信息获取与应用的若干关键技术研究
|
摘要
信息链由信息获取、信息传输和信息传处理三个环节组成,他们构成了信息获取科学的三大学科支柱,即信息获取、计算机、通讯。目前,信息处理和信息传输方面的学科建设同趋成熟和完善,而信息链的源头—信息获取仍旧停留在传统的传感技术和检测技术等较低层次,逐渐成为21世纪信息科学与技术发展的瓶颈。
创建“信息获取科学与技术学科”,是信息化时代在传统的传感技术和检测技术基础上进行学科升华,它在科学的深度和技术的广度上突破了原来的界限,是一个具有基础性、前瞻性、战略性的创新研究方向,有重要的意义。已经有不少学者对此进行了研究,状得了相应的成果。本文力图沿着这个创新方向,在前人的基础上,研究信息获取科学的若干基本问题,希望能够为以后的学科建设起到抛砖引玉的作用。
本文主要做了以下几个方面的工作:
一,以溯源论的思想,对传感技术和检测技术的物质层进行了内在基本原理分析。从微观粒子运动和物理基本相互作用的角度,针对物质层进行信息获取概念的界定,指出信息即物质存在形式的外在表达,信息获取即通过一系列手段对信息进行转换和捕获。这种概念源自物质的基本存在形式,适合于传感器领域的普适性分析。
二,在物质层研究中,从微观粒子运动角度切入,对常见敏感效应进行了剖析,基于物质粒子运动形式和信号传递机制的区别,提出一种传感器二元法分类,提出了传感器族属概念:并在此基础上挖掘出相应的敏感机理族群效应。该族群效应具有几个明显的特征:1,不同族传感器性能差异明显;2,同族传感器其性能相近;3,传感器族属关系越近则性能差别越小。针对传感器物质层进行了信号传递分析,建立了一个多环节误差传递数学模型,并基于此给出了相应的误差累计传递函数及相应的性质,用于评估误差在物质层的累计程度,给出一种通过减少环节来降低误差的设计策略。
三,在信息获取数据层研究上,针对数宁滤波用的差分方程,给出了一种完全线性化的变形Z变换降阶算法。该算法本质上是通过对Z变换和逆变换进行线性化处理,避免求导和留数运算,仅涉及行列式和矩阵算式,非常适合计算机自动求解,并且结果为具有重要分析意义的封闭解。该算法针对不同的方程特征根,依次对输入项进行拆分处理,利用递推操作对差分方程进行降阶表达,再结合矩阵和行列式工具运算,直至获得最终封闭解,并给出了建立在克莱姆法则上的封闭解判据。该算法的严格证明和实例分析都一并在文中得到详细阐述。
四,在信息获取特征层研究上,提出一种利用模糊数学实现瓦斯突出特征快速识别的算法。并以国家自然基金重点项目(煤矿瓦斯传感技术和预警信息系统基础理论与关键技术研究No:50534050)为应用背景,分析了煤矿瓦斯突出与正常涌出的浓度数据,通过深度挖掘瓦斯浓度变化的特征,建立瓦斯突出浓度模型,利用模糊推理区分瓦斯涌出与瓦斯突出,实现瓦斯突出预警;瓦斯突出预警装置模拟试验显示,瓦斯突出能够得到有效预警。该系统能够比较方便的与煤矿瓦斯监测系统直接接驳,对煤矿安全生产有一定的应用价值。
The information-chain is made up of information acquisition, processing and transportation, which form the three mainstays of Information Science, namely. Information acquisition, Computer and Communication. At the present time, discipline systems of information processing and information transportation have already been constructed. However, the source of information chain, information acquisition still rests on the low level of sensor technique, which is becoming the bottleneck of Information Science in the 21~(st) Century.
To construct the discipline system of information acquisition, is to upgrade the traditional sensor technique to the level of science, and is to break through the traditional limitation in scientific depth and technical scope. This is a new scientific research domain of leading importance. Therefore, information acquisition is gaining in popularity as evidenced by the increasing number of researches. This thesis tries to research on some questions in Information Acquisition Science in this new domain. We wish an introductory work for Information Acquisition Science.
The main works we do in this thesis may be summed as follows:
1, From microscopic viewpoint, the origin of sensor technologies is the basic interacting effects between particles. The analysis of means about material layer of information acquisition has carried out. On the groundwork of particle-field interaction, the concept of information of material layer is defined as "external expression of existing form of matter", and the concept of information acquisition is defined as the process of information convert and capture. Due to its basically physical background, this concept is suit for general analysis for sensor technologies.
2, This research proposed a symbolic expression method which classifies sensory mechanisms by Boolean symbolism. This classification belongs to the universal model research of the material layer of the discipline of information acquisition science and technology. Based on basic physics theories, sensory mechanisms were classified using a binary tree structure. Every type mechanism has been expressed with Boolean symbol. The symbolic expression method describes the performances deference of sensors, including accuracy and dynamic performance. Some conclusions could be easily obtained from this group effect: 1, different group has different performances in information acquisition; 2, same group has similar performances; 3, more closer of relationship between groups, more similar on performance; 4, size has an infection on frequency performance of sensors. Actual applications were analyzed to demonstrate the relation concluded from the Boolea(?) classification presented in this thesis. The results showed that this symbolic expression method could be used to forecast the performances of new sensor on a certain extend, especially in inertial sensor field. The process of signal transport through the material layer is analyzed, and a poly layer model of error transmission is established and adopted to interpret the precision limitation of sensor technologies. A design strategy for high-accuracy survey is proposed based on this poly layer model of error transmission.
3, It is difficult to get the analytic solution of difference equation by using traditional methods with computer. A linear method based on complete linear transformation for getting the analytic solution of difference equation is proposed in this thesis. The idea of this new method is dimensionality reduction. The orders of the high-order difference equations are reduced through determinant calculation, and this process is repeated till the last analytic expression of the solution of the difference equation is gotten. In essence, this algorithm is a transformation of Z-transform method combined with linear algebra method. The linear property of this algorithm enables one to get analytic solution other than numerical solution of difference equations using computer. All corresponding theorems and characters are proved and illustrated.
4, Supported by the National Nature Science Foundation of China (Project 50534050), a real-time alarm method for methane outbursts is proposed. The method is established on the real-time analysis of the increasing velocity and the acceleration of the methane concentration curve. A real-time alarm algorithm based on fuzzy mathematics is presented. A prototype instrument and experiment results are presented and analyzed, which show good performance of this proposed method. This method can be used to give triggering signal to the explosion suppressing system at very early stage of outburst. Considering the actual status of china, this device and the corresponding method is suit for linking with the methane monitoring system of mine, which makes this research valuable for safety in production.
创建“信息获取科学与技术学科”,是信息化时代在传统的传感技术和检测技术基础上进行学科升华,它在科学的深度和技术的广度上突破了原来的界限,是一个具有基础性、前瞻性、战略性的创新研究方向,有重要的意义。已经有不少学者对此进行了研究,状得了相应的成果。本文力图沿着这个创新方向,在前人的基础上,研究信息获取科学的若干基本问题,希望能够为以后的学科建设起到抛砖引玉的作用。
本文主要做了以下几个方面的工作:
一,以溯源论的思想,对传感技术和检测技术的物质层进行了内在基本原理分析。从微观粒子运动和物理基本相互作用的角度,针对物质层进行信息获取概念的界定,指出信息即物质存在形式的外在表达,信息获取即通过一系列手段对信息进行转换和捕获。这种概念源自物质的基本存在形式,适合于传感器领域的普适性分析。
二,在物质层研究中,从微观粒子运动角度切入,对常见敏感效应进行了剖析,基于物质粒子运动形式和信号传递机制的区别,提出一种传感器二元法分类,提出了传感器族属概念:并在此基础上挖掘出相应的敏感机理族群效应。该族群效应具有几个明显的特征:1,不同族传感器性能差异明显;2,同族传感器其性能相近;3,传感器族属关系越近则性能差别越小。针对传感器物质层进行了信号传递分析,建立了一个多环节误差传递数学模型,并基于此给出了相应的误差累计传递函数及相应的性质,用于评估误差在物质层的累计程度,给出一种通过减少环节来降低误差的设计策略。
三,在信息获取数据层研究上,针对数宁滤波用的差分方程,给出了一种完全线性化的变形Z变换降阶算法。该算法本质上是通过对Z变换和逆变换进行线性化处理,避免求导和留数运算,仅涉及行列式和矩阵算式,非常适合计算机自动求解,并且结果为具有重要分析意义的封闭解。该算法针对不同的方程特征根,依次对输入项进行拆分处理,利用递推操作对差分方程进行降阶表达,再结合矩阵和行列式工具运算,直至获得最终封闭解,并给出了建立在克莱姆法则上的封闭解判据。该算法的严格证明和实例分析都一并在文中得到详细阐述。
四,在信息获取特征层研究上,提出一种利用模糊数学实现瓦斯突出特征快速识别的算法。并以国家自然基金重点项目(煤矿瓦斯传感技术和预警信息系统基础理论与关键技术研究No:50534050)为应用背景,分析了煤矿瓦斯突出与正常涌出的浓度数据,通过深度挖掘瓦斯浓度变化的特征,建立瓦斯突出浓度模型,利用模糊推理区分瓦斯涌出与瓦斯突出,实现瓦斯突出预警;瓦斯突出预警装置模拟试验显示,瓦斯突出能够得到有效预警。该系统能够比较方便的与煤矿瓦斯监测系统直接接驳,对煤矿安全生产有一定的应用价值。
The information-chain is made up of information acquisition, processing and transportation, which form the three mainstays of Information Science, namely. Information acquisition, Computer and Communication. At the present time, discipline systems of information processing and information transportation have already been constructed. However, the source of information chain, information acquisition still rests on the low level of sensor technique, which is becoming the bottleneck of Information Science in the 21~(st) Century.
To construct the discipline system of information acquisition, is to upgrade the traditional sensor technique to the level of science, and is to break through the traditional limitation in scientific depth and technical scope. This is a new scientific research domain of leading importance. Therefore, information acquisition is gaining in popularity as evidenced by the increasing number of researches. This thesis tries to research on some questions in Information Acquisition Science in this new domain. We wish an introductory work for Information Acquisition Science.
The main works we do in this thesis may be summed as follows:
1, From microscopic viewpoint, the origin of sensor technologies is the basic interacting effects between particles. The analysis of means about material layer of information acquisition has carried out. On the groundwork of particle-field interaction, the concept of information of material layer is defined as "external expression of existing form of matter", and the concept of information acquisition is defined as the process of information convert and capture. Due to its basically physical background, this concept is suit for general analysis for sensor technologies.
2, This research proposed a symbolic expression method which classifies sensory mechanisms by Boolean symbolism. This classification belongs to the universal model research of the material layer of the discipline of information acquisition science and technology. Based on basic physics theories, sensory mechanisms were classified using a binary tree structure. Every type mechanism has been expressed with Boolean symbol. The symbolic expression method describes the performances deference of sensors, including accuracy and dynamic performance. Some conclusions could be easily obtained from this group effect: 1, different group has different performances in information acquisition; 2, same group has similar performances; 3, more closer of relationship between groups, more similar on performance; 4, size has an infection on frequency performance of sensors. Actual applications were analyzed to demonstrate the relation concluded from the Boolea(?) classification presented in this thesis. The results showed that this symbolic expression method could be used to forecast the performances of new sensor on a certain extend, especially in inertial sensor field. The process of signal transport through the material layer is analyzed, and a poly layer model of error transmission is established and adopted to interpret the precision limitation of sensor technologies. A design strategy for high-accuracy survey is proposed based on this poly layer model of error transmission.
3, It is difficult to get the analytic solution of difference equation by using traditional methods with computer. A linear method based on complete linear transformation for getting the analytic solution of difference equation is proposed in this thesis. The idea of this new method is dimensionality reduction. The orders of the high-order difference equations are reduced through determinant calculation, and this process is repeated till the last analytic expression of the solution of the difference equation is gotten. In essence, this algorithm is a transformation of Z-transform method combined with linear algebra method. The linear property of this algorithm enables one to get analytic solution other than numerical solution of difference equations using computer. All corresponding theorems and characters are proved and illustrated.
4, Supported by the National Nature Science Foundation of China (Project 50534050), a real-time alarm method for methane outbursts is proposed. The method is established on the real-time analysis of the increasing velocity and the acceleration of the methane concentration curve. A real-time alarm algorithm based on fuzzy mathematics is presented. A prototype instrument and experiment results are presented and analyzed, which show good performance of this proposed method. This method can be used to give triggering signal to the explosion suppressing system at very early stage of outburst. Considering the actual status of china, this device and the corresponding method is suit for linking with the methane monitoring system of mine, which makes this research valuable for safety in production.
引文
[1]梅涛,汪增福,葛运建.2003.信息获取科学技术与应用[M].合肥:中国科学技术大学出版社.
[2]中科院合肥智能所.2002.中国科学院知识创新工程智能所前沿探索项目任务书[M].合肥.
[3]中国科学院信息获取科学与技术战略研讨会记录[M].2002.合肥.
[4]中国科学院合肥智能所.2002.信息获取科学与技术的学科体系、理论基础与关键技术研究立项建议书[M].合肥.
[5]葛运建等.2002.无所不在的传感与机器人感知[J].中国自动化高层战略研讨会.西安.
[6]葛运建等.2002.浅析我国传感器技术的发展及若干问题[J].国际新型传感器技术应用与产业发展论坛论文集,p65-75.中国.上海.
[7]C.E.Shannon.1948.A Mathematical theory of communication.The Bell system technical journal.Vol.27,p379-423,623-656.
[8]T.Aden,J.Brown,V.Churchwell,P.1997 et al.Summary of the hypervelocity weapons system field experiment.IEEE Trans.Magn.,vol.33.
[9]J.Blankenship.1998.Generic enivironmental survivability and accelerometer performance testing programs for evaluating commencial-off-the shelf(COTS)microelectromechanical(MEM)devices.Naval Surface Warfare Center,Dahlgren Div.,Panama City,FL,ELPR-9706.
[10]刘君华.2000.智能传感器系统[M].西安电子科技大学出版社.西安.
[11]Shih-Ming Yang,Yin,T.I.2005.Double-Microcantilever Design for Surface Stress Measurement in Biosensor Introduction[C].Advanced Intelligent Mechatronics,Proceedings,2005 IEEE/ASME International Conference P:201-206.
[12]Fawcett NC,Evans JA,Chien LT,et al.1988.Nucleic acid hybridization detection by piezoelectric resonance[J].Anal.Lett.21(7):1099.
[13]孔德义,梅涛,陶永春等.2005.一种基于MEMS技术的轻小型爆炸物探测 器研究.中国机械工程.Vol.16,p163-165.
[14]L.A.Pinnaduwage,A.Gehl,D.L.Hedden,G.Muralidharan,et al.2003.ExplosivesA microsensor for trinitrotoluene vapour[J].Nature 425,474-474.
[15]Pamula V K,Fair R B.1999.Detection of nanogram Explosive particles with a MEMS sensor.The SPIE conference on Detection and remediation technologies for mines and minelike targets,Orlando.
[16]McFarlane,J.R.2000.Underwater technology 2000 ROVs and AUVs:tools for exploring,exploiting and defending the ocean frontier[C].Proc.IEEE Int.Conf.on symposium,Underwater Technology.p23-26,465-471.
[17]蒋新松.1996.未来机器人技术发展方向的探讨.机器人.Vol.18,No.5,p285-291.
[18]Yong Qin,Xudong Wang & Zhong Lin Wang.Microfibre-nanowire hybrid structure for energy scavenging[J].2008.Nature.Vol 451 p809-813
[19]Zhong Lin Wang,and Jinhui Song.2006.Piezoelectric Nanogenerators Based on Zinc Oxide Nanowire Arrays[J].Science.14 April 2006 Vol.312.p242-246
[20]李世芸,张超群,高永生.2007.基于并行工程面向装配的设计研究[J].机电产品开发与创新.Vol 20(3).
[21]葛运建等.2003.信息获取科学与力学量信息获取的若干基础问题研究[C].信息获取科学技术与应用.p27-33.中国科学技术出版社.合肥.
[22]梅涛,葛运建,孟庆虎.2003信息获取的理论基础与学科体系初探[C].信息获取科学技术与应用.p3-8.中国科学技术大学出版社,合肥.
[23]汪小华,梅涛.2003.2003信息获取的理论基础与学科体系初探[C].信息获取科学技术与应用.p38-41.中国科学技术大学出版社,合肥.
[24]姜丹.1987.信息论[M].中国科学技术出版社.合肥.
[25]L.Pronzato,E.Thierry.2001.Entropy minimization for parameter estimation problems with unknown distribution of the output noise[C].IEEE Intemational conference on Acoustics,speech and signal processiong.2001,p3993-3996.
[26]P Eggermont,V Lariccia.1999.Best asymptotic normality of the kernel density entropy estimator for smooth densities[J].IEEE Transactions on Information Theory,Vol.45,no.4,P 1321-1326.
[27]Szu,H.2004.Geometric topology for information acquisition by means of smart web[J].International Journal of Information Acquistion 1,Vol.1 No.1p1-22.
[28]X.L.Wang and Y.J.Ge.2004.Research and mathematical theory of information acquisition[J].International Journal of Information Acquistionl,Vol.1 No.4P279-293.
[29]美国基本粒子物理专门小组著.沈齐兴译.1992.Elementary-particle physics:Physics through the 1990s[M].科学出版社.北京
[30]Abraham Pais(著).关洪等(译).2002.基本粒子物理学史.武汉出版社.武汉.
[31]S.Weinberg著,邹振隆,张历宁译.1980.广义相对论的原理和应用[M].科学出版社.北京.
[32]Jin Au Kong.2004.Maxwell equations[M]Higher Education Press,Beijing.
[33]Mark I.Montrose,Edward M.Nakauchi(美)著.中内,游佰强译.2004.电磁兼容的测试方法与技术.机械工业出版社.北京.
[34]V.B.Berestetskii,E.M.Lifshitz,and L.P.Pitaevskii.1999.Quantum electrodynamics[M].世界图书出版公司.北京.
[35]Walter Greiner.1996.量子电动力学[M].世界图书出版公司.北京.
[36]Walter Greiner,Bendt M″uller.2003.Gauge theory of weak interactions[M].世界图书出版公司.北京.
[37]David J.Gross and Frank Wiiczek.1973.Ultraviolet Behavior of Non-Abelian Gauge Theory[J].Phys.Rev.Lett.30,1343.
[38]David J.Gross and Frank Wilczek.1973.Asymptotically Free Gauge Theories.Ⅰ[J].Phys.Rev.D 8,3633(1973).
[39]David J.Gross and Frank Wilczek.1974.Asymptotically free gauge theories.Ⅱ[J].Phys.Rev.D 9,980(1974).
[40]David J.Gross,S.B.Treiman,and Frank Wilczek.1979.Light-quark masses and isospin violation[J].Phys.Rev.D 19,2188(1979).
[41]R.M.White.1987.A sensor classification scheme[J].IEEE Trans.Ultroson.Ferroeletr Freq Control,34,p124-126.
[42]K.Ogata.1996.Modern Control Engineering[M].Upper Saddle River.Nj:Prentice-Hall.
[43]姚守拙.1997.压电化学与生物传感器[M],长沙:湖南师范大学出版社.
[44]秦善编.2004.晶体学基础[M].北京:北京大学出版社.
[45]汪相编.2003.晶体光学[M].南京:南京大学出版社.
[46]奇斯佳科夫,徐介元.1966.晶体管谐振放大器[M].北京:人民教育出版社.
[47]Max Born and Kun Huang.1988.Dynamical theory of crystal lattices[M].Oxford:Clarendon Press.
[48]Richard J.D.Tilley.2006.Crystals and crystal structures[M].Chichester,England;John Wiley & Sons.
[49]陈艾.2004.敏感材料与传感器[M].北京:化学工业出版社.
[50]俞宏,崔学晨,方金豹等.2007.石英晶体传感器系统在检测领域的应用[J].现代科学仪器.No.1 p43-45.
[51]Xiao-Hui Xu,Yan Feng,Bao-Qing Li,et.al.2008.Integration.of displacement sensor into bulk PZT thick film actuator for MEMS deformable mirror[J].Sensors and Actuators A,Accepted.
[52]Said Emre Aiper,Kivanc Azgin,Tayfun Akin.2007.A high-performance silicon-on-insulator MEMS gyroscope operating at atmospheric pressure[J].Sensors and Actuators A:Physical,Volume 135,Issue 1,30 March 2007,Pages 34-42.
[53]Bhushan,B.,Li,X.1997.Micromechanical and tribological characterization of doped single-crystal silicon and polysilicon films for icroelectromechanical systems devices[J].J.Mater,Res.12,54-63.
[54]Larmer,F.,Schilp,A.1992.Method for anisotropically etching silicon.[P]Patents DE4241045,US 5501893,and EP 625285(1992)
[55]Mirfendereski,D.,Lin,L.,Kiureghian,A.D.,Pisano,A.P.1993.Probabilistic response of micro-fabricated polysilicon beam structures:comparison of analysis and experiments[J].Dynamic Systems and Control Division,vol.46.ASME.
[56]陈兴,崔大付,刘长春等.2006基于BioMEMS技术的样品预处理微流控芯片研制[J].微纳电子技术.Vol43 No.1
[57]许嫒媛,夏善红,边超等.2005.基于MEMS的生物微传感技术[J].传感器技术.Vol.24 No.2 p5-7,10.
[58]魏泽文 秦明 黄庆安.2007.一种新型硅压阻式流速流向传感器的设计[J]. 仪器仪表学报.Vol.28 No.8 p1416-1420.
[59]Bianchi,N.A.;Karam,J.-M.M.;Courtois,B.2000.ALC crystal oscillators based pressure and temperature measurement integrated circuit for high temperature oil well applications[J].Ultrasonics,Ferroelectrics and Frequency Control,IEEE Transactions Volume 47,Issue 5,P:1241-1245.
[60]Matsumoto,N.;Sudo,Y.;Sinha,B.K.;Niwa,M.2000.Long-term stability and performance characteristics of crystal quartz gauge at high pressures and temperatures[J].Ultrasonics,Ferroelectrics and Frequency Control,IEEE Transactions.Volume 47,Issue 2,P:346-354.
[61]Lee,Kang Ryeol;Kim,Kunnyun;Kim,Yong-Kook,et.al.2007.Fabrication of Polymer-based Flexible Tactile Sensing Module with Metal Strain Gauges and Interconnecter[C].IEEE SENSORS 2006,EXCO,Daegu,Korea/October 22-25,p742-745.
[62]Ohhashi,M.2002.Ultrasonic measuring method of accumulated elasticity strain energy on the balance lord S45C metal beam[C].Proceedings of the 41st SICE Annual Conference.Vol.4,5-7 Aug.2002 Page(s):2156-2158.
[63]孟明,葛运建,吴仲城.2003.一种新型多维加速度传感器弹性体设计与仿真分析[J].传感技术学报.Vol.16 No.4.p379-383.
[64]张洁,黄惟一.2003.用有限元法对腕力传感器弹性体的力学分析[J].传感器技术.Vol.22 No.3,P33-35.
[65]刘广玉,陈明,吴志鹤等.1995.新型传感器技术及应用[M].北京:北京航空航天大学出版社.
[66]田疆,田洁,蒲军.2004.基于导电橡胶的柔性动态触觉传感器系统及其图像恢复的研究[J].机器人.Vol.26 No.1 p54-57.
[67]Shimojo,M.;Namiki,A.;Ishikawa,M.;Makino,R.et.al.2004.A tactile sensor sheet using pressure conductive rubber with electrical-wires stitched method[J].Sensors Journal,IEEE Vol.4,Issue 5,Oct.2004 P:589-596.
[68]龚惠芳,鞠颂东.1996.金属材料学[M].北京,北方交通大学出版社.
[69]马洛夫(苏)著,翁善臣译.1984.压电谐振传感器[M].北京:国防工业出版社.
[70]陈明,王玮.2000.声表面波谐振式力学量传感器的发展与现状[J].2000 Vol.19 No.5 p1-3.
[71]Bray,R.C.1988.Applications of SAW resonators in high-performance instrumentation[J].Ultrasonics,Ferroelectrics and Frequency Control,IEEE Transactions on Vol.35,Issue 3,May 1988 Page(s):331-341.
[72]Nakamura H,Karube I.2003.Current research activity in biosensors[J].Anal Bioanal Chem.2003,377(3),p446-468.
[73]Rapp M,Reibel J,Voig A,et al.2000.New miniaturized SAW sensor array for organic gas detection driven multiplexed oscillators[J].Sensors Actuators,2006,6,p169-172.
[74]Huang X,Meng F,Pi Z,et al.2004.Gas sensoring behavior of a single tin dioxide sensor under dynamic temperature modulation[J].Sensors Actuators,2004,99(2-3)p444-450.
[75]Darinskii AN,Biryukov SV,Weihnacht M,et al.Fundamental frequency degeneracy of standing surface acoustic waves under metallic gratings on piezoeletric substrates[j].Acoust Soc Am,2002,112(1):2003-2013.
[76]Gamble K J,Malocha DC.2002.Simulation of short LSAW transducers including electrode mass loading and finite finger resistance[J].IEEE Trans Ultroson Ferroelectr Freq Control,2002,46(1)p47-56.
[77]叶学松,樊海涛,杨明艳,等.2004.声表面波液相金属离子传感器[J].传感器技术学报.2004,2(6)p280-284.
[78]王军峰,李平,周志坤等.2006.声表面波谐振性无源无线温度传感器硬件系统[J].压电与声光.2006 Vol.28.No.1 p1-4.
[79]韦晓兰,莫志宏,梁宇.2007.肝癌细胞黏附的压电石英谐振器实验研究[J].压电与声光.2007.Vol.29 No.3 p305-307.
[80]Shinonaga,H.,Ito,Y.1992.Microwave SAW bandpass filters for spacecraft applications[J].Microwave Theory and Techniques,IEEE Transactions on Vol.40,Issue 6,June 1992 Page(s):1110-1116.
[81]Sinha,B.K.;Locke,S.1987.Acceleration and Vibration Sensitivity of SAW Devices[J].Ultrasonics,Ferroelectrics and Frequency Control,IEEE Transactions on Vol.34,Issue 1,Jan 1987 Page(s):29-38.
[82]O'Sullivan,T.M.;Bingham,C.M.;Schofield,N.2006.High-Performance Control of Dual-Inertia Servo-Drive Systems Using Low-Cost Integrated SAW Torque Transducers[J].Industrial Electronics,IEEE Transactions on Vol.53,Issue 4,June 2006 Page(s):1226-1237.
[83]Weidong Cheng;Yonggui Dong;Guangping Feng.2001.A multi-resolution wireless force sensing system based upon a passive SAW device[J].Ultrasonics,Ferroelectrics and Frequency Control,IEEE Transactions on Vol.48,Issue 5,Sept.2001 Page(s):1438-1441.
[84]Joshi,S.G.1989.Use of a surface-acoustic-wave(SAW)device to measure gas flow[J].Instrumentation and Measurement,IEEE Transactions on Vol.38,Issue 3,June 1989 Page(s):824-826.
[85]Berkenpas,E.;Bitla,S.;Millard,P.2004.Pure shear horizontal SAW biosensor on langasite[J].Ultrasonics,Ferroelectrics and Frequency Control,IEEE Transactions on Vol.51,Issue 11,Nov.2004 Page(s):1404-1411.
[86]Jungyul Sakong;Yongrae Roh;Heesu Roh.2006.3F-2 SAW Sensor System with Micro-Fluidic Channels to Detect DNA Molecules[J].Ultrasonics Symposium,2006.IEEE 2-6 Oct.2006 Page(s):548-551.
[87]Berkenpas E,Millard P,Pereira M,et al.2005.Detection of escherichia coli O157:H7 wiht langasite pure shear horizontal surface acoustic wave sensors[J].Biosensors bioelectron,2005,12(8),p1-8.
[88]Kwon Y,Rob Y.2004.Development of SH-SAW sensors for underwater measurement[J].Ultrasonics,2004,42:409-411.
[89]W.Welkowitz,S.Deutsch,and M.AKay.1991.Biomedical Instruments Theory and Design,2~(nd).New York:Academic Press.
[90]D.J.Peters and B.L.Blackfors.1989.Piezoelectric bimorph-based translation device for two dimensional remote micropositioning[J].Rev.Sci.Instrum.60,1989,p138-140.
[91]Y.Kurk and P.J.Silverman.1989.Scanning tunneling microscope instrumentation.Rev.Sci.Instrum.60,1989.p165-180.
[92]方亮,王万录.1999.P型多晶金刚石薄膜压阻效应的研究[J].中国科学:A辑.Vol.29 No.6 Pages542-549.
[93]魏泽文,秦明,黄庆安.2007.一种新型硅压阻式流速流向传感器的设计 [J].仪器仪表学报.Vol.28 No.8 Pages:1416-1420.
[94]樊尚春,彭春荣.2003.硅压阻式传感器的温度特性及其补偿[J].微纳电子技术.Vol.40 No.7,Pages:484-488.
[95]Suhling,J.C.;Jaeger,R.C.2001.Silicon piezoresistive stress sensors and their application in electronic packaging[J].IEEE Sensors Journal.Vol.1,Issue 1,June 2001 Page(s):14-30.
[96]Ze-Wen Wei,Ming Qin,Qing-An Huang.2006.Design of a novel 2-D silicon piezoresistive flow sensor[C].International Conference on Solid-State and Integrated Circuit Technology,2006 Oct.Page(s):643-645.
[97]Gretillat,F.,Gretillat,M.-A.,de Rooij,N.F.1999.Improved design of a silicon micromachined gyroscope with piezoresistive detection and electromagnetic excitation[J].Microelectromechanical Systems,Volume 8,Issue 3,Sept.1999Page(s):243-250.
[98]邓铁六,白泰礼,马俊亭,等.单线圈电流型振弦式传感器[J].传感器技术,2000,19(4):22-25.
[99]崔玉亮,邓铁六,于凤.谐振式传感器理论及测试技术[M].北京:煤炭工业出版社,1997.41-45.
[100]蒋小钢,辛松林.振弦式仪器及其长期稳定性[J].大坝观测与土工测试,1994,18(1):20-25.
[101]Kirichenko,A.Yam,Suvorova,O.A.2006.The Method of Electromagnetic Field Visualization with a Vibrating String[C].International Conference on Microwaves,Radar & Wireless Communications,2006.MIKON,22-24 May 2006 Page(s):41-44.
[102]Kuhinek,D,Zoric,I.2007.Enhanced Vibrating Wire Strain Sensor[C].2007IEEE Instrumentation and Measurement Technology Conference Proceedings,1-3 May Page(s):1-4.
[103]Arutunian,S.G,Dobrovolski,N.M,Egiazarian,S.L,et al.Magnetic field distribution measurement by vibrating wire strain gauge[C].Proceedings of the 1999 Particle Accelerator Conference.Volume 2,27 March-2 April 1999Page(s):1468-1470.
[104]Brignell,J.E.1993.Vibrating strain elements:compensation and application[J], IEE Colloquium on Sensing Via Strain,22 Oct 1993 Page(s):3/1-3/2.
[105]白泽生.2007.一种基于振弦式传感器测频方法的实现[J].传感器与微系统.Vol.26 No.8 Pages81-83.
[106]Y.kanda.1991.Piezoresistance effect in silicon[J].Sensors and actuators.28A,1991,p83-91.
[107]Kuribayashi,K,Oe,N.Shimizu,S.,Taniguchi,T.1993.Micro force sensor using strain gauge for articulated robot hand[C].Proceedings of International Conference onIndustriai Electronics,Control,and Instrumentation,15-19 Nov.1993 Page(s):1748-1753.
[108]王嘉力,姜力,刘宏.2007.一种用于微型六维力传感器的集成式应变计设计[J].机器人.Vol.29 No.4 Pages403-406.
[109]干方建,刘正士,任传胜等.2007.一种应变式六维力传感器的动态设计[J].中国机械工程.Vol.18 No.8 Pages:967-970.
[110]邱联奎,雷建和,宋全军等.2006.水下机器人手爪力感知系统研究[J].传感技术学报.Vol.19 No.4 Pages:1152-1156.
[111]刘正士,王国泰.2001.一种高性能六轴腕力传感器弹性体结构设计[J].应用科学学报.Vol.19 No.1 Pages:57-61.
[112]Ke-Jun Xu;Cheng Li.2000.Dynamic decoupling and compensating methods of multi-axis force sensors[J].IEEE Transactions on Instrumentation and Measurement,Vol.49,Issue 5,Oct.Page(s):935-941.
[113]Lin,P.,Datseris,P.1986.Development of a position and force sensor for robotic applications[J].1986 IEEE International Conference on Robotics and Automation.Proceedings.Vol.3,Apr 1986 Page(s):1798-1805.
[114]Zandman,F.,Post,D.1965.Influence of Themal Strains on Temperature Coefficient of Bulk Metal Film Resistors[J].Parts,Materials and Packaging,Volume 1,Issue 1,Jun 1965 Page(s):158-164.
[115]Chun-Liu Zhao,Limin Xiao,Jian Ju,et.al.Strain and Temperature Characteristics of a Long-Period Grating Written in a Photonic Crystal Fiber and Its Application as a Temperature-Insensitive Strain Sensor[J].Lightwave Technology,Vol.26,Issue 2,Jan.15,2008 Page(s):220-227.
[116]Goodzeit,C.L.,Anerella,M.D.,Ganetis,G.L.1989.Measurement of internal forces in superconducting accelerator magnets with strain gauge transducers[J].Magnetics,Volume 25,Issue 2,Mar 1989 Page(s):1463-1468.
[117]Ozelis,J.P.,Bause,P.,Bossert,R.,et.al.1997.Development of collar lamination strain gauges for coil stress measurements in superconducting accelerator magnets[J].Applied Superconductivity,Vol.7,Issue 2,Part 1,June Page(s):590-593.
[118]邓足斌.1999.纯弯矩梁型应变计数系数测定装置的误差分析和精度评定方法[J].仪表技术与传感器,6-7:11-13.
[119]Wang HR,Gao F,Huang Z.1998.Design of 6-aixis force/torque sensors based on stewart platform related to isotrophy[J].Chinese Journal of Mechanical Engineering,1998,11(3):217-222.
[120]张新,费业泰.2007.应变式全剪切三维加速度传感器的设计[J].中国机械工程.Vol.18 No.10 pages:1157-1160.
[121]王建华.2005.双悬臂结构应变测量计[P].中国专利,ZL200320109969.X.
[122]荣伟彬,王家畴,赵玉龙等.2007.基于MEMS技术的微操作三维力传感器研究[J].仪器仪表学报.Vol.28 No.4 Pages:692-698.
[123]Arai,F.;Andou,D.;Nonoda,Y.,et al.1996.Micro endeffector with micro pyramids and integrated piezoresistive force sensor[C].Proceedings of the 1996IEEE/RSJ International Conference on Intelligent Robots and Systems,Vol.2,4-8 Nov.1996 Page(s):842-849.
[124]陈晓颖,王晓蕾,朱益民等.2007.径向基函数网络在硅压阻气压传感器温度补偿中的应用[J].计量技术.Vol.3 Pages:41-45.
[125]郑建国,李从新.1997.基于模数转换器的铂电阻非线性校正[J].计量技术,(3):10-12.
[126]Troffimenkoff F N.1984.Single Amplifier Resistance Bridge with Feedback Linearization[J].IEEE Transcation on Instrumentation and Measurement,IM-33(1):60-63.
[127]李大应,胡小方,夏源明.2007.电阻应变式高同轴度筒式拉压传感器[J].传感器与微系统.Vol.26 No.10 Pages:90-92.
[128]王彬,杨鹏.2002.电阻应变式传感器的贴片及焊接技术[J].衡器.Vol.31No.6 Pages:29-31.
[129]刘玉增,王继芳,邹德威等.2007.电阻片应变法在测量三翼臼固定后骨盆应力变化中的应用[J].中国修复重建外科杂志.Vol.21 No.3 Pages:272-274.
[130]邹广平,曲嘉.2006.基于电阻应变计的称重装置[J].中国测试技术.Vol.32 No.3.Pages:140-142.
[131]潘玉安,曹荣祥,曹良足.2005.压电陶瓷传感器灵敏度的研究[J].压电与声光.Vol.27 No.2 Pages:128-130.
[132]Arai,K.I.,Yamaguchi,M.,Muranaka,C.S..1989.Measurement of thin film's magnetostriction with piezoelectric ceramic substrates[J].IEEE Transactions on Magnetics,Volume 25,Issue 5,Sep 1989 Page(s):4201-4203.
[133]Lee,P.C.Y.,Rui Huang,Xiaoping Li,Wei-Heng Shih.2000.Vibrations and static responses of asymmetric bimorph disks of piezoelectric ceramics[J].IEEE Transactions on Ultrasonics,Ferroelectrics and Frequency Control,Volume 47,Issue 3,May 2000 Page(s):706-715.
[134]冯晓强,贺锋涛,张东玲.2005.采用DDS的近场扫描光学显微镜探针一样品的纳米距离检测[J].光子学报.Vol.34 No.5 Pages:726-729.
[135]宋晓辉,任道远.2007.半导体压力传感器研制现状与开发动向[J].传感器世界.Vol.13 No.7 Pages:10-13.
[136]Abdollahi,A.,Zhongwei Jiang,Arabshahi,S.A..2007.Evaluation on mass sensitivity of SAW sensors for different piezoelectric materials using finite-element analysis[J].IEEE Transactions on Ultrasonics,Ferroelectrics and Frequency Control,Volume 54,Issue 12,December 2007 Page(s):2446-2455.
[137]Kawamura,K.,Saito,H.,Noto,F..1988.Development of a high voltage sensor using a piezoelectric transducer and a strain gage[J].IEEE Transactions on Instrumentation and Measurement,Volume 37,Issue 4,Dec.1988Page(s):564-568.
[138]Varadan,V.V.,Kim,J.,Varadan,V.K..1997.Modeling of piezoelectric sensor fidelity[J].IEEE Transactions on Ultrasonics,Ferroelectrics and Frequency Control,Volume 44,Issue 3,May 1997 Page(s):538-547.
[139]凌明芳,祝运海.1997.SAW谐振器型温度传感器[J].仪表技术与传感器.Vol.12 Pages:8-10.
[139]Thalhammer,R.,Braun,S.,Devcic-Kuhar,B.1998.Viscosity sensor utilizing a piezoelectric thickness shear sandwich resonator[J].IEEE Transactions on Ultrasonics,Ferroelectrics and Frequency Control,Volume 45,Issue 5,Sept.1998 Page(s):1331-1340.
[140]Weinberg,M.S.1999.Working equations for piezoelectric actuators and sensors[J].Microelectromechanicai Systems,Volume 8,Issue 4,Dec.1999Page(s):529-533.
[141]何挺.2004.螺旋转子流量计在油品贸易计量中的特殊应用[J].世界仪表与自动化.Vol.8 No.7 Pages:52-53,57.
[142]郑灿亭.2002.容积式流量计运行磨损与其测量精度变化的关系[J].石油化工自动化.Vol.2 Pages:69-72,83.
[143]Lijun Sun,Zhaoying Zhou,Tao Zhang.2006.Numerical Simulation of Turbine Flowmeter's Three-Dimensional Flow Fields[J].The Sixth World Congress on Intelligent Control and Automation,Volume 1,Page(s):5023-5027.
[144]曲庆文,宋润州.2006.气体涡轮流量计中动压气体轴承的研究[J].润滑与密封.No.10 Pages:49-51.
[145]苏彦勋.1991.流量计量[M].北京-中国计量出版社,1991.
[146]曹广军,薛敦松.2002.粘性流体对涡轮流量计仪表系数影响的实验研究[J].工程热物理学报.Vol.23 No.1 Pages:55-56.
[147]李素芬.1995.涡轮流量计测量误差修正[J].测控技术.Vol.14 No.4Pages:19-21.
[148]梁国伟,薛生虎,郑建光.2000.用涡轮流量计传递流量标准装置工作量器量值[J].中国计量学院学报.Vol.11 No.1 Pages:46-50,56.
[149]李晓强,高丽红,王正垠.2004.一种高精度超声波流量计时间测量方法[J].计量技术.No.6 Pages:6-7,12.
[150]李广峰,高勇.2001.超声波流量计的高精度测量技术[J].仪器仪表学报.Vol.22 No.6 Pages:644-647.
[151]Goler,I.,Ouler,N.F..1990.Construction And Matching Of Ultrasonic Transducer For Pulsed Doppler Blood Flowmeter[C].Proceedings of the Twelfth Annual International Conference of the IEEE Engineering in Medicine and Biology Society,1990.,1-4 Nov.1990 Page(s):320-321.
[152]Takenoshita,M.,Yonezawa,Y.,Mikuniye,A.,et al.1993.Detection of ultrasonic flowmeter beam incident angle for precise blood velocity measurements[C].Proceedings of the 15th Annual International Conference of the IEEE Engineering in Medicine and Biology Society,1993.Oct 28-31,1993Page(s):994-995.
[153]Fisher,N.E.,Webb,D.J.,Pannell,C.N.1998.Ultrasonic field and temperature sensor based on short in-fibre Bragg gratings[J].Electronics Letters.Volume 34,Issue 11,28 May 1998 Page(s):1139-1140.
[154]Magori,V.,Walker,H.1987.Ultrasonic Presence Sensors with Wide Range and High Local Resolution[J].IEEE Transactions on Ultrasonics,Ferroelectrics and Frequency Control,Volume 34,Issue 2,Mar 1987 Page(s):202-211.
[155]Kalgaonkar,K.,Rongquiang Hu,Raj,B.2007.Ultrasonic Doppler Sensor for Voice Activity Detection[J].IEEE Signal Processing Letters,Volume 14,Issue 10,Oct.2007 Page(s):754-757.
[156]Hernandez,A.,Urena,J.,Garcia,J.J,et al.2004.Ultrasonic ranging sensor using simultaneous emissions from different transducers[J].IEEE Transactions on Ultrasonics,Ferroelectrics and Frequency Control,Volume 51,Issue 12,Dec.2004 Page(s):1660-1670.
[157]倪伟,徐科军.2005.基于时变信号模型的科里奥利质量流量计信号处理方法[J].仪器仪表学报.Vol.26 No.4 Pages:358-364.
[158]樊尚春,刘广建.2000.谐振式科里奥利质量流量计[J].北京航空航天大学学报.Vol.26 No.6 Pages:653-655.
[159]孙仁伟.2005.浮子流量计的发展介绍[J].自动化与仪表.Vol.20 No.5Pages:29-31.
[160]周成刚,叶锡标,张阳等.基于二维零位光栅的高精度平面定位系统[J].纳米技术与精密工程.Vol.4 No.3 Pages;190-194.
[161]郑洪.2003.单道编码CCD细分直线编码器的研究[J].中国机械工程.Vol.14 No.3 Pages:195-197.
[162]邓方[1,2],陈杰,陈文颉.2007.一种高精度的光电编码器检测方法及其装置[J].北京理工大学学报.Vol.27 No.11 Pages:977-980,1008.
[163]Zettlex.2006.用于旋转位置测量的电机编码器[J].Vol.03x.Pages:52-52.
[164]安博文,陈桂林.2005.高精度转炉倾角测量仪的应用研究[J].红外技术.Vol.27 No.6 Pages:485-489.
[165]李贺桥,彭志强.2002.光电开关位置编码测控技术及其应用[J].光电工程.Vol.29 No.1 Pages:38-41.
[166]郭耀华,马军爽,李连山.2007.光电编码器在钢板宽度剪切系统中的应用[J].传感器与微系统.Vol.26 No.6 Pages:87-89.
[167]于庆广,刘葵,王冲.2006.光电编码器选型及同步电机转速和转子位置测量[J].电气传动.Vol.36 No.4 Pages:17-20.
[168]熊文卓,吴江洪,孔智勇.2004.细光栅自成像光电轴角编码器[J].光电工程.Vol.31 No.1 Pages:46-48.
[169]孙贤颐,安维蓉.1996.提高光栅测距精度的四倍频判向电路[J].北方交通大学学报.Vol.20 No.6 Pages:751-753,757.
[170]Tao Zhu,Yun-Jiang Rao,Jiu-Ling Wang.2007.A Highly Sensitive Fiber-Optic Refractive Index Sensor Based on an Edge-Written Long-Period Fiber Grating[J].Photonics Technology,Volume 19,Issue 24,Dec.15,2007Page(s):1946-1948.
[171]刘新福,杜占平,李为民.2007.半导体测试技术原理与应用[M].北京-冶金工业出版社.
[172]樊琼剑,杨忠,王凤仙.2006.温度传感器在无人飞行器控制系统中的应用[J].传感器与微系统.Vol.25 No.4 Pages:75-7.
[173]赵新宇,何怡刚.2005.车用铂电阻温度传感器非线性校正[J].计量与测试技术.Vol.32 No.5 Pages:9-10.
[174]黄贤武,郑筱霞,曲波.1997.传感器实际应用电路设计[M].成都:电子科技大学出版社.
[175]森村正直,山崎弘郎.1988.传感器技术[M].北京:科学出版社.
[176]张福学.1991.传感器应用及其电路精选[M].北京:电子工业出版社.
[177]刘迎春,叶湘滨.传感器原理设计与应用[M].1993.长沙:国防科技大学出版社.
[178]管理.2007.热敏电阻在液体火箭发动机试验中的应用[J].低温工程.No.6Pages:54-58.
[179]马庆华,尚展垒.2005.采用热敏电阻器研制风速传感器的设计[J].传感器 技术.Vol.24 No.5 Pages:61-62.
[180]曹柏荣.2006.现代温室中湿度的测量[J].微计算机信息.Vol.22 No.10-2.Pages:257-259.
[181]梁新刚,梁宏.1999.用热敏电阻测量气流速度的研究[J].宇航计测技术.Vol.1 9 No.2 Pages:35-39.
[182]张福学.2002.自然对流气体的摆特性及其在传感器中的应用[J].中国工程科学,4(8):50-53.
[183]E.H.普特来著,傅德中译.1964.霍尔效应及有关现象[M].上海-上海科学技术出版社
[184]Kataoka,S.1969.Integrated solid-state non-contacting potentiometers and switches based on the magnetoresistive effect in InSb[C].1969 International Electron Devices Meeting,Volume 15,1969 Page(s):144-144.
[185]A.Petersen.1989.The magnetoresistive sensor-a sensitive device for detecting magnetic field variations[J].Electronic components Appl.8,1989,p222-239.
[186]Ferris,Sidney A.,Ivison,John M.1974.A Technique for Increasing the Linear Range of a Magnetoresistor Displacement Transducer[J].IEEE Transactions on Instrumentation and Measurement,Volume 23,Issue 2,June 1974 Page(s):116-120.
[187]2007.信息存储时代的物理英雄—记2007年诺贝尔物理学奖获得者阿尔贝·费尔和彼得·格伦贝格[J].物理.Vol.36 No.12 Pages:951-955.
[188]Otto,T.,Ruan,G.,Fritzsch,U.et al.1997.Technology,test and application of stack photoresistor colour sensors[C].Proceedings of 1997 IEEE International Symposium on circuits and Systems,1997.Vol.4,9-12 June 1997Page(s):2757-2760.
[189]周爱玉,岳伟伟,何保山.2006.基于干法光学生物传感器的便携式血红蛋白检测系统[J].传感技术学报.Vol.19 No.5 Pages:2092-2095,2099.
[190]李韪韬,钱志余,王惠南.2008.近红外光断层成像的理论和研究进展[J].生物医学工程学杂志.Vol.25 No.1 Pages:208-211.
[191]Nichol,D.G.1987.Autonomous Extraction of an Eddy-Like Structure from Infrared Images of the Ocean[J].IEEE Transactions on Geoscience and Remote Sensing,Volume GE-25,Issue 1,Jan.1987 Page(s):28-34.
[192]杨卫平,沈振康.2007.红外成像导引头及其发展趋势[J].激光与红外.Vol.37 No.11 Pages:1129-1132,1136.
[193]郑开陵.1997.焦平面阵列与精确制导武器[J].现代兵器.No.1Pages:37-38.
[194]葛家怡,沙占友.基于湿敏电阻的相对湿度测量仪电路设计[J].计量技术.No.4 Pages:29-31.
[195]Shook,R.L.,Conrad,T.R.,Sastry,V.S.1996.Diffusion model to derate moisture sensitive surface mount IC's for factory use conditions[J].IEEE Transactions on Components,Packaging,and Manufacturing Technology,Part C,Volume 19,Issue 2,April 1996 Page(s):110-118.
[196]常柏灵,孙连霞,王希忠.2004.镍浆在厚膜湿敏电阻器上的应用研究[J].传感器技术.Vol.23 No.9 Pages:29-30,34.
[197]Kuroiwa,M.,Shimamoto,Y.,Yasuda,Y.2001.Hysteresis characteristics vs relative humidity for AT-Cut quartz humidity sensors[C].International Proceedings of the 2001 IEEE Frequency Control Symposium and PDA Exhibition,2001.6-8 June 2001 Page(s):492-496.
[198]Garstang,M.,Murday,M.,Seguin,W.R.1971.Fluctuations in Humidity,Temperature,and Horizontal Wind as Measured by a Subcloud Tethered-Balloon System[J].IEEE Transactions on Geoscience Electronics,Volume 9,Issue 4,Oct.1971 Page(s):199-208.
[199]岳钊,牛文成,谢林宏.2007.基于MISFET结构的Pt-NiO混合敏感膜溶解二氧化碳传感器的研究[J].传感技术学报.Vol.20 No.6 Pages:1203-1206.
[200]Saha,H.,Basu,S.,Bhattacharyya,P.2007.MEMS based nano crystalline zinc oxide methane gas sensors[J].2007.Internationai Workshop on Physics of Semiconductor Devices,16-20 Dec.2007 Page(s):645-651.
[201]王新华,王晓亮,冯春.2008.AlGaN/GaN背对背肖特基二极管氢气传感器[J].半导体学报.Vol.29 No.1 Pages:153-156.
[201]Brailsford,A.D.,Yussouff,M.,Logothetis,E.M.1995.Theory Of Gas Sensors:Response Of An Electrochemical Sensor To Multicomponent Gas Mixtures[C].The 8th International Conference on Solid-State Sensors and Actuators,Vol.2,June 25-29,1995 Page(s):878-881.
[202]Sayhan,I.,Helwig,A.,Becker,T.2008.Discontinuously Operated Metal Oxide Gas Sensors for Flexible Tag Microlab Applications[J].Sensors.Vol.8,Issue 2,Feb.Page(s):176-181.
[203]徐甲强,韩建军,孙雨安.2006.半导体气体传感器敏感机理的研究进展[J].传感器与微系统.Vol.25 No.11 Pages:5-8.
[204]毛友安,刘巍,黄建国.2007.用电子鼻检测技术比较卷烟烟丝挥发性组分整体性质的研究[J].化学传感器.Vol.27 No.4 Pages:36-42.
[205]杨丽丽,张岱,方坚.2007.电子鼻分析技术在葡萄酒检测中的应用[J].中外葡萄与葡萄酒.No.5 Pages:48-50.
[206]Xing Chen,Mingfu Cao,Yah Hao.2005.A Non-invasive Detection of Lung Cancer Combined Virtual Gas Sensors Array with Imaging Recognition Technique[C].2005.27th Annual International Conference of the Engineering in Medicine and Biology Society,2005 Page(s):5873-5876.
[207]Bin Guo,Bermak,A.,Chan,P.C.H.2007.An Integrated Surface Micromachined Convex Microhotplate Structure for Tin Oxide Gas Sensor Array[J].Sensors.Volume 7,Issue 12,Dec.2007 Page(s):1720-1726.
[208]Dae-Sik Lee,Sang-Woo Ban,Minho Lee.2005.Micro gas sensor array with neural network for recognizing combustible leakage gases[J].Sensors.Volume 5,Issue 3,June 2005 Page(s):530 -536.
[209]曹明富,陈星,王永清.2008.基于虚拟气体传感器阵列的新型肺癌检测电子鼻实验研究[J].中国生物医学工程学报.Vol.27 No.1 Pages:102-107.
[210]温宗周.2006.碱溶液浓度测控系统的研究与设计[J].现代电子技术.Vol.29 No.15 Pages:116-118.
[211]梁杰,王英,张亚非.DNA溶液的导电行为[J].生物工程学报.Vol.22 No.2Pages:334-337.
[212]Yasumitsu Matsuo,Go Kumasaka,Junko Hatori,et al.Electrical properties of fuel cell based on DNA film[J].Current Applied Physics,Volume 6,Issue 3,June 2006,Pages 340-343.
[213]Stanley E.Woodard,Bryant D.Taylor.2007.A wireless fluid-level measurement technique[J].Sensors and Actuators A:Physical,Volume 137,Issue 2,4 July 2007,Pages 268-278.
[214]刘力双,吕乃光,孙双花.2007.一种非接触高精度平面高度差检测方法[J].传感技术学报.Vol.20 No.7 Pages:1644-1647.
[215]张洪刚,吴敬国.2001.电容传感器及其纳米量级定位技术[J].仪表技术与传感器.(10):3-5.
[216]Marc Bendahan,Khalifa Aguir,Jean-Luc Seguin,Herve Carchano.1999.NiTi thin films as a gate of M.O.S.capacity sensors[J].Sensors and Actuators A:Physical,Volume 74,Issues 1-3,20 April,Pages 242-245.
[217]郭强,赵锐,郑贵省.2005.多传感器数据融合在涂层厚度检测中的应用[J].传感器技术.Vol.24 No.6 Pages:74-76.
[218]刘彦民,关继腾.1995.用电容电感补偿法检测非磁性镀涂层厚度[J].石油大学学报:自然科学版.Vol.19 No.1 Pages:102-105.
[219]S.D.Welsby and T.Hitz.1997.True position measurement with eddy current technology[J].Sensors.14,November,p30-40.
[220]E.E.Herceg.Handbook of Measurement and Control.Pennsauken,NJ:Schaevita Engineering,1976.Fourth Printing,1986.
[221]江澄,彭立志,孙健国.2007.航空发动机数控系统中LVDT传感器信号处理及在线故障检测[J].航空动力学报.Vol.22 No.8 Pages:1396-1400.
[222]Hareem Tariq,Akiteru Takamori,Flavio Vetrano,et al.2002.The linear variable differential transformer(LVDT)position sensor for gravitational wave interferometer low-frequency controls[J].Nuclear Instruments and Methods in Physics Research Section A:Accelerators,Spectrometers,Detectors and Associated Equipment,Volume 489,Issues 1-3,21 August 2002,Pages 570-576.
[223]庞长涛,张建明,罗松保.2005.基于超精密机床的LVDT在线检测系统的研究[J].航空精密制造技术.Vol.41 No.1 Pages:30-34.
[224]唐德东,黄尚廉,陈伟民.2007.旁路励磁的磁弹性索力传感器研究[J].仪器仪表学报.Vol.28 No.7 Pages:1159-1163.
[225]G.Ausanio,A.C.Barone,C.Hison,et al.2006.Mechanical vibration sensor based on elastomagnetic composite[J].Sensors and Actuators A:Physical,Volume 129,Issues 1-2,24 May 2006,Pages 25-28.
[226]沈立华,王悦民,范春利等.2007.纵向导波磁致伸缩传感器信号检测的实 验研究[J].传感技术学报.Vol.20 No.9 Pages:2048-2052.
[227]R.Andreescu,B.Spellman,E.P.Furlani.2008.Analysis of a non-contact magnetoelastic torque transducer[J].Journal of Magnetism and Magnetic Materials,Volume 320,Issue 12,June 2008,Pages 1827-1833.
[228]I.Giouroudi,J.Kosel,H.Pfǜtzner,et al.2008.Magnetostrietive bilayer sensor system for testing of rotating microdeviees[J].Sensors and Actuators A:Physical,Volume 142,Issue 2,10 April 2008,Pages 474-478.
[229]赖宗声,郑筱莉.2001.一种新型两维霍尔角度传感器研究[J].传感技术学报.Vol.14 No.1 Pages:14-17.
[230]Youngjune Hur,Jinho Han,Jooheon Seon,Yukeun Eugene Pak and Yongrae Rob,2005."Development of an SH-SAW sensor for the detection of DNA hybridization",Sensors and Actuators A:Physical,Volume 120,Issue 2,pp 462-467,May 2005.
[231]Okojie R.S.,Atwell A.R.;Kornegay,K.T.,Roberson,S.L.;Beliveau,A.,Design considerations for bulk micromachined 6H-SiC high-G piezoresistive accelerometers[J],Micro Electro Mechanical Systems,The Fifteenth IEEE International Conference on 20-24 Jan.2002 Page(s):618 -622.
[232]宋记锋,葛运建.一种基于完全线性变换法则的差分方程解析解算法(英)[J].中国科学院研究生院学报,已录用.
[233]Helm,H.A.The z-Transformation,B.S.T.Journal.Vo 38,No.1,pp.177-196,1956.
[234]E.I.,Jury.Theory and application of the Z-Transform Method,John Wiley &Sons.New york,London Sydney 1964.
[235]Hu Jin-song.The Generalization of Working Out a Special Solution for Inhomogeneous Diference Equation.Journal of Chongqing Normal University (Natural Science Edition).Vol.20,pp.76-79,2003.
[236]B.Szmanda.Properties of Solutions of Higher Order Difference Equations.Mathl.Comput.Modeling Vol.28,pp.95-101,1998.
[237]Sun Shu-rong.Asymptotic Behavior and Existence of Positive Solutions for the Higher Order Neutral Difference Equations.Journal of Engineering Mathematics,Vol.19,pp.15-20,2002.
[238]Li Ding-wu.The existence of multiple positive solution of even order neutral difference equation.Pure and Applied Mathematics,Vol.20,pp.273-278,2004.
[239]Patricia J.Y.Wong,Ravi P.Agarwal.Asymptotic behaviour of solutions of higher order difference and partial difference equations with distributed deviating arguments.Applied Mathematics and Computation,Vol.97,pp.139-164,1998.
[240]R.P.AGARWAL.Existence of Positive Solutions for Higher Order Difference Equations.Appl.Math.Lett.Vol.10,pp.67-74,1997.
[241]Yuming Chen.All Solutions of a Class of Difference Equations are Truncated Periodic.Applied Mathematics Letters,Vol.15,pp.975-979,2002.
[242]Aytac Arikoglu and Ibrahim Ozkol.Solution of difference equations by using differential transform method,Applied Mathematics and Computation.Vol.174,pp.1216-1228,2006
[243]Sui SunChen,YiFeng LU.General Solutions of a Three-Level Partial Difference Equation.Computers and Mathematics with Applications 38,pp.65-79,1999.
[244]Patricia J.Y.Wong.Multiple fixed-sign solutions for a system of difference equations with Sturm-Liouville conditions.Journal of Computational and Applied Mathematics Vol.183,pp.108-132,2005.
[245]张铁岗.2001.矿井瓦斯综合治理技术[M].北京 煤矿工业出版社.
[246]Allen,Rodney G,Ritzel and Dale O.1997.An injury & cost assessment of a coal mining co.'s return-to-work program[J].Professional Safety.1997,9:24-6
[247]何学秋等.2005.安全工程学[M].徐州:中国矿业大学出版社.
[248]朱连山.1997.煤与瓦斯突出机理及其发生条件评述[J],煤炭科学技术,11:44-47.
[249]王宏图,鲜学福.1999.用温度指标预测掘进工作面突出危险性的探讨[J],钟情大学学报(自然科学版),2:34-38.
[250]王恩怨,何学秋,刘贞堂.1999.煤岩破裂声发射试验研究及RPS统计分析[J],煤炭学报,3:270-273.
[251]姜福兴.2002.微震检测技术在矿井岩层破裂检测中的应用[J],岩石工程学报,2:147-149.
[252]A.D.Alexeeva,V.N.Revvaa,N.A.Alyshevb,et al.2004.True triaxial loading apparatus and its application to coal outburst prediction[J].International Journal of Coal Geology,58(2004)245-250.
[252]杨智懿,熊亚选,张乾林.2004.工作面瓦斯涌出量的神经网络模型预测研究,煤炭工程,No.10:73-75.
[253]曲方,刘克功,赵洪等.2004.基于煤壁瓦斯涌出初速度的综掘工作面瓦斯涌出量预测[J],煤矿安全,Aug.Vol.35 No.8:1-4.
[254]吕泉,2006.现代传感器原理及应用[M].北京,清华大学出版社.
[255]H.K.P.Neubert,1975.Instrument Transducers,2nd ed.New York:Oxford Unversity Press.
[256]N.Yazdi,F.Ayazi,and K.Nafaji.1998.Micromachined inertial sensors,Pro.IEEE,56,1640-1659.
[257]R.M.White.1987.A sensor classification scheme.IEEE trans.Uitrason,Ferroelectr Freq Control,34,124-126.
[258]王雪文,张志勇.2004.传感器原理及应用[M].北京,北京航空航天大学出版社.
[259]中国电子学会敏感技术分会,北京电子学会,北京电子商务传感器分会编.1997.传感器与执行器大全[M].北京,电子工业出版社.
[260]田裕鹏,姚恩涛,李开宇编著,2007.传感器原理[M].北京,科学出版社.
[261]Ramon Pallas-Areny,John G.Webster,2003.sensors and signal conditioning (2nd).John Wiley & Sons.
[262]刘笃仁,韩保君,2003.传感器原理及应用技术[M].西安,西安电子科技大学出版社.
[263]Huijsing J H,et al.Development s in integrated smart sensors[J].Sensors and Actuators A,1994,43(15):276.
[264]Meijer G C M.1994.Concept and Focus Point for Intelligent Sensor Systems[J].Sensors and Actuator A,1994,41(15):83.
[265]徐科军,王国泰.2000.基于ADSP的腕力传感器自适应多维动态补偿器[J].仪器仪表学报.Vol.2l No.4 Pages409-411,415.
[266]Taher S.Hassan.2008.Oscillation criteria for half-linear dynamic equations on time scales[J].Journal of Mathematical Analysis and Applications,Volume 345,Issue 1,1 September 2008,Pages 176-185.
[267] Mohan K. Kadalbajoo, Kapil K. Sharma. 2008. A numerical method based on finite difference for boundary value problems for singularly perturbed delay differential equations[J]. Applied Mathematics and Computation, Volume 197, Issue 2,1 April 2008, Pages 692-707.
[268] Qiong Meng, Aimin Zhao, Jurang Yan. 2005. Necessary and sufficient conditions for the oscillation of systems of difference equations with continuous arguments[J]. Journal of Mathematical Analysis and Applications, Volume 312, Issue 1,1 December 2005, Pages 72-82.
[269] Xiaoyan Lin. 2005. Oscillation for higher-order neutral superlinear delay difference equations with unstable type[J]. Computers & Mathematics with Applications, Volume 50, Issues 5-6, September 2005, Pages 683-691.
[2]中科院合肥智能所.2002.中国科学院知识创新工程智能所前沿探索项目任务书[M].合肥.
[3]中国科学院信息获取科学与技术战略研讨会记录[M].2002.合肥.
[4]中国科学院合肥智能所.2002.信息获取科学与技术的学科体系、理论基础与关键技术研究立项建议书[M].合肥.
[5]葛运建等.2002.无所不在的传感与机器人感知[J].中国自动化高层战略研讨会.西安.
[6]葛运建等.2002.浅析我国传感器技术的发展及若干问题[J].国际新型传感器技术应用与产业发展论坛论文集,p65-75.中国.上海.
[7]C.E.Shannon.1948.A Mathematical theory of communication.The Bell system technical journal.Vol.27,p379-423,623-656.
[8]T.Aden,J.Brown,V.Churchwell,P.1997 et al.Summary of the hypervelocity weapons system field experiment.IEEE Trans.Magn.,vol.33.
[9]J.Blankenship.1998.Generic enivironmental survivability and accelerometer performance testing programs for evaluating commencial-off-the shelf(COTS)microelectromechanical(MEM)devices.Naval Surface Warfare Center,Dahlgren Div.,Panama City,FL,ELPR-9706.
[10]刘君华.2000.智能传感器系统[M].西安电子科技大学出版社.西安.
[11]Shih-Ming Yang,Yin,T.I.2005.Double-Microcantilever Design for Surface Stress Measurement in Biosensor Introduction[C].Advanced Intelligent Mechatronics,Proceedings,2005 IEEE/ASME International Conference P:201-206.
[12]Fawcett NC,Evans JA,Chien LT,et al.1988.Nucleic acid hybridization detection by piezoelectric resonance[J].Anal.Lett.21(7):1099.
[13]孔德义,梅涛,陶永春等.2005.一种基于MEMS技术的轻小型爆炸物探测 器研究.中国机械工程.Vol.16,p163-165.
[14]L.A.Pinnaduwage,A.Gehl,D.L.Hedden,G.Muralidharan,et al.2003.ExplosivesA microsensor for trinitrotoluene vapour[J].Nature 425,474-474.
[15]Pamula V K,Fair R B.1999.Detection of nanogram Explosive particles with a MEMS sensor.The SPIE conference on Detection and remediation technologies for mines and minelike targets,Orlando.
[16]McFarlane,J.R.2000.Underwater technology 2000 ROVs and AUVs:tools for exploring,exploiting and defending the ocean frontier[C].Proc.IEEE Int.Conf.on symposium,Underwater Technology.p23-26,465-471.
[17]蒋新松.1996.未来机器人技术发展方向的探讨.机器人.Vol.18,No.5,p285-291.
[18]Yong Qin,Xudong Wang & Zhong Lin Wang.Microfibre-nanowire hybrid structure for energy scavenging[J].2008.Nature.Vol 451 p809-813
[19]Zhong Lin Wang,and Jinhui Song.2006.Piezoelectric Nanogenerators Based on Zinc Oxide Nanowire Arrays[J].Science.14 April 2006 Vol.312.p242-246
[20]李世芸,张超群,高永生.2007.基于并行工程面向装配的设计研究[J].机电产品开发与创新.Vol 20(3).
[21]葛运建等.2003.信息获取科学与力学量信息获取的若干基础问题研究[C].信息获取科学技术与应用.p27-33.中国科学技术出版社.合肥.
[22]梅涛,葛运建,孟庆虎.2003信息获取的理论基础与学科体系初探[C].信息获取科学技术与应用.p3-8.中国科学技术大学出版社,合肥.
[23]汪小华,梅涛.2003.2003信息获取的理论基础与学科体系初探[C].信息获取科学技术与应用.p38-41.中国科学技术大学出版社,合肥.
[24]姜丹.1987.信息论[M].中国科学技术出版社.合肥.
[25]L.Pronzato,E.Thierry.2001.Entropy minimization for parameter estimation problems with unknown distribution of the output noise[C].IEEE Intemational conference on Acoustics,speech and signal processiong.2001,p3993-3996.
[26]P Eggermont,V Lariccia.1999.Best asymptotic normality of the kernel density entropy estimator for smooth densities[J].IEEE Transactions on Information Theory,Vol.45,no.4,P 1321-1326.
[27]Szu,H.2004.Geometric topology for information acquisition by means of smart web[J].International Journal of Information Acquistion 1,Vol.1 No.1p1-22.
[28]X.L.Wang and Y.J.Ge.2004.Research and mathematical theory of information acquisition[J].International Journal of Information Acquistionl,Vol.1 No.4P279-293.
[29]美国基本粒子物理专门小组著.沈齐兴译.1992.Elementary-particle physics:Physics through the 1990s[M].科学出版社.北京
[30]Abraham Pais(著).关洪等(译).2002.基本粒子物理学史.武汉出版社.武汉.
[31]S.Weinberg著,邹振隆,张历宁译.1980.广义相对论的原理和应用[M].科学出版社.北京.
[32]Jin Au Kong.2004.Maxwell equations[M]Higher Education Press,Beijing.
[33]Mark I.Montrose,Edward M.Nakauchi(美)著.中内,游佰强译.2004.电磁兼容的测试方法与技术.机械工业出版社.北京.
[34]V.B.Berestetskii,E.M.Lifshitz,and L.P.Pitaevskii.1999.Quantum electrodynamics[M].世界图书出版公司.北京.
[35]Walter Greiner.1996.量子电动力学[M].世界图书出版公司.北京.
[36]Walter Greiner,Bendt M″uller.2003.Gauge theory of weak interactions[M].世界图书出版公司.北京.
[37]David J.Gross and Frank Wiiczek.1973.Ultraviolet Behavior of Non-Abelian Gauge Theory[J].Phys.Rev.Lett.30,1343.
[38]David J.Gross and Frank Wilczek.1973.Asymptotically Free Gauge Theories.Ⅰ[J].Phys.Rev.D 8,3633(1973).
[39]David J.Gross and Frank Wilczek.1974.Asymptotically free gauge theories.Ⅱ[J].Phys.Rev.D 9,980(1974).
[40]David J.Gross,S.B.Treiman,and Frank Wilczek.1979.Light-quark masses and isospin violation[J].Phys.Rev.D 19,2188(1979).
[41]R.M.White.1987.A sensor classification scheme[J].IEEE Trans.Ultroson.Ferroeletr Freq Control,34,p124-126.
[42]K.Ogata.1996.Modern Control Engineering[M].Upper Saddle River.Nj:Prentice-Hall.
[43]姚守拙.1997.压电化学与生物传感器[M],长沙:湖南师范大学出版社.
[44]秦善编.2004.晶体学基础[M].北京:北京大学出版社.
[45]汪相编.2003.晶体光学[M].南京:南京大学出版社.
[46]奇斯佳科夫,徐介元.1966.晶体管谐振放大器[M].北京:人民教育出版社.
[47]Max Born and Kun Huang.1988.Dynamical theory of crystal lattices[M].Oxford:Clarendon Press.
[48]Richard J.D.Tilley.2006.Crystals and crystal structures[M].Chichester,England;John Wiley & Sons.
[49]陈艾.2004.敏感材料与传感器[M].北京:化学工业出版社.
[50]俞宏,崔学晨,方金豹等.2007.石英晶体传感器系统在检测领域的应用[J].现代科学仪器.No.1 p43-45.
[51]Xiao-Hui Xu,Yan Feng,Bao-Qing Li,et.al.2008.Integration.of displacement sensor into bulk PZT thick film actuator for MEMS deformable mirror[J].Sensors and Actuators A,Accepted.
[52]Said Emre Aiper,Kivanc Azgin,Tayfun Akin.2007.A high-performance silicon-on-insulator MEMS gyroscope operating at atmospheric pressure[J].Sensors and Actuators A:Physical,Volume 135,Issue 1,30 March 2007,Pages 34-42.
[53]Bhushan,B.,Li,X.1997.Micromechanical and tribological characterization of doped single-crystal silicon and polysilicon films for icroelectromechanical systems devices[J].J.Mater,Res.12,54-63.
[54]Larmer,F.,Schilp,A.1992.Method for anisotropically etching silicon.[P]Patents DE4241045,US 5501893,and EP 625285(1992)
[55]Mirfendereski,D.,Lin,L.,Kiureghian,A.D.,Pisano,A.P.1993.Probabilistic response of micro-fabricated polysilicon beam structures:comparison of analysis and experiments[J].Dynamic Systems and Control Division,vol.46.ASME.
[56]陈兴,崔大付,刘长春等.2006基于BioMEMS技术的样品预处理微流控芯片研制[J].微纳电子技术.Vol43 No.1
[57]许嫒媛,夏善红,边超等.2005.基于MEMS的生物微传感技术[J].传感器技术.Vol.24 No.2 p5-7,10.
[58]魏泽文 秦明 黄庆安.2007.一种新型硅压阻式流速流向传感器的设计[J]. 仪器仪表学报.Vol.28 No.8 p1416-1420.
[59]Bianchi,N.A.;Karam,J.-M.M.;Courtois,B.2000.ALC crystal oscillators based pressure and temperature measurement integrated circuit for high temperature oil well applications[J].Ultrasonics,Ferroelectrics and Frequency Control,IEEE Transactions Volume 47,Issue 5,P:1241-1245.
[60]Matsumoto,N.;Sudo,Y.;Sinha,B.K.;Niwa,M.2000.Long-term stability and performance characteristics of crystal quartz gauge at high pressures and temperatures[J].Ultrasonics,Ferroelectrics and Frequency Control,IEEE Transactions.Volume 47,Issue 2,P:346-354.
[61]Lee,Kang Ryeol;Kim,Kunnyun;Kim,Yong-Kook,et.al.2007.Fabrication of Polymer-based Flexible Tactile Sensing Module with Metal Strain Gauges and Interconnecter[C].IEEE SENSORS 2006,EXCO,Daegu,Korea/October 22-25,p742-745.
[62]Ohhashi,M.2002.Ultrasonic measuring method of accumulated elasticity strain energy on the balance lord S45C metal beam[C].Proceedings of the 41st SICE Annual Conference.Vol.4,5-7 Aug.2002 Page(s):2156-2158.
[63]孟明,葛运建,吴仲城.2003.一种新型多维加速度传感器弹性体设计与仿真分析[J].传感技术学报.Vol.16 No.4.p379-383.
[64]张洁,黄惟一.2003.用有限元法对腕力传感器弹性体的力学分析[J].传感器技术.Vol.22 No.3,P33-35.
[65]刘广玉,陈明,吴志鹤等.1995.新型传感器技术及应用[M].北京:北京航空航天大学出版社.
[66]田疆,田洁,蒲军.2004.基于导电橡胶的柔性动态触觉传感器系统及其图像恢复的研究[J].机器人.Vol.26 No.1 p54-57.
[67]Shimojo,M.;Namiki,A.;Ishikawa,M.;Makino,R.et.al.2004.A tactile sensor sheet using pressure conductive rubber with electrical-wires stitched method[J].Sensors Journal,IEEE Vol.4,Issue 5,Oct.2004 P:589-596.
[68]龚惠芳,鞠颂东.1996.金属材料学[M].北京,北方交通大学出版社.
[69]马洛夫(苏)著,翁善臣译.1984.压电谐振传感器[M].北京:国防工业出版社.
[70]陈明,王玮.2000.声表面波谐振式力学量传感器的发展与现状[J].2000 Vol.19 No.5 p1-3.
[71]Bray,R.C.1988.Applications of SAW resonators in high-performance instrumentation[J].Ultrasonics,Ferroelectrics and Frequency Control,IEEE Transactions on Vol.35,Issue 3,May 1988 Page(s):331-341.
[72]Nakamura H,Karube I.2003.Current research activity in biosensors[J].Anal Bioanal Chem.2003,377(3),p446-468.
[73]Rapp M,Reibel J,Voig A,et al.2000.New miniaturized SAW sensor array for organic gas detection driven multiplexed oscillators[J].Sensors Actuators,2006,6,p169-172.
[74]Huang X,Meng F,Pi Z,et al.2004.Gas sensoring behavior of a single tin dioxide sensor under dynamic temperature modulation[J].Sensors Actuators,2004,99(2-3)p444-450.
[75]Darinskii AN,Biryukov SV,Weihnacht M,et al.Fundamental frequency degeneracy of standing surface acoustic waves under metallic gratings on piezoeletric substrates[j].Acoust Soc Am,2002,112(1):2003-2013.
[76]Gamble K J,Malocha DC.2002.Simulation of short LSAW transducers including electrode mass loading and finite finger resistance[J].IEEE Trans Ultroson Ferroelectr Freq Control,2002,46(1)p47-56.
[77]叶学松,樊海涛,杨明艳,等.2004.声表面波液相金属离子传感器[J].传感器技术学报.2004,2(6)p280-284.
[78]王军峰,李平,周志坤等.2006.声表面波谐振性无源无线温度传感器硬件系统[J].压电与声光.2006 Vol.28.No.1 p1-4.
[79]韦晓兰,莫志宏,梁宇.2007.肝癌细胞黏附的压电石英谐振器实验研究[J].压电与声光.2007.Vol.29 No.3 p305-307.
[80]Shinonaga,H.,Ito,Y.1992.Microwave SAW bandpass filters for spacecraft applications[J].Microwave Theory and Techniques,IEEE Transactions on Vol.40,Issue 6,June 1992 Page(s):1110-1116.
[81]Sinha,B.K.;Locke,S.1987.Acceleration and Vibration Sensitivity of SAW Devices[J].Ultrasonics,Ferroelectrics and Frequency Control,IEEE Transactions on Vol.34,Issue 1,Jan 1987 Page(s):29-38.
[82]O'Sullivan,T.M.;Bingham,C.M.;Schofield,N.2006.High-Performance Control of Dual-Inertia Servo-Drive Systems Using Low-Cost Integrated SAW Torque Transducers[J].Industrial Electronics,IEEE Transactions on Vol.53,Issue 4,June 2006 Page(s):1226-1237.
[83]Weidong Cheng;Yonggui Dong;Guangping Feng.2001.A multi-resolution wireless force sensing system based upon a passive SAW device[J].Ultrasonics,Ferroelectrics and Frequency Control,IEEE Transactions on Vol.48,Issue 5,Sept.2001 Page(s):1438-1441.
[84]Joshi,S.G.1989.Use of a surface-acoustic-wave(SAW)device to measure gas flow[J].Instrumentation and Measurement,IEEE Transactions on Vol.38,Issue 3,June 1989 Page(s):824-826.
[85]Berkenpas,E.;Bitla,S.;Millard,P.2004.Pure shear horizontal SAW biosensor on langasite[J].Ultrasonics,Ferroelectrics and Frequency Control,IEEE Transactions on Vol.51,Issue 11,Nov.2004 Page(s):1404-1411.
[86]Jungyul Sakong;Yongrae Roh;Heesu Roh.2006.3F-2 SAW Sensor System with Micro-Fluidic Channels to Detect DNA Molecules[J].Ultrasonics Symposium,2006.IEEE 2-6 Oct.2006 Page(s):548-551.
[87]Berkenpas E,Millard P,Pereira M,et al.2005.Detection of escherichia coli O157:H7 wiht langasite pure shear horizontal surface acoustic wave sensors[J].Biosensors bioelectron,2005,12(8),p1-8.
[88]Kwon Y,Rob Y.2004.Development of SH-SAW sensors for underwater measurement[J].Ultrasonics,2004,42:409-411.
[89]W.Welkowitz,S.Deutsch,and M.AKay.1991.Biomedical Instruments Theory and Design,2~(nd).New York:Academic Press.
[90]D.J.Peters and B.L.Blackfors.1989.Piezoelectric bimorph-based translation device for two dimensional remote micropositioning[J].Rev.Sci.Instrum.60,1989,p138-140.
[91]Y.Kurk and P.J.Silverman.1989.Scanning tunneling microscope instrumentation.Rev.Sci.Instrum.60,1989.p165-180.
[92]方亮,王万录.1999.P型多晶金刚石薄膜压阻效应的研究[J].中国科学:A辑.Vol.29 No.6 Pages542-549.
[93]魏泽文,秦明,黄庆安.2007.一种新型硅压阻式流速流向传感器的设计 [J].仪器仪表学报.Vol.28 No.8 Pages:1416-1420.
[94]樊尚春,彭春荣.2003.硅压阻式传感器的温度特性及其补偿[J].微纳电子技术.Vol.40 No.7,Pages:484-488.
[95]Suhling,J.C.;Jaeger,R.C.2001.Silicon piezoresistive stress sensors and their application in electronic packaging[J].IEEE Sensors Journal.Vol.1,Issue 1,June 2001 Page(s):14-30.
[96]Ze-Wen Wei,Ming Qin,Qing-An Huang.2006.Design of a novel 2-D silicon piezoresistive flow sensor[C].International Conference on Solid-State and Integrated Circuit Technology,2006 Oct.Page(s):643-645.
[97]Gretillat,F.,Gretillat,M.-A.,de Rooij,N.F.1999.Improved design of a silicon micromachined gyroscope with piezoresistive detection and electromagnetic excitation[J].Microelectromechanical Systems,Volume 8,Issue 3,Sept.1999Page(s):243-250.
[98]邓铁六,白泰礼,马俊亭,等.单线圈电流型振弦式传感器[J].传感器技术,2000,19(4):22-25.
[99]崔玉亮,邓铁六,于凤.谐振式传感器理论及测试技术[M].北京:煤炭工业出版社,1997.41-45.
[100]蒋小钢,辛松林.振弦式仪器及其长期稳定性[J].大坝观测与土工测试,1994,18(1):20-25.
[101]Kirichenko,A.Yam,Suvorova,O.A.2006.The Method of Electromagnetic Field Visualization with a Vibrating String[C].International Conference on Microwaves,Radar & Wireless Communications,2006.MIKON,22-24 May 2006 Page(s):41-44.
[102]Kuhinek,D,Zoric,I.2007.Enhanced Vibrating Wire Strain Sensor[C].2007IEEE Instrumentation and Measurement Technology Conference Proceedings,1-3 May Page(s):1-4.
[103]Arutunian,S.G,Dobrovolski,N.M,Egiazarian,S.L,et al.Magnetic field distribution measurement by vibrating wire strain gauge[C].Proceedings of the 1999 Particle Accelerator Conference.Volume 2,27 March-2 April 1999Page(s):1468-1470.
[104]Brignell,J.E.1993.Vibrating strain elements:compensation and application[J], IEE Colloquium on Sensing Via Strain,22 Oct 1993 Page(s):3/1-3/2.
[105]白泽生.2007.一种基于振弦式传感器测频方法的实现[J].传感器与微系统.Vol.26 No.8 Pages81-83.
[106]Y.kanda.1991.Piezoresistance effect in silicon[J].Sensors and actuators.28A,1991,p83-91.
[107]Kuribayashi,K,Oe,N.Shimizu,S.,Taniguchi,T.1993.Micro force sensor using strain gauge for articulated robot hand[C].Proceedings of International Conference onIndustriai Electronics,Control,and Instrumentation,15-19 Nov.1993 Page(s):1748-1753.
[108]王嘉力,姜力,刘宏.2007.一种用于微型六维力传感器的集成式应变计设计[J].机器人.Vol.29 No.4 Pages403-406.
[109]干方建,刘正士,任传胜等.2007.一种应变式六维力传感器的动态设计[J].中国机械工程.Vol.18 No.8 Pages:967-970.
[110]邱联奎,雷建和,宋全军等.2006.水下机器人手爪力感知系统研究[J].传感技术学报.Vol.19 No.4 Pages:1152-1156.
[111]刘正士,王国泰.2001.一种高性能六轴腕力传感器弹性体结构设计[J].应用科学学报.Vol.19 No.1 Pages:57-61.
[112]Ke-Jun Xu;Cheng Li.2000.Dynamic decoupling and compensating methods of multi-axis force sensors[J].IEEE Transactions on Instrumentation and Measurement,Vol.49,Issue 5,Oct.Page(s):935-941.
[113]Lin,P.,Datseris,P.1986.Development of a position and force sensor for robotic applications[J].1986 IEEE International Conference on Robotics and Automation.Proceedings.Vol.3,Apr 1986 Page(s):1798-1805.
[114]Zandman,F.,Post,D.1965.Influence of Themal Strains on Temperature Coefficient of Bulk Metal Film Resistors[J].Parts,Materials and Packaging,Volume 1,Issue 1,Jun 1965 Page(s):158-164.
[115]Chun-Liu Zhao,Limin Xiao,Jian Ju,et.al.Strain and Temperature Characteristics of a Long-Period Grating Written in a Photonic Crystal Fiber and Its Application as a Temperature-Insensitive Strain Sensor[J].Lightwave Technology,Vol.26,Issue 2,Jan.15,2008 Page(s):220-227.
[116]Goodzeit,C.L.,Anerella,M.D.,Ganetis,G.L.1989.Measurement of internal forces in superconducting accelerator magnets with strain gauge transducers[J].Magnetics,Volume 25,Issue 2,Mar 1989 Page(s):1463-1468.
[117]Ozelis,J.P.,Bause,P.,Bossert,R.,et.al.1997.Development of collar lamination strain gauges for coil stress measurements in superconducting accelerator magnets[J].Applied Superconductivity,Vol.7,Issue 2,Part 1,June Page(s):590-593.
[118]邓足斌.1999.纯弯矩梁型应变计数系数测定装置的误差分析和精度评定方法[J].仪表技术与传感器,6-7:11-13.
[119]Wang HR,Gao F,Huang Z.1998.Design of 6-aixis force/torque sensors based on stewart platform related to isotrophy[J].Chinese Journal of Mechanical Engineering,1998,11(3):217-222.
[120]张新,费业泰.2007.应变式全剪切三维加速度传感器的设计[J].中国机械工程.Vol.18 No.10 pages:1157-1160.
[121]王建华.2005.双悬臂结构应变测量计[P].中国专利,ZL200320109969.X.
[122]荣伟彬,王家畴,赵玉龙等.2007.基于MEMS技术的微操作三维力传感器研究[J].仪器仪表学报.Vol.28 No.4 Pages:692-698.
[123]Arai,F.;Andou,D.;Nonoda,Y.,et al.1996.Micro endeffector with micro pyramids and integrated piezoresistive force sensor[C].Proceedings of the 1996IEEE/RSJ International Conference on Intelligent Robots and Systems,Vol.2,4-8 Nov.1996 Page(s):842-849.
[124]陈晓颖,王晓蕾,朱益民等.2007.径向基函数网络在硅压阻气压传感器温度补偿中的应用[J].计量技术.Vol.3 Pages:41-45.
[125]郑建国,李从新.1997.基于模数转换器的铂电阻非线性校正[J].计量技术,(3):10-12.
[126]Troffimenkoff F N.1984.Single Amplifier Resistance Bridge with Feedback Linearization[J].IEEE Transcation on Instrumentation and Measurement,IM-33(1):60-63.
[127]李大应,胡小方,夏源明.2007.电阻应变式高同轴度筒式拉压传感器[J].传感器与微系统.Vol.26 No.10 Pages:90-92.
[128]王彬,杨鹏.2002.电阻应变式传感器的贴片及焊接技术[J].衡器.Vol.31No.6 Pages:29-31.
[129]刘玉增,王继芳,邹德威等.2007.电阻片应变法在测量三翼臼固定后骨盆应力变化中的应用[J].中国修复重建外科杂志.Vol.21 No.3 Pages:272-274.
[130]邹广平,曲嘉.2006.基于电阻应变计的称重装置[J].中国测试技术.Vol.32 No.3.Pages:140-142.
[131]潘玉安,曹荣祥,曹良足.2005.压电陶瓷传感器灵敏度的研究[J].压电与声光.Vol.27 No.2 Pages:128-130.
[132]Arai,K.I.,Yamaguchi,M.,Muranaka,C.S..1989.Measurement of thin film's magnetostriction with piezoelectric ceramic substrates[J].IEEE Transactions on Magnetics,Volume 25,Issue 5,Sep 1989 Page(s):4201-4203.
[133]Lee,P.C.Y.,Rui Huang,Xiaoping Li,Wei-Heng Shih.2000.Vibrations and static responses of asymmetric bimorph disks of piezoelectric ceramics[J].IEEE Transactions on Ultrasonics,Ferroelectrics and Frequency Control,Volume 47,Issue 3,May 2000 Page(s):706-715.
[134]冯晓强,贺锋涛,张东玲.2005.采用DDS的近场扫描光学显微镜探针一样品的纳米距离检测[J].光子学报.Vol.34 No.5 Pages:726-729.
[135]宋晓辉,任道远.2007.半导体压力传感器研制现状与开发动向[J].传感器世界.Vol.13 No.7 Pages:10-13.
[136]Abdollahi,A.,Zhongwei Jiang,Arabshahi,S.A..2007.Evaluation on mass sensitivity of SAW sensors for different piezoelectric materials using finite-element analysis[J].IEEE Transactions on Ultrasonics,Ferroelectrics and Frequency Control,Volume 54,Issue 12,December 2007 Page(s):2446-2455.
[137]Kawamura,K.,Saito,H.,Noto,F..1988.Development of a high voltage sensor using a piezoelectric transducer and a strain gage[J].IEEE Transactions on Instrumentation and Measurement,Volume 37,Issue 4,Dec.1988Page(s):564-568.
[138]Varadan,V.V.,Kim,J.,Varadan,V.K..1997.Modeling of piezoelectric sensor fidelity[J].IEEE Transactions on Ultrasonics,Ferroelectrics and Frequency Control,Volume 44,Issue 3,May 1997 Page(s):538-547.
[139]凌明芳,祝运海.1997.SAW谐振器型温度传感器[J].仪表技术与传感器.Vol.12 Pages:8-10.
[139]Thalhammer,R.,Braun,S.,Devcic-Kuhar,B.1998.Viscosity sensor utilizing a piezoelectric thickness shear sandwich resonator[J].IEEE Transactions on Ultrasonics,Ferroelectrics and Frequency Control,Volume 45,Issue 5,Sept.1998 Page(s):1331-1340.
[140]Weinberg,M.S.1999.Working equations for piezoelectric actuators and sensors[J].Microelectromechanicai Systems,Volume 8,Issue 4,Dec.1999Page(s):529-533.
[141]何挺.2004.螺旋转子流量计在油品贸易计量中的特殊应用[J].世界仪表与自动化.Vol.8 No.7 Pages:52-53,57.
[142]郑灿亭.2002.容积式流量计运行磨损与其测量精度变化的关系[J].石油化工自动化.Vol.2 Pages:69-72,83.
[143]Lijun Sun,Zhaoying Zhou,Tao Zhang.2006.Numerical Simulation of Turbine Flowmeter's Three-Dimensional Flow Fields[J].The Sixth World Congress on Intelligent Control and Automation,Volume 1,Page(s):5023-5027.
[144]曲庆文,宋润州.2006.气体涡轮流量计中动压气体轴承的研究[J].润滑与密封.No.10 Pages:49-51.
[145]苏彦勋.1991.流量计量[M].北京-中国计量出版社,1991.
[146]曹广军,薛敦松.2002.粘性流体对涡轮流量计仪表系数影响的实验研究[J].工程热物理学报.Vol.23 No.1 Pages:55-56.
[147]李素芬.1995.涡轮流量计测量误差修正[J].测控技术.Vol.14 No.4Pages:19-21.
[148]梁国伟,薛生虎,郑建光.2000.用涡轮流量计传递流量标准装置工作量器量值[J].中国计量学院学报.Vol.11 No.1 Pages:46-50,56.
[149]李晓强,高丽红,王正垠.2004.一种高精度超声波流量计时间测量方法[J].计量技术.No.6 Pages:6-7,12.
[150]李广峰,高勇.2001.超声波流量计的高精度测量技术[J].仪器仪表学报.Vol.22 No.6 Pages:644-647.
[151]Goler,I.,Ouler,N.F..1990.Construction And Matching Of Ultrasonic Transducer For Pulsed Doppler Blood Flowmeter[C].Proceedings of the Twelfth Annual International Conference of the IEEE Engineering in Medicine and Biology Society,1990.,1-4 Nov.1990 Page(s):320-321.
[152]Takenoshita,M.,Yonezawa,Y.,Mikuniye,A.,et al.1993.Detection of ultrasonic flowmeter beam incident angle for precise blood velocity measurements[C].Proceedings of the 15th Annual International Conference of the IEEE Engineering in Medicine and Biology Society,1993.Oct 28-31,1993Page(s):994-995.
[153]Fisher,N.E.,Webb,D.J.,Pannell,C.N.1998.Ultrasonic field and temperature sensor based on short in-fibre Bragg gratings[J].Electronics Letters.Volume 34,Issue 11,28 May 1998 Page(s):1139-1140.
[154]Magori,V.,Walker,H.1987.Ultrasonic Presence Sensors with Wide Range and High Local Resolution[J].IEEE Transactions on Ultrasonics,Ferroelectrics and Frequency Control,Volume 34,Issue 2,Mar 1987 Page(s):202-211.
[155]Kalgaonkar,K.,Rongquiang Hu,Raj,B.2007.Ultrasonic Doppler Sensor for Voice Activity Detection[J].IEEE Signal Processing Letters,Volume 14,Issue 10,Oct.2007 Page(s):754-757.
[156]Hernandez,A.,Urena,J.,Garcia,J.J,et al.2004.Ultrasonic ranging sensor using simultaneous emissions from different transducers[J].IEEE Transactions on Ultrasonics,Ferroelectrics and Frequency Control,Volume 51,Issue 12,Dec.2004 Page(s):1660-1670.
[157]倪伟,徐科军.2005.基于时变信号模型的科里奥利质量流量计信号处理方法[J].仪器仪表学报.Vol.26 No.4 Pages:358-364.
[158]樊尚春,刘广建.2000.谐振式科里奥利质量流量计[J].北京航空航天大学学报.Vol.26 No.6 Pages:653-655.
[159]孙仁伟.2005.浮子流量计的发展介绍[J].自动化与仪表.Vol.20 No.5Pages:29-31.
[160]周成刚,叶锡标,张阳等.基于二维零位光栅的高精度平面定位系统[J].纳米技术与精密工程.Vol.4 No.3 Pages;190-194.
[161]郑洪.2003.单道编码CCD细分直线编码器的研究[J].中国机械工程.Vol.14 No.3 Pages:195-197.
[162]邓方[1,2],陈杰,陈文颉.2007.一种高精度的光电编码器检测方法及其装置[J].北京理工大学学报.Vol.27 No.11 Pages:977-980,1008.
[163]Zettlex.2006.用于旋转位置测量的电机编码器[J].Vol.03x.Pages:52-52.
[164]安博文,陈桂林.2005.高精度转炉倾角测量仪的应用研究[J].红外技术.Vol.27 No.6 Pages:485-489.
[165]李贺桥,彭志强.2002.光电开关位置编码测控技术及其应用[J].光电工程.Vol.29 No.1 Pages:38-41.
[166]郭耀华,马军爽,李连山.2007.光电编码器在钢板宽度剪切系统中的应用[J].传感器与微系统.Vol.26 No.6 Pages:87-89.
[167]于庆广,刘葵,王冲.2006.光电编码器选型及同步电机转速和转子位置测量[J].电气传动.Vol.36 No.4 Pages:17-20.
[168]熊文卓,吴江洪,孔智勇.2004.细光栅自成像光电轴角编码器[J].光电工程.Vol.31 No.1 Pages:46-48.
[169]孙贤颐,安维蓉.1996.提高光栅测距精度的四倍频判向电路[J].北方交通大学学报.Vol.20 No.6 Pages:751-753,757.
[170]Tao Zhu,Yun-Jiang Rao,Jiu-Ling Wang.2007.A Highly Sensitive Fiber-Optic Refractive Index Sensor Based on an Edge-Written Long-Period Fiber Grating[J].Photonics Technology,Volume 19,Issue 24,Dec.15,2007Page(s):1946-1948.
[171]刘新福,杜占平,李为民.2007.半导体测试技术原理与应用[M].北京-冶金工业出版社.
[172]樊琼剑,杨忠,王凤仙.2006.温度传感器在无人飞行器控制系统中的应用[J].传感器与微系统.Vol.25 No.4 Pages:75-7.
[173]赵新宇,何怡刚.2005.车用铂电阻温度传感器非线性校正[J].计量与测试技术.Vol.32 No.5 Pages:9-10.
[174]黄贤武,郑筱霞,曲波.1997.传感器实际应用电路设计[M].成都:电子科技大学出版社.
[175]森村正直,山崎弘郎.1988.传感器技术[M].北京:科学出版社.
[176]张福学.1991.传感器应用及其电路精选[M].北京:电子工业出版社.
[177]刘迎春,叶湘滨.传感器原理设计与应用[M].1993.长沙:国防科技大学出版社.
[178]管理.2007.热敏电阻在液体火箭发动机试验中的应用[J].低温工程.No.6Pages:54-58.
[179]马庆华,尚展垒.2005.采用热敏电阻器研制风速传感器的设计[J].传感器 技术.Vol.24 No.5 Pages:61-62.
[180]曹柏荣.2006.现代温室中湿度的测量[J].微计算机信息.Vol.22 No.10-2.Pages:257-259.
[181]梁新刚,梁宏.1999.用热敏电阻测量气流速度的研究[J].宇航计测技术.Vol.1 9 No.2 Pages:35-39.
[182]张福学.2002.自然对流气体的摆特性及其在传感器中的应用[J].中国工程科学,4(8):50-53.
[183]E.H.普特来著,傅德中译.1964.霍尔效应及有关现象[M].上海-上海科学技术出版社
[184]Kataoka,S.1969.Integrated solid-state non-contacting potentiometers and switches based on the magnetoresistive effect in InSb[C].1969 International Electron Devices Meeting,Volume 15,1969 Page(s):144-144.
[185]A.Petersen.1989.The magnetoresistive sensor-a sensitive device for detecting magnetic field variations[J].Electronic components Appl.8,1989,p222-239.
[186]Ferris,Sidney A.,Ivison,John M.1974.A Technique for Increasing the Linear Range of a Magnetoresistor Displacement Transducer[J].IEEE Transactions on Instrumentation and Measurement,Volume 23,Issue 2,June 1974 Page(s):116-120.
[187]2007.信息存储时代的物理英雄—记2007年诺贝尔物理学奖获得者阿尔贝·费尔和彼得·格伦贝格[J].物理.Vol.36 No.12 Pages:951-955.
[188]Otto,T.,Ruan,G.,Fritzsch,U.et al.1997.Technology,test and application of stack photoresistor colour sensors[C].Proceedings of 1997 IEEE International Symposium on circuits and Systems,1997.Vol.4,9-12 June 1997Page(s):2757-2760.
[189]周爱玉,岳伟伟,何保山.2006.基于干法光学生物传感器的便携式血红蛋白检测系统[J].传感技术学报.Vol.19 No.5 Pages:2092-2095,2099.
[190]李韪韬,钱志余,王惠南.2008.近红外光断层成像的理论和研究进展[J].生物医学工程学杂志.Vol.25 No.1 Pages:208-211.
[191]Nichol,D.G.1987.Autonomous Extraction of an Eddy-Like Structure from Infrared Images of the Ocean[J].IEEE Transactions on Geoscience and Remote Sensing,Volume GE-25,Issue 1,Jan.1987 Page(s):28-34.
[192]杨卫平,沈振康.2007.红外成像导引头及其发展趋势[J].激光与红外.Vol.37 No.11 Pages:1129-1132,1136.
[193]郑开陵.1997.焦平面阵列与精确制导武器[J].现代兵器.No.1Pages:37-38.
[194]葛家怡,沙占友.基于湿敏电阻的相对湿度测量仪电路设计[J].计量技术.No.4 Pages:29-31.
[195]Shook,R.L.,Conrad,T.R.,Sastry,V.S.1996.Diffusion model to derate moisture sensitive surface mount IC's for factory use conditions[J].IEEE Transactions on Components,Packaging,and Manufacturing Technology,Part C,Volume 19,Issue 2,April 1996 Page(s):110-118.
[196]常柏灵,孙连霞,王希忠.2004.镍浆在厚膜湿敏电阻器上的应用研究[J].传感器技术.Vol.23 No.9 Pages:29-30,34.
[197]Kuroiwa,M.,Shimamoto,Y.,Yasuda,Y.2001.Hysteresis characteristics vs relative humidity for AT-Cut quartz humidity sensors[C].International Proceedings of the 2001 IEEE Frequency Control Symposium and PDA Exhibition,2001.6-8 June 2001 Page(s):492-496.
[198]Garstang,M.,Murday,M.,Seguin,W.R.1971.Fluctuations in Humidity,Temperature,and Horizontal Wind as Measured by a Subcloud Tethered-Balloon System[J].IEEE Transactions on Geoscience Electronics,Volume 9,Issue 4,Oct.1971 Page(s):199-208.
[199]岳钊,牛文成,谢林宏.2007.基于MISFET结构的Pt-NiO混合敏感膜溶解二氧化碳传感器的研究[J].传感技术学报.Vol.20 No.6 Pages:1203-1206.
[200]Saha,H.,Basu,S.,Bhattacharyya,P.2007.MEMS based nano crystalline zinc oxide methane gas sensors[J].2007.Internationai Workshop on Physics of Semiconductor Devices,16-20 Dec.2007 Page(s):645-651.
[201]王新华,王晓亮,冯春.2008.AlGaN/GaN背对背肖特基二极管氢气传感器[J].半导体学报.Vol.29 No.1 Pages:153-156.
[201]Brailsford,A.D.,Yussouff,M.,Logothetis,E.M.1995.Theory Of Gas Sensors:Response Of An Electrochemical Sensor To Multicomponent Gas Mixtures[C].The 8th International Conference on Solid-State Sensors and Actuators,Vol.2,June 25-29,1995 Page(s):878-881.
[202]Sayhan,I.,Helwig,A.,Becker,T.2008.Discontinuously Operated Metal Oxide Gas Sensors for Flexible Tag Microlab Applications[J].Sensors.Vol.8,Issue 2,Feb.Page(s):176-181.
[203]徐甲强,韩建军,孙雨安.2006.半导体气体传感器敏感机理的研究进展[J].传感器与微系统.Vol.25 No.11 Pages:5-8.
[204]毛友安,刘巍,黄建国.2007.用电子鼻检测技术比较卷烟烟丝挥发性组分整体性质的研究[J].化学传感器.Vol.27 No.4 Pages:36-42.
[205]杨丽丽,张岱,方坚.2007.电子鼻分析技术在葡萄酒检测中的应用[J].中外葡萄与葡萄酒.No.5 Pages:48-50.
[206]Xing Chen,Mingfu Cao,Yah Hao.2005.A Non-invasive Detection of Lung Cancer Combined Virtual Gas Sensors Array with Imaging Recognition Technique[C].2005.27th Annual International Conference of the Engineering in Medicine and Biology Society,2005 Page(s):5873-5876.
[207]Bin Guo,Bermak,A.,Chan,P.C.H.2007.An Integrated Surface Micromachined Convex Microhotplate Structure for Tin Oxide Gas Sensor Array[J].Sensors.Volume 7,Issue 12,Dec.2007 Page(s):1720-1726.
[208]Dae-Sik Lee,Sang-Woo Ban,Minho Lee.2005.Micro gas sensor array with neural network for recognizing combustible leakage gases[J].Sensors.Volume 5,Issue 3,June 2005 Page(s):530 -536.
[209]曹明富,陈星,王永清.2008.基于虚拟气体传感器阵列的新型肺癌检测电子鼻实验研究[J].中国生物医学工程学报.Vol.27 No.1 Pages:102-107.
[210]温宗周.2006.碱溶液浓度测控系统的研究与设计[J].现代电子技术.Vol.29 No.15 Pages:116-118.
[211]梁杰,王英,张亚非.DNA溶液的导电行为[J].生物工程学报.Vol.22 No.2Pages:334-337.
[212]Yasumitsu Matsuo,Go Kumasaka,Junko Hatori,et al.Electrical properties of fuel cell based on DNA film[J].Current Applied Physics,Volume 6,Issue 3,June 2006,Pages 340-343.
[213]Stanley E.Woodard,Bryant D.Taylor.2007.A wireless fluid-level measurement technique[J].Sensors and Actuators A:Physical,Volume 137,Issue 2,4 July 2007,Pages 268-278.
[214]刘力双,吕乃光,孙双花.2007.一种非接触高精度平面高度差检测方法[J].传感技术学报.Vol.20 No.7 Pages:1644-1647.
[215]张洪刚,吴敬国.2001.电容传感器及其纳米量级定位技术[J].仪表技术与传感器.(10):3-5.
[216]Marc Bendahan,Khalifa Aguir,Jean-Luc Seguin,Herve Carchano.1999.NiTi thin films as a gate of M.O.S.capacity sensors[J].Sensors and Actuators A:Physical,Volume 74,Issues 1-3,20 April,Pages 242-245.
[217]郭强,赵锐,郑贵省.2005.多传感器数据融合在涂层厚度检测中的应用[J].传感器技术.Vol.24 No.6 Pages:74-76.
[218]刘彦民,关继腾.1995.用电容电感补偿法检测非磁性镀涂层厚度[J].石油大学学报:自然科学版.Vol.19 No.1 Pages:102-105.
[219]S.D.Welsby and T.Hitz.1997.True position measurement with eddy current technology[J].Sensors.14,November,p30-40.
[220]E.E.Herceg.Handbook of Measurement and Control.Pennsauken,NJ:Schaevita Engineering,1976.Fourth Printing,1986.
[221]江澄,彭立志,孙健国.2007.航空发动机数控系统中LVDT传感器信号处理及在线故障检测[J].航空动力学报.Vol.22 No.8 Pages:1396-1400.
[222]Hareem Tariq,Akiteru Takamori,Flavio Vetrano,et al.2002.The linear variable differential transformer(LVDT)position sensor for gravitational wave interferometer low-frequency controls[J].Nuclear Instruments and Methods in Physics Research Section A:Accelerators,Spectrometers,Detectors and Associated Equipment,Volume 489,Issues 1-3,21 August 2002,Pages 570-576.
[223]庞长涛,张建明,罗松保.2005.基于超精密机床的LVDT在线检测系统的研究[J].航空精密制造技术.Vol.41 No.1 Pages:30-34.
[224]唐德东,黄尚廉,陈伟民.2007.旁路励磁的磁弹性索力传感器研究[J].仪器仪表学报.Vol.28 No.7 Pages:1159-1163.
[225]G.Ausanio,A.C.Barone,C.Hison,et al.2006.Mechanical vibration sensor based on elastomagnetic composite[J].Sensors and Actuators A:Physical,Volume 129,Issues 1-2,24 May 2006,Pages 25-28.
[226]沈立华,王悦民,范春利等.2007.纵向导波磁致伸缩传感器信号检测的实 验研究[J].传感技术学报.Vol.20 No.9 Pages:2048-2052.
[227]R.Andreescu,B.Spellman,E.P.Furlani.2008.Analysis of a non-contact magnetoelastic torque transducer[J].Journal of Magnetism and Magnetic Materials,Volume 320,Issue 12,June 2008,Pages 1827-1833.
[228]I.Giouroudi,J.Kosel,H.Pfǜtzner,et al.2008.Magnetostrietive bilayer sensor system for testing of rotating microdeviees[J].Sensors and Actuators A:Physical,Volume 142,Issue 2,10 April 2008,Pages 474-478.
[229]赖宗声,郑筱莉.2001.一种新型两维霍尔角度传感器研究[J].传感技术学报.Vol.14 No.1 Pages:14-17.
[230]Youngjune Hur,Jinho Han,Jooheon Seon,Yukeun Eugene Pak and Yongrae Rob,2005."Development of an SH-SAW sensor for the detection of DNA hybridization",Sensors and Actuators A:Physical,Volume 120,Issue 2,pp 462-467,May 2005.
[231]Okojie R.S.,Atwell A.R.;Kornegay,K.T.,Roberson,S.L.;Beliveau,A.,Design considerations for bulk micromachined 6H-SiC high-G piezoresistive accelerometers[J],Micro Electro Mechanical Systems,The Fifteenth IEEE International Conference on 20-24 Jan.2002 Page(s):618 -622.
[232]宋记锋,葛运建.一种基于完全线性变换法则的差分方程解析解算法(英)[J].中国科学院研究生院学报,已录用.
[233]Helm,H.A.The z-Transformation,B.S.T.Journal.Vo 38,No.1,pp.177-196,1956.
[234]E.I.,Jury.Theory and application of the Z-Transform Method,John Wiley &Sons.New york,London Sydney 1964.
[235]Hu Jin-song.The Generalization of Working Out a Special Solution for Inhomogeneous Diference Equation.Journal of Chongqing Normal University (Natural Science Edition).Vol.20,pp.76-79,2003.
[236]B.Szmanda.Properties of Solutions of Higher Order Difference Equations.Mathl.Comput.Modeling Vol.28,pp.95-101,1998.
[237]Sun Shu-rong.Asymptotic Behavior and Existence of Positive Solutions for the Higher Order Neutral Difference Equations.Journal of Engineering Mathematics,Vol.19,pp.15-20,2002.
[238]Li Ding-wu.The existence of multiple positive solution of even order neutral difference equation.Pure and Applied Mathematics,Vol.20,pp.273-278,2004.
[239]Patricia J.Y.Wong,Ravi P.Agarwal.Asymptotic behaviour of solutions of higher order difference and partial difference equations with distributed deviating arguments.Applied Mathematics and Computation,Vol.97,pp.139-164,1998.
[240]R.P.AGARWAL.Existence of Positive Solutions for Higher Order Difference Equations.Appl.Math.Lett.Vol.10,pp.67-74,1997.
[241]Yuming Chen.All Solutions of a Class of Difference Equations are Truncated Periodic.Applied Mathematics Letters,Vol.15,pp.975-979,2002.
[242]Aytac Arikoglu and Ibrahim Ozkol.Solution of difference equations by using differential transform method,Applied Mathematics and Computation.Vol.174,pp.1216-1228,2006
[243]Sui SunChen,YiFeng LU.General Solutions of a Three-Level Partial Difference Equation.Computers and Mathematics with Applications 38,pp.65-79,1999.
[244]Patricia J.Y.Wong.Multiple fixed-sign solutions for a system of difference equations with Sturm-Liouville conditions.Journal of Computational and Applied Mathematics Vol.183,pp.108-132,2005.
[245]张铁岗.2001.矿井瓦斯综合治理技术[M].北京 煤矿工业出版社.
[246]Allen,Rodney G,Ritzel and Dale O.1997.An injury & cost assessment of a coal mining co.'s return-to-work program[J].Professional Safety.1997,9:24-6
[247]何学秋等.2005.安全工程学[M].徐州:中国矿业大学出版社.
[248]朱连山.1997.煤与瓦斯突出机理及其发生条件评述[J],煤炭科学技术,11:44-47.
[249]王宏图,鲜学福.1999.用温度指标预测掘进工作面突出危险性的探讨[J],钟情大学学报(自然科学版),2:34-38.
[250]王恩怨,何学秋,刘贞堂.1999.煤岩破裂声发射试验研究及RPS统计分析[J],煤炭学报,3:270-273.
[251]姜福兴.2002.微震检测技术在矿井岩层破裂检测中的应用[J],岩石工程学报,2:147-149.
[252]A.D.Alexeeva,V.N.Revvaa,N.A.Alyshevb,et al.2004.True triaxial loading apparatus and its application to coal outburst prediction[J].International Journal of Coal Geology,58(2004)245-250.
[252]杨智懿,熊亚选,张乾林.2004.工作面瓦斯涌出量的神经网络模型预测研究,煤炭工程,No.10:73-75.
[253]曲方,刘克功,赵洪等.2004.基于煤壁瓦斯涌出初速度的综掘工作面瓦斯涌出量预测[J],煤矿安全,Aug.Vol.35 No.8:1-4.
[254]吕泉,2006.现代传感器原理及应用[M].北京,清华大学出版社.
[255]H.K.P.Neubert,1975.Instrument Transducers,2nd ed.New York:Oxford Unversity Press.
[256]N.Yazdi,F.Ayazi,and K.Nafaji.1998.Micromachined inertial sensors,Pro.IEEE,56,1640-1659.
[257]R.M.White.1987.A sensor classification scheme.IEEE trans.Uitrason,Ferroelectr Freq Control,34,124-126.
[258]王雪文,张志勇.2004.传感器原理及应用[M].北京,北京航空航天大学出版社.
[259]中国电子学会敏感技术分会,北京电子学会,北京电子商务传感器分会编.1997.传感器与执行器大全[M].北京,电子工业出版社.
[260]田裕鹏,姚恩涛,李开宇编著,2007.传感器原理[M].北京,科学出版社.
[261]Ramon Pallas-Areny,John G.Webster,2003.sensors and signal conditioning (2nd).John Wiley & Sons.
[262]刘笃仁,韩保君,2003.传感器原理及应用技术[M].西安,西安电子科技大学出版社.
[263]Huijsing J H,et al.Development s in integrated smart sensors[J].Sensors and Actuators A,1994,43(15):276.
[264]Meijer G C M.1994.Concept and Focus Point for Intelligent Sensor Systems[J].Sensors and Actuator A,1994,41(15):83.
[265]徐科军,王国泰.2000.基于ADSP的腕力传感器自适应多维动态补偿器[J].仪器仪表学报.Vol.2l No.4 Pages409-411,415.
[266]Taher S.Hassan.2008.Oscillation criteria for half-linear dynamic equations on time scales[J].Journal of Mathematical Analysis and Applications,Volume 345,Issue 1,1 September 2008,Pages 176-185.
[267] Mohan K. Kadalbajoo, Kapil K. Sharma. 2008. A numerical method based on finite difference for boundary value problems for singularly perturbed delay differential equations[J]. Applied Mathematics and Computation, Volume 197, Issue 2,1 April 2008, Pages 692-707.
[268] Qiong Meng, Aimin Zhao, Jurang Yan. 2005. Necessary and sufficient conditions for the oscillation of systems of difference equations with continuous arguments[J]. Journal of Mathematical Analysis and Applications, Volume 312, Issue 1,1 December 2005, Pages 72-82.
[269] Xiaoyan Lin. 2005. Oscillation for higher-order neutral superlinear delay difference equations with unstable type[J]. Computers & Mathematics with Applications, Volume 50, Issues 5-6, September 2005, Pages 683-691.
© 2004-2018 中国地质图书馆版权所有 京ICP备05064691号 京公网安备11010802017129号 地址:北京市海淀区学院路29号 邮编:100083 电话:办公室:(+86 10)66554848;文献借阅、咨询服务、科技查新:66554700 |