Transient response analysis for temperature-modulated chemoresistors
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[1] W. Wayne Meinke,et al. Method for the Analysis of Multicomponent Exponential Decay Curves , 1959 .
[2] C. Lanczos. Applied Analysis , 1961 .
[3] Leonard Weiss,et al. Prony’s Method, Z-Transforms, and Padé Approximation , 1963 .
[4] David G. Stork,et al. Pattern Classification , 1973 .
[5] R. Offereins. Book review: Digital control system analysis and design , 1985 .
[6] P. Claverie,et al. Analysis of multiexponential functions without a hypothesis as to the number of components , 1987, Nature.
[7] Konrad Colbow,et al. General characteristics of thermally cycled tin oxide gas sensors , 1989 .
[8] Konrad Colbow,et al. Algorithms to improve the selectivity of thermally-cycled tin oxide gas sensors , 1989 .
[9] M. Madou,et al. Chemical Sensing With Solid State Devices , 1989 .
[10] S. Wlodek,et al. Signal-shape analysis of a thermally cycled tin-oxide gas sensor , 1991 .
[11] Satoshi Nakata,et al. Detection and Quantification of CO Gas Based on the Dynamic Response of a Ceramic Sensor , 1991 .
[12] Satoshi Nakata,et al. New strategy for the development of a gas sensor based on the dynamic characteristics : principle and preliminary experiment , 1992 .
[13] Y. Hiranaka,et al. Gas-dependent response in the temperature transient of SnO2 gas sensors☆ , 1992 .
[14] T. Amamoto,et al. Development of pulse-drive semiconductor gas sensor , 1993 .
[15] J. Watson,et al. The stannic oxide gas sensor , 1994 .
[17] Metin Akay. CHAPTER 12 – Prony's Method , 1994 .
[18] J. Samitier,et al. A novel time-domain method to analyse multicomponent exponential transients , 1995 .
[19] K. Yoshikawa,et al. Gas Sensing Based on a Nonlinear Response: Discrimination between Hydrocarbons and Quantification of Individual Components in a Gas Mixture. , 1996, Analytical chemistry.
[20] Kenichi Yoshikawa,et al. Temperature-dependent dynamic response enables the qualification and quantification of gases by a single sensor , 1997 .
[21] Kazunori Sugahara,et al. The concentration-estimation of inflammable gases with a semiconductor gas sensor utilizing neural networks and fuzzy inference , 1997 .
[22] Udo Weimar,et al. Gas identification by modulating temperatures of SnO2-based thick film sensors , 1997 .
[23] S. Nakata,et al. Gas sensing based on the dynamic nonlinear responses of a semiconductor gas sensor: dependence on the range and frequency of a cyclic temperature change , 1998 .
[24] R. Cavicchi,et al. Optimization of temperature programmed sensing for gas identification using micro-hotplate sensors , 1998 .
[25] B. Reedy,et al. Temperature modulation in semiconductor gas sensing , 1999 .
[26] H. T. Nagle,et al. Transient response analysis of an electronic nose using multi-exponential models , 1999 .
[27] E. Llobet,et al. Multicomponent gas mixture analysis using a single tin oxide sensor and dynamic pattern recognition , 2001, IEEE Sensors Journal.
[28] Ricardo Gutierrez-Osuna,et al. Pattern analysis for machine olfaction: a review , 2002 .
[29] Xiangqin Cui,et al. Sensors and Actuators B , 2003 .
[30] Louis A. Tamburino,et al. Evolutionary Optimization of Gaussian Windowing Functions for Data Preprocessing , 2003, Int. J. Artif. Intell. Tools.
[31] Ricardo Gutierrez-Osuna,et al. Signal Conditioning and Preprocessing , 2004 .
[32] John L. Crassidis,et al. Sensors and actuators , 2005, Conference on Electron Devices, 2005 Spanish.