-06.
[139]孫江濤, 梁小鳳, 徐立軍, 田文斌, 謝躍東. 一種基于邊緣場(chǎng)檢測(cè)的二維EIT電極陣列結(jié)構(gòu)優(yōu)化方法[P]. 北京市: CN110840457A, 2020-02-28.
[140]徐立軍, 曹章, 張宏宇, 高欣, 解恒, 郭宇東. 一種瞬態(tài)燃燒場(chǎng)定量測(cè)量方法及裝置[P]. 北京市: CN110823849A, 2020-02-21.
[141]付博, 徐立軍, 尚策, 曹章, 張程宏, 張宏宇. 一種基于雙光梳全光纖系統(tǒng)監(jiān)測(cè)航空發(fā)動(dòng)機(jī)燃燒場(chǎng)的方法[P]. 北京市: CN110736623A, 2020-01-31.
[142]謝躍東, 田文斌, 孫江濤, 徐立軍. 電磁超聲換能器[P]. 北京市: CN110702789A, 2020-01-17.
[143]徐立軍, 曹章, 宋振源, 張宏宇, 劉怡, 解恒. 一種隨機(jī)振動(dòng)驅(qū)動(dòng)衰蕩腔免標(biāo)定氣體濃度測(cè)量系統(tǒng)與方法[P]. 北京市: CN110672554A, 2020-01-10.
[144]付博, 徐立軍, 張程宏, 王剛, 黃浩璟, 孫世杰. 一種空間接入型雙光梳系統(tǒng)監(jiān)測(cè)航空發(fā)動(dòng)機(jī)燃燒場(chǎng)的方法[P]. 北京市: CN110657992A, 2020-01-07.
[145]付博, 徐立軍, 李靜, 張程宏, 馬宇軒, 李端. 一種基于全光纖光頻梳系統(tǒng)監(jiān)測(cè)航空發(fā)動(dòng)機(jī)燃燒場(chǎng)的方法[P]. 北京市: CN110657993A, 2020-01-07.
[146]付博, 徐立軍, 張程宏, 李靜, 陸哲睿, 尚策. 一種空間接入型光頻梳系統(tǒng)監(jiān)測(cè)航空發(fā)動(dòng)機(jī)燃燒場(chǎng)的方法[P]. 北京市: CN110657994A, 2020-01-07.
[147]付博, 徐立軍, 孫婧軒, 尚策, 王帥鑫, 馬建國(guó). 高功率波長(zhǎng)可調(diào)全光纖納秒脈沖激光器及系統(tǒng)[P]. 北京市: CN110649452A, 2020-01-03.
[148]馬建國(guó), 徐立軍, 馬向東, 付博. 一種基于激光干涉的光纖陣列式聲波信號(hào)采集裝置[P]. 北京市: CN110553715A, 2019-12-10.
[149]付博, 何伯衢, 徐立軍, 尚策, 孫江濤. 一種用于太赫茲輻射產(chǎn)生的光纖接入型液體池[P]. 北京市: CN110556689A, 2019-12-10.
[150]曹章, 邱爽, 徐立軍, 侯廣羽. 一種基于直方圖信息的二維溫度和濃度重建系統(tǒng)與方法[P]. 北京市: CN110514622A, 2019-11-29.
[151]曹章, 徐立軍, 高欣, 田雨, 解恒. 一種基于電力線分布的Radon逆變換電容層析成像方法[P]. 北京市: CN110501587A, 2019-11-26.
[152]付博, 何伯衢, 徐立軍, 尚策, 孫江濤. 一種用于太赫茲輻射產(chǎn)生的空間接入型液體池[P]. 北京市: CN110492338A, 2019-11-22.
[153]高碩, 黃安彪, 徐立軍. 一種壓力信號(hào)的校正方法及裝置[P]. 北京市: CN110427126A, 2019-11-08.
[154]徐立軍, 徐騰, 李小路, 劉暢. 一種地基激光雷達(dá)強(qiáng)度數(shù)據(jù)的自校正方法[P]. 北京市: CN110275155A, 2019-09-24.
[155]徐立軍, 李小路, 徐騰, 劉暢. 一種基于激光雷達(dá)掃描的隧道表面滲水區(qū)域提取方法[P]. 北京市: CN110221277A, 2019-09-10.
[156]孫江濤, 徐立軍, 陸方皞, 田文斌, 索鵬. 一種基于電阻抗層析成像的觸覺壓力傳感器與信號(hào)采集方法[P]. 北京市: CN110207862A, 2019-09-06.
[157]付博, 吉訓(xùn)明, 徐立軍, 尚策, 榮瑤. 一種基于內(nèi)窺鏡引導(dǎo)下的血管中激光溶栓的方法[P]. 北京市: CN110123446A, 2019-08-16.
[158]田文斌, 孫江濤, 徐立軍. 一種多模態(tài)傳感器[P]. 北京市: CN110068583A, 2019-07-30.
[159]吉訓(xùn)明, 付博, 徐立軍, 尚策, 馬建國(guó). 一種在光學(xué)相干斷層成像引導(dǎo)下實(shí)現(xiàn)在血管中激光溶栓的方法[P]. 北京市: CN110051432A, 2019-07-26.
[160]馬建國(guó), 徐立軍, 馬向東, 付博. 一種基于F-P干涉的低諧振偏心光纖聲敏傳感裝置[P]. 北京市: CN110057439A, 2019-07-26.
[161]付博, 徐立軍, 尚策, 馬建國(guó). 一種實(shí)現(xiàn)高重頻波長(zhǎng)可調(diào)全光纖超快脈沖激光器及系統(tǒng)的方法[P]. 北京市: CN110021871A, 2019-07-16.
[162]徐立軍, 常劉勇, 曹章, 郭宇東. 一種監(jiān)測(cè)鈍體預(yù)混火焰貧燃熄火的方法[P]. 北京市: CN109990278A, 2019-07-09.
[163]徐立軍, 常劉勇, 曹章, 郭宇東. 一種基于聲學(xué)激勵(lì)的脈動(dòng)式鈍體繞流燃燒裝置[P]. 北京市: CN109990279A, 2019-07-09.
[164]孫世杰, 胡蝶, 徐立軍, 曹章. 一種便攜式電容層析成像測(cè)量裝置[P]. 北京市: CN109900751A, 2019-06-18.
[165]曹章, 胡蝶, 徐立軍, 孫世杰. 一種耐高溫高壓的電容陣列傳感器[P]. 北京市: CN109900752A, 2019-06-18.
[166]孫江濤, 胡蝶, 徐立軍, 孫世杰. 一種基于等離子體表面加工工藝的耐高溫電容陣列傳感器[P]. 北京市: CN109900753A, 2019-06-18.
[167]孫江濤, 徐立軍, 陸方皞, 田文斌, 高碩, 梁小鳳. 一種適用于運(yùn)動(dòng)狀態(tài)下的電阻抗成像電極與系統(tǒng)[P]. 北京市: CN109745046A, 2019-05-14.
[168]孫江濤, 徐立軍, 陸方皞, 高碩, 田文斌, 梁小鳳. 一種基于壓阻式電極的電阻抗成像系統(tǒng)[P]. 北京市: CN109745047A, 2019-05-14.
[169]付博, 徐立軍, 張永彪. 多波長(zhǎng)可調(diào)諧全光纖脈沖激光器及系統(tǒng)[P]. 北京市: CN109638625A, 2019-04-16.
[170]徐立軍, 曹章, 郭宇東, 邱爽. 一種基于神經(jīng)網(wǎng)絡(luò)和激光吸收光譜的路徑溫度直方圖測(cè)量系統(tǒng)與方法[P]. 北京市: CN109556731A, 2019-04-02.
[171]孫江濤, 徐立軍, 梁小鳳, 田文斌. 基于單層EIT電極邊緣效應(yīng)的膀胱體積測(cè)量方法[P]. 北京市: CN109498013A, 2019-03-22.
[172]付博, 徐立軍, 劉會(huì)生. 寬帶波長(zhǎng)可調(diào)色散管理型全光纖超快脈沖激光器及系統(tǒng)[P]. 北京市: CN109378694A, 2019-02-22.
[173]曹章, 徐立軍, 解恒, 湯曉陽. 一種用于軸對(duì)稱燃燒場(chǎng)監(jiān)測(cè)的激光吸收光譜層析成像系統(tǒng)[P]. 北京市: CN109324019A, 2019-02-12.
[174]徐立軍, 曲前偉, 曹章. 一種用于激光吸收光譜層析成像的譜線選取方法[P]. 北京市: CN109211806A, 2019-01-15.
[175]徐立軍, 曹章, 陳亞婧, 邱爽, 郭宇東. 基于單光路多光譜的氣體溫度概率密度分布擬合重建方法[P]. 北京市: CN109100044A, 2018-12-28.
[176]曹章, 徐立軍, 邱爽, 郭宇東, 陳亞婧. 基于單光路多光譜的氣體溫度概率密度分布重建方法[P]. 北京市: CN109100045A, 2018-12-28.
[177]曹章, 徐立軍, 任宇罡, 湯曉陽, 解恒. 一種基于橫向剪切干涉的玻璃板厚度分布測(cè)量方法及系統(tǒng)[P]. 北京市: CN109059787A, 2018-12-21.
[178]徐立軍, 曲前偉, 曹章, 常劉勇. 一種基于激光吸收光譜層析成像技術(shù)的氣流二維速度分布測(cè)量方法[P]. 北京市: CN109061220A, 2018-12-21.
[179]徐立軍, 曲前偉, 曹章, 常劉勇. 一種基于激光吸收光譜層析成像技術(shù)的氣流三維速度分布測(cè)量方法[P]. 北京市: CN109061221A, 2018-12-21.
[180]徐立軍, 曹章, 李遠(yuǎn)青, 邱爽. 一種基于干涉調(diào)制原理的激光吸收光譜測(cè)溫方法和系統(tǒng)[P]. 北京市: CN108981953A, 2018-12-11.
[181]徐立軍, 曹章, 冉辰浩, 李芳燕. 一種采用多角度直方圖信息進(jìn)行非均勻溫度分布重建的方法[P]. 北京市: CN108955936A, 2018-12-07.
[182]李小路, 徐立軍, 羅沛, 謝鑫浩. 一種激光雷達(dá)信號(hào)時(shí)刻鑒別系統(tǒng)[P]. 北京市: CN108919282A, 2018-11-30.
[183]徐立軍, 曹章, 郭宇東, 張宏宇. 一種基于交疊吸收譜的路徑溫度直方圖測(cè)量系統(tǒng)與方法[P]. 北京: CN108801496A, 2018-11-13.
[184]徐立軍, 曹章, 郭宇東, 張宏宇. 一種基于波形分解的路徑平均溫度測(cè)量系統(tǒng)與方法[P]. 北京: CN108760681A, 2018-11-06.
[185]李小路, 徐立軍, 謝鑫浩, 楊炳偉. 一種激光雷達(dá)波形時(shí)刻鑒別方法與在線測(cè)距系統(tǒng)[P]. 北京: CN108732553A, 2018-11-02.
[186]曹章, 徐立軍, 吉俐, 胡蝶, 高欣. 一種基于閉環(huán)控制原理的電容層析成像圖像重建方法[P]. 北京: CN108711178A, 2018-10-26.
[187]徐立軍, 曹章, 冉辰浩, 張宏宇, 邱爽. 一種基于四角度激光吸收光譜的二維溫度分布重建方法[P]. 北京: CN108627272A, 2018-10-09.
[188]徐立軍, 李端, 李小路, 劉暢, 謝鑫浩. 一種基于光強(qiáng)分光的高光譜激光雷達(dá)系統(tǒng)[P]. 北京: CN108415030A, 2018-08-17.
[189]李端, 徐立軍, 李小路, 劉暢, 謝鑫浩. 一種基于光譜分光的高光譜全波形激光雷達(dá)系統(tǒng)[P]. 北京: CN108415031A, 2018-08-17.
[190]孫世杰, 徐立軍, 曹章, 何玉珠. 一種高壓電容陣列傳感器[P]. 北京: CN108398465A, 2018-08-14.
[191]李端, 李小路, 徐立軍, 劉暢, 謝鑫浩. 一種基于接收端光纖色散的高光譜激光雷達(dá)系統(tǒng)[P]. 北京: CN108398695A, 2018-08-14.
[192]曹章, 徐立軍, 吉俐, 胡蝶, 何玉珠. 一種用于電學(xué)成像的多導(dǎo)體體系導(dǎo)納矩陣快速計(jì)算方法[P]. 北京: CN108376124A, 2018-08-07.
[193]孫世杰, 徐立軍, 曹章, 黃昂, 何玉珠. 一種分程式并行結(jié)構(gòu)電容陣列測(cè)量電路[P]. 北京: CN108333434A, 2018-07-27.
[194]李小路, 徐立軍, 馮靜, 劉暢. 一種結(jié)合激光雷達(dá)三維點(diǎn)云數(shù)據(jù)的相機(jī)自標(biāo)定方法[P]. 北京: CN107977997A, 2018-05-01.
[195]徐立軍, 曹章, 湯曉陽, 高欣, 解恒. 一種基于掃描振鏡的光學(xué)層析成像系統(tǒng)[P]. 北京: CN107796333A, 2018-03-13.
[196]李小路, 徐立軍, 李昀曄, 謝鑫浩. 一種基于自制地基激光雷達(dá)對(duì)準(zhǔn)誤差的點(diǎn)云誤差校正方法[P]. 北京: CN107703499A, 2018-02-16.
[197]曹章, 徐立軍, 常劉勇. 一種基于二向色分光的激光光線偏折校正裝置及方法[P]. 北京: CN107560738A, 2018-01-09.
[198]徐立軍, 曹章, 李芳燕. 一種基于調(diào)制鋸齒波信號(hào)的激光光線偏折校正裝置及方法[P]. 北京: CN107560754A, 2018-01-09.
[199]曹章, 徐立軍, 謝藝歆, 孫世杰, 蝴蝶, 黃昂. 一種基于壓縮感知理論的寬頻譜阻抗測(cè)量裝置及方法[P]. 北京: CN107561367A, 2018-01-09.
[200]曹章, 徐立軍, 解恒. 一種基于光開關(guān)切換的激光光線偏折效應(yīng)校正裝置及方法[P]. 北京: CN107543620A, 2018-01-05.
[201]徐立軍, 曹章, 李芳燕. 一種基于高頻正弦校準(zhǔn)光的激光光線偏折校正裝置及方法[P]. 北京: CN107505063A, 2017-12-22.
[202]徐立軍, 曹章, 陸方皞, 孫世杰, 黃昂. 一種用于解調(diào)含有高斯有色噪聲信號(hào)的遞推解調(diào)器[P]. 北京: CN107505507A, 2017-12-22.
[203]曹章, 徐立軍, 牛賀, 解恒. 一種基于閉環(huán)控制原理的粒徑分布測(cè)量裝置及方法[P]. 北京: CN107490531A, 2017-12-19.
[204]徐立軍, 徐騰, 李小路, 謝鑫浩, 楊炳偉. 一種基于GPS定位和航攝圖像匹配的航空遙感平臺(tái)姿態(tài)角高精度測(cè)量方法[P]. 北京: CN107462244A, 2017-12-12.
[205]李小路, 徐立軍, 李昀曄, 謝鑫浩. 一種基于自制地基激光雷達(dá)垂直度誤差的點(diǎn)云誤差校正方法[P]. 北京: CN107290734A, 2017-10-24.
[206]李小路, 徐立軍, 李昀曄, 謝鑫浩. 一種基于自制地基激光雷達(dá)鉛垂度誤差的點(diǎn)云誤差校正方法[P]. 北京: CN107290735A, 2017-10-24.
[207]徐立軍, 李端, 李小路, 謝鑫浩, 楊炳偉. 一種三維掃描全波形激光雷達(dá)系統(tǒng)[P]. 北京: CN107272018A, 2017-10-20.
[208]徐立軍, 解恒, 曹章. 一種基于單光電探測(cè)器的顆粒粒度測(cè)量?jī)x[P]. 北京: CN107255608A, 2017-10-17.
[209]曹章, 徐立軍, 葉楨, 解恒. 一種基于相位式激光測(cè)距的三維關(guān)聯(lián)成像方法[P]. 北京: CN107121682A, 2017-09-01.
[210]曹章, 徐立軍, 吉俐, 孫世杰, 黃昂. 一種由電流#電壓映射構(gòu)造電壓#電流映射的方法[P]. 北京: CN107091858A, 2017-08-25.
[211]徐立軍, 李端, 李小路, 謝鑫浩, 楊炳偉. 一種基于FPGA的高重復(fù)頻率三維掃描激光雷達(dá)掃描角測(cè)量電路[P]. 北京: CN107015215A, 2017-08-04.
[212]曹章, 徐立軍, 陳堅(jiān)亮, 曲前偉. 一種基于多視角多光譜層析成像的圖像重建方法[P]. 北京: CN106815878A, 2017-06-09.
[213]徐立軍, 曹章, 張文, 趙嘉宇. 一種基于最小均方根誤差的水平井持水率測(cè)量方法[P]. 北京: CN105971594A, 2016-09-28.
[214]徐立軍, 曹章, 楊陽, 劉暢, 曲前偉. 一種基于遞推最小二乘法的激光吸收光譜諧波信號(hào)峰值點(diǎn)提取方法[P]. 北京: CN105866068A, 2016-08-17.
[215]徐立軍, 曹章, 張文, 趙嘉宇, 張文強(qiáng). 一種基于雙環(huán)電導(dǎo)探針陣列的水平井持水率測(cè)量方法[P]. 北京: CN105574272A, 2016-05-11.
[216]徐立軍, 孫世杰, 曹章, 劉翔宇. 一種多頻信息濾波遞推解調(diào)方法[P]. 北京: CN105548711A, 2016-05-04.
[217]徐立軍, 張文, 曹章, 陳健軍, 尹汭, 趙嘉宇. 一種融合總流量與電導(dǎo)探針陣列信號(hào)的水平井持水率測(cè)量方法[P]. 北京: CN105404747A, 2016-03-16.
[218]曹章, 徐立軍, 孫世杰. 一種用于多源X射線成像的PID控制圖像重建方法[P]. 北京: CN105319228A, 2016-02-10.
[219]曹章, 任迎, 徐立軍, 孫世杰. 一種基于隨機(jī)解調(diào)器的阻抗測(cè)量裝置及方法[P]. 北京: CN105319445A, 2016-02-10.
[220]徐立軍, 陳健軍, 曹章, 趙嘉宇, 王友嶺. 一種基于電導(dǎo)探針陣列投票表決的垂直井流型識(shí)別方法[P]. 北京: CN105114054A, 2015-12-02.
[221]曹章, 陳健軍, 徐立軍, 張文, 趙嘉宇. 一種基于電導(dǎo)探針陣列信息融合的垂直井含水率測(cè)量方法[P]. 北京: CN105064993A, 2015-11-18.
[222]曹章, 陳健軍, 許國(guó)偉, 王友嶺, 徐立軍. 一種基于總流量與電導(dǎo)探針陣列信號(hào)的水平井流型識(shí)別方法[P]. 北京: CN105003249A, 2015-10-28.
[223]徐立軍, 陳健軍, 曹章, 王友嶺, 張文. 一種基于總流量與電導(dǎo)探針陣列信號(hào)的垂直井含水率測(cè)量方法[P]. 北京: CN104989377A, 2015-10-21.
[224]徐立軍, 曹章, 曲前偉, 劉暢. 一種用于圓對(duì)稱參數(shù)分布的雙倍分辨率圖像重建方法[P]. 北京: CN104881887A, 2015-09-02.
[225]徐立軍, 陳健軍, 曹章, 徐文峰, 王友嶺. 一種用于多頻信號(hào)遙測(cè)的LC并聯(lián)諧振接收電路設(shè)計(jì)方法[P]. 北京: CN104063557A, 2014-09-24.
[226]徐立軍, 徐文峰, 曹章, 陳健軍, 王友嶺. 一種基于電導(dǎo)探針陣列和信息融合技術(shù)的水平井參數(shù)檢測(cè)方法[P]. 北京: CN103967477A, 2014-08-06.
[227]徐立軍, 徐文峰, 曹章, 陳健軍, 王友嶺. 一種基于電導(dǎo)探針的垂直井流型辨識(shí)方法[P]. 北京: CN103967478A, 2014-08-06.
[228]曹章, 徐立軍, 魏天嘯, 周家怡, 辛蕾. 一種基于質(zhì)心法的光斑圖像中心的快速定位方法[P]. 北京: CN103955687A, 2014-07-30.
[229]徐立軍, 曹章, 魏天嘯, 周家怡, 辛蕾. 一種基于導(dǎo)數(shù)法的光斑圖像中心的快速定位方法[P]. 北京: CN103927536A, 2014-07-16.
[230]徐立軍, 曹章, 魏天嘯, 周家怡, 辛蕾. 一種基于幾何法的光斑圖像中心的快速定位方法[P]. 北京: CN103927766A, 2014-07-16.
[231]徐立軍, 李端, 李小路, 孔德明, 馬蓮. 一種全光纖光路全波形激光雷達(dá)系統(tǒng)[P]. 北京: CN103901435A, 2014-07-02.
[232]曹章, 徐立軍, 周家怡, 魏天嘯. 一種基于液晶屏光調(diào)制的圖像采樣方法[P]. 北京: CN103871387A, 2014-06-18.
[233]曹章, 徐立軍, 黃馳, 孫世杰. 一種由電壓-電流映射構(gòu)造電流-電壓映射的方法[P]. 北京: CN103776873A, 2014-05-07.
[234]李小路, 徐立軍, 李端, 孔德明, 馬蓮. 一種基于同軸雙通道數(shù)據(jù)采集的全波形激光雷達(dá)系統(tǒng)[P]. 北京: CN103576134A, 2014-02-12.
[235]徐立軍, 曹章, 魏天嘯, 蔡小舒. 一種用于前向衍射光光強(qiáng)分布測(cè)量的對(duì)中裝置及方法[P]. 北京: CN103411859A, 2013-11-27.
[236]徐立軍, 曹章, 劉暢, 蔡小舒. 一種采用雙路可調(diào)諧激光吸收光譜技術(shù)的歸一化降噪方法[P]. 北京: CN103411923A, 2013-11-27.
[237]曹章, 徐立軍, 孫世杰, 王海剛. 一種用于電學(xué)層析成像系統(tǒng)的信息濾波解調(diào)方法[P]. 北京: CN103412189A, 2013-11-27.
[238]曹章, 宋偉, 徐立軍. 一種高精度正弦/余弦函數(shù)的計(jì)算方法[P]. 北京: CN103365827A, 2013-10-23.
[239]徐立軍, 徐文峰. 一種基于電導(dǎo)探針陣列傳感器的水平井多參數(shù)估計(jì)方法[P]. 北京: CN103277084A, 2013-09-04.
[240]李小路, 徐立軍, 陳路路, 成艷亭. 一種基于圖像拼接的空冷凝汽器散熱面溫度場(chǎng)測(cè)量方法[P]. 北京: CN103217221A, 2013-07-24.
[241]李小路, 徐立軍, 馬蓮. 一種基于遺傳算法的全波形激光雷達(dá)回波數(shù)據(jù)的高斯分解法[P]. 北京: CN103217679A, 2013-07-24.
[242]徐立軍, 李小路, 成艷亭, 陳路路. 一種通過圖像分割修正表面發(fā)射率的紅外熱成像測(cè)溫方法[P]. 北京: CN103196564A, 2013-07-10.
[243]李小路, 徐立軍, 馬蓮. 一種全波形激光雷達(dá)系統(tǒng)[P]. 北京: CN103197321A, 2013-07-10.
[244]徐立軍, 孫世杰, 曹章. 一種基于相鄰激勵(lì)測(cè)量模式的電流-電壓映射構(gòu)造方法[P]. 北京: CN103163404A, 2013-06-19.
[245]曹章, 徐立軍, 孫世杰, 黃馳. 一種基于二端子激勵(lì)測(cè)量模式的電壓-電流映射構(gòu)造方法[P]. 北京: CN103149472A, 2013-06-12.
[246]曹章, 孫世杰, 徐立軍, 黃馳. 一種基于相鄰激勵(lì)測(cè)量模式的電壓-電流映射構(gòu)造方法[P]. 北京: CN103116101A, 2013-05-22.
[247]曹章, 徐立軍, 劉暢, 辛蕾. 一種采用單一光電探測(cè)器的激光光強(qiáng)分布精確測(cè)量系統(tǒng)[P]. 北京: CN103090966A, 2013-05-08.
[248]曹章, 徐立軍, 辛蕾, 魏天嘯. 一種光斑圖像中心的快速定位方法[P]. 北京: CN103093223A, 2013-05-08.
[249]曹章, 徐立軍, 彭智聰, 宋偉. 一種基于歐拉公式的高精度正弦/余弦函數(shù)計(jì)算方法[P]. 北京: CN103065039A, 2013-04-24.
[250]曹章, 劉暢, 徐立軍, 孫世杰. 一種基于虛擬數(shù)據(jù)的軸對(duì)稱參數(shù)分布圖像重建方法[P]. 北京: CN103047946A, 2013-04-17.
[251]曹章, 徐立軍, 彭智聰, 宋偉. 一種基于泰勒展開式的高精度正弦/余弦函數(shù)計(jì)算方法[P]. 北京: CN103049427A, 2013-04-17.
[252]曹章, 陳健軍, 周海力, 徐立軍, 蔣昌華. 一種基于二端子阻抗測(cè)量模式的四端子電阻抗層析成像方法[P]. 北京: CN103018284A, 2013-04-03.
[253]徐立軍, 陳健軍, 徐文峰, 曹章, 蔣昌華. 一種基于遺傳算法的多環(huán)電極陣列傳感器結(jié)構(gòu)優(yōu)化方法[P]. 北京: CN103015981A, 2013-04-03.
[254]徐立軍, 孔德明, 李小路, 李端. 一種基于K-plane算法的建筑物頂面點(diǎn)云數(shù)據(jù)分割方法[P]. 北京: CN103020637A, 2013-04-03.
[255]徐立軍, 曹章, 劉暢, 陳露露. 一種基于軸對(duì)稱參數(shù)分布的圖像重建方法[P]. 北京: CN103021005A, 2013-04-03.
[256]徐立軍, 李小路, 孔德明, 李端. 一種激光雷達(dá)實(shí)時(shí)成像和建筑物特征提取的方法[P]. 北京: CN103018728A, 2013-04-03.
[257]徐立軍, 陳健軍, 曹章, 胡金海, 劉興斌. 一種曼徹斯特碼井下長(zhǎng)距離傳輸裝置及方法[P]. 北京: CN102843166A, 2012-12-26.
[258]徐立軍, 曹章, 劉暢. 一種近紅外激光對(duì)準(zhǔn)方法[P]. 北京: CN102735616A, 2012-10-17.
[259]徐立軍, 曹章, 劉雨佳, 張玉枚. 一種用于渡越時(shí)間測(cè)量的自適應(yīng)相關(guān)算法[P]. 北京: CN102645552A, 2012-08-22.
[260]徐立軍, 孔德明, 李小路. 一種對(duì)原始數(shù)據(jù)低失真的諧波噪聲干擾和白噪聲干擾的去除方法[P]. 北京: CN102624349A, 2012-08-01.
[261]徐立軍, 周海力, 曹章, 曾軼. 一種用于電學(xué)層析成像系統(tǒng)的遞推解調(diào)方法[P]. 北京: CN102565541A, 2012-07-11.
[262]曹章, 周海力, 徐立軍, 曾軼. 一種用于電學(xué)層析成像系統(tǒng)的多頻遞推解調(diào)方法[P]. 北京: CN102570984A, 2012-07-11.
[263]徐立軍, 田祥瑞, 李小路, 王建軍, 張超曾. 一種機(jī)載激光雷達(dá)側(cè)滾角偏差補(bǔ)償方法[P]. 北京: CN102508221A, 2012-06-20.
[264]徐立軍, 王建軍, 李小路, 張超曾. 一種機(jī)載激光雷達(dá)激光發(fā)射指向擾動(dòng)的補(bǔ)償裝置及方法[P]. 北京: CN102426355A, 2012-04-25.
[265]徐立軍, 田祥瑞, 李小路, 王建軍. 一種機(jī)載激光雷達(dá)航測(cè)參數(shù)的優(yōu)化設(shè)計(jì)方法[P]. 北京: CN102176003A, 2011-09-07.
[266]徐立軍, 曹章, 徐文峰, 陳健軍, 劉興斌, 馬水龍, 胡金海. 一種環(huán)形持水率測(cè)井傳感器陣列的結(jié)構(gòu)優(yōu)化方法[P]. 北京: CN102011575A, 2011-04-13.
[267]徐立軍, 王建軍, 李小路, 田祥瑞. 一種用于機(jī)載激光雷達(dá)滾動(dòng)角偏差實(shí)時(shí)補(bǔ)償?shù)姆椒ㄅc裝置[P]. 北京: CN101900806A, 2010-12-01.
[268]徐立軍, 王建軍, 李小路, 郜蕾. 一種用于機(jī)載激光雷達(dá)俯仰角偏差實(shí)時(shí)補(bǔ)償?shù)姆椒ㄅc裝置[P]. 北京: CN101865996A, 2010-10-20.
[269]徐立軍, 周婉露, 李小路, 田祥瑞. 一種提高機(jī)載平臺(tái)定姿精度的在線快速方法[P]. 北京: CN101793517A, 2010-08-04.
[270]曹章, 徐立軍, 丁潔. 一種粒徑測(cè)量的有限分布積分反演算法[P]. 北京: CN101793665A, 2010-08-04.
[271]徐立軍, 徐文峰, 曹章, 周海力, 劉興斌, 胡金海. 一種多環(huán)電極陣列成像傳感器[P]. 北京: CN101793852A, 2010-08-04.
[272]李小路, 徐立軍. 一種實(shí)時(shí)在線的空間飛行器殼體受撞擊度與撞擊定位測(cè)量系統(tǒng)[P]. 北京: CN101776441A, 2010-07-14.
[273]徐立軍, 曹章, 凌琪, 范士偉. 一種基于管內(nèi)磁場(chǎng)仿真數(shù)值計(jì)算的電磁流量計(jì)干標(biāo)定方法[P]. 北京: CN101750136A, 2010-06-23.
[274]徐立軍, 李小路, 譚丞. 一種基于支持向量機(jī)的燃料種類在線識(shí)別方法[P]. 北京: CN101701951A, 2010-05-05.
[275]徐立軍, 曹章, 范士偉, 凌琪. 一種可用于非滿管流量測(cè)量的電容式電磁流量計(jì)[P]. 北京: CN101701836A, 2010-05-05.
[276]徐立軍, 范士偉, 曹章. 一種可用于非滿管流量測(cè)量的電磁流量計(jì)[P]. 北京: CN101699226A, 2010-04-28.
[277]徐立軍, 曹章, 凌琪, 范士偉. 一種具有矩形截面結(jié)構(gòu)的電容式電磁流量傳感器[P]. 北京: CN101699227A, 2010-04-28.
[278]徐立軍, 譚丞, 李小路. 一種基于多元火焰監(jiān)測(cè)器的燃料種類在線判別方法[P]. 北京: CN101692270A, 2010-04-07.
[279]徐立軍, 陳健軍, 曹章. 一種基于阻抗測(cè)量的多通道植物缺水監(jiān)測(cè)系統(tǒng)[P]. 北京: CN101666767, 2010-03-10.
[280]徐立軍, 周海力, 曹章. 一種多通道電阻抗式植物含水率監(jiān)測(cè)系統(tǒng)[P]. 北京: CN101666768, 2010-03-10.
[281]徐立軍, 譚丞, 曹章. 一種新燃料在線識(shí)別方法[P]. 北京: CN101644699, 2010-02-10.
[282]徐立軍, 李小路, 譚丞, 田祥瑞. 一種同時(shí)監(jiān)測(cè)燃燒火焰溫度場(chǎng)和中間產(chǎn)物濃度二維分布的方法[P]. 北京: CN101625269, 2010-01-13.
[283]李小路, 徐立軍, 田祥瑞, 譚丞. 一種基于光學(xué)補(bǔ)償設(shè)計(jì)的火焰溫度場(chǎng)和燃燒中間產(chǎn)物濃度場(chǎng)監(jiān)測(cè)系統(tǒng)[P]. 北京: CN101625270, 2010-01-13.
[284]徐立軍, 李小路, 譚丞, 田祥瑞. 一種燃燒中間產(chǎn)物二維分布在線監(jiān)測(cè)系統(tǒng)[P]. 北京: CN101609052, 2009-12-23.
[285]徐立軍, 周婉露, 李小路, 王建軍. 一種提高機(jī)載激光雷達(dá)定姿精度的方法[P]. 北京: CN101609149, 2009-12-23.
[286]曹章, 徐立軍, 丁潔. 一種基于圓形傳感器的電容層析成像的圖像重建直接方法[P]. 北京: CN101520478, 2009-09-02.
[287]曹章, 徐立軍, 丁潔. 一種粒徑測(cè)量的積分反演算方法[P]. 北京: CN101430268, 2009-05-13.
[288]徐立軍, 譚丞. 雙元火焰監(jiān)測(cè)器[P]. 北京: CN101408313, 2009-04-15.
發(fā)明授權(quán):
[1]曹章, 王秦璀, 徐立軍, 高欣, 田雨. 一種基于模糊PID控制的X射線層析成像圖像重建方法[P]. 北京市: CN112381902B, 2024-12-17.
[2]徐立軍, 陸方皞, 曹章, 李泓瑤. 一種用于波長(zhǎng)調(diào)制光譜信號(hào)在線遞推解調(diào)的方法與系統(tǒng)[P]. 北京市: CN114544547B, 2024-11-26.
[3]徐立軍, 陸方皞, 曹章, 吳易恭. 一種基于激光氣體吸收光譜的溫度超幀率測(cè)量系統(tǒng)與方法[P]. 北京市: CN115468932B, 2024-11-26.
[4]孫江濤, 徐立軍, 白旭, 梁特, 孫世杰. 一種基于鎖相放大的阻抗測(cè)量系統(tǒng)及方法[P]. 北京市: CN114983383B, 2024-09-10.
[5]曹章, 溫晉婷, 徐立軍, 李泓瑤. 一種基于點(diǎn)擴(kuò)散函數(shù)漸近序列的層析成像系統(tǒng)評(píng)價(jià)方法[P]. 北京市: CN114913139B, 2024-06-18.
[6]曹章, 曹李培, 徐立軍, 湯曉陽. 基于三波長(zhǎng)剪切干涉圖的燃燒場(chǎng)瞬態(tài)溫度測(cè)量系統(tǒng)與方法[P]. 北京市: CN115290210B, 2024-06-18.
[7]徐立軍, 侯廣羽, 曹章, 周文彬. 基于吸收光譜幅值調(diào)制的溫度及氣體濃度測(cè)量方法與系統(tǒng)[P]. 北京市: CN114993987B, 2024-04-30.
[8]曹章, 周文彬, 徐立軍, 段小艷, 李心語. 一種開放路徑上痕量氣體濃度的實(shí)時(shí)測(cè)量方法與裝置[P]. 北京市: CN115343233B, 2024-04-30.
[9]曹章, 李春怡, 徐立軍, 侯廣羽. 一種免標(biāo)定抗振動(dòng)的吸收光譜測(cè)量方法與系統(tǒng)[P]. 北京市: CN114993941B, 2024-04-12.
[10]徐立軍, 陸方皞, 曹章, 張曉倩, 吳易恭, 李泓瑤. 一種基于波分復(fù)用的抗光學(xué)偏折吸收譜提取方法與系統(tǒng)[P]. 北京市: CN115639170B, 2024-04-12.
[11]曹章, 周文彬, 徐立軍, 侯廣羽. 一種痕量氣體濃度和路徑長(zhǎng)度實(shí)時(shí)檢測(cè)系統(tǒng)與方法[P]. 北京市: CN114384045B, 2024-01-12.
[12]謝躍東, 黃璞, 李繼堯, 孫江濤, 徐立軍. 一種用于無損檢測(cè)的傳感系統(tǒng)[P]. 北京市: CN112378993B, 2023-12-12.
[13]孫江濤, 申夢(mèng)嫻, 白旭, 徐立軍. 一種適用于開域流場(chǎng)的氣液兩相流測(cè)量裝置及方法[P]. 北京市: CN114216933B, 2023-11-24.
[14]謝躍東, 黃璞, 浦航, 徐立軍, 孫江濤. 渦流檢測(cè)裝置和系統(tǒng)[P]. 北京市: CN112858470B, 2023-07-28.
[15]馬建國(guó), 徐立軍, 劉鐵銘, 蔡奕奇. 一種雙頻超聲換能器陣列及其工作方法[P]. 北京市: CN114190976B, 2023-07-21.
[16]孫江濤, 徐立軍, 李效霖, 白旭, 劉康祺. 一種適用于微通道異質(zhì)物檢測(cè)的電阻抗層析成像傳感器[P]. 北京市: CN114295688B, 2023-05-23.
[17]付博, 徐立軍, 張程宏, 郭晶晶, 程湲, 孫婧軒. 一種腔衰蕩雙光梳光譜檢測(cè)標(biāo)志性呼吸氣體濃度的方法[P]. 北京市: CN113376111B, 2023-04-18.
[18]徐立軍, 張銳, 鐘景, 孫世杰, 孫少奇. 一種基于尼爾弛豫的磁納米粒子檢測(cè)與成像方法[P]. 北京市: CN115568841B, 2023-04-14.
[19]高碩, 孫世杰, 呂瑞函, 黃安彪, 徐立軍. 基于觸摸屏應(yīng)用Calderon算法重建圖像的方法[P]. 北京市: CN111192338B, 2023-03-24.
[20]郭晶晶, 徐立軍, 尚策, 付博. 一種可植入式水凝膠光纖光柵葡萄糖傳感器���、制備方法及測(cè)量系統(tǒng)[P]. 北京市: CN113171091B, 2023-03-21.
[21]徐立軍, 王仁德, 曹章, 李泓瑤. 一種基于激光色散光譜的溫度和振幅遙測(cè)系統(tǒng)與方法[P]. 北京市: CN114518180B, 2022-12-09.
[22]孫世杰, 王景浩, 王穎, 盧旭鵬, 張銳, 徐立軍. 一種基于深度學(xué)習(xí)的三維電阻抗成像系統(tǒng)[P]. 北京市: CN112754456B, 2022-10-28.
[23]孫江濤, 白旭, 朱海, 徐立軍, 田文斌, 謝躍東. 一種基于FFT和CORDIC算法的高速高精度阻抗數(shù)據(jù)采集系統(tǒng)[P]. 北京市: CN113098512B, 2022-10-28.
[24]曹章, 鄭昊軒, 徐立軍, 楊心月, 陸方皞. 一種吸收光譜數(shù)據(jù)的自適應(yīng)實(shí)時(shí)壓縮方法與系統(tǒng)[P]. 北京市: CN112134567B, 2022-10-25.
[25]孫江濤, 白雪, 白旭, 徐立軍. 一種用于小尺度管道內(nèi)異質(zhì)物識(shí)別的電特性檢測(cè)方法[P]. 北京市: CN113466295B, 2022-10-18.
[26]付博, 郭晶晶, 徐立軍, 尚策. 一種基于金納米復(fù)合材料光纖的反射式葡萄糖傳感器及測(cè)量系統(tǒng)[P]. 北京市: CN113203712B, 2022-10-11.
[27]徐立軍, 孫江濤, 索鵬, 孫世杰, 謝躍東. 一種地下目標(biāo)高精度成像探測(cè)方法[P]. 北京市: CN113240791B, 2022-09-20.
[28]曹章, 徐立軍, 黃昂, 王仁德, 溫晉婷. 一種基于激光吸收阻抗譜的氣體溫度與濃度參數(shù)測(cè)量方法[P]. 北京市: CN113447458B, 2022-08-19.
[29]徐立軍, 曹章, 王晨冉, 黃昂, 陸方皞. 一種波長(zhǎng)調(diào)制激光吸收光譜線型參數(shù)在線提取方法與系統(tǒng)[P]. 北京市: CN113702330B, 2022-08-19.
[30]孫江濤, 李效霖, 田文斌, 白旭, 徐立軍. 一種應(yīng)用少電極ECT的氣液兩相含率檢測(cè)方法[P]. 北京市: CN113777139B, 2022-08-16.
[31]徐立軍, 索鵬, 孫江濤, 孫世杰, 謝躍東. 一種基于聚焦磁場(chǎng)的井周電阻率測(cè)量方法[P]. 北京市: CN113359199B, 2022-07-08.
[32]吉訓(xùn)明, 付博, 尚策, 徐立軍, 李靜, 歐陽昊, 呂文浩. 一種血管內(nèi)窺鏡激光消融導(dǎo)管[P]. 北京市: CN112842525B, 2022-06-10.
[33]付博, 吉訓(xùn)明, 李靜, 徐立軍, 程湲, 張奡杰, 王子皓. 一種偏心性內(nèi)窺鏡激光導(dǎo)管[P]. 北京市: CN112842523B, 2022-05-17.
[34]孫江濤, 朱海, 白旭, 徐立軍, 田文斌. 基于混合精度訓(xùn)練的深度ECT圖像增強(qiáng)方法[P]. 北京市: CN112330761B, 2022-04-29.
[35]曹章, 徐立軍, 解恒, 湯曉陽. 一種用于軸對(duì)稱燃燒場(chǎng)監(jiān)測(cè)的激光吸收光譜層析成像系統(tǒng)[P]. 北京市: CN109324019B, 2022-04-12.
[36]徐立軍, 胡蝶, 曹章, 田雨. 一種用于環(huán)形燃燒場(chǎng)溫度分布的可視化測(cè)量方法[P]. 北京市: CN113237569B, 2022-04-01.
[37]徐立軍, 曹章, 侯廣羽, 邱爽, 黃昂, 張宏宇. 一種基于幅度調(diào)制的激光吸收光譜溫度測(cè)量方法[P]. 北京市: CN113252204B, 2022-04-01.
[38]高碩, 孫世杰, 呂瑞函, 黃安彪, 徐立軍. 基于觸摸屏應(yīng)用迭代算法成像重建的定位方法[P]. 北京市: CN111063002B, 2022-03-25.
[39]謝躍東, 浦航, 黃璞, 李繼堯, 徐立軍. 脫粘缺陷檢測(cè)方法、裝置���、電子設(shè)備及存儲(chǔ)介質(zhì)[P]. 北京市: CN112540125B, 2022-03-25.
[40]高碩, 黃安彪, 代晏寧, 徐立軍. 終端控制方法���、裝置���、終端及可讀存儲(chǔ)介質(zhì)[P]. 北京市: CN111159669B, 2022-03-18.
[41]謝躍東, 楊晴曌, 孫江濤, 徐立軍. 一種人機(jī)交互系統(tǒng)[P]. 北京市: CN112269469B, 2022-03-08.
[42]孫世杰, 高碩, 呂瑞函, 黃安彪, 徐立軍. 基于Calderon算法對(duì)觸摸屏圖像重建的方法[P]. 北京市: CN111061400B, 2022-02-25.
[43]李小路, 徐立軍, 謝鑫浩, 楊炳偉. 一種激光雷達(dá)波形時(shí)刻鑒別方法與在線測(cè)距系統(tǒng)[P]. 北京市: CN108732553B, 2022-02-01.
[44]孫江濤, 白旭, 田文斌, 謝躍東, 徐立軍. 一種動(dòng)態(tài)細(xì)胞阻抗成像裝置[P]. 北京市: CN111543993B, 2022-01-28.
[45]高碩, 陳君亮, 林凱澤, 徐立軍. 利用多傳感系統(tǒng)檢測(cè)針灸技法的裝置及相應(yīng)的方法[P]. 北京市: CN111076776B, 2021-12-07.
[46]徐立軍, 曹章, 譚雨田, 解恒, 楊亞如. 一種基于低帶寬光電探測(cè)器的激光吸收光譜溫度測(cè)量方法[P]. 北京市: CN112729591B, 2021-11-23.
[47]曹章, 劉怡, 徐立軍, 宋振源, 解恒, 馬瑞. 一種基于衰蕩腔的振動(dòng)及氣體溫度濃度測(cè)量方法[P]. 北京市: CN112525841B, 2021-11-19.
[48]孫世杰, 王景浩, 王穎, 盧旭鵬, 徐立軍. 一種三維雙模態(tài)電阻抗成像傳感器及制造方法[P]. 北京市: CN112179950B, 2021-11-16.
[49]高碩, 陳君亮, 石佳卉, 代晏寧, 徐立軍. 檢測(cè)用戶手指施加靜態(tài)力與手指抖動(dòng)大小的裝置及方法[P]. 北京市: CN111060235B, 2021-11-05.
[50]孫世杰, 高碩, 呂瑞函, 黃安彪, 徐立軍. 基于迭代算法處理電容信號(hào)并應(yīng)用于觸摸屏定位的方法[P]. 北京市: CN111061399B, 2021-10-26.
[51]孫世杰, 高碩, 呂瑞函, 黃安彪, 徐立軍. 一種電容傳感器及對(duì)其電容信號(hào)進(jìn)行處理的成像定位方法[P]. 北京市: CN111077193B, 2021-10-22.
[52]高碩, 孫世杰, 呂瑞函, 黃安彪, 徐立軍. 一種電容式傳感器及通過電容成像確定觸摸屏定位的方法[P]. 北京市: CN111176496B, 2021-10-08.
[53]曹章, 徐立軍, 吉俐, 胡蝶, 高欣. 一種基于閉環(huán)控制原理的電容層析成像圖像重建方法[P]. 北京市: CN108711178B, 2021-09-28.
[54]徐立軍, 曹章, 楊亞如, 黃昂, 陸方皞. 一種基于單一組分吸收光譜的多組分濃度的估計(jì)方法[P]. 北京市: CN111089850B, 2021-09-28.
[55]徐立軍, 胡蝶, 曹章, 田雨. 一種用于單連通燃燒場(chǎng)溫度分布的可視化測(cè)量方法[P]. 北京市: CN111157139B, 2021-09-28.
[56]曹章, 徐立軍, 楊亞如, 高欣, 陳麒屾. 一種基于單一組分吸收光譜的多組分濃度分布的估計(jì)方法[P]. 北京市: CN111272680B, 2021-09-28.
[57]馬建國(guó), 徐立軍, 蔡奕奇. 一種堆疊式超聲換能器[P]. 北京市: CN112403873B, 2021-09-28.
[58]劉頓, 索鵬, 孫江濤, 徐立軍, 謝躍東. 一種用于離散相非導(dǎo)電顆粒的非接觸電磁檢測(cè)方法[P]. 北京市: CN112683754B, 2021-08-24.
[59]馬建國(guó), 徐立軍, 馬向東, 付博. 一種基于光致超聲和激光干涉的全光學(xué)超聲探測(cè)裝置[P]. 北京市: CN111912908B, 2021-08-17.
[60]高碩, 方潮銘, 王軼軒, 徐立軍. 基于表面肌電信號(hào)與足底力的地形分類裝置及方法[P]. 北京市: CN111053555B, 2021-08-13.
[61]高碩, 劉勇, 黃安彪, 徐立軍. 觸摸力度識(shí)別方法及其模型的訓(xùn)練方法、裝置和電子系統(tǒng)[P]. 北京市: CN111061394B, 2021-08-13.
[62]孫江濤, 徐立軍, 陸方皞, 田文斌, 高碩, 梁小鳳. 一種適用于運(yùn)動(dòng)狀態(tài)下的電阻抗成像電極與系統(tǒng)[P]. 北京市: CN109745046B, 2021-07-02.
[63]孫江濤, 徐立軍, 陸方皞, 高碩, 田文斌, 梁小鳳. 一種基于壓阻式電極的電阻抗成像系統(tǒng)[P]. 北京市: CN109745047B, 2021-07-02.
[64]高碩, 石佳卉, 陳君亮, 代晏寧, 徐立軍. 提高壓電觸摸屏在階梯力下測(cè)力準(zhǔn)確度的裝置及方法[P]. 北京市: CN111158528B, 2021-06-29.
[65]曹章, 徐立軍, 高欣, 田雨, 解恒. 一種基于電力線分布的Radon逆變換電容層析成像方法[P]. 北京市: CN110501587B, 2021-06-11.
[66]曹章, 蔡兆雨, 徐立軍, 張宏宇, 黃昂. 一種基于雙光梳光譜技術(shù)的溫度和濃度測(cè)量系統(tǒng)和方法[P]. 北京市: CN111077109B, 2021-06-11.
[67]徐立軍, 張宏宇, 曹章, 蔡兆雨, 陸方皞. 一種基于雙光梳光譜的溫度場(chǎng)和濃度場(chǎng)測(cè)量系統(tǒng)和方法[P]. 北京市: CN111077110B, 2021-06-11.
[68]徐立軍, 曹章, 張宏宇, 高欣, 解恒, 郭宇東. 一種瞬態(tài)燃燒場(chǎng)定量測(cè)量方法及裝置[P]. 北京市: CN110823849B, 2021-04-27.
[69]馬建國(guó), 徐立軍, 馬向東, 付博. 一種基于激光干涉的光纖陣列式聲波信號(hào)采集裝置[P]. 北京市: CN110553715B, 2021-03-30.
[70]付博, 徐立軍, 尚策, 曹章, 張程宏, 張宏宇. 一種基于雙光梳全光纖系統(tǒng)監(jiān)測(cè)航空發(fā)動(dòng)機(jī)燃燒場(chǎng)的方法[P]. 北京市: CN110736623B, 2021-03-12.
[71]高碩, 陳君亮, 代晏寧, 石佳卉, 劉勇, 徐立軍. 矯正動(dòng)態(tài)力下壓電系數(shù)的裝置及相應(yīng)的方法[P]. 北京市: CN111060250B, 2021-03-02.
[72]曹章, 徐立軍, 陳堅(jiān)亮, 曲前偉. 一種基于多視角多光譜層析成像的圖像重建方法[P]. 北京市: CN106815878B, 2021-02-05.
[73]孫江濤, 胡蝶, 徐立軍, 孫世杰. 一種基于等離子體表面加工工藝的耐高溫電容陣列傳感器[P]. 北京市: CN109900753B, 2021-02-05.
[74]付博, 徐立軍, 李靜, 張程宏, 馬宇軒, 李端. 一種基于全光纖光頻梳系統(tǒng)監(jiān)測(cè)航空發(fā)動(dòng)機(jī)燃燒場(chǎng)的方法[P]. 北京市: CN110657993B, 2021-02-02.
[75]徐立軍, 張宏宇, 曹章, 蔡兆雨, 黃昂. 一種可變幀率的激光吸收光譜層析成像系統(tǒng)[P]. 北京市: CN111024615B, 2021-01-19.
[76]付博, 何伯衢, 徐立軍, 尚策, 孫江濤. 一種用于太赫茲輻射產(chǎn)生的空間接入型液體池[P]. 北京市: CN110492338B, 2021-01-15.
[77]付博, 何伯衢, 徐立軍, 尚策, 孫江濤. 一種用于太赫茲輻射產(chǎn)生的光纖接入型液體池[P]. 北京市: CN110556689B, 2021-01-15.
[78]付博, 徐立軍, 張程宏, 王剛, 黃浩璟, 孫世杰. 一種空間接入型雙光梳系統(tǒng)監(jiān)測(cè)航空發(fā)動(dòng)機(jī)燃燒場(chǎng)的方法[P]. 北京市: CN110657992B, 2021-01-15.
[79]付博, 徐立軍, 張程宏, 李靜, 陸哲睿, 尚策. 一種空間接入型光頻梳系統(tǒng)監(jiān)測(cè)航空發(fā)動(dòng)機(jī)燃燒場(chǎng)的方法[P]. 北京市: CN110657994B, 2021-01-15.
[80]高碩, 黃安彪, 郭嶸, 邵明啟, 徐立軍. 一種基于電容檢測(cè)和機(jī)器學(xué)習(xí)的觸摸角度估計(jì)方法[P]. 北京市: CN111078064B, 2021-01-01.
[81]孫江濤, 梁小鳳, 徐立軍, 謝躍東, 田文斌. 一種對(duì)尿液電導(dǎo)率不敏感的動(dòng)態(tài)膀胱體積測(cè)量方法[P]. 北京市: CN110859636B, 2020-12-25.
[82]孫世杰, 胡蝶, 徐立軍, 曹章. 一種便攜式電容層析成像測(cè)量裝置[P]. 北京市: CN109900751B, 2020-12-04.
[83]徐立軍, 李端, 李小路, 謝鑫浩, 楊炳偉. 一種基于FPGA的高重復(fù)頻率三維掃描激光雷達(dá)掃描角測(cè)量電路[P]. 北京市: CN107015215B, 2020-11-24.
[84]李小路, 徐立軍, 李昀曄, 謝鑫浩. 一種基于自制地基激光雷達(dá)對(duì)準(zhǔn)誤差的點(diǎn)云誤差校正方法[P]. 北京市: CN107703499B, 2020-11-24.
[85]孫江濤, 梁小鳳, 徐立軍, 田文斌, 謝躍東. 一種基于邊緣場(chǎng)檢測(cè)的二維EIT電極陣列結(jié)構(gòu)優(yōu)化方法[P]. 北京市: CN110840457B, 2020-11-13.
[86]徐立軍, 常劉勇, 曹章, 郭宇東. 一種克服將鈍體火焰脫火判定為穩(wěn)態(tài)的貧燃熄火監(jiān)測(cè)方法[P]. 北京市: CN109990278B, 2020-11-03.
[87]高碩, 黃安彪, 徐立軍. 一種壓力信號(hào)的校正方法及裝置[P]. 北京市: CN110427126B, 2020-11-03.
[88]曹章, 邱爽, 徐立軍, 黃昂, 楊亞如. 一種基于激光吸收光譜的溫度快速提取方法[P]. 北京市: CN111089661B, 2020-11-03.
[89]曹章, 徐立軍, 謝藝歆, 孫世杰, 蝴蝶, 黃昂. 一種基于壓縮感知理論的寬頻譜阻抗測(cè)量方法[P]. 北京市: CN107561367B, 2020-10-16.
[90]孫江濤, 徐立軍, 梁小鳳, 田文斌. 基于單層EIT電極邊緣效應(yīng)的膀胱體積測(cè)量方法[P]. 北京市: CN109498013B, 2020-10-09.
[91]李端, 李小路, 徐立軍, 劉暢, 謝鑫浩. 一種基于接收端光纖色散的高光譜激光雷達(dá)系統(tǒng)[P]. 北京市: CN108398695B, 2020-10-02.
[92]曹章, 徐立軍, 吉俐, 胡蝶, 何玉珠. 一種用于電學(xué)成像的多導(dǎo)體體系導(dǎo)納矩陣快速計(jì)算方法[P]. 北京市: CN108376124B, 2020-09-29.
[93]徐立軍, 陳健軍, 曹章, 王友嶺, 張文. 一種基于總流量與電導(dǎo)探針陣列信號(hào)的垂直井含水率測(cè)量方法[P]. 北京市: CN104989377B, 2020-09-25.
[94]徐立軍, 曹章, 宋振源, 張宏宇, 劉怡, 解恒. 一種隨機(jī)振動(dòng)驅(qū)動(dòng)衰蕩腔免標(biāo)定氣體濃度測(cè)量系統(tǒng)[P]. 北京市: CN110672554B, 2020-09-25.
[95]曹章, 陳健軍, 許國(guó)偉, 王友嶺, 徐立軍. 一種基于總流量與電導(dǎo)探針陣列信號(hào)的水平井流型識(shí)別方法[P]. 北京市: CN105003249B, 2020-09-25.
[96]徐立軍, 李端, 李小路, 劉暢, 謝鑫浩. 一種基于光強(qiáng)分光的高光譜激光雷達(dá)系統(tǒng)[P]. 北京市: CN108415030B, 2020-08-28.
[97]李端, 徐立軍, 李小路, 劉暢, 謝鑫浩. 一種基于光譜分光的高光譜全波形激光雷達(dá)系統(tǒng)[P]. 北京市: CN108415031B, 2020-08-28.
[98]孫世杰, 徐立軍, 曹章, 黃昂, 何玉珠. 一種分程式并行結(jié)構(gòu)電容陣列測(cè)量電路[P]. 北京市: CN108333434B, 2020-08-18.
[99]徐立軍, 曲前偉, 曹章, 常劉勇. 一種基于激光吸收光譜層析成像技術(shù)的氣流二維速度分布測(cè)量方法[P]. 北京市: CN109061220B, 2020-07-31.
[100]曹章, 邱爽, 徐立軍, 侯廣羽. 一種基于直方圖信息的二維溫度和濃度重建系統(tǒng)與方法[P]. 北京市: CN110514622B, 2020-07-31.
[101]徐立軍, 曹章, 李遠(yuǎn)青, 邱爽. 一種基于干涉調(diào)制原理的激光吸收光譜測(cè)溫方法和系統(tǒng)[P]. 北京市: CN108981953B, 2020-07-31.
[102]徐立軍, 曲前偉, 曹章, 常劉勇. 一種基于激光吸收光譜層析成像技術(shù)的氣流三維速度分布測(cè)量方法[P]. 北京市: CN109061221B, 2020-07-31.
[103]付博, 徐立軍, 劉會(huì)生. 寬帶波長(zhǎng)可調(diào)色散管理型全光纖超快脈沖激光器及系統(tǒng)[P]. 北京市: CN109378694B, 2020-07-24.
[104]孫江濤, 徐立軍, 陸方皞, 田文斌, 索鵬. 基于電阻抗層析成像的觸覺壓力傳感器與信號(hào)采集方法[P]. 北京市: CN110207862B, 2020-07-03.
[105]田文斌, 孫江濤, 徐立軍. 一種多模態(tài)傳感器[P]. 北京市: CN110068583B, 2020-06-05.
[106]徐立軍, 曹章, 湯曉陽, 高欣, 解恒. 一種基于掃描振鏡的光學(xué)層析成像系統(tǒng)[P]. 北京市: CN107796333B, 2020-04-24.
[107]徐立軍, 曹章, 冉辰浩, 張宏宇, 邱爽. 一種基于四角度激光吸收光譜的二維溫度分布重建方法[P]. 北京市: CN108627272B, 2020-04-24.
[108]曹章, 徐立軍, 葉楨, 解恒. 一種基于相位式激光測(cè)距的三維關(guān)聯(lián)成像方法[P]. 北京市: CN107121682B, 2020-04-24.
[109]徐立軍, 解恒, 曹章. 一種基于單光電探測(cè)器的顆粒粒度測(cè)量?jī)x[P]. 北京市: CN107255608B, 2020-04-24.
[110]徐立軍, 常劉勇, 曹章, 郭宇東. 一種基于聲學(xué)激勵(lì)的脈動(dòng)式鈍體繞流燃燒裝置[P]. 北京市: CN109990279B, 2020-04-24.
[111]徐立軍, 曹章, 楊陽, 劉暢, 曲前偉. 一種基于遞推最小二乘法的激光吸收光譜諧波信號(hào)峰值點(diǎn)提取方法[P]. 北京市: CN105866068B, 2020-04-24.
[112]徐立軍, 曹章, 郭宇東, 張宏宇. 一種基于交疊吸收譜的路徑溫度直方圖測(cè)量系統(tǒng)與方法[P]. 北京市: CN108801496B, 2020-04-24.
[113]徐立軍, 曹章, 陳亞婧, 邱爽, 郭宇東. 基于單光路多光譜的氣體溫度概率密度分布擬合重建方法[P]. 北京市: CN109100044B, 2020-04-24.
[114]曹章, 徐立軍, 邱爽, 郭宇東, 陳亞婧. 基于單光路多光譜的氣體溫度概率密度分布重建方法[P]. 北京市: CN109100045B, 2020-04-24.
[115]李小路, 徐立軍, 李昀曄, 謝鑫浩. 一種基于自制地基激光雷達(dá)垂直度誤差的點(diǎn)云誤差校正方法[P]. 北京市: CN107290734B, 2020-03-24.
[116]李小路, 徐立軍, 李昀曄, 謝鑫浩. 一種基于自制地基激光雷達(dá)鉛垂度誤差的點(diǎn)云誤差校正方法[P]. 北京市: CN107290735B, 2020-03-24.
[117]徐立軍, 李端, 李小路, 謝鑫浩, 楊炳偉. 一種三維掃描全波形激光雷達(dá)系統(tǒng)[P]. 北京市: CN107272018B, 2020-02-14.
[118]曹章, 徐立軍, 吉俐, 孫世杰, 黃昂. 一種由電流-電壓映射構(gòu)造電壓-電流映射的方法[P]. 北京市: CN107091858B, 2020-02-14.
[119]李小路, 徐立軍, 馮靜, 劉暢. 一種結(jié)合激光雷達(dá)三維點(diǎn)云數(shù)據(jù)的相機(jī)自標(biāo)定方法[P]. 北京市: CN107977997B, 2020-01-17.
[120]徐立軍, 曹章, 冉辰浩, 李芳燕. 一種采用多角度直方圖信息進(jìn)行非均勻溫度分布重建的方法[P]. 北京市: CN108955936B, 2019-12-24.
[121]曹章, 徐立軍, 任宇罡, 湯曉陽, 解恒. 一種基于橫向剪切干涉的玻璃板厚度分布測(cè)量方法及系統(tǒng)[P]. 北京市: CN109059787B, 2019-12-24.
[122]徐立軍, 曹章, 陸方皞, 孫世杰, 黃昂. 一種用于解調(diào)含有高斯有色噪聲信號(hào)的遞推解調(diào)器[P]. 北京市: CN107505507B, 2019-10-01.
[123]曹章, 徐立軍, 解恒. 一種基于光開關(guān)切換的激光光線偏折效應(yīng)校正裝置[P]. 北京市: CN107543620B, 2019-10-01.
[124]曹章, 徐立軍, 常劉勇. 一種基于二向色分光的激光光線偏折校正裝置[P]. 北京市: CN107560738B, 2019-10-01.
[125]曹章, 徐立軍, 牛賀, 解恒. 一種基于閉環(huán)控制原理的粒徑分布測(cè)量方法[P]. 北京市: CN107490531B, 2019-07-16.
[126]徐立軍, 曹章, 李芳燕. 一種基于高頻正弦校準(zhǔn)光的激光光線偏折校正裝置及方法[P]. 北京市: CN107505063B, 2019-07-12.
[127]徐立軍, 曹章, 李芳燕. 一種基于調(diào)制鋸齒波信號(hào)的激光光線偏折校正裝置及方法[P]. 北京市: CN107560754B, 2019-07-12.
[128]徐立軍, 曹章, 張文, 趙嘉宇. 一種基于最小均方根誤差的水平井持水率測(cè)量方法[P]. 北京市: CN105971594B, 2019-02-01.
[129]曹章, 任迎, 徐立軍, 孫世杰. 一種基于隨機(jī)解調(diào)器的阻抗測(cè)量方法[P]. 北京市: CN105319445B, 2018-11-09.
[130]徐立軍, 曹章, 張文, 趙嘉宇, 張文強(qiáng). 一種基于雙環(huán)電導(dǎo)探針陣列的水平井持水率測(cè)量方法[P]. 北京市: CN105574272B, 2018-11-06.
[131]徐立軍, 孫世杰, 曹章, 劉翔宇. 一種多頻信息濾波遞推解調(diào)方法[P]. 北京市: CN105548711B, 2018-06-12.
[132]曹章, 徐立軍, 孫世杰. 一種用于多源X射線成像的PID控制圖像重建方法[P]. 北京市: CN105319228B, 2018-01-12.
[133]曹章, 陳健軍, 徐立軍, 張文, 趙嘉宇. 一種基于電導(dǎo)探針陣列信息融合的垂直井含水率測(cè)量方法[P]. 北京市: CN105064993B, 2018-01-09.
[134]徐立軍, 陳健軍, 曹章, 趙嘉宇, 王友嶺. 一種基于電導(dǎo)探針陣列投票表決的垂直井流型識(shí)別方法[P]. 北京市: CN105114054B, 2018-01-09.
[135]徐立軍, 徐文峰, 曹章, 陳健軍, 王友嶺. 一種基于電導(dǎo)探針的垂直井流型辨識(shí)方法[P]. 北京市: CN103967478B, 2017-10-27.
[136]曹章, 徐立軍, 魏天嘯, 周家怡, 辛蕾. 一種基于質(zhì)心法的光斑圖像中心的快速定位方法[P]. 北京市: CN103955687B, 2017-10-10.
[137]徐立軍, 曹章, 曲前偉, 劉暢. 一種用于圓對(duì)稱參數(shù)分布的雙倍分辨率圖像重建方法[P]. 北京市: CN104881887B, 2017-10-10.
[138]徐立軍, 曹章, 魏天嘯, 周家怡, 辛蕾. 一種基于導(dǎo)數(shù)法的光斑圖像中心的快速定位方法[P]. 北京市: CN103927536B, 2017-07-18.
[139]徐立軍, 陳健軍, 曹章, 徐文峰, 王友嶺. 一種用于多頻信號(hào)遙測(cè)的LC并聯(lián)諧振接收電路設(shè)計(jì)方法[P]. 北京市: CN104063557B, 2017-07-18.
[140]徐立軍, 徐文峰, 曹章, 陳健軍, 王友嶺. 一種基于電導(dǎo)探針陣列和信息融合技術(shù)的水平井參數(shù)檢測(cè)方法[P]. 北京市: CN103967477B, 2016-05-25.
[141]徐立軍, 李端, 李小路, 孔德明, 馬蓮. 一種全光纖光路全波形激光雷達(dá)系統(tǒng)[P]. 北京市: CN103901435B, 2016-05-18.
[142]徐立軍, 曹章, 魏天嘯, 蔡小舒. 一種用于前向衍射光光強(qiáng)分布測(cè)量的對(duì)中裝置及方法[P]. 北京市: CN103411859B, 2016-05-11.
[143]曹章, 徐立軍, 黃馳, 孫世杰. 一種由電壓-電流映射構(gòu)造電流-電壓映射的方法[P]. 北京市: CN103776873B, 2016-04-06.
[144]曹章, 徐立軍, 辛蕾, 魏天嘯. 一種光斑圖像中心的快速定位方法[P]. 北京市: CN103093223B, 2016-03-02.
[145]曹章, 徐立軍, 彭智聰, 宋偉. 一種基于歐拉公式的高精度正弦/余弦函數(shù)計(jì)算方法[P]. 北京市: CN103065039B, 2016-02-24.
[146]徐立軍, 孔德明, 李小路, 李端. 一種基于K-plane算法的建筑物頂面點(diǎn)云數(shù)據(jù)分割方法[P]. 北京市: CN103020637B, 2016-01-27.
[147]曹章, 徐立軍, 周家怡, 魏天嘯. 一種基于液晶屏光調(diào)制的圖像采樣方法[P]. 北京市: CN103871387B, 2016-01-06.
[148]徐立軍, 曹章, 劉暢, 蔡小舒. 一種采用雙路可調(diào)諧激光吸收光譜技術(shù)的歸一化降噪方法[P]. 北京市: CN103411923B, 2015-11-18.
[149]曹章, 劉暢, 徐立軍, 孫世杰. 一種基于虛擬數(shù)據(jù)的軸對(duì)稱參數(shù)分布圖像重建方法[P]. 北京市: CN103047946B, 2015-11-04.
[150]李小路, 徐立軍, 李端, 孔德明, 馬蓮. 一種基于同軸雙通道數(shù)據(jù)采集的全波形激光雷達(dá)系統(tǒng)[P]. 北京市: CN103576134B, 2015-10-07.
[151]曹章, 徐立軍, 孫世杰, 黃馳. 一種基于二端子激勵(lì)測(cè)量模式的電壓-電流映射構(gòu)造方法[P]. 北京市: CN103149472B, 2015-07-22.
[152]徐立軍, 孫世杰, 曹章. 一種基于相鄰激勵(lì)測(cè)量模式的電流-電壓映射構(gòu)造方法[P]. 北京市: CN103163404B, 2015-07-15.
[153]李小路, 徐立軍, 馬蓮. 一種全波形激光雷達(dá)系統(tǒng)[P]. 北京市: CN103197321B, 2015-07-15.
[154]徐立軍, 徐文峰. 一種基于電導(dǎo)探針陣列傳感器的水平井多參數(shù)估計(jì)方法[P]. 北京市: CN103277084B, 2015-07-15.
[155]曹章, 孫世杰, 徐立軍, 黃馳. 一種基于相鄰激勵(lì)測(cè)量模式的電壓-電流映射構(gòu)造方法[P]. 北京市: CN103116101B, 2015-07-01.
[156]曹章, 徐立軍, 孫世杰, 王海剛. 一種用于電學(xué)層析成像系統(tǒng)的信息濾波解調(diào)方法[P]. 北京市: CN103412189B, 2015-07-01.
[157]曹章, 陳健軍, 周海力, 徐立軍, 蔣昌華. 一種基于二端子阻抗測(cè)量模式的四端子電阻抗層析成像方法[P]. 北京市: CN103018284B, 2015-05-13.
[158]徐立軍, 李小路, 成艷亭, 陳路路. 一種通過圖像分割修正表面發(fā)射率的紅外熱成像測(cè)溫方法[P]. 北京市: CN103196564B, 2015-04-29.
[159]徐立軍, 陳健軍, 徐文峰, 曹章, 蔣昌華. 一種基于遺傳算法的多環(huán)電極陣列傳感器結(jié)構(gòu)優(yōu)化方法[P]. 北京市: CN103015981B, 2015-03-25.
[160]李小路, 徐立軍, 陳路路, 成艷亭. 一種基于圖像拼接的空冷凝汽器散熱面溫度場(chǎng)測(cè)量方法[P]. 北京市: CN103217221B, 2015-03-11.
[161]徐立軍, 曹章, 劉暢, 陳露露. 一種基于軸對(duì)稱參數(shù)分布的圖像重建方法[P]. 北京市: CN103021005B, 2015-01-21.
[162]曹章, 徐立軍, 劉暢, 辛蕾. 一種采用單一光電探測(cè)器的激光光強(qiáng)分布精確測(cè)量系統(tǒng)[P]. 北京市: CN103090966B, 2015-01-21.
[163]李小路, 徐立軍, 馬蓮. 一種基于遺傳算法的全波形激光雷達(dá)回波數(shù)據(jù)的高斯分解法[P]. 北京市: CN103217679B, 2014-10-08.
[164]徐立軍, 孔德明, 李小路. 一種對(duì)原始數(shù)據(jù)低失真的諧波噪聲干擾和白噪聲干擾的去除方法[P]. 北京市: CN102624349B, 2014-09-17.
[165]曹章, 周海力, 徐立軍, 曾軼. 一種用于電學(xué)層析成像系統(tǒng)的多頻遞推解調(diào)方法[P]. 北京市: CN102570984B, 2014-08-06.
[166]徐立軍, 曹章, 劉雨佳, 張玉枚. 一種用于渡越時(shí)間測(cè)量的自適應(yīng)相關(guān)算法[P]. 北京市: CN102645552B, 2014-06-25.
[167]徐立軍, 李小路, 孔德明, 李端. 一種激光雷達(dá)實(shí)時(shí)成像和建筑物特征提取的方法[P]. 北京市: CN103018728B, 2014-06-18.
[168]徐立軍, 陳健軍, 曹章, 胡金海, 劉興斌. 一種曼徹斯特碼井下長(zhǎng)距離傳輸裝置及方法[P]. 北京市: CN102843166B, 2014-05-28.
[169]徐立軍, 周海力, 曹章, 曾軼. 一種用于電學(xué)層析成像系統(tǒng)的遞推解調(diào)方法[P]. 北京市: CN102565541B, 2014-01-15.
[170]徐立軍, 田祥瑞, 李小路, 王建軍, 張超曾. 一種機(jī)載激光雷達(dá)側(cè)滾角偏差補(bǔ)償方法[P]. 北京市: CN102508221B, 2013-09-04.
[171]徐立軍, 曹章, 徐文峰, 陳健軍, 劉興斌, 馬水龍, 胡金海. 一種環(huán)形持水率測(cè)井傳感器陣列的結(jié)構(gòu)優(yōu)化方法[P]. 北京市: CN102011575B, 2013-05-08.
[172]徐立軍, 王建軍, 李小路, 郜蕾. 一種用于機(jī)載激光雷達(dá)俯仰角偏差實(shí)時(shí)補(bǔ)償?shù)姆椒ㄅc裝置[P]. 北京市: CN101865996B, 2013-03-27.
[173]徐立軍, 王建軍, 李小路, 田祥瑞. 一種用于機(jī)載激光雷達(dá)滾動(dòng)角偏差實(shí)時(shí)補(bǔ)償?shù)姆椒ㄅc裝置[P]. 北京市: CN101900806B, 2013-03-27.
[174]徐立軍, 王建軍, 李小路, 張超曾. 一種機(jī)載激光雷達(dá)激光發(fā)射指向擾動(dòng)的補(bǔ)償裝置及方法[P]. 北京市: CN102426355B, 2013-02-13.
[175]徐立軍, 田祥瑞, 李小路, 王建軍. 一種機(jī)載激光雷達(dá)航測(cè)參數(shù)的優(yōu)化設(shè)計(jì)方法[P]. 北京市: CN102176003B, 2012-11-21.
[176]徐立軍, 陳健軍, 曹章. 一種基于阻抗測(cè)量的多通道植物缺水監(jiān)測(cè)系統(tǒng)[P]. 北京市: CN101666767B, 2012-11-21.
[177]徐立軍, 曹章, 凌琪, 范士偉. 一種基于管內(nèi)磁場(chǎng)仿真數(shù)值計(jì)算的電磁流量計(jì)干標(biāo)定方法[P]. 北京市: CN101750136B, 2012-07-25.
[178]徐立軍, 徐文峰, 曹章, 周海力, 劉興斌, 胡金海. 一種多環(huán)電極陣列成像傳感器[P]. 北京市: CN101793852B, 2012-07-25.
[179]徐立軍, 曹章, 范士偉, 凌琪. 一種可用于非滿管流量測(cè)量的電容式電磁流量計(jì)[P]. 北京市: CN101701836B, 2012-07-04.
[180]徐立軍, 周婉露, 李小路, 田祥瑞. 一種提高機(jī)載平臺(tái)定姿精度的在線快速方法[P]. 北京市: CN101793517B, 2012-05-23.
[181]徐立軍, 范士偉, 曹章. 一種可用于非滿管流量測(cè)量的電磁流量計(jì)[P]. 北京市: CN101699226B, 2012-03-21.
[182]徐立軍, 譚丞, 李小路. 一種基于多元火焰監(jiān)測(cè)器的燃料種類在線判別方法[P]. 北京市: CN101692270B, 2011-12-07.
[183]曹章, 徐立軍, 丁潔. 一種基于圓形傳感器的電容層析成像的圖像重建直接方法[P]. 北京市: CN101520478B, 2011-08-17.
[184]李小路, 徐立軍, 田祥瑞, 譚丞. 一種基于光學(xué)補(bǔ)償設(shè)計(jì)的火焰溫度場(chǎng)和燃燒中間產(chǎn)物濃度場(chǎng)監(jiān)測(cè)系統(tǒng)[P]. 北京市: CN101625270B, 2011-08-17.
[185]曹章, 徐立軍, 丁潔. 一種粒徑測(cè)量的有限分布積分反演算法[P]. 北京市: CN101793665B, 2011-07-27.
[186]徐立軍, 李小路, 譚丞. 一種基于支持向量機(jī)的燃料種類在線識(shí)別方法[P]. 北京市: CN101701951B, 2011-07-27.
[187]徐立軍, 譚丞, 曹章. 一種新燃料在線識(shí)別方法[P]. 北京市: CN101644699B, 2011-06-01.
[188]徐立軍, 譚丞. 雙元火焰監(jiān)測(cè)器[P]. 北京市: CN101408313B, 2011-05-04.
[189]曹章, 徐立軍, 丁潔. 一種粒徑測(cè)量的積分反演算方法[P]. 北京市: CN101430268B, 2011-04-13.
[190]徐立軍, 李小路, 譚丞, 田祥瑞. 一種同時(shí)監(jiān)測(cè)燃燒火焰溫度場(chǎng)和中間產(chǎn)物濃度二維分布的方法[P]. 北京市: CN101625269B, 2010-12-01.
 論文專著:
發(fā)表英文部分論文:
[1]Xie, Xinhao; Xu, Lijun; Li, Xiaolu*; Li, Duan.Time-Division-Multiplexed Online Gauss-Newton-Based Multi-Echo Decomposition Method for Real-Time In-Situ Laser Ranging.IEEE Sensors Journal, 2022, 22(5): 4152-4163.
[2]Bai, Xu; Sun, Jiangtao*; Bai, Xue; Sun, Shijie; Xu, Lijun.A Modified Noise Model of Electrical Impedance Tomography System by Considering Colored Noises.IEEE Transactions on Instrumentation and Measurement, 2022, 71: 1001910.
[3]Gao, Xin; Cao, Zhang*; Li, Hongyao; Lu, Fanghao; Huang, Ang; Xu, Lijun.Sparse Zernike Fitting for Dynamic LAS Tomographic Images of Temperature and Water Vapor Concentration.IEEE Transactions on Instrumentation and Measurement, 2022, 71: 5009314.
[4]Ma, Xiangdong; Fan, Mengzhi; Cai, Yiqi; Xu, Lijun; Ma, Jianguo*.A FabryPerot Fiber-Optic Array for Photoacoustic Imaging.IEEE Transactions on Instrumentation and Measurement, 2022, 71: 4501508.
[5]Zhang, Xiaokai; Sun, Jiangtao*; Hu, Jinhai; Liu, Xiaolei; Liu, Xingbin; Xie, Ronghua; Cai, Bing; Sun, Liang; Xu, Lijun*.A Modified Adaptive Cross Correlation Method for Flow Rate Measurement of High-Water-Cut Oil-Water Flow Using Planar Flowmeter.IEEE Transactions on Instrumentation and Measurement, 2022, 71: 9500210.
[6]Liu, Chang; Li, Xiaolu*; Huang, Jianbin; Xu, Lijun.B-Spline Based Progressive Decomposition of LiDAR Waveform With Low SNR.IEEE Transactions on Instrumentation and Measurement, 2022, 71: 8501812.
[7]Xie, Yuedong; Li, Jiyao; Huang, Pu; Zhang, Le; Tian, Wenbin*; Lu, Mingyang*; Zhao, Xin; Huo, Zhilin; Liu, Zenghua; Wang, Shupei; Huang, Ruochen; Yin, Wuliang; Peyton, Anthony; Xu, Lijun.A novel design of window function modulated meander-line-coils EMATs for unidirectional Rayleigh waves generation and sidelobes suppression.NDT & E International, 2021, 123: 102501.
[8]Guo, Jingjing*; Zhou, Bingqian; Du, Zhou; Yang, Changxi; Kong, Lingjie*; Xu, Lijun.Soft and plasmonic hydrogel optical probe for glucose monitoring.Nanophotonics, 2021, 10(13): 3549-3558.
[9]Li, Xiaolu; Zhang, Zhixin; Xie, Xinhao; Xu, Lijun; Li, Duan*.A multi-target on-line ranging method based on matrix sparsification and a division-free Gauss-Jordan solver.Measurement Science and Technology, 2021, 32(9): 095207.
[10]Xie, Heng; Xu, Lijun*; Tan, Yutian; Hou, Guangyu; Cao, Zhang*.Ultra-Low Sampled and High Precision TDLAS Thermometry Via Artificial Neural Network.IEEE Photonics Journal, 2021, 13(3): 1-9.
[11]Wang, Zining; Xu, Lijun; Li, Duan*; Zhang, Zhixin; Li, Xiaolu.Online Multi-Target Laser Ranging Using Waveform Decomposition on FPGA.IEEE Sensors Journal, 2021, 21(9): 10879-10889.
[12]Wang, Xiao-Hong; Bi, Zheng; Dong, Xiang; Hu, Sen-Yuan; Xu, Li-jun; Cheng, Cheng-Kung*.Increasing the height of the anterior lip on a tibial insert in a posterior stabilized knee prosthesis has little effect on the wear rate.Medical Engineering & Physics, 2021, 91: 48-53.
[13]Lu, Fanghao; Cao, Zhang*; Xie, Yixin; Xu, Lijun.Precise wide-band electrical impedance spectroscopy measurement via an ADC operated below the Nyquist sampling rate.Measurement, 2021, 174: 108995.
[14]Zhu, Hai; Sun, Jiangtao; Long, Jun; Tian, Wenbin*; Sun, Shijie; Xu, Lijun.Deep Image Refinement Method by Hybrid Training With Images of Varied Quality in Electrical Capacitance Tomography.IEEE Sensors Journal, 2021, 21(5): 6342-6355.
[15]Xie, Xinhao; Li, Xiaolu; Li, Duan*; Xu, Lijun.Real-Time In-Situ Laser Ranging via Back Propagation Neural Network on FPGA.IEEE Sensors Journal, 2021, 21(4): 4664-4673.
[16]Gao, Shuo*; Chen, Jun-Liang; Dai, Yan-Ning; Wang, Rui; Kang, Shuai-Bo; Xu, Li-Jun.Piezoelectric-Based Insole Force Sensing for Gait Analysis in the Internet of Health Things.IEEE Consumer Electronics Magazine, 2021, 10(1): 39-44.
[17]Liao, Shaolin*; Ou, Lu; Xu, Lijun.Super-Resolution Ultrasound Lamb Wave NDE Imaging of Anisotropic Airplane Laminates via Deconvolutional Neural Network.IEEE Transactions on Instrumentation and Measurement, 2021, 70: 4500508.
[18]Tian, Yu; Cao, Zhang*; Hu, Die; Gao, Xin; Xu, Lijun; Yang, Wuqiang.A Fuzzy PID-Controlled Iterative Calderon's Method for Binary Distribution in Electrical Capacitance Tomography.IEEE Transactions on Instrumentation and Measurement, 2021, 70: 4502911.
[19]Sun, Shijie; Lu, Xupeng; Xu, Lijun*; Cao, Zhang; Sun, Jiangtao; Yang, Wuqiang.Real-Time 3-D Imaging and Velocity Measurement of Two-Phase Flow Using a Twin-Plane ECT Sensor.IEEE Transactions on Instrumentation and Measurement, 2021, 70.
[20]Huang, Ang; Cao, Zhang*; Wang, Chenran; Wen, Jinting; Lu, Fanghao; Xu, Lijun.An FPGA-Based On-Chip Neural Network for TDLAS Tomography in Dynamic Flames.IEEE Transactions on Instrumentation and Measurement, 2021, 70: 4506911.
[21]Xu, Lijun*; Hou, Guangyu; Qiu, Shuang; Huang, Ang; Zhang, Hongyu; Cao, Zhang.Noise Immune TDLAS Temperature Measurement Through Spectrum Shifting by Using a Mach-Zehnder Interferometer.IEEE Transactions on Instrumentation and Measurement, 2021, 70: 7004009.
[22]Tang, Xiaoyang; Cao, Zhang*; Wang, Zhonghong; Xie, Heng; Xu, Lijun*.Retrieval of Phase and Temperature Distributions in Axisymmetric Flames From Phase-Modulated Large Lateral Shearing Interferogram.IEEE Transactions on Instrumentation and Measurement, 2021, 70.
[23]Suo, Peng; Sun, Jiangtao*; Tian, Wenbin; Sun, Shijie; Xu, Lijun*.3-D Image Reconstruction in Planar Array ECT by Combining Depth Estimation and Sparse Representation.IEEE Transactions on Instrumentation and Measurement, 2021, 70: 4504909.
[24]Wang, Ying; Sun, Shijie*; Tian, Yu; Sun, Jiangtao; Xu, Lijun*.Image Reconstruction Based on Fuzzy Adaptive Kalman Filter in Electrical Capacitance Tomography.IEEE Transactions on Instrumentation and Measurement, 2021, 70: 4506010.
[25]Hu, Die; Cao, Zhang*; Chang, Liuyong; Xu, Lijun*.Revised Calderon Method of Annular ECT for Imaging Flashback Flame of a Bluff-Body Burner.IEEE Transactions on Instrumentation and Measurement, 2021, 70: 4505610.
[26]Xie, Yuedong; Li, Jiyao; Tao, Yang; Wang, Shupei; Yin, Wuliang; Xu, Lijun*.Edge Effect Analysis and Edge Defect Detection of Titanium Alloy Based on Eddy Current Testing.Applied Sciences-Basel, 2020, 10(24): 8796.
[27]Huang, Anbiao; Gao, Shuo*; Chen, Junliang; Xu, Lijun; Nathan, Arokia.High Security User Authentication Enabled by Piezoelectric Keystroke Dynamics and Machine Learning.IEEE Sensors Journal, 2020, 20(21): 13037-13046.
[28]Huang, Ang; Cao, Zhang*; Zhao, Wenshuai; Zhang, Hongyu; Xu, Lijun.Frequency-Division Multiplexing and Main Peak Scanning WMS Method for TDLAS Tomography in Flame Monitoring.IEEE Transactions on Instrumentation and Measurement, 2020, 69(11): 9087-9096.
[29]Zhang, Hongyu; Cao, Zhang*; Zhao, Wenshuai; Huang, Ang; Cai, Zhaoyu; Xu, Lijun*.A Compact Laser Absorption Spectroscopy Tomographic System With Short Spectral Scanning Time and Adjustable Frame Rate.IEEE Transactions on Instrumentation and Measurement, 2020, 69(10): 8226-8237.
[30]Fu, Bo; Wang, Pan; Li, Yan; Condorelli, Marcello; Fazio, Enza; Sun, Jingxuan; Xu, Lijun; Scardaci, Vittorio*; Compagnini, Giuseppe.Passively Q-switched Yb-doped all-fiber laser based on Ag nanoplates as saturable absorber.Nanophotonics, 2020, 9(12): 3873-3880.
[31]Hu, Die; Tian, Yu; Chang, Liuyong; Sun, Shijie; Sun, Jiangtao; Cao, Zhang*; Xu, Lijun*.Estimation of Combustion Temperature Field From the Electrical Admittivity Distribution Obtained by Electrical Tomography.IEEE Transactions on Instrumentation and Measurement, 2020, 69(9): 6271-6280.
[32]Liu, Yong; Gao, Shuo*; Huang, Anbiao; Zhu, Jie; Xu, Lijun; Nathan, Arokia.Ensemble Learning-Based Technique for Force Classifications in Piezoelectric Touch Panels.IEEE Sensors Journal, 2020, 20(16): 9540-9549.
[33]Gao, Shuo; Guo, Rong; Shao, Mingqi*; Xu, Lijun.A Touch Orientation Classification-Based Force-Voltage Responsivity Stabilization Method for Piezoelectric Force Sensing in Interactive Displays.IEEE Sensors Journal, 2020, 20(14): 8147-8154.
[34]Dai, Yanning; Chen, Junliang; Tian, Wenbin; Xu, Lijun; Gao, Shuo*.A PVDF/Au/PEN Multifunctional Flexible Human-Machine Interface for Multidimensional Sensing and Energy Harvesting for the Internet of Things.IEEE Sensors Journal, 2020, 20(14): 7556-7568.
[35]Xie, Xinhao; Xu, Lijun; Li, Xiaolu*; Li, Duan.Online Gauss-Newton-Based Parallel-Pipeline Method for Real-Time In-Situ Laser Ranging.IEEE Sensors Journal, 2020, 20(13): 7087-7096.
[36]Wu, Peng; Wang, Yue; Sun, Dongyuan; Luo, Youran; Chen, Cheng; Tang, Ziqing; Liao, Yunmao; Cao, Xiaoyan; Xu, Lijun; Cheng, Chengkung; Liu, Weiqing; Liang, Xing*.In-vivo histocompatibility and osteogenic potential of biodegradable PLDLA composites containing silica-based bioactive glass fiber.Journal of Biomaterials Applications, 2020, 35(1): 59-71.
[37]Che, H. Q.; Liu, D.; Tian, W. B.; Gao, S.; Sun, J. T.*; Xu, L. J.*.CFD-DEM study of gas-solid flow regimes in a Wurster type fluidized bed with experimental validation by electrical capacitance tomography.Chemical Engineering Journal, 2020, 389: 124280.
[38]Ma, Xiangdong; Liu, Bingxue; Cai, Yiqi; Jia, Donglin; Fu, Bo; Xu, Lijun; Ma, Jianguo*.Suppression of reverberations at fiber tips for optical ultrasound sensing.Optics Letters, 2020, 45(9): 2526-2529.
[39]Zhu, Hai; Sun, Jiangtao*; Xu, Lijun; Tian, Wenbin; Sun, Shijie.Permittivity Reconstruction in Electrical Capacitance Tomography Based on Visual Representation of Deep Neural Network.IEEE Sensors Journal, 2020, 20(9): 4803-4815.
[40]Chang, Liuyong; Cao, Zhang; Fu, Bo; Lin, Yuzhen; Xu, Lijun.Lean blowout detection for bluff-body stabilized flame.Fuel, 2020, 266: 117008.
[41]Zhao, Wenshuai; Xu, Lijun; Huang, Ang; Gao, Xin; Luo, Xizi; Zhang, Hongyu; Chang, Haitao; Cao, Zhang.A WMS Based TDLAS Tomographic System for Distribution Retrievals of Both Gas Concentration and Temperature in Dynamic Flames.IEEE Sensors Journal, 2020, 20(8): 4179-4188.
[42]Ma, Jianguo; Wei, Min; Xie, Zhun; Huang, Shan; Chen, Boya; Qiu, Yang; Wang, Yueli; Li, Yulin; Du, Jie; Xu, Lijun.Spectrum enhanced colour ultrasound (SECU) imaging.Measurement, 2020, 154: 107401.
[43]Dai, Yanning; Xie, Yuedong; Chen, Junliang; Kang, Shuaibo; Xu, Lijun; Gao, Shuo*.A lamination-based piezoelectric insole gait analysis system for massive production for Internet-of-health things.International Journal of Distributed Sensor Networks, 2020, 16(3): 1550147720905431.
[44]Chen, Junliang; Zhang, Min; Dai, Yanning; Xie, Yuedong; Tian, Wenbin; Xu, Lijun; Gao, Shuo*.A force-voltage responsivity stabilization method for piezoelectric-based insole gait analysis for high detection accuracy in health monitoring.International Journal of Distributed Sensor Networks, 2020, 16(3): 1550147720905441.
[45]Cao, Xiao-Yan; Chen, Cheng; Tian, Na; Dong, Xiang; Liang, Xing; Xu, Li-Jun; Cheng, Cheng-Kung.Long-term study on the osteogenetic capability and mechanical behavior of a new resorbable biocomposite anchor in a canine model.Journal of Orthopaedic Translation, 2020, 21: 81-90.
[46]Shao, Ding; Yan, Yong; Zhang, Wenbiao; Sun, Shijie; Sun, Caiying; Xu, Lijun.Dynamic measurement of gas volume fraction in a CO2 pipeline through capacitive sensing and data driven modelling.International Journal of Greenhouse Gas Control, 2020, 94: UNSP 102950.
[47]Song, Zhenyuan; Xu, Lijun*; Xie, Heng; Cao, Zhang.Random vibration-driven continuous-wave CRDS system for calibration-free gas concentration measurement.Optics Letters, 2020, 45(3): 746-749.
[48]Gao, Shuo; Wang, Yixuan; Fang, Chaoming*; Xu, Lijun.A Smart Terrain Identification Technique Based on Electromyography, Ground Reaction Force, and Machine Learning for Lower Limb Rehabilitation.Applied Sciences-Basel, 2020, 10(8): 2638.
[49]Xu, Lijun; Xu, Teng; Li, Xiaolu*.Corn Seedling Monitoring Using 3-D Point Cloud Data From Terrestrial Laser Scanning and Registered Camera Data.IEEE Geoscience and Remote Sensing Letters, 2020, 17(1): 137-141.
[50]Xin, Gao; Zhang, Cao; Yu, Tian; Lijun, Xu; Wuqiang, Yang.Inverse Radon method based on electrical field lines for dual modality electrical tomography.IEEE Transactions on Instrumentation and Measurement, 2020, 1-1.
[51]Li, Fangyan; Du, Minglong*; Xu, Lijun.Study of Dynamic Behaviors of Thermoacoustic Oscillations by Using Laser Absorption Spectroscopy.IEEE Sensors Journal, 2019, 19(24): 12271-12278.
[52]Ma, Xiangdong; Cai, Yiqi; Fu, Bo; Xu, Lijun; Ma, Jianguo*.Fiber optic-based laser interferometry array for three-dimensional ultrasound sensing.Optics Letters, 2019, 44(23): 5852-5855.
[53]Li, Xiaolu; Luo, Pei; Xu, Lijun*.Factors influencing assessment in a TDC-based ranging system.Measurement Science and Technology, 2019, 30(12): 125018.
[54]Xie, Xinhao; Xu, Lijun; Wang, Zining; Li, Xiaolu*.Real-Time In Situ Laser Ranging Based on Online Echo Waveform Fitting.IEEE Sensors Journal, 2019, 19(20): 9255-9262.
[55]Sun, Jiangtao; Tian, Wenbin; Che, Hanqiao; Sun, Shijie; Gao, Shuo; Xu, Lijun*; Yang, Wuqiang.Proportional-Integral Controller Modified Landweber Iterative Method for Image Reconstruction in Electrical Capacitance Tomography.IEEE Sensors Journal, 2019, 19(19): 8790-8802.
[56]Tian, Wenbin; Liang, Xiaofeng; Qu, Xiaolei; Sun, Jiangtao*; Gao, Shuo; Xu, Lijun; Yang, Wuqiang.Investigation of Multi-Plane Scheme for Compensation of Fringe Effect of Electrical Resistance Tomography Sensor.Sensors, 2019, 19(14): 3132.
[57]Qu, Qianwei; Gao, Shuo; Chang, Liuyong; Xu, Lijun*.Three-dimensional laser absorption spectroscopy velocimetry for high-speed flow diagnosis.Applied Physics B: Lasers and Optics , 2019, 125(7): 129.
[58]Li Duan; Xu Lijun*; Li Xiaolu; Sun Jiangtao.Asymmetrical-Gaussian-Model-Based Laser Echo Detection.IEEE Sensors Journal, 2019, 19(10): 3797-3806.
[59]Sun, Shijie; Xu, Lijun*; Cao, Zhang; Sun, Jiangtao; Tian, Wenbin.Adaptive Selection of Truncation Radius in Calderon's Method for Direct Image Reconstruction in Electrical Capacitance Tomography.Sensors, 2019, 19(9): 2014.
[60]Xu Lijun; Feng Jing; Li Xiaolu*; Liu Chang.Automatic Registration Method for TLS LiDAR Data and Image-Based Reconstructed Data.IEEE Geoscience and Remote Sensing Letters, 2019, 16(3): 482-486.
[61]Huang, Ang; Cao, Zhang*; Sun, Shijie; Lu, Fanghao; Xu, Lijun.An Agile Electrical Capacitance Tomography System With Improved Frame Rates.IEEE Sensors Journal, 2019, 19(4): 1416-1425.
[62]Ren, Yugang; Cao, Zhang*; Tang, Xiaoyang; Xie, Heng; Xu, Lijun.mu m-resolution thickness distribution measurement of transparent glass films by using a multi-wavelength phase-shift extraction method in the large lateral shearing interferometer.Optics Express, 2019, 27(3): 2899-2914.
[63]Zhao, Jiayu; Xu, Lijun*; Cao, Zhang.Direct Image Reconstruction for Electrical Capacitance Tomography Using Shortcut D-Bar Method.IEEE Transactions on Instrumentation and Measurement, 2019, 68(2): 483-492.
[64]Xu, Lijun*; Cao, Zhang; Yang, Wuqiang; Zervakis, Michalis; Giakos, George.Special Section on Imaging Systems and Techniques 2017.Measurement Science and Technology, 2019, 30(2): 020103.
[65]Liu Chang; Xu Lijun*.Laser absorption spectroscopy for combustion diagnosis in reactive flows: A review.Applied Spectroscopy Reviews, 2019, 54(1): 1-44.
[66]Qu, Qianwei; Cao, Zhang; Xu, Lijun*; Liu, Chang; Chang, Liuyong; McCann, Hugh.Reconstruction of two-dimensional velocity distribution in scramjet by laser absorption spectroscopy tomography.Applied Optics, 2019, 58(1): 205-212.
[67]Huang, Anbiao; Gao, Shuo*; Dai, Tanning; Kitsos, Vasileios; Tian, Wenbin; Xu, Lijun.A Capacitive Information-Based Force-Voltage Responsivity Stabilization Method for Piezoelectric Touch Panels.IEEE Journal of the Electron Devices Society, 2019, 7(1): 1018-1025.
[68]Gao Shuo*; Shi Yanpei; Liu Qiang; Xu Lijun; Fu Bo; Yang Zongyin.4-Dimensional Sensing in Interactive Displays Enabled by Both Capacitive and Piezoelectric Based Touch Panel.IEEE Access, 2019, 7: 33787-33794.
[69]Chang, Liuyong; Lin, Yuzhen; Cao, Zhang; Xu, Lijun*.Effects of water vapor addition on NO reduction of n-decane/air flames.Energy Sources, Part A: Recovery, Utilization, and Environmental Effects , 2019.
[70]Chang L; Lin Y; Cao Z; Xu L*.A new simplified mechanism for combustion of RP-3/Jet-A kerosene.Energy Sources, Part A: Recovery, Utilization, and Environmental Effects , 2019.
[71]Xu, Lijun*; Li, Fangyan; Sun, Jiangtao; Cao, Zhang.Dynamic Characterization of Pulse Combustion by Image Series Processing.IEEE Sensors Journal, 2018, 18(23): 9682-9690.
[72]Li, Duan; Xu, Lijun; Xie, Xinhao; Li, Xiaolu*; Chen, Jie; Chen, Jianjun.Co-path full-waveform LiDAR for detection of multiple along-path objects.Optics and Lasers in Engineering, 2018, 111: 211-221.
[73]Li, Xiaolu; Li, Yunye; Xie, Xinhao; Xu, Lijun*.Terrestrial Laser Scanner Autonomous Self-Calibration With No Prior Knowledge of Point-Clouds.IEEE Sensors Journal, 2018, 18(22): 9277-9285.
[74]Hu, Die; Cao, Zhang; Sun, Shijie; Sun, Jiangtao; Xu, Lijun*.Dual-Modality Electrical Tomography for Flame Monitoring.IEEE Sensors Journal, 2018, 18(21): 8847-8854.
[75]Cao, Zhang*; Ji, Li; Xu, Lijun.Iterative Reconstruction Algorithm for Electrical Capacitance Tomography Based on Calderon's Method.IEEE Sensors Journal, 2018, 18(20): 8450-8462.
[76]Sun, Shijie; Zhang, Wenbiao; Sun, Jiangtao; Cao, Zhang; Xu, Lijun*; Yan, Yong.Real-Time Imaging and Holdup Measurement of Carbon Dioxide Under CCS Conditions Using Electrical Capacitance Tomography.IEEE Sensors Journal, 2018, 18(18): 7551-7559.
[77]Qu, Qianwei; Cao, Zhang; Xu, Lijun*; Cai, Weiwei.Optimal selection of spectral lines for multispectral absorption tomography.Applied Physics B: Lasers and Optics , 2018, 124(9): 190.
[78]Sun, Shijie; Xu, Lijun*; Cao, Zhang; Sun, Jiangtao; Yang, Wuqiang.A Recursive Demodulator for Real-Time Measurement of Multiple Sinusoids.IEEE Sensors Journal, 2018, 18(15): 6281-6289.
[79]Niu, He; Cao, Zhang*; Xie, Heng; Zhang, Jiawen; Xu, Lijun.An Iterative Algorithm Based on the Dual Integral Inversion for Particle Sizing.IEEE Transactions on Instrumentation and Measurement, 2018, 67(7): 1729-1737.
[80]Xu, Lijun; Feng, Jing; Li, Xiaolu*; Chen, Jianjun.A LiDAR data-based camera self-calibration method.Measurement Science and Technology, 2018, 29(7): 075205.
[81]Xie, Heng; Xu, Lijun; Niu, He; Cao, Zhang*.Particle sizing from Fraunhofer diffraction pattern using a digital micro-mirror device and a single photodiode.Powder Technology, 2018, 332: 351-358.
[82]Liu, Chang; Cao, Zhang; Lin, Yuzhen; Xu, Lijun*; McCann, Hugh.Online Cross-Sectional Monitoring of a Swirling Flame Using TDLAS Tomography.IEEE Transactions on Instrumentation and Measurement, 2018, 67(6): 1338-1348.
[83]Li, Xiaolu; Li, Yunye; Xie, Xinhao; Xu, Lijun*.Lab-built terrestrial laser scanner self-calibration using mounting angle error correction.Optics Express, 2018, 26(11): 14444-14460.
[84]Giakos, George*; Yang, Wuqiang; Zervakis, Mihalis; Xu, Lijun.Special section on imaging systems and techniques 2016.Measurement Science and Technology, 2018, 29(5): 050101.
[85]Li, Fangyan; Cao, Zhang; Xu, Lijun*; Xie, Yixin.Prediction of equivalence ratio in pulse combustor from ion current amplitude spectrum.Fuel, 2018, 218: 179-187.
[86]Xu, Lijun; Xue, Ruifeng; Li, Yuanqing; Zhang, Hongyu; Cao, Zhang*.FPGA-Based Real-Time Implementation of Temperature Measurement via Tunable Diode Laser Absorption Spectroscopy.IEEE Sensors Journal, 2018, 18(7): 2751-2758.
[87]Li, Xiaolu; Yang, Bingwei; Xie, Xinhao; Li, Duan; Xu, Lijun*.Influence of Waveform Characteristics on LiDAR Ranging Accuracy and Precision.Sensors (Switzerland), 2018, 18(4): 1156.
[88]Dai, Jinghang; Yu, Tao; Xu, Lijun; Cai, Weiwei*.On the regularization for nonlinear tomographic absorption spectroscopy.Journal of Quantitative Spectroscopy and Radiative Transfer, 2018, 206: 233-241.
[89]Wang, J J*; Xu, L J; Fan, Y Y; Guo, X S; Liu, X.nfluence of Aircraft Attitude Fluctuations on Point Cloud Density and Digital Surface Model (DSM) Accuracy from Airborne LiDAR.Lasers in Engineering, 2018, 41(1-3): 167-186.
[90]Xu Teng; Xu Lijun*; Li Xiaolu*; Yao Junen.Detection of Water Leakage in Underground Tunnels Using Corrected Intensity Data and 3D Point Cloud of Terrestrial Laser Scanning.IEEE Access, 2018, 6: 32471-32480.
[91]Jing, Wenyang; Cao, Zhang*; Zhang, Hongyu; Qu, Qianwei; Xu, Lijun.A Reconfigurable Parallel Data Acquisition System for Tunable Diode Laser Absorption Spectroscopy Tomography.IEEE Sensors Journal, 2017, 17(24): 8215-8223.
[92]Sun Shijie; Xu Lijun*; Cao Zhang*; Huang Ang; Yang Wuqiang.Digital Recursive Demodulator Based on Kalman Filter.IEEE Transactions on Instrumentation and Measurement, 2017, 66(12): 3138-3147.
[93]Xu, Teng; Xu, Lijun; Yang, Bingwei; Li, Xiaolu*; Yao, Junen.Terrestrial Laser Scanning Intensity Correction by Piecewise Fitting and Overlap-Driven Adjustment.Remote Sensing, 2017, 9(11): 1090.
[94]Sun Shijie; Cao Zhang; Huang Ang; Xu Lijun*; Yang Wuqiang.A High-Speed Digital Electrical Capacitance Tomography System Combining Digital Recursive Demodulation and Parallel Capacitance Measurement.IEEE Sensors Journal, 2017, 17(20): 6690-6698.
[95]Li, Xiaolu*; Wang, Hongming; Yang, Bingwei; Huyan, Jiayue; Xu, Lijun.Influence of Time-Pickoff Circuit Parameters on LiDAR Range Precision.Sensors (Switzerland), 2017, 17(10): 2369.
[96]Xu Lijun; Zhang Wen; Zhao Jiayu; Cao Zhang*; Xie Ronghua; Liu Xingbin; Hu Jinhai.Support-vector-regression-based prediction of water holdup in horizontal oil-water flow by using a bicircular conductance probe array.Flow Measurement and Instrumentation, 2017, 57: 64-72.
[97]Liu Chang; Cao Zhang; Li Fangyan; Lin Yuzhen; Xu Lijun*.Flame monitoring of a model swirl injector using 1D tunable diode laser absorption spectroscopy tomography.Measurement Science and Technology, 2017, 28(5): 054002.
[98]Li, Duan; Xu, Lijun; Li, Xiaolu*.Full-waveform LiDAR echo decomposition based on wavelet decomposition and particle swarm optimization.Measurement Science and Technology, 2017, 28(4): 045205.
[99]Xu, Teng; Xu, Lijun; Tian, Xiangrui; Li, Xiaolu*.GPS-aided method for platform attitude determination based on target images.Applied Optics, 2017, 56(8): 2378-2387.
[100]Xu, Lijun*; Xu, Teng; Wang, Jianjun; Li, Xiaolu.A Fuzzy PID Controller-Based Two-Axis Compensation Device for Airborne Laser Scanning.IEEE Sensors Journal, 2017, 17(5): 1353-1362.
[101]Li, Fangyan; Xu, Lijun*; Du, Minglong; Yang, Lijun; Cao, Zhang.Ion current sensing-based lean blowout detection for a pulse combustor.Combustion and Flame, 2017, 176: 263-271.
[102]Zhou, Jiayi; Cao, Zhang*; Xie, Heng; Xu, Lijun.Compressive sensing for particle size retrieval by using a digital micro-mirror device-based detector.Powder Technology, 2016, 304: 27-31.
[103]Li, Xiaolu; Xu, Kai; Xu, Lijun*.Within-footprint roughness measurements using ICESat/GLAS waveform and LVIS elevation.Measurement Science and Technology, 2016, 27(12): 125012.
[104]Xu, Lijun*; Zhang, Wen; Cao, Zhang; Zhao, Jiayu; Xie, Ronghua; Liu, Xingbin; Hu, Jinhai.Water holdup measurement of oil-water two-phase flow in a horizontal well using a dual-circle conductance probe array.Measurement Science and Technology, 2016, 27(11): 115101.
[105]Li, Xiaolu; Xu, Kai; Xu, Lijun*.Surface slope and roughness measurement using ICESat/GLAS elevation and laser waveform.Measurement Science and Technology, 2016, 27(9): 095202.
[106]Xu, Lijun*; Chen, Jianjun; Cao, Zhang; Zhang, Wen; Xie, Ronghua; Liu, Xingbin; Hu, Jinhai.Identification of Oil-Water Flow Patterns in a Vertical Well Using a Dual-Ring Conductance Probe Array.IEEE Transactions on Instrumentation and Measurement, 2016, 65(5): 1249-1258.
[107]Xu, Lijun*; Liu, Chang; Jing, Wenyang; Cao, Zhang; Xue, Xin; Lin, Yuzhen.Tunable diode laser absorption spectroscopy-based tomography system for on-line monitoring of two-dimensional distributions of temperature and H2O mole fraction.Review of Scientific Instruments, 2016, 87(1): 013101.
[108]Xu, Lijun; Li, Duan; Li, Xiaolu*.A high success rate full-waveform lidar echo decomposition method.Measurement Science and Technology, 2016, 27(1): 015205.
[109]Tian, X-R.; Xu, L-J.*; Li, X-L.; Xu, T.; Yao, J-N.Filtering of Airborne LiDAR Point Cloud with a Method Based on Kernel Density Estimation (KDE).Lasers in Engineering, 2016, 34(4-6): 221-237.
[110]Lijun Xu*; Duan Li; Xiaolu Li.A high success rate full-waveform lidar echo decomposition method.Measurement Science and Technology, 2015, 27(1): 1-13.
[111]Chang Liu; Lijun Xu*; Fangyan Li; Zhang Cao.Resolution-doubled one-dimensional wavelength modulation spectroscopy tomography for flame flatness validation of a flat flame burner.Applied Physics, 2015, 120(3): 407-416.
[112]Chang Liu; Lijun Xu*.Development of a fan-beam TDLAS-based tomographic sensor for rapidimaging of temperature and gas concentration.Optics Express, 2015, 23(17): 22494-22511.
[113]Jianjun Chen; Lijun Xu*; Zhang Cao; Wen Zhang; Xingbin Liu; Jinhai Hu.Water cut measurement of oil–water flow in vertical well by combining total flow rate and the response of a conductance probe.Measurement Science and Technology, 2015, 26(9): 95306.
[114]Jiayi Zhou; Zhang Cao*; Heng Xie; Lijun Xu.Digital micro-mirror device-based detector for particle-sizing instruments via Fraunhofer diffraction.Applied Optics, 2015, 54(18): 5842-5849.
[115]LI JUN XU*; Shijie Sun; Zhang Cao; Wuqiang Yang.Performance analysis of a digital capacitancemeasuring circuit.Review of Scientific Instruments, 2015, 86(5).
[116]Lijun Xu*; Yanting Cheng; Rui Yin; Qi Zhang.Comparative study of regression modeling methods foronline coal calorific value prediction from flame radiation features.Fuel, 2015, 142: 164-172.
[117]Xiangrui Tian; Lijun Xu*; Teng Xu; Lili Jing.A new laser point offsets eliminating method for airborne LiDAR by compensating laser pointing deviations.Laser in Engineering, 2015, 32(5-6): 375-391.
[118]Cheng, Yanting; Xu, Lijun*; Li, Xiaolu; Chen, Lulu.ONLINE ESTIMATION OF COAL CALORIFIC VALUE FROM COMBUSTION RADIATION FOR COAL-FIRED BOILERS.Combustion Science and Technology, 2015, 187(10): 1487-1503.
[119]Chang Liu; Lijun Xu*; Zhang Cao; McCann, Hugh.Reconstruction of axisymmetric temperature and gas concentration distributions by combining fan-beam TDLAS with onion-peeling deconvolution.IEEE Transactions on Instrumentation and Measurement, 2014, 63(12): 3067-3075.
[120]Lijun Xu*; Deming Kong; Xiaolu Li.On-the-fly extraction of polyhedral buildings from airborne LiDAR data.IEEE Geoscience and Remote Sensing Letters, 2014, 11(11): 1946-1950.
[121]Lijun Xu*; Lulu Chen; Xiaolu Li; Tao He.Projective rectification of infrared images from air-cooled condenser temperature measurement by using projection profile features and cross-ratio invariability.Applied Optics, 2014, 53(28): 6482-6493.
[121]LI JUN XU; Tianxiao Wei; Jiayi Zhou; Zhang Cao*.Modified Landweber Algorithm for Robust ParticleSizing by Using Fraunhofer Diffraction.ILL-POSED PROBLEMS; SIZE DISTRIBUTION ANALYSIS; TIKHONOV REGULARIZATION; INVERSION ALGORITHMS; DISTRIBUTIONS; SCATTERING; BEAM, 2014, 53(27): 6185-6193.
[122]Li, Xiaolu; Liang, Yu; Xu, Lijun*.Bidirectional reflectance distribution function based surface modeling of non-Lambertian using intensity data of light detection and ranging.Journal of the Optical Society of America A-Optics Image Science and Vision, 2014, 31(9): 2055-2063.
[123]Sun, Shijie*; LI JUN XU; Cao, Zhang; Zhou, Haili; Yang, Wuqiang.AHigh-speed Electrical Impedance Measurement Circuit Based onInformation-filtering Demodulation.Measurement Science and Technology, 2014, 25(7):075010.
[124]LI JUN XU*; Chen, Jianjun; Cao, Zhang; Liu, Xingbin; Hu, Jinhai.Manchester code telemetry system for well logging using quasi-parallelinductive-capacitive resonance.Review of Scientific Instruments, 2014, 85(7):074704(10 pages).
[125]Deming Kong; Lijun Xu*; Xiaolu Li; Shuyang Li.K-plane-based classification of airborne LiDAR data for accurate building roof measurement.IEEE Transactions on Instrumentation and Measurement, 2014, 63(5): 1200-1214.
[126]Chen, Jianjun; Xu, Lijun*; Cao, Zhang; Zhou, Haili.Four-Terminal Imaging Using a Two-Terminal Electrical Impedance Tomography System.Ieee Transactions ON Instrumentation and Measurement, 2014, 63(2): 432-440.
[127]Lijun Xu*; Chang Liu; Deyan Zheng; Zhang Cao; Weiwei Cai.Digital signal processor-based high-precision on-line Voigt lineshape fitting for direct absorption spectroscopy.Review of Scientific Instruments, 2014, 85(12): 123108.
[128]Xiaolu Li; Lian Ma; Lijun Xu*.Real-time terrain classification using ICESat/GLAS data over Beijing area.Remote Sensing Letters, 2014, 5(7): 591-600.
[129]Cao Z.*; Song W.; Peng Z.; Xu L. A high precision method for mapping phase to amplitude in direct digital synthesis and its hardware implementation.Review of Scientific Instruments, 2014, 85(11). 114704(6 pages)
[130]Cao Z.*; Song W.; Peng Z.; Xu L. Coil shape optimization of the electromagnetic flowmeter for different flow profiles.Flow Measurement and Instrumentation, 2014, 40: 256-262.
[131]Lijun Xu*; Wenfeng Xu; Zhang Cao; Xingbin Liu; Jinhai Hu.Multiple parameters' estimation in horizontal well logging using a conductance-probe array.Flow Measurement and Instrumentation, 2014, 40: 192-198.
[132]Wang, Jianjun; Xu, Lijun*; Li, Xiaolu; Quan, Zhongyi.Quantitatively Evaluating Random Attitude Measurement Errors' Impacts on DSM Elevation Accuracy From Airborne Laser Scanning.IEEE Transactions on Instrumentation and Measurement, 2013, 62(11): 3101-3109.
[133]Li, Xiaolu*; Ma, Lian; Xu, Lijun.Empirical modeling for non-Lambertian reflectance based on full-waveform laser detection.Optical Engineering, 2013, 52(11): 116110.
[134]Jianjun Wang; Lijun Xu*; Xiaolu Li; Zhongyi Quan.A proposal to compensate platform attitude deviation's impact on laser point cloud from airborne LiDAR.IEEE Transactions on Instrumentation and Measurement, 2013, 62(9): 2549-2558.
[135]Kong, Deming; Xu, Lijun*; Li, Xiaolu.A new method for building roof segmentation from airborne LiDAR point cloud data.Measurement Science and Technology, 2013, 24(9): 095402.
[136]Chang Liu; Lijun Xu*; Zhang Cao.Measurement of nonuniform temperature and concentration distributions by combining line-of-sight tunable diode laser absorption spectroscopy with regularization methods.Applied Optics, 2013, 52(20): 4827-4842.
[137]Zhou, Haili; LI JUN XU*; Cao, Zhang; Liu, XiaoLei; Liu, Shi.A complex programmable logic device-based high-precision electricalcapacitance tomography system.Measurement Science and Technology, 2013, 24(7).
[138]Zhang Cao*; Lijun Xu.Direct recovery of the electrical admittivities in 2D electrical tomography by using Calderon's method and two-terminal/electrode excitation strategies.Measurement Science and Technology, 2013, 24(7): 74007.
[139]Zhongbao Wei; Xiaolu Li; Lijun Xu*; Yanting Cheng.Comparative study of computational intelligence approaches for NOx reduction of coal-fired boiler.Energy, 2013, 55: 683-692.
[140]Cao, Z; LI JUN XU*.2Dimage reconstruction of a human chest by using Calderon’s method and theadjacent current pattern.Journal of Instrumentation, 2013, 8.
[141]Zhang Cao*; Lijun Xu.Direct image reconstruction for 3-D electrical resistance tomography by using the factorization method and electrodes on a single plane.IEEE Transactions on Instrumentation and Measurement, 2013, 62(5): 999-1007.
[142]Lijun Xu*; Haili Zhou; Zhang Cao; Wuqiang Yang.A Digital Switching Demodulator for Electrical Capacitance Tomography.IEEE Transactions on Instrumentation and Measurement, 2013, 62(5): 1025-1033.
[143]Lijun Xu*; Chang Liu; Zhang Cao; Xiaomin Li.Particle size influence on effective permittivity of particle-gas mixture with particle clusters.Particuology, 2013, 11(2): 216-224.
[144]Lijun Xu*; Haili Zhou; Zhang Cao.A recursive least squares-based demodulator for electrical tomography.Review of Scientific Instruments, 2013, 84(4): 44704.
[145]Cao, Z.*; Xu, L.2D image reconstruction of a human chest by using Calderon's method and the adjacent current pattern.Journal of Instrumentation, 2013, 8: P03004.
[146]Xu, Wenfeng; Xu, Lijun*; Cao, Zhang; Chen, Jianjun; Liu, Xingbin; Hu, Jinhai.Normalized least-square method for water hold-up measurement in stratified oil-water flow.Flow Measurement and Instrumentation, 2012, 27: 71-80.
[147]Wang, Jianjun; Xu, Lijun*; Li, Xiaolu; Quan, Zhongyi.Quantitative Evaluation of Impacts of Random Errors on ALS Accuracy Using Multiple Linear Regression Method.IEEE Transactions on Instrumentation and Measurement, 2012, 61(8): 2242-2252.
[148]Lijun Xu*; Xiaolu Li; Xiangrui Tian; Deming Kong.Terrain slope estimation within footprint from ICESat/GLAS waveform: model and method.Journal of Applied Remote Sensing, 2012, 6: 1-10.
[149]Wei, Zhongbao; Li, Xiaolu; Xu, Lijun*; Tan, Cheng.Optimization of Operating Parameters for Low NOx Emission in High-Temperature Air Combustion.Energy & Fuels, 2012, 26(5): 2821-2829.
[150]Lijun Xu*; Lei Xin; Zhang Cao.l(1)-norm-based reconstruction algorithm for particle sizing.IEEE Transactions on Instrumentation and Measurement, 2012, 61(5): 1395-1404.
[151]Xu, Lijun*; Zhou, Wanlu; Li, Xiaomin.Wet gas flow modeling for a vertically mounted Venturi meter.Measurement Science and Technology, 2012, 23(4): 045301.
[152]Haili Zhou; Lijun Xu*; Zhang Cao; Jinhai Hu; Xingbin Liu.Image reconstruction for invasive ERT in vertical oil well logging.Chinese Journal of Chemical Engineering, 2012, 20(2): 319-328.
[153]Xu, Lijun; Tan, Cheng; Li, Xiaomin*; Cheng, Yanting; Li, Xiaolu.Fuel-Type Identification Using Joint Probability Density Arbiter and Soft-Computing Techniques.IEEE Transactions on Instrumentation and Measurement, 2012, 61(2): 286-296.
[154]Xu, L.*; Wang, Q.; Li, W.; Hou, Y. Stability analysis and stabilisation of full-envelope networked flight control systems: switched system approach.IET Control Theory and Applications, 2012, 6(2): 286-296.
[155]Tan, Cheng; Xu, Lijun; Li, Xiaomin*; Yan, Yong.Independent component analysis-based fuel type identification for coal-fired power plants.Combustion Science and Technology, 2012, 184(3): 277-292.
[156]Lijun Xu; Lei Xin; Zhang Cao.ℓ1-norm based reconstruction algorithm for particle sizing.IEEE Transactions on Instrumentation and Measurement, 2012, 61.
[157]Xu, Lijun*; Tian, Xiangrui; Li, Xiaolu; Shang, Guangyi; Yao, Junen.Geometric distortion correction for sinusoidally scanned images.Measurement Science and Technology, 2011, 22(11): 114023.
[158]Cao, Zhang; Xu, Lijun*; Fang, Wenru; Wang, Huaxiang.2D electrical capacitance tomography with sensors of non-circular cross sections using the factorization method.Measurement Science and Technology, 2011, 22(11): 114003.
[159]Takei, Masahiro*; Xu, Lijun.Sixth World Congress on Industrial Process Tomography (WCIPT6).Measurement Science and Technology, 2011, 22(10): 100101.
[160]Cao, Zhang; Xu, Lijun*.Direct image reconstruction for electrical capacitance tomography by using the enclosure method.Measurement Science and Technology, 2011, 22(10): 104001.
[161]Xu, Lijun; Zhou, Wanlu; Li, Xiaomin*; Wang, Minghao.Wet-Gas Flow Modeling for the Straight Section of Throat-Extended Venturi Meter.IEEE Transactions on Instrumentation and Measurement, 2011, 60(6): 2080-2087.
[162]Xu, Lijun*; Zhou, Wanlu; Li, Xiaomin; Tang, Shaliang.Wet Gas Metering Using a Revised Venturi Meter and Soft-Computing Approximation Techniques.IEEE Transactions on Instrumentation and Measurement, 2011, 60(3): 947-956.
[163]Cao, Zhang*; Xu, Lijun; Fan, Wenru; Wang, Huaxiang.Electrical Capacitance Tomography for Sensors of Square Cross Sections Using Calderon's Method.IEEE Transactions on Instrumentation and Measurement, 2011, 60(3): 900-907.
[164]Wang Jianjun; Xu Lijun; Li Xiaolu; Tian Xiangrui.Impact of attitude deviations on laser point cloud of airborne LiDAR.儀器儀表學(xué)報(bào), 2011, 32(8).
[165]Zhang Z; Ruan NJ; Zhou F; Zhijun Liu; Lijun Xu.High power continuous wave Tm:YAP laser dual-end-pumped by laser diode at 795 nm.Laser Physics, 2011, 21(6): 1078-1080.
[166]Cao, Zhang*; Xu, Lijun; Fan, Wenru; Wang, Huaxiang.Electrical capacitance tomography with a non-circular sensor using the dbar method.Measurement Science and Technology, 2010, 21(1): 015502.
[167]Tan Cheng; Li Xiaomin; Xu Lijun; Zhang Qi.On-line identification of new fuel type using joint probability density arbiter.儀器儀表學(xué)報(bào), 2010, 31(6).
[168]Zhou Wanlu; Xu Lijun.Modeling of wet gas flow in Vertically mounted Venturi meter.儀器儀表學(xué)報(bào), 2010, 31(5).
[169]Xu, Lijun; Tan, Cheng; Li, Xiaomin; Li, Xiaolu.On-line Identification of Fuel Type Using Joint Probability Density Arbiter and Support Vector Machine Techniques
[170]Zhou, Wanlu; Xu, Lijun; Li, Xiaomin.Wet gas flow modeling for the straight section of throat-extended Venturi meter
[171]Zhang Cao; Lijun Xu; Huaxiang Wang.Electrical capacitance tomography with a non-circular sensor using the dbar method.Measurement Science and Technology, 2009, 21(1): 15502-15502.
[172]Cao, Zhang; Xu, Lijun; Wang, Huaxiang.Image reconstruction technique of electrical capacitance tomography for low-contrast dielectrics using Calderon's method.Measurement Science and Technology, 2009, 20(10): 104027.
[173]Zhang Cao; Lijun Xu; Jie Ding.Integral inversion to Fraunhofer diffraction for particle sizing.Applied Optics, 2009, 48(25): 4842-4850.
[174]Lijun Xu*; Xiaomin Li.Dual-channel pseudorandom sequence generator with precise time delay between its two channels.IEEE Transactions on Instrumentation and Measurement, 2008, 57(12): 2880-2884.
[175]Cao, Zhang; Wang, Huaxiang; Xu, Lijun*.Electrical impedance tomography with an optimized calculable square sensor.Review of Scientific Instruments, 2008, 79(10): 103710.
[176]Xiaomin Li; Lijun Xu; Songyun Li.Experimental Study on Size-Dependency of Effective Permittivity of Particle-Gas Mixture with Agglomeration.Chinese Journal of Scientific Instrument, 2007, 28(11): 1932-1936.
[177]Lijun Xu*; Yong Yan.An improved algorithm, for the measurement of flame oscillation frequency.IEEE Transactions on Instrumentation and Measurement, 2007, 56(5): 2087-2093.
[178]Yan, Yong*; Xu, Lijun; Lee, Peter.Mass flow measurement of fine particles in a pneumatic suspension using electrostatic sensing and neural network techniques.IEEE Transactions on Instrumentation and Measurement, 2006, 55(6): 2330-2334.
[179]Xu, Lijun*; Yan, Yong.A new flame monitor with triple photovoltaic cells.IEEE Transactions on Instrumentation and Measurement, 2006, 55(4): 1416-1421.
[180]David Melodelima, Jeffrey C. Bamber, Francis A. Duck, Jacqueline A. Shipley, Lijun Xu, Elastography for breast cancer diagnosis using radiation force: System development and performance evaluation, Ultrasound in Medicine and Biology, vol. 32, no. 3, pp. 387-396, March 2006.
[181]Feng Dong; Yanbin Xu; Lijun Xu; Lei Hua; Xutong Qiao.Application of dual-plane ERT system and cross-correlation technique to measure gas-liquid flows in vertical upward pipe.Flow Measurement and Instrumentation, 2005, 16(2-3): 191-197.
[182]Lijun Xu.Cancellation of harmonic interference by baseline shifting of wavelet packet decomposition coefficients.IEEE Trans. Signal Processing, 2005, 53(1): 222-230.
[183Feng Dong; Yanbin Xu; Xutong Qiao; Lijun Xu; Ling-an Xu.Void fraction measurement for two-phase flow using electrical resistance tomography.Canadian Journal of Chemical Engineering, 2005, 83(1): 19-23.
[184]Lijun Xu; Yong Yan; Steve Cornwell; Gerry Riley.On-line fuel tracking by combining principal component analysis and neural network techniques.IEEE Transactions on Instrumentation and Measurement, 2005, 54(4): 1640-1645.
[185]Lijun Xu; Jun Han; Ya Wang.Design of electrode array of inductance flowmeter.IEEE Sensors Journal, 2005, 5(5): 929-933.
[186]Lijun Xu; Jian Qiu Zhang; Yong Yan.A wavelet-based multi-sensor data fusion algorithm.IEEE Transactions on Instrumentation and Measurement, 2004, 53(6): 1539-1545.
[187]Lijun Xu; Yong Yan.Wavelet-based Removal of Sinusoidal Interference from a Signal.Measurement Science and Technology, 2004, 15(9): 1779-1786.
[188]Lijun Xu; Ya Wang; Feng Dong.On-line monitoring of nonaxisymmetric flow profile with a multielectrode inductance flowmeter.IEEE Transactions on Instrumentation and Measurement, 2004, 53(4): 1321-1326.
[189]Lijun Xu; Yong Yan; Steve Cornwell; Gerry Riley.On-Line Fuel Identification Using Digital Signal Processing and Fuzzy Inference Techniques.IEEE Transactions on Instrumentation and Measurement, 2004, 53(4): 1316-1320.
[190]Lijun Xu; Jian Xu; Feng Dong; Tao Zhang.On fluctuation of the dynamic differential pressure signal of Venturi meter for wet gas metering.Flow Measurement and Instrumentation, 2003, 14(4-5): 211-217.
[191]Lijun Xu; Xiaomin Li; Feng Dong; Y. Wang; L. A. Xu.Optimum estimation of the mean flow velocity for the multi-electrode inductance flowmeter.Measurement Science and Technology, 2001, 12(8): 1139-1146.
[192]Feng Dong; Xiaoping Liu; Xiang Deng; Lijun Xu; Ling-an Xu.Identification of two-phase flow regimes in horizontal, inclined and vertical pipes.Measurement Science and Technology, 2001, 12(8): 1069-1075.
[193]X. Deng; Feng Dong; Lijun Xu; X. P. Liu; L. A. Xu.The design of a dual-plane ERT system for cross correlation measurement of bubbly gas/liquid pipe flow.Measurement Science and Technology, 2001, 12(8): 1024-1031.
[194]A. Weber; Lijun Xu; G. Kasper.Simultaneous in situ measurement of size, charge and velocity of single aerosol particles.Journal of Aerosol Science, 2000, 31: 1015-1016.
[195]Lijun Xu; A. Weber; G. Kasper.Capacitance-based concentration measurement for gas-particle system with low particles loading.Flow Measurement and Instrumentation, 2000, 11(3): 185-194.
[196]Lijun Xu; YT Han; YS Yang; LA Xu.Application of ultrasonic tomography to monitoring gas/liquid flow.Chemical Engineering Science, 1997, 52(13): 2171-2183.
[197]Lijun Xu; L. A. Xu.Ultrasound tomography system used for monitoring bubbly gas/liquid two-phase flow.IEEE Trans. on Ultrasonics, Ferroelectrics, and Frequency Control, 1997, 44(1): 67-76.
[198]J. S. Yang; Lijun Xu; C. Y. Xing; G. Yang.Finite element-artificial transmitting boundary method for wave scattering from irregular cylinder.Trans. of Tianjin University, 1997, 3(2): 128-131.
[199]Lijun Xu; L. A. Xu.Gas/liquid two-phase flow regime identification by ultrasonic tomography.Flow Measurement and Instrumentation, 1997, 8(3-4): 145-155.
[200]Fu, Bo; Zhang, Chenghong; Lyu, Wenhao; Sun, Jingxuan; Shang, Ce; Cheng, Yuan; Xu, Lijun*.Recent progress on laser absorption spectroscopy for determination of gaseous chemical species.Applied Spectroscopy Reviews.
發(fā)表中文期刊論文:
[1]郭晶晶, 郭校言, 脫佳霖, 李卓洲, 徐立軍. 柔性有機(jī)聚合物光子器件及其生物醫(yī)學(xué)應(yīng)用[J]. 激光與光電子學(xué)進(jìn)展, 2023, 60 (13): 33-51.
[2]馬向東, 徐立軍, 馬建國(guó). 用于超聲成像的陣列式光纖傳感系統(tǒng)研究[J]. 國(guó)外電子測(cè)量技術(shù), 2023, 42 (04): 74-79.
[3]曹章, 高欣, 陸方皞, 徐立軍. 激光吸收光譜層析成像及復(fù)雜燃燒場(chǎng)動(dòng)態(tài)監(jiān)測(cè)[J]. 中國(guó)激光, 2022, 49 (19): 117-138.
[4]付博, 趙小麗, 張晗, 徐立軍. 激光技術(shù)在血栓消融中的應(yīng)用與進(jìn)展[J]. 中國(guó)激光, 2022, 49 (19): 207-218.
[5]李小路, 周依爾, 畢騰飛, 余瑞欽, 王子寧, 黃建斌, 徐立軍. 輕量型感知激光雷達(dá)關(guān)鍵技術(shù)發(fā)展綜述[J]. 中國(guó)激光, 2022, 49 (19): 263-277.
[6]徐立軍, 劉福祿, 丁一清, 李正勇, 謝躍東. 基于電磁超聲橫波的管道剩余厚度檢測(cè)[J]. 北京航空航天大學(xué)學(xué)報(bào), 2022, 48 (09): 1767-1773.
[7]李小路, 張藝齡, 徐立軍. 研究生國(guó)際化培養(yǎng)實(shí)施情況調(diào)研分析[J]. 教育教學(xué)論壇, 2022, (11): 1-4.
[8]車漢橋, 王海剛, 徐立軍. 制藥流化床濕式制粒過程CFD-DEM建模:方法及挑戰(zhàn)[J]. 工程熱物理學(xué)報(bào), 2021, 42 (11): 2885-2892.
[9]李效霖, 孫江濤*, 田文斌, 龍軍, 劉旭輝, 徐立軍. 微小衛(wèi)星液化推進(jìn)劑氣化過程可視化檢測(cè)方法[J]. 空間控制技術(shù)與應(yīng)用, 2021, 47 (04): 93-102.
[10]李小路, 徐立軍, 李端, 張藝齡. 大學(xué)課程中的學(xué)術(shù)規(guī)范化教育與新思路——以本科核心通識(shí)課為例[J]. 教育教學(xué)論壇, 2021, (24): 17-20.
[11]周相坡, 周依爾, 徐立軍, 李小路. 一種基于概率路線圖的月球巡航車路徑規(guī)劃算法[J]. 空間控制技術(shù)與應(yīng)用, 2020, 46 (06): 43-49+78.
[12]呼延嘉玥,徐立軍,李小路.自研激光雷達(dá)三維點(diǎn)云配準(zhǔn)技術(shù)[J].北京航空航天大學(xué)學(xué)報(bào),2019,45(10):2099-2107.
[13]李小路,曾晶晶,王皓,徐立軍.三維掃描激光雷達(dá)系統(tǒng)設(shè)計(jì)及實(shí)時(shí)成像技術(shù)[J].紅外與激光工程,2019,48(05):35-42.
[14]謝藝歆,曹章,孫世杰,徐立軍.基于壓縮感知的掃頻阻抗測(cè)量方法及硬件實(shí)現(xiàn)[J].電子測(cè)量技術(shù),2018,41(16):108-112.
[15]陳亞婧,邱爽,徐立軍.多譜線TDLAS測(cè)溫中譜線選擇的實(shí)驗(yàn)研究[J].電子測(cè)量與儀器學(xué)報(bào),2017,31(12):1948-1952.
[16]李小路,李昀曄,謝鑫浩,徐立軍.基于葉片含水量的激光偏振成像模型研究[J].紅外與激光工程,2017,46(11):121-126.
[17]楊陽,劉暢,徐立軍.基于波長(zhǎng)調(diào)制諧波信號(hào)主峰擬合的氣體濃度測(cè)量方法[J].北京航空航天大學(xué)學(xué)報(bào),2017,43(11):2187-2192.
[18]王雪松,戴瓊海,焦李成,洪文,徐立軍,邢孟道,馮德軍,陳思偉,代大海.高性能探測(cè)成像與識(shí)別的研究進(jìn)展及展望[J].中國(guó)科學(xué):信息科學(xué),2016,46(09):1211-1235.
[19]田祥瑞,徐立軍,徐騰,李小路,張勤拓.車載LiDAR掃描系統(tǒng)安置誤差角檢校[J].紅外與激光工程,2014,43(10):3292-3297.
[20]馬蓮,李小路,徐騰,徐立軍,馮顯宗.一種基于重復(fù)軌道高程數(shù)據(jù)的坡度估計(jì)算法[J].武漢大學(xué)學(xué)報(bào)(信息科學(xué)版),2014,39(09):1121-1127.
[21]陳路路,李小路,賀濤,徐立軍.基于圖像拼接的空冷凝汽器散熱面溫度場(chǎng)測(cè)量[J].光學(xué)學(xué)報(bào),2013,33(11):98-103.
[22]靖麗麗,徐立軍,李小路,田祥瑞,潘亮.SURF算法在航攝圖像導(dǎo)航中的應(yīng)用[J].武漢大學(xué)學(xué)報(bào)(工學(xué)版),2013,46(05):621-625.
[23]孫緒彬,徐立軍,王宏,董海榮.射流火焰溫度場(chǎng)廣義隨機(jī)分布模型的迭代學(xué)習(xí)控制[J].北京理工大學(xué)學(xué)報(bào),2013,33(05):523-528.
[24]周海力,徐立軍,曹章,胡金海,劉興斌.用于豎直油井測(cè)井的侵入式電阻層析成像圖像重建(英文)[J].Chinese Journal of Chemical Engineering,2012,20(02):319-328.
[25]李小路,徐立軍,田祥瑞,王建軍.平臺(tái)運(yùn)動(dòng)誤差對(duì)機(jī)載LiDAR激光腳點(diǎn)分布的影響分析[J].武漢大學(xué)學(xué)報(bào)(信息科學(xué)版),2011,36(11):1270-1274+1279.
[26]王建軍,徐立軍,李小路,田祥瑞.姿態(tài)角擾動(dòng)對(duì)機(jī)載激光雷達(dá)點(diǎn)云數(shù)據(jù)的影響[J].儀器儀表學(xué)報(bào),2011,32(08):1810-1817.
[27]王建軍,徐立軍,李小路.姿態(tài)角隨機(jī)測(cè)量誤差對(duì)機(jī)載激光掃描成像的影響[J].中國(guó)激光,2011,38(03):225-233.
[28]譚丞,李曉敏,徐立軍,吳煜婷.基于聯(lián)合概率密度判別器和神經(jīng)網(wǎng)絡(luò)技術(shù)的煤種辨識(shí)方法[J].機(jī)械工程學(xué)報(bào),2010,46(18):18-23.
[29]譚丞,李曉敏,徐立軍,張琦.一種基于聯(lián)合概率密度判別器的新煤種在線辨識(shí)方法[J].儀器儀表學(xué)報(bào),2010,31(06):1229-1234.
[30]周婉露,徐立軍.垂直安裝文丘里管濕氣測(cè)量模型研究[J].儀器儀表學(xué)報(bào),2010,31(05):1120-1125.
[31]徐立軍,李小路,曹章.《信號(hào)分析與處理》雙語教學(xué)的探索[J].教育教學(xué)論壇,2010(06):20-22.
[32]譚丞,徐立軍,曹章.煤燃燒過程監(jiān)測(cè)與診斷技術(shù)的發(fā)展與應(yīng)用[J].工程研究-跨科學(xué)視野中的工程,2009,1(02):111-118.
[33]徐立軍,李松云,龔立艷,商廣義,姚駿恩.原子力顯微鏡圖像小波去噪方法的研究[J].電子顯微學(xué)報(bào),2009,28(02):135-140.
[34]龔立艷,徐立軍,錢建強(qiáng),姚駿恩.原子力顯微鏡圖像降噪與平面校正的同步實(shí)現(xiàn)[J].高技術(shù)通訊,2008,18(07):725-731.
[35]張博,王陶,徐立軍,閆勇.粉料氣力輸送狀態(tài)在線監(jiān)測(cè)裝置研究[J].儀器儀表學(xué)報(bào),2007(11):1999-2002.
[36]徐立軍,王亞,姜印平,徐苓安.電磁流量計(jì)電場(chǎng)動(dòng)態(tài)平衡過程分析[J].儀器儀表學(xué)報(bào),2004(01):39-43.
[37]許燕斌,董峰,王文輝,徐立軍.基于RS-485的多電極電磁流量計(jì)的遠(yuǎn)程監(jiān)控[J].自動(dòng)化儀表,2004(01):17-20.
[38]許燕斌,董峰,徐立軍.ERT數(shù)據(jù)采集系統(tǒng)通訊模塊的設(shè)計(jì)[J].儀器儀表學(xué)報(bào),2003(S2):706-708.
[39]徐立軍,王亞,喬旭彤,徐苓安.多對(duì)電極電磁流量計(jì)傳感器電極陣列設(shè)計(jì)[J].儀器儀表學(xué)報(bào),2003(04):335-339.
[40]李鵬,徐立軍,董峰.非牛頓液體粘度的在線測(cè)量方法[J].天津大學(xué)學(xué)報(bào),2003(02):169-173.
[41]許建,徐立軍,董峰,張濤.氣液兩相流動(dòng)態(tài)差壓信號(hào)分析[J].儀器儀表學(xué)報(bào),2002(S2):509-510.
[42]姜之旭,董峰,徐立軍,徐苓安.基于神經(jīng)網(wǎng)絡(luò)的水平管中氣/液兩相流流型識(shí)別[J].儀器儀表學(xué)報(bào),2002(S2):511-512.
[43]鄭兆敏,姜常珍,孫永進(jìn),徐立軍.電阻層析成像均勻場(chǎng)域的建立方法[J].儀器儀表學(xué)報(bào),2002(S2):660-661.
[44]喬旭彤,徐立軍,董峰.多電極電磁流量計(jì)勵(lì)磁線圈的優(yōu)化與設(shè)計(jì)[J].儀器儀表學(xué)報(bào),2002(S2):867-869.
[45]李鵬,徐立軍,姜印平.基于電磁感應(yīng)的液體粘度在線測(cè)量方法研究[J].儀器儀表學(xué)報(bào),2002(S2):870-872.
[46]張濤,李香平,徐立軍.智能控制雙通道偽隨機(jī)信號(hào)發(fā)生器[J].儀器儀表學(xué)報(bào),2002(04):382-385.
[47]姜常珍,孫永進(jìn),徐立軍.電阻層析成像激勵(lì)電極加權(quán)研究[J].天津大學(xué)學(xué)報(bào),2002(03):348-353.
[48]徐立軍,王亞,董峰,徐苓安.基于多電極電磁流量計(jì)的流速場(chǎng)重建[J].自然科學(xué)進(jìn)展, 2002, 12(5): 524-528.
[49]王亞; 董峰; 徐立軍.基于變頻器技術(shù)的氣/液兩相流流型的控制.天津大學(xué)學(xué)報(bào) 增刊, 2002, 35: 41-44.
[50]孫永進(jìn),姜常珍,徐立軍.電阻層析成像(ERT)兩相流檢測(cè)激勵(lì)源對(duì)比分析[J].儀器儀表學(xué)報(bào),2001(S1):1-2.
[51]鄧湘,董峰,徐立軍,劉小平,徐苓安.雙敏感電極陣列的電阻層析成像系統(tǒng)的優(yōu)化設(shè)計(jì)[J].儀器儀表學(xué)報(bào),2001(S1):241-242.
[52]王亞,李鵬,徐立軍.一種單極性輸入雙極性輸出壓控恒流源[J].儀器儀表學(xué)報(bào),2001(S1):366-367+369.
[53]董峰,徐立軍,劉小平,徐苓安.用電阻層析成像技術(shù)實(shí)現(xiàn)兩相流流型識(shí)別[J].儀器儀表學(xué)報(bào),2001(S1):416-417+431.
[54]劉澤,何敏,徐立軍,徐苓安,熊漢亮.電磁層析成像系統(tǒng)信號(hào)檢測(cè)與處理的優(yōu)化設(shè)計(jì)[J].天津大學(xué)學(xué)報(bào),2001(04):425-429.
[55]鄧湘,董峰,徐立軍,劉小平,徐苓安.提高電阻層析成像實(shí)時(shí)性能的研究[J].天津大學(xué)學(xué)報(bào),2001(04):467-471.
[56]董峰,鄧湘,徐立軍,徐苓安.過程層析成像技術(shù)綜述[J].儀器儀表用戶,2001(01):6-11.
[57]徐立軍,鄧紅梅,徐苓安.應(yīng)用于過程層析成像系統(tǒng)的多處理機(jī)網(wǎng)絡(luò)研究[J].電子測(cè)量與儀器學(xué)報(bào),2000(02):35-40.
[58]徐立軍; 郝瑩; 王亞; 徐苓安.多對(duì)電極電磁流量測(cè)量方法的仿真研究.東北大學(xué)學(xué)報(bào)(自然科學(xué)版), 2000, 21(s1): 85-88.
[59]鄧紅梅,徐立軍,馬藝馨,徐苓安.多處理機(jī)網(wǎng)絡(luò)在電阻層析成像系統(tǒng)中的應(yīng)用研究(英文)[J].儀器儀表學(xué)報(bào), 1999, 20(1): 1-5.
[60]鄧紅梅,黃正勇,徐立軍,徐苓安.應(yīng)用于工業(yè)長(zhǎng)距離實(shí)時(shí)控制的高速接口設(shè)計(jì)[J].小型微型計(jì)算機(jī)系統(tǒng), 1999, 20(2): 152-154.
[61]楊吉生,徐立軍,邢昌玉,楊光.FINITE ELEMENT-ARTIFICIAL TRANSMITTING BOUNDARY METHOD FOR WAVE SCATTERING FROM IRREGULAR CYLINDER[J].Transactions of Tianjin University,1997(02):36-39.
[62]張濤,徐立軍,孫桂玲.雙通道偽隨機(jī)信號(hào)發(fā)生器的研究[J].電子測(cè)量與儀器學(xué)報(bào), 1997, 11(2): 11-15.
[63]楊吉生,谷晉騏,徐立軍,楊光,劉義族.柱面波在不規(guī)則目標(biāo)上散射近場(chǎng)的有限元解法[J].計(jì)算物理,1996,13(02):253-256.
[64]徐立軍,韓忠禮,陳震祥,徐苓安.氣液兩相泡狀流體監(jiān)測(cè)用超聲層析成象系統(tǒng)的研究[J].儀器儀表學(xué)報(bào),1996���,17(01):1-7+18.
[65]徐立軍; 徐苓安.超聲層析成像監(jiān)測(cè)氣/液兩相泡狀流體分布.天津大學(xué)學(xué)報(bào), 1995, 28(2): 129-135.
發(fā)表會(huì)議論文:
[1]Lu F.; Xu L.*; Zhang H.; Wang C.; Cao Z.A flexibly reconfigurable data acquisition system for tunable diode laser absorption spectroscopy.2020 IEEE International Instrumentation and Measurement Technology Conference, I2MTC 2020, 2020-05-25 To 2020-05-29.
[2]Xu L.*; Hou G.; Li Y.; Qiu S.; Song Z.; Cao Z.A compact noise-immune TDLAS temperature sensor using intensity modulation.2020 IEEE International Instrumentation and Measurement Technology Conference, I2MTC 2020, 2020-05-25 To 2020-05-29.
[3]Ran Chenhao; Xu Lijun; Chang Liuyong; Cao Zhang.Distribution retrieval of temperature from its histograms via the tunable diode laser absorption spectroscopy.IEEE International Instrumentation and Measurement Technology Conference (I2MTC), 2017-05-22 to 2017-05-27.
[4]Zhang Wenqiang; Xu Lijun; Qu Qianwei; Cao Zhang; Sun Jiangtao.Local Integrated Absorbance Tomography Based on Revised Iterative Reconstruction-Reprojection Algorithm.IEEE International Conference on Imaging Systems and Techniques (IST) / IEEE International School on Imaging, 2017-10-18 to 2017-10-20.
[5]Qu, Qianwei*; Xu, Lijun; Cao, Zhang; Liu, Chang.Effects of Views and Spectral Lines Numbers on Hyperspectral Temperature Distribution Tomography.2016-05-23 to 2016-05-26.
[6]Liu, Chang; Xu, Lijun*; Cao, Zhang; Li, Fangyan; Lin, Yuzhen.Reconstruction of Temperature Distribution for Swirling Flames Using One-dimensional TDLAS Tomography.2016-10-04 to 2016-10-06.
[7]Mahmoud, Alaaeldin*; Xu, Dong; Xu, Lijun.Optical design of common aperture and high resolution electrooptical/infrared system for aerial imaging applications.2016-04-04 to 2016-04-07.
[8]Mahmoud, Alaaeldin*; Xu, Dong; Xu, Lijun.Optical design of high resolution and shared aperture electrooptical/infrared sensor for uav remote sensing applications.2016-07-10 to 2016-07-15.
[9]Rui Yin; Lijun Xu; Xiaolu Li*.A simplified PIV-based method for flame velocity distribution measurement.2015 IEEE International Conference on Imaging Systems and Techniques (IST), Macau, 2015-09-16 to 2015-09-18.
[10]Fangyan Li; Lijun Xu*; Zhang Cao; Minglong Du.A chemi-ionization processing approach for characterizing flame flickering behavior.2015 IEEE International Instrumentation and Measurement Technology Conference (I2MTC), Italy, 2015-05-11 to 2015-05-14.
[11]Shijie Sun; Zhang Cao; Lijun Xu*.A noncontact conductivity detection method based on the principle of electromagnetic induction.2015 IEEE International Instrumentation and Measurement Technology Conference (I2MTC), Italy, 2015-05-11 to 2015-05-14.
[12]Jianjun Chen; Lijun Xu*; Zhang Cao; Xingbin Liu.Identification of oil-water flow patterns using conductance probe in vertical well.2015 IEEE InternationalInstrumentation and Measurement Technology Conference (I2MTC), Italy, 2015-05-11 to 2015-05-14.
[13]Xie, Heng; Cao, Zhang; Zhou, Jiayi; Xu, Lijun.Ghost Imaging of Binary-valued Objects by Using a CCD and an Equivalent Photodiode.2015-09-16 to 2015-09-18.
[14]Zhou, Z.*; Chen, T.; Xu, L.An Improved Dead Reckoning Algorithm for Indoor Positioning Based on Inertial Sensors.2015-07-26 to 2015-07-27.
[15]李小路; 吳迪; 徐立軍.基于全波形激光雷達(dá)實(shí)驗(yàn)系統(tǒng)的波形特征及其目標(biāo)反射率研究.中國(guó)儀器儀表學(xué)會(huì)第十六屆青年學(xué)術(shù)會(huì)議, 中國(guó),北京市.
[16]Liu, Chang*; Xu, Lijun; Cao, Zhang; Li, Fangyan.One-dimensional Tomography of Axisymmetric Temperature Distribution with Limited TDLAS Data by Using Three-point Abel Deconvolution.2014-10-14 to 2014-10-17.
[17]Cao, Zhang*; Huang, Chi; Xu, Lijun.Factorization method for electrical resistance tomography with partial boundary measurements.2014-10-14 to 2014-10-17.
[18]Li, Duan*; Xu, Lijun; Li, Xiaolu; Wu, Di.A novel full-waveform LiDAR echo decomposition method and simulation verification.2014-10-14 to 2014-10-17.
[19]Sun, Shijie; Xu, Lijun*; Cao, Zhang; Jing, Wenyang.A Digital Demodulator Based on the Recursive Gauss-Newton Method for Electrical Tomography.2014-10-14 to 2014-10-17.
[20]Zhang, Yumei*; Xu, Lijun; Cao, Zhang.Analysis of the Electromagnetic Wave Resistivity Tool in Deviated Well Drilling.8th International Symposium on Measurement Techniques for Multiphase Flows, 2013-12-13 to 2013-12-15.
[21]Zhang, Yumei; Xu, Lijun; Cao, Zhang; Xu, L*.Optimization of the Electromagnetic Wave Resistivity Tool in Logging While Drilling.2013-10-22 to 2013-10-23.
[22]Xu, Teng*; Xu, Lijun; Li, Xiaolu; Tian, Xiangrui.Impact of Attitude Measurement Errors on Laser Footprints Positioning Accuracy.2013-10-22 to 2013-10-23.
[23]Jing, Lili*; Xu, Lijun; Li, Xiaolu; Tian, Xiangrui.Determination of Platform Attitude Through SURF Based Aerial Image Matching.2013-10-22 to 2013-10-23.
[24]Nie, Jing*; Meng, XiaoFeng; Xu, LiJun; Zheng, Rui.Dew point measurement using a quartz crystal sensor.2013-05-06 to 2013-05-09.
[25]Zhang Cao*; Lijun Xu.Direct image reconstruction for ERT by using measurements on partial boundary.IEEE International Conference on Imaging Systems and Techniques (IST), China,Beijing, 2013-10-22 to 2013-10-23.
[26]Lili Jing*; Lijun Xu; Xiaolu Li; Xiangrui Tian.A federal UKF algorithm in INS/GPS/aerial image integrated attitude determination system.IEEE International Conference on Imaging Systems and Techniques (IST), China,Beijing, 2013-10-22 to 2013-10-23.
[27]Xiaolu Li*; Lian Ma; Lijun Xu.Land classification from LiDAR full-waveforms based on multi-class support vector machines.IEEE International Conference on Imaging Systems and Techniques (IST), China,Beijing, 2013-10-22 to 2013-10-23.
[28]Kong, Deming; Xu, Lijun*; Li, Xiaolu; Li, Shuyang.A Real-time Method for DSM Generation from Airborne LiDAR Data.IEEE International Instrumentation and Measurement Technology Conference (I2MTC), 2013-05-06 to 2013-05-09.
[29]Xin, Lei; Xu, Lijun; Cao, Zhang*.Laser spot center location by using the gradient-based and least square algorithms.IEEE International Instrumentation and Measurement Technology Conference (I2MTC), 2013-05-06 to 2013-05-09.
[30]Li, Duan; Xu, Lijun*; Li, Xiaolu; Ma, Lian.FULL-WAVEFORM LIDAR SIGNAL FILTERING BASED ON EMPIRICAL MODE DECOMPOSITION METHOD.IEEE International Geoscience and Remote Sensing Symposium (IGARSS), 2013-07-21 to 2013-07-26.
[31]Li, Xiaolu; Ma, Lian; Li, Duan; Xu, Lijun*.AN AUTOMATIC ALGORITHM FOR SLOPE ESTIMATION FROM REPEAT TRACKS OF ICESAT/GLAS.IEEE International Geoscience and Remote Sensing Symposium (IGARSS), 2013-07-21 to 2013-07-26.
[32]Liu Chang; Xu Lijun; Cao Zhang.Measurement of axisymmetric temperature distributions using single view fan-beam TDLAS tomography.2013 IEEE International Instrumentation and Measurement Technology Conference: Instrumentation and Measurement for Life, I2MTC 2013 , United States, 2013-05-06 to 2013-05-09.
[33]Haili Zhou; Lijun Xu*; Zhang Cao.A digital demodulation method for electrical tomography based on sine wave rectification.Proceedings of 2012 IEEE International Conference, United Kingdom, 2012-07-16 to 2012-07-17.
[34]Zhang Cao; Lijun Xu*.A direct reconstruction algorithm for recovering the admittivities in 2D electrical tomography.Proceedings of 2012 IEEE International Conference on Imaging Systems and Techniques (IST2012), United Kingdom, 2012-07-16 to 2012-07-17.
[35]Xiaolu Li; Zhongbao Wei; Lijun Xu*.Effect of inclined angle of fuel jet on NOx emission in high temperature air combustion.2012 IEEE International Conference on Imaging Systems and Techniques (IST), United Kingdom, 2012-07-16 to 2012-07-17.
[36]Yujia Liu; Yumei Zhang; Zhang Cao; Lijun Xu*.An adaptive algorithm for cross-correlation velocity measurement.Proceedings of the 8th IEEE International Symposium on Instrumentation and Control Technology, 2012-07-11 to 2012-07-13.
[37]Chang Liu; Lijun Xu*; Zhang Cao.Simulation on measuring of nonuniform temperature distribution based on line-of-sight TDLAS by using Tikhonov regularization method.Proceedings of the 8th IEEE International Symposium on Instrumentation and Control Technology ., 2012-07-11 to 2012-07-13.
[38]Lijun Xu*; Yanting Cheng; Xiaolu Li.Online coal calorific value prediction from mutiband coal/air combustion radiation characteristics.Proceedings of the 8th IEEE International Symposium on Instrumentation and Control Technology, United Kingdom, 2012-07-11 to 2012-07-13.
[39]Kong Deming; Xu Lijun*; Li Xiaolu; Tian Xiangrui.A new concept for the distributions of wavelet packet decomposition coefficients in detail subbands.8th IEEE International Symposium on Instrumentation and Control Technology, ISICT 2012, 2012-07-11 to 2012-07-13.
[40]Li, Xiaolu; Li, Duan; Xu, Lijun; Xu, L*.Slope estimations in forest area from waveform and dem.2012-07-22 to 2012-07-27.
[41]Cao, Zhang*; Xu, Lijun.Direct Image Reconstruction for 3D Electrical Resistance Tomography by Using the Factorization Method.IEEE International Instrumentation and Measurement Technology Conference (I2MTC), 2012-05-13 to 2012-05-16.
[42]Li, Xiaolu; Xu, Lijun*; Wang, Changwei.TERRAIN SLOPE CALCULATION FROM WAVEFORM OF AIRBORNE LIDAR.IEEE International Geoscience and Remote Sensing Symposium (IGARSS), 2012-07-22 to 2012-07-27.
[43]Zhou, Haili; Xu, Lijun*; Cao, Zhang; Xu, Chenfeng.An Alternative Digital Multiplication Demodulation Method for Electrical Capacitance Tomography.IEEE International Instrumentation and Measurement Technology Conference (I2MTC), 2012-05-13 to 2012-05-16.
[44]Yanting Cheng; Lijun Xu; Xiaolu Li; Tao He.Compensation of optical path difference for colorimetric temperature imaging.2011 IEEE International Conference on Imaging Systems and Techniques (IST2011), Malaysia, 2011-05-17 to 2011-05-18.
[45]Cheng Tan; Lijun Xu; Xiaolu Li; Zhongbao Wei.CFD Modelling of Velocity Distribution in Tangential Coal-fired Flame.2011 IEEE International Conference on Imaging Systems and Techniques (IST2011), Malaysia, 2011-05-17 to 2011-05-18.
[46]Haili Zhou; Lijun Xu; Zhang Cao; Jinhai Hu; Xingbin Liu.DC Bias Compensation in Digital AC-based Capacitance Measurement for ECT.2011 IEEE International Conference on Imaging Systems and Techniques (IST2011), Malaysia, 2011-05-17 to 2011-05-18.
[47]Jianjun Wang; Lijun Xu; Xiaolu Li; Xiangrui Tian.Simulation on Impact of Random Attitude Measurement Errors on Point Cloud and 3D Image of ALS.2011 IEEE International Conference on Imaging Systems and Techniques (IST2011), Malaysia, 2011-05-17 to 2011-05-18.
[48]Zhang Cao; Lijun Xu; Chenfeng Xu; Yanping Zhu.Direct image reconstruction for electromagnetic tomography by using the factorization method.2011 IEEE International Conference on Imaging Systems and Techniques (IST2011), Malaysia, 2011-05-17 to 2011-05-18.
[49]Lei Xin; Lijun Xu; Zhang Cao.ℓ1 norm based reconstruction algorithm for particle sizing.I2MTC2011-IEEE International Instrumentation and Measurement Technology Conference, China, 2011-05-10 to 2011-05-12.
[50]Xin Lei; Xu Lijun*; Cao Zhang.ℓ1 norm based reconstruction algorithm for particle sizing.2011 IEEE International Instrumentation and Measurement Technology Conference, I2MTC 2011, 2011-05-10 to 2011-05-12.
[51]Xu, Lijun; Peng, Zhicong; Cao, Zhang; Ling, Qi; Wang, Gang; Xu, L*.Weighting Function-Based Coil Size Optimization for Electromagnetic Flowmeter.2011-05-10 to 2011-05-12.
[52]Chen, Jianjun; Cao, Zhang; Xu, Lijun; Xu, L*.Four-terminal Scheme Used in a Two-terminal EIT System.2011-05-10 to 2011-05-12.
[53]Wang, Jianjun*; Xu, Lijun; Li, Xiaolu; Tian, Xiangrui.Impact Analysis of Random Measurement Errors on Airborne Laser Scanning Accuracy.2011-05-10 to 2011-05-12.
[54]Cao, Zhang*; Xu, Lijun; Liu, Xingbin.Direct Image Reconstruction For Electromagnetic Tomography(EMT) by Using the Dbar Method.2011-05-10 to 2011-05-12.
[55]Zeng, Yi; Xu, Lijun; Cao, Zhang; Ma, Shuilong; Xu, L*。FPGA-based implementation of Prony Demodulation in the Multi-frequency EIT System.2011-05-10 to 2011-05-12.
[56]Li, Xiaolu*; Xu, Lijun; Quan, Zhongyi; Zhang, Chaozeng.Model of Measuring Slop from Raw Data of Full-waveform Topographic lidar.2011-05-10 to 2011-05-12.
[57]Wu, Yuting; Cao, Zhang; Xu, Lijun; Xu, L*.A simplified model for non-destructive thickness measurement immune to the lift-off effect.2011-05-10 to 2011-05-12.
[58]Xin, Lei; Xu, Lijun*; Cao, Zhang.l(1) norm based reconstruction algorithm for particle sizing.IEEE International Instrumentation and Measurement Technology Conference (I2MTC), 2011-05-10 to 2011-05-12.
[59]Haili Zhou; Lijun Xu; Zhang Cao; Jinhai Hu.Simulation on invasive ERT for void fraction measurement in vertical production oil well.6th WCIPT- World Congress on Industrial Process Tomography, China, 2010-09-06 to 2010-09-09.
[60]Zhang Cao; Lijun Xu.Direct methods for image reconstruction in electrical capacitance tomography.6th WCIPT- World Congress on Industrial Process Tomography, China, 2010-09-06 to 2010-09-09.
[61]李小路; 徐立軍; 王建軍; 田祥瑞.平臺(tái)運(yùn)動(dòng)誤差對(duì)機(jī)載激光雷達(dá)點(diǎn)云分布影響的理論研究.中國(guó),北京市.
[62]王建軍; 徐立軍; 李小路.姿態(tài)角隨機(jī)測(cè)量誤差對(duì)機(jī)載激光雷達(dá)點(diǎn)云定位精度和三維成像精度的影響.中國(guó),北京市.
[63]Lijun Xu*; Cheng Tan; Xiaomin Li; Chenfeng Xu.On-line identification of new coal type using joint probability density arbiter.IEEE International Conference on Intelligent Systems, United Kingdom, 2010-07-07 to 2010-07-09.
[64]Xiangrui Tian; Lijun Xu; Xiaolu Li; Guangyi Shang; Junen Yao.Geometric distortion correction for sinusoidally scanned atomic force microscopic images.Proceedings of 2010 IEEE International Conference on Imaging Systems and Techniques, Greece, 2010-07-01 to 2010-07-02.
[65]Zhang Cao; Lijun Xu; Wenru Fan; Huaxiang Wang.2D ECT for sensors of non-circular cross sections using the factorization method.Proceedings of 2010 IEEE International Conference on Imaging Systems and Techniques, Greece, 2010-07-01 to 2010-07-02.
[66]Zhang Cao; Lijun Xu; Chengfeng Xu; Huaxiang Wang.Electrical resistance tomography(ERT) by using an ECT sensor.Proceedings of 2010 IEEE International Conference on Imaging Systems and Techniques, Greece, 2010-07-01 to 2010-07-02.
[67]Lijun Xu; Cheng Tan; Xiaomin Li; Xiaolu Li.On-line Identification of Fuel Type Using Joint Probability Density Arbiter and Support Vector Machine Techniques.Proceedings of 2010 IEEE International Instrumentation and Measurement Technology Conference, United States, 2010-05-03 to 2010-05-06.
[68]Wanlu Zhou; Lijun Xu; Xiaomin Li.Wet gas flow modeling for the straight section of throat-extended Venturi meter.Proceedings of 2010 IEEE International Instrumentation and Measurement Technology Conference, United States, 2010-05-03 to 2010-05-06.
[69]Li, Xiaolu*; Xu, Lijun; Tan, Cheng; Tian, Xiangrui.Real-Time Measurement of Aerodynamic Deformation of Wing by Laser Rangefinder.2010-05-03 to 2010-05-06.
[70]Cao, Zhang*; Xu, Lijun; Wang, Huaxiang.A Direct Reconstruction Method of Electromagnetic Tomography(EMT) for High Permeability and Low Conductivity Distributions.2010-05-03 to 2010-05-06.
[71]Cao, Zhang; Xu, Lijun; Ding, Jie.Integral inversion to Fraunhofer diffraction for particle sizing.
[72]Zhang Cao; Lijun Xu; Huaxiang Wang.2D ECT with square sensor using Calderon's method.2009 IEEE International Workshop on Imaging Systems and Techniques, China, 2009-05-11 to 2009-05-12.
[73]Lijun Xu; Shaliang Tang.Wet Gas Metering Using a Venturi-Meter and Support Vector Machines.I2MTC 2009 - IEEE International Instrumentation and Measurement Technology Conference Proceedings, Singapore, 2009-05-05 to 2009-05-07.
[74]Cheng Tan; Lijun Xu; Zhang Cao.On-Line Fuel Identification Using Optical Sensing and Support Vector Machines Technique.I2MTC 2009 - IEEE International Instrumentation and Measurement Technology Conference Proceedings, Singapore, 2009-05-05 to 2009-05-07.
[75]Zhang Cao; Lijun Xu; Jie Ding.A New Analytical Inversion to Fraunhofer Diffraction.I2MTC 2009 - IEEE International Instrumentation and Measurement Technology Conference Proceedings, Singapore, 2009-05-05 to 2009-05-07.
[77]Wenfeng Xu; Lijun Xu; Xingbin Liu; Jinhai Hu.Experimental Study On Cylindrical Capacitance Sensor.I2MTC 2009 - IEEE International Instrumentation and Measurement Technology Conference Proceedings, Singapore, 2009-05-05 to 2009-05-07.
[78]徐立軍; 李松云; 龔立艷; 商廣義; 姚駿恩.原子力顯微鏡圖像小波去噪方法研究.中國(guó),廣東省,廣州市.
[79]李松云; 徐立軍; 商廣義.高速原子力顯微術(shù)最新進(jìn)展.中國(guó),廣東省,廣州市.
[80]Lijun Xu; H. Li; J. Xu.Wet gas metering by using a long-throat Venturi tube.Seventh International Symposium on Instrumentation and Control Technology: Sensors and Instruments, Computer Simulation and Artificial Intelligence, Proceedings of SPIE , China,Beijing, 2008-10-10 to 2008-10-13.
[81]Zhang Cao; Qinghao Meng; Huaxiang Wang; Lijun Xu.A new strategy for robot path planning based on the finite element method.Seventh International Symposium on Instrumentation and Control Technology: Sensors and Instruments, Computer Simulation and Artificial Intelligence, Proceedings of SPIE , China,Beijing, 2008-10-10 to 2008-10-13.
[82]Lijun Xu; Hui Li; Shaliang Tang; Cheng Tan; Bo Hu.Wet Gas Metering Using a Venturi-meter and Neural Networks.IEEE Instrumentation and Measurement Technology Conference, 2008 IEEE International Instrumentation and Measurement Technology Conference Proceedings, Canada, 2008-05-12 to 2008-05-15.
[83]Lijun Xu; Cheng Tan; Liyan Gong; Jian Qiu Zha.Two-in-One Implementation of Noise Reduction and Incline Emendation for Atomic Force Microscopic Images.IEEE Instrumentation and Measurement Technology Conference, 2008 IEEE International Instrumentation and Measurement Technology Conference Proceedings, Canada, 2008-05-12 to 2008-05-15.
[84]Xu, Lijun; Li, Hui; Xu, Jian.Wet gas metering by using a long-throat Venturi meter - art. no. 712719.7th International Symposium on Instrumentation and Control Technology, 2008-10-10 to 2008-10-13.
[85]Cao, Zhang; Meng, Qinghao; Wang, Huaxiang; Xu, Lijun.A new strategy for robot path planning based on the finite element method - art. no. 71272R.7th International Symposium on Instrumentation and Control Technology, 2008-10-10 to 2008-10-13.
[86]王陶; 張博; 徐立軍; 閆勇.粉料氣力輸送狀態(tài)在線監(jiān)測(cè)裝置研究.第一屆氣/固兩相流檢測(cè)控制全國(guó)研討會(huì), 中國(guó),天津市, 2007-09-13至2007-09-14.
[87]李曉敏; 徐立軍; 李松云.顆粒粒度對(duì)聚集態(tài)氣固混合物有效介電常數(shù)影響的實(shí)驗(yàn)研究.第一屆氣/固兩相流檢測(cè)控制全國(guó)研討會(huì), 中國(guó),天津市, 2007-09-13至2007-09-14.
[88]徐立軍; 龔立艷; 錢建強(qiáng); 陳強(qiáng); 姚駿恩.深空探測(cè)原子力顯微鏡圖像原位處理技術(shù)初探—圖像增強(qiáng)與壓縮.中國(guó)宇航學(xué)會(huì)深空探測(cè)技術(shù)專業(yè)委員會(huì)第四屆學(xué)術(shù)年會(huì), 中國(guó),山西省,太原市, 2007-09-02至2007-09-04.
[89]Zhang Cao; Huaxiang Wang; Lijun Xu.Electrical impedance tomography with optimized square sensor.IMTC 2007 – IEEE Instrumentation and Measurement Technology Conference, Poland, 2007-05-01 to 2007-05-03.
[90]Bo Zhao; Huaxiang Wang; Li Hu; Lijun Xu; Yong Yan.An Adaptive Multigrid Method For EIT.IMTC 2007 – IEEE Instrumentation and Measurement Technology Conference, Poland, 2007-05-01 to 2007-05-03.
[91]Xiaomin Li; Lijun Xu.Particle Size Influence on Effective Permittivity of Particle-Gas Mixture with Particles Agglomeration: Experimental Study.IMTC 2007 – IEEE Instrumentation and Measurement Technology Conference, Conference Proceedings - Synergy of Science and Technology in Instrumentation and Measurement, Poland, 2007-05-01 to 2007-05-03.
[92]Jun Han; Ying Hao; Lijun Xu.Simultaneous Removal of Harmonic Interference and White Noise by Combining Multi-Rate Signal Processing and Wavelet Denoising Techniques.IMTC 2007 – IEEE Instrumentation and Measurement Technology Conference, Conference Proceedings - Synergy of Science and Technology in Instrumentation and Measurement, Poland, 2007-05-01 to 2007-05-03.
[93]Jun’en Yao; Lijun Xu.Autonomous atomic force microscope for on-site measurement in lunar exploration.The 3rd UK-China Workshop on Space Science & Technology, China,Shanghai, 2007-03-29 to 2007-04-01.
[94]Han, Jun; Hao, Ying; Xu, Lijun.Simultaneous removal of harmonic interference and white noise by combining mufti-irate signal processing and wavelet denoising techniques.24th IEEE Instrumentation and Measurement Technology Conference, 2007-05-01 to 2007-05-03.
[95]Jun Han; Lijun Xu.A New Method for Variance Estimation of White Noise Corrupting a Signal.IMTC 2006–IEEE Instrumentation and Measurement Technology Conference, Italy, 2006-04-24 to 2006-04-27.
[96]Lijun Xu; Jun Han.Cancellation of Harmonic Interference Using Multi-Rate Signal Processing Techniques.IMTC 2006 - IEEE Instrumentation and Measurement Technology Conference, Italy, 2006-04-24 to 2006-04-27.
[97]Lijun Xu; Jeffrey C. Bamber.Noise reduction in elastographic strain estimation from displacement.Fourth International Conference on the Ultrasonic Measurement and Imaging of Tissue Elasticity, United States, 2005-10-16 to 2005-10-19.
[98]Lijun Xu; Jeffrey C. Bamber.Wavelet transform-based strain estimation for elastography.2005 IEEE Ultrasonics Symposium, Netherlands, 2005-09-18 to 2005-09-21.
[99]Lijun Xu; Yong Yan.A New Flame Monitor with Triple Photovoltaic Cells.Proceedings of the 2005 IEEE Instrumentation and Measurement Technology Conference, Canada, 2005-05-17 to 2005-05-19.
[100]Lijun Xu; Jun Han; Tao Zhang.Dual-Channel Pseudo-Random Signal Generator with Precise Control of Time Delay between Channels.Proceedings of the 2005 IEEE Instrumentation and Measurement Technology Conference, Canada, 2005-05-17 to 2005-05-19.
[101]Lijun Xu; Robert M. Carter; Yong Yan.Mass flow measurement of fine particles in a pneumatic suspension using electrostatic sensing and neural network techniques.Proceedings of the 2005 IEEE Instrumentation and Measurement Technology Conference, Canada, 2005-05-16 to 2005-05-19.
[102]Lijun Xu; Robert M Carter; Yong Yan; Hongjian Zhang.Mass flow measurement of pneumatically conveyed solids using electrostatic sensing and neural network techniques.Proceedings of the 4th International Symposium on Measurement Techniques for Multiphase Flows, China, 2004-09-10 to 2004-09-12.
[103]Lijun Xu; Yong Yan; Steve Cornwell; Gerry S Riley.A cost-effective approach to on-line fuel tracking.5th European Conference on Coal Research and Its Applications, 2004-09-06 to 2004-09-08.
[104]Lijun Xu; Yong Yan; Steve Cornwell; Gerry Riley.On-line Fuel Tracking by Combining Principal Component Analysis and Neural Network Techniques.Proceedings of the 21th IEEE Instrumentation and Measurement Technology Conference, Italy, 2004-05-18 to 2004-05-20.
[105]Lijun Xu; Yong Yan.An Improved Algorithm for the Measurement of Flame Flicker Frequency.Proceedings of the 21th IEEE Instrumentation and Measurement Technology Conference, Italy, 2004-05-18 to 2004-05-20.
[106]Feng Dong; Yanbin Xu; Lijun Xu; Lei Hua; Xutong Qiao.Application of dual-plane ERT system and cross-correlation technique to measure gas-liquid flows in vertical upward pipe.4th International Symposium on Measurement Techniques for Multiphase Flows, China, 2003-09-10 to 2003-09-12.
[107]Kien Chua; Lijun Xu; Yong Yan.Emission Monitoring Using Optical and Acoustic Sensors Combined with Neural Networks.Sensors and their applications XII-Proceedings of the Twelfth Conference on Sensors and their Applications, Ireland, 2003-09-02 to 2003-09-04.
[108]Lijun Xu; Yong Yan.On-line fuel identification using optical sensors and neural network techniques.Sensors and their applications XII - Proceedings of the Twelfth Conference on Sensors and their Applications, Ireland, 2003-09-02 to 2003-09-04.
[109]Lijun Xu; Yong Yan.Recovery of a Signal From Contamination of Sinusoidal Interference.Sensors and their applications XII - Proceedings of the Twelfth Conference on Sensors and their Applications, Ireland, 2003-09-02 to 2003-09-04.
[110]Ning-de Jin; Jun Wang; Lijun Xu.Optimization of a conductance probe with vertical multi-electrode array for the measurement of oil-water two-phase flow.Proceedings of the Second International Conference on Machine Learning and Cybernetics, China, 2003-09-02 to 2003-09-05.
[111]Lijun Xu; Ya Wang; Feng Dong; Yong Yan.On-line monitoring of the non-axisymmetric flow profile with a multi-electrode inductance flowmeter.Proceedings of the 20th IEEE Instrumentation and Measurement Technology Conference, United States, 2003-05-20 to 2003-05-22.
[112]Lijun Xu; Jian Qiu Zhang; Yong Yan.A Wavelet-Based Multi-Sensor Data Fusion Algorithm.Proceedings of the 20th IEEE Instrumentation and Measurement Technology Conference, United States, 2003-05-20 to 2003-05-22.
[113]Lijun Xu; Yong Yan; Gerry Riley.n-Line Fuel Identification Using Digital Signal Processing and Soft-Computing Techniques.Proceedings of the 20th IEEE Instrumentation and Measurement Technology Conference, United States, 2003-05-20 to 2003-05-22.
[114]Feng Dong; Yanbin Xu; Xutong Qiao; Lijun Xu; Ling-an Xu.Void fraction measurement for two-phase flow using electrical resistance tomography.3rd World Congress in Process Tomography, Canada, 2003.
[115]張濤; 許建; 徐立軍.氣液兩相流流經(jīng)文丘里管的動(dòng)態(tài)差壓信號(hào)分析.工程熱物理學(xué)會(huì)與多相流分會(huì)2002年學(xué)術(shù)年會(huì), 中國(guó), 2002-11-26至2002-11-28.
[116]徐立軍; 李曉敏.燃煤鍋爐煤粉輸送狀況監(jiān)測(cè).2001年天津青年科技論壇, 中國(guó), 2001-10-15.
[117]F. Dong; X. P. Liu; X. Deng; Lijun Xu; L. A. Xu.Identification of two-phase flow regime using Electrical Resistance Tomography.Proc. of 2nd World Congress on Industrial Process Tomography, Germany, 2001-08-29 to 2001-08-31.
[118]X. Deng; F. Dong; Lijun Xu; L. A. Xu.Measurement of the gas phase velocity in gas/liquid flows using dual plane ERT sustem.Proc. of 2nd World Congress on Industrial Process Tomography, Germany, 2001-08-29 to 2001-08-31.
[119]M. He; Z. Liu; Lijun Xu; L. A. Xu.Multi-excitation-mode EMT system.Proc. of 2nd World Congress on Industrial Process Tomography, Germany, 2001-08-29 to 2001-08-31.
[120]X. Deng; F. Dong; Lijun Xu; L. A. Xu.Research of dual plane electrical resistance tomography cross-correlation for gas/liquid flow measurement.Proc. of the 3rd ISMTMF, Japan, 2001-08 to 2001-08.
[121]F. Dong; X. Deng; Lijun Xu; L. A. Xu.Measurment of two-phase flow using electrical resistance tomography.Proc. of the 3rd ISMTMF, Japan, 2001.
[122]徐苓安,徐立軍. 過程層析成像技術(shù)的發(fā)展及應(yīng)用現(xiàn)狀[C]. 新世紀(jì) 新機(jī)遇 新挑戰(zhàn)——知識(shí)創(chuàng)新和高新技術(shù)產(chǎn)業(yè)發(fā)展(下冊(cè)). 2001:422.
[123]董峰,徐立軍,劉小平,徐苓安. 用電阻層析成像技術(shù)實(shí)現(xiàn)兩相流流型識(shí)別[C]. 中國(guó)儀器儀表學(xué)會(huì)測(cè)控技術(shù)在資源節(jié)約和環(huán)境保護(hù)中的應(yīng)用學(xué)術(shù)會(huì)議論文集. 2001:18-19+33.
[124]許燕斌,董峰,徐立軍. ERT數(shù)據(jù)采集系統(tǒng)通訊模塊的設(shè)計(jì)[C]. 中國(guó)儀器儀表學(xué)會(huì)測(cè)控技術(shù)在資源節(jié)約和環(huán)境保護(hù)中的應(yīng)用學(xué)術(shù)會(huì)議論文集. 2001:177-179.
[125]王亞,李鵬,徐立軍. 一種單極性輸入雙極性輸出壓控恒流源[C]. 中國(guó)儀器儀表學(xué)會(huì)第三屆青年學(xué)術(shù)會(huì)議論文集(上). 2001:374-375+377.
[126]孫永進(jìn),姜常珍,徐立軍. 電阻層析成像(ERT)兩相流檢測(cè)激勵(lì)源對(duì)比分析[C]. 中國(guó)儀器儀表學(xué)會(huì)第三屆青年學(xué)術(shù)會(huì)議論文集(上). 2001:9-10.
[127]鄧湘,董峰,徐立軍,劉小平,徐苓安. 雙敏感電極陣列的電阻層析成像系統(tǒng)的優(yōu)化設(shè)計(jì)[C]. 中國(guó)儀器儀表學(xué)會(huì)第三屆青年學(xué)術(shù)會(huì)議論文集(上). 2001:249-250.
[128]李香平; 徐立軍; 張濤.智能型雙通道偽隨機(jī)信號(hào)發(fā)生器.21世紀(jì)信息技術(shù)���、電子技術(shù)���、儀器儀表技術(shù),開拓���、創(chuàng)新���、上水平戰(zhàn)略研討會(huì)(暨)學(xué)術(shù)會(huì)議, 中國(guó), 2000-09至2000-09.
[129]徐立軍; 董峰; 徐苓安.氣液兩相流檢測(cè)技術(shù)進(jìn)展.21世紀(jì)信息技術(shù)、電子技術(shù)���、儀器儀表技術(shù)���,開拓���、創(chuàng)新、上水平戰(zhàn)略研討會(huì)(暨)學(xué)術(shù)會(huì)議, 中國(guó), 2000-09至2000-09.
[130]Lijun Xu; Alfred Weber; Gerhard Kasper.Simultaneous measurements of velocity, charge and size of individual aerosol particles.Proceedings of the fifth international conference on measurement and control of granular materials, China, 2000-08 to 2000-08.
[131]Lijun Xu; Alfred Weber; Gerhard Kasper.Particles packing influence on effective permittivity of particle-gas mixture.Proceedings of the fifth international conference on measurement and control of granular materials, China, 2000-08 to 2000-08.
[132]Lijun Xu; Alfred Weber; Gerhard Kasper.Simultane in-situ Messung von Geschwindigkeit.34th International Seminar for Research and Teaching in Chemical Engineering, Technical and Physical Chemistry, Germany, 1999-07-15.
[133]Lijun Xu; Ling-An Xu.Application of ultrasonic tomography to gas/liquid flow regime identification.Proceedings of the Conference on Frontiers in Industrial Process Tomography II, Netherlands, 1997-04-09 to 1997-04-12.
[134]Lijun Xu; Yongtao Han; Lingan Xu.An ultrasonic tomography system for monitoring gas/liquid two-phase flow.Proceedings of the 8th International Conference on Flow Measurement, China, 1996-10-20 to 1996-10-24.
[135]Lijun Xu; YT Han; LA Xu.Application of ultrasonic tomography to monitoring gas/liquid flow.Proceedings of the International Conference on Frontiers in Industrial Process Tomography, United States, 1995-10-29 to 1995-11-03.
[136]徐苓安; 徐立軍.過程層析成象技術(shù)的研究現(xiàn)狀與發(fā)展趨勢(shì).中國(guó)儀器儀表學(xué)會(huì)過程檢測(cè)控制分會(huì)第三屆年會(huì), 中國(guó), 1995-10至1995-10.
[137]L. A. Xu; Lijun Xu; Y. T. Dong; Y. T. Han.Process Tomography technique and its application to two-phase flow measurement.Proceedings of the 1995 International Symposium on Measuring Techniques for Multiphase Flows (Modern Measuring Techniques for Multiphase Flows), China, 1995-04-10 to 1995-04-13.
[138]楊吉生,徐立軍,孫天宇,葉聲華. 非常規(guī)形體散射近場(chǎng)的數(shù)值解法[C]. 1995年全國(guó)微波會(huì)議論文集(上冊(cè)). 1995:634-637.
 榮譽(yù)獎(jiǎng)勵(lì):
所獲榮譽(yù):
1���、國(guó)家杰出青年科學(xué)基金獲得者���。
2、教育部“長(zhǎng)江學(xué)者”特聘教授���。
3���、國(guó)家“萬人計(jì)劃”領(lǐng)軍人才���。
4���、科技部“中青年科技創(chuàng)新領(lǐng)軍人才”。
5���、2016年第七屆全國(guó)優(yōu)秀科技工作者���。
7���、2001年第六屆天津青年科技獎(jiǎng)(個(gè)人獎(jiǎng))。
8���、教育部高等學(xué)校骨干教師資助計(jì)劃���。
9、天津大學(xué)第七屆十佳杰出青年���。
10���、天津大學(xué)-摩托羅拉獎(jiǎng)教金。
所獲獎(jiǎng)勵(lì):
1���、2014年度中國(guó)儀器儀表學(xué)會(huì)科學(xué)技術(shù)獎(jiǎng)一等獎(jiǎng)���,項(xiàng)目名稱:氣固兩相流動(dòng)過程在線監(jiān)測(cè)技術(shù)及應(yīng)用,第一完成人���。
2���、2012年度高等學(xué)���?茖W(xué)研究?jī)?yōu)秀成果獎(jiǎng)(技術(shù)發(fā)明一等獎(jiǎng)),項(xiàng)目名稱:燃煤鍋爐安全高效運(yùn)行關(guān)鍵參數(shù)檢測(cè)技術(shù)及系統(tǒng)���,第一完成人���。
3、2001年度天津市自然科學(xué)獎(jiǎng)二等獎(jiǎng)���,項(xiàng)目名稱:基于電學(xué)敏感原理的過程層析成像技術(shù)研究���,第二完成人。
|
|
