參考文獻 |
[1]T. B. Atwater, P. J. Cygan, and F. C. Leung, “Man portable power needs of the 21st century: I. Applications for the dismounted soldier. II. Enhanced capabilities through the use of hybrid power sources,” Journal of Power Sources, vol. 91, pp. 27-36, 2000.
[2]B.-D. Lee, D.-H. Jung, and Y.-H. Ko, “Analysis of DMFC/battery hybrid power system for portable applications,” Journal of Power Sources, vol. 131, pp. 207-212, 2004.
[3]J. Han and E.-S. Park, “Direct methanol fuel-cell combined with a small back-up battery,” Journal of Power Sources, vol. 112, pp. 477-483, 2002.
[4]K. Lee, N. Chang, J. Zhuo, C. Chakrabarti, S. Kadri, and S. Vrudhula, “A fuel-cell- battery hybrid for portable embedded systems,” ACM Trans. Des. Autom. Electron. Syst., vol. 13, pp. 1-34, 2008.
[5]J.H. Wee, “A feasibility study on direct methanol fuel cells for laptop computers based on a cost comparison with lithium-ion batteries,” Journal of Power Sources, vol. 173, pp. 424-436, 2007.
[6]J. Zhenhua and R. A. Dougal, “A compact digitally controlled fuel cell/battery hybrid power source,” Industrial Electronics, IEEE Transactions on, vol. 53, pp. 1094-1104, 2006.
[7]J. Zhenhua and R. Dougal, “Design and testing of a fuel-cell-powered battery-charging station”, Journal of Power Sources, vol. 115, no. 2, pp. 148-153, 2003.
[8]R. J .Brodd, “Overview: rechargeable battery systems”, Conf. Record of WESCON’’93, pp. 206 –209, 1993.
[9]K. T. Jeng and C.W. Chen, “Modeling and simulation of a direct methanol fuel cell anode,” Journal of Power Sources, vol.112,no. 2 pp. 367-375, November 14, 2002.
[10]J. P. Zheng, T. R. Jow, and M. S. Ding, “Hybrid power sources for pulsed current applications”, IEEE Trans. Aerospace and Electronic Sys., vol. 37, no. 1, pp. 288-292, 2001.
[11]Y. Choi, N. Chang, and T. Kim, “Dc-dc converter-aware power management for battery-operated embedded systems”, in 42nd DAC, pp. 895-900, June 2005.
[12]M. J. Khan and M. T. Labal, “Modeling and analysis of electro chemical, thermal, and reactant flow dynamics for a PEM fuel cell system”, Fuel cells, vol. 5, no. 4, pp. 463-475, 2005.
[13]M. Serra, J. Auado, X. Ansede, and J Riera,” Controllability analysis of decentralized linear controllers for polymeric fuel cells,” Journal of Power Sources, vol. 151, pp. 93-102, 2005.
[14]B Wahdame, D Candusso, X Francois, F Harel, A Bernardinis, D. Kauffmann J-M and G. Coquery, ”Study of a 5kW PEMFC using experimental design and statistical analysis techniques, fuel cells from fundamentals to systems,” Journal of Power Sources, vol. 117, pp. 47-62,2007.
[15]B.-D. Lee, D.-H. Jund, and Y.-H. Ko, “Analysis of DMFC/battery hybrid power system for portable applications,” Journal of Power Sources, vol. 131, pp. 207-212, 2004.
[16]J. Han and E.-S. Park, “Direct methanol fuel-cell combined with a small backup battery,” Journal of Power Sources, vol. 112, pp. 477-483, 2002.
[17]L. Gao, Z. Jiang, and R. A. Dougal, “An actively controlled fuel cell/battery hybrid to meet pulsed power demands,” Journal of Power Sources vol. 130, no. 2, pp. 202-207, 2004..
[18]W. Gao, “Performance comparison of a fuel cell-battery hybrid powertrain and a fuel cell-ultracapacitor hybrid powertrain”, Vehicular Technology, IEEE Transactions, Vol. 54, Issue: 3, pp. 846–855, 2005.
[19]C. Wang and M.H. Nehrir, “Power management of a stand-alone wind/photovoltaic/fuel cell energy system,” IEEE Transactions on Energy Conversion, vol. 123 , pp. 957–967, 2008.
[20]J, Zhenhua and R.A Dougal, “A compact digitally controlled fuel cell/battery hybrid power source,” industrial electronics, IEEE Transactions , Vol. 53, Issue: 4, pp. 1094–1104, 2006.
[21]D. Chen ” Design and implementation of microcontroller-based direct methanol fuel cell/lithium polymer battery hybrid energy management system,” Nanjing University of Aeronautics and Astronautics, Master, 2007.
[22]M. J. Khan and M. T. Labal, “Modeling and analysis of electro chemical, thermal, and reactant flow dynamics for a PEM fuel cell system”, Fuel cells, vol. 5, no. 4, pp. 463-475, 2005.
[23]B. Gurau, and E.S. Smotkin, “Methanol crossover in direct methanol fuel cells: a link between power and energy density”, Journal of Power Sources, vol.112, pp. 339-352, 2002.
[24]J. C. Amphlett, B. A. Peppley, E. Halliop, and A. Sadiq, “The effect of anode flow characteristics and temperature on the performance of a direct methanol fuel cell,” J. Power Sources, vol. 96, pp. 204-213, 2001.
[25]J. P. Diard, N. Glandut, P. Landaud, B. L. Gorrec, and C. Montella, “A method for determining anode and cathode impedances of a direct methanol fuel cell running on a load,” Electrochim. Acta, vol. 48, pp. 555-562, 2003.
[26]J. Lobato, P. Canizares, M. A. Rodrigo, J. J. Linares, and A. F. Fragua, “Application of sterion membrane as polymer electrolyte for DMFCs,” Chem. Eng. Sci., vol. 61, pp. 4773-4782, 2006.
[27]C. Y. Chen, J. Y. Shiu, and Y. S. Lee, “Development of a small DMFC bipolar plate stack for portable applications,” Journal of Power Sources, vol. 159, pp. 1042-1047, 2006.
[28]M. Nadal and F. Barbir, “Development of a hybrid fuel cell/battery powered electric vehicle,” International Journal of Hydrogen Energy, vol.121, Issue: 6, pp. 497-505, 2006.
[29]T. Ali and K. Mohsen,” Interconnection and damping assignment and Euler-Lagrange passivity-based control of photovoltaic/battery hybrid power source for stand-alone applications,” Journal of Zhejiang University-Science C-Computers & Electronics, vol.12, Issue: 9, pp. 497-505, 2011.
[30]Y. Eren, O. Erdinc, H. Gorgun, M. Uzunoglu and B. Vural,” A fuzzy logic based supervisory controller for an FC/UC hybrid vehicular power system,” International Journal of Hydrogen Energy, vol.34, Issue: 3, pp. 8681-8694, 2009.
[31]N. Y. Hsu, S. C. Yen, K. T. Jeng and C. C. chien, “Impedance studies and modeling of direct methanol fuel cell anode with interface and porous structure perspectives,” Journal of Power Sources, vol. 161, pp. 232-239, 2006.
[32]L. Zhong, X. Wang, Y. Jiang, Q. Zhang, X. Qiu and Y. Zhau, “A micro-direct methanol fuel cell stack with optimized design and micro fabrication,” Sens Actuators A Phys, vol. 143, pp. 70–76, 2008
[33]L. J. Gao, Z. H. Jiang and R.A Dougal, “An actively controlled fuel cell/battery hybrid to meet pulsed power demands,” Journal of Power Sources, vol. 130, pp. 202-207, 2004.
[34]J .K Seong, L.W Yong and K.C Soo, “Energy management strategies of a fuel cell/battery hybrid system using fuzzy logics”, Journal of Power Sources, vol.145, Issue: 2, pp.319-326, 2005.
[35]J. Zhuo, C. Chakrabarti, K. Lee, and N. Chang, “Dynamic power management with hybrid power sources," in Proceedings of DAC 2007, pp.319-326, 2007.
[36]A. Hacquard,” Improving Understanding Direct Methanol Fuel Cell (DMFC) Performance”, Worcester Polytechnic Institute, May 2005.
[37]D.D. Boettner, G. Paganelli, Y.G. Guezennec, G. Rizzoni and M.J. Moran. J. Energy Res. Technol., 124, pp. 20–27, 2002.
[38]S Rosiek, F. J Batlles, “Modelling a solar-assisted air-conditioning system installed in CIESOL building using an artificial neural network”, Renewable Energy, vol.35, Issue: 12, pp. 2894-2901, 2010.
[39]E. A Mohamed, H. A Talaat, E. A Khamis, “Fault diagnosis system for tapped power transmission lines”, Electric Power Systems Research, vol.80, no.5, pp.599-613, 2010.
[40]Y. Takeuchi and A. Hirata “A method of optimization of linear observations for the kalian filter based on a generalized water filling theorem,” International Journal of Innovative Computing, Information and Control, vol.5, no.1, pp.75-85, 2009.
[41]M. Matsubara, Y. Usui and S. Sugimoto, “Identification of continuous-time MIMO systems via sampled data”, International Journal of Innovative Computing, Information and Control ,vol.2, no.5, pp.927-942, 2006.
[42]C. H. Shi and G. H. Zhang “A New Method of PID Control Based on Improved BP Neural Network”, Control Conference, pp.1167-1171, 2007.
[43]H. L Shu. and Y.G. Pi, “ PID neural networks for time-delay systems”, Computers and Chemical Engineering, Vol. 24, pp. 859–862, 2000.
[44]H. L Shu, L. Shu, “PID neural network in multivariable time-varying systems”, dynamics of continuous discrete and impulsive systems-series b-applications & algorithms. Vol. 2, pp. 822-824, 2005.
[45]Huailin Shu and Xiucai Guo, “Decoupling control of multivariable time-varying systems based on PID neural network”, Control Conference 5th , vol. 1, pp. 682-685, 2004.
[46]C. Y. Du, T. S. Zhao and W. W. Yang, “Effect of methanol crossover on the cathode behavior of a DMFC: A half-cell investigation”, Electrochimica Acta, Vol. 52, pp. 5266–5271, 2007.
[47]C. L. Chang, C.Y. Chen, C. C. Sung, C.Y. Chang and H.C. Cha, “Fuel sensor-less control of a liquid feed fuel cell under dynamic loading conditions for portable power sources (II)”, Journal of Power Sources, vol.195, pp. 1427-1434, 2010.
[48]Y Wakasa, K Tanaka and T Akashi, “PSO-based simultaneous tuning method for PID controllers and dead-zone compensators and its application to ultrasonic motors”, International Journal of Innovative Computing, Information and Control , Soc. Vol. 6, pp. 4593-4604, 2010.
[49]G. D. Li, S. Masuda and D. Yamaguchi, “The Optimal GNN-PID Control System using Particle Swarm Optimization Algorithm”, International Journal of Innovative Computing, Information and Control , vol.5, pp. 3457–3469, 2009.
[50]Y. Abe, M. Konishi and Imai J, “Neural network based diagnosis system for looper height controller of hot strip mills”, International Journal of Innovative Computing, Information and Control , vol. 3, pp. 919-935, 2007.
[51]J. P. Meyers and J. Newman, “Simulation of the Direct Methanol Fuel Cell,” Journal of Electrochemical. Soc. vol. 149, pp. A718-A728, 2002.
[52]J. Larminie and A. Dicks, Fuel Cell Systems Explained, West Sussex: John Wiley & Sons Ltd, 2000.
[53]G. Zhi and S. Watanabe, “A Fuzzy Model for Bidding Behavior of Generators in Electricity Markets,” International Journal of Innovative Computing, Information and Control, vol.3, no.4, pp. 953-966, 2007.
[54]W. G. Ma, “Design of Signal Fuzzy Controller of Single Intersection in Intelligence Transportation System,” International Journal of Innovative Computing, Information and Control, vol.3, no.4, pp. 1023-1029, 2007.
[55]Y. Shi, P. Messenger, and M. Mizumoto, “Fuzzy Inference Modeling Based on Fuzzy Singleton-type Reasoning,” International Journal of Innovative Computing, Information and Control, vol.3, no.1, pp. 13-20, 2007.
[56]S.A. Grigoriev, V.I. Porembskiy, S.V. Korobtsev, V.N. Fateev, F. Aupretre and P. Millet, “High-pressure PEM water electrolysis and corresponding safety issues ”, International Journal of Hydrogen Energy, Vol.36, pp. 2721-2728, 2011.
[57]M.A. Shoorehdeli, M.T Lin, and A.K Sedigh, “Training ANFIS as an identifier with intelligent hybrid stable learning algorithm based on particle swarm optimization and extended Kalman filter,” Fuzzy Sets and Systems, vol.160, pp. 922-948, 2009.
[58]C. H. Chen, C. J. Lin, and C. T. Lin, “An efficient quantum neuro-fuzzy classifier based on fuzzy entropy and compensatory operation,” Soft Computing, vol. 12, no. 6, pp. 567-583, 2008.
[59]T. S. Shih, J. S. Su, and J. S. Yao, “Fuzzy linear programming based on interval-valued fuzzy sets,” International Journal of Innovative Computing, Information and Control, vol.5, no.8, pp. 2081-2090, 2009.
[60]S.H. Yang, W.J Wang, C.Y Chen, C.H Hsu and P.H Chou, “The impedance based fuzzy logic control for the cathode air flow of a direct methanol fuel cell system,” International Journal of Innovative Computing, Information and Control, vol.7, no.2, pp. 625-635, 2011.
[61]M. Matsubara, Y. Usui and S. Sugimoto, “Identification of continuous-time MIMO systems via sampled data”, International Journal of Innovative Computing, Information and Control, vol.2, no.5, pp.927-942, 2006.
[62]E. Entchev and L. Yang, “Application of adaptive neuro-fuzzy inference system techniques and artificial neural networks to predict solid oxide fuel cell performance in residential microgeneration installation”, Journal of Power Sources, vol.170, pp. 122-129, 2007.
[63]J. Larminie and A. Dicks, Fuel cell systems explained, West Sussex: John Wiley & Sons Ltd, 2000.
[64]Z T. Sun, S. Yan, G. Cao and X. Zhu, “Modeling and control PEMFC using fuzzy neural networks,” Journal of Power Sources, vol. 110, pp. 1084-1089, 2005.
[65]O.Erdinc, B. Vural and M. Uzunoglu,” A wavelet-fuzzy logic based energy management strategy for a fuel cell/battery/ultra-capacitor hybrid vehicular power system,” Journal of Power Sources, vol. 194, pp. 376-385, 2009.
[66]L.C. Yan and L.G. Ping,” Optimal fuzzy power control and management of fuel cell/battery hybrid vehicles,” Journal of Power Sources, vol. 191, pp. 542-549, 2009.
[67]C.Y Chang, K.Y Chang, W.J Wang and C.Y Chen, “The active control design for hybrid dmfc system based on fuzzy logic,” IEICE Transactions on Communications, vol. E94.B, pp. 2994-3000, 2011.
[68]A. Khaligh, A. M. Rahimi, Y. J. Lee, J. Cao, A. Emadi, S. D. Andrews, C. Robinson and C. Finnerty, “Digital control of an isolated active hybrid fuel cell/Li-ion battery power supply,” IEEE Transactions on Vehicular Technology, vol.56, no 6, pp.3709-3721, 2007.
[69]R.O Hayre, S.W Cha, W. Colella and F. B. Prinz,” Fuel cell fundamentals.” Hoboken, NJ, John Wiley & Sons, 2006.
[70]G. Q. Lu and C. Y. Wang, “Electrochemical and flow characterization of a direct methanol fuel cell,” Journal of Power Sources, vol. 134, pp. 33-40, 2004.
[71]K. Sundmacher, T. Schultz, S. Zhou, K. Scott, M. Ginkel and E. D. Gilles, “Dynamics of the direct methanol fuel cell (DMFC): experiments and model-based analysis,” Chemical Engineering Science, Vol.56, Issue.2, pp.333-341, 2001.
[72]A.J. Appleby and F.R. Foulkes,” Fuel cell handbook (sixth edition)” CRC Press, ISBN: 0849308771 August, 2002.
[73]E.A Mohamed, H.A Talaat and E.A Khamis, “Fault diagnosis system for tapped power transmission lines,” Electric Power Systems Research, vol.80, no.5, pp.599-613, 2010.
[74]G.D Li, S Masuda and D Yamaguchi, “The Optimal GNN-PID control system using particle swarm optimization algorithm”, International Journal of Innovative Computing, Information and Control, vol.5, pp. 3457–3469, 2009.
[75]Z. Jiang, L. Gao and R. A. Dougal, “Flexible multiobjective control of power converter in active hybrid fule cell/battery power sources,” IEEE Transactions on Power Electronics, vol. 20, no. 1, pp. 244–253, 2009.
[76]Y. Choi, N. Chang and T. Kim, “Dc-dc converter-aware power management for battery-operated embedded systems,” in 42nd DAC, pp.895-900, 2005.
[77]D. Gervasio, “Fuel-cell system for hand-carried portable power,” International Fuel Cell R&D Forum, Nov. 2005.
[78]L. Gao, Z. Jiang and R. A. Dougal, “Evaluation of Active hybrid fuel cell / battery power sources,” IEEE Tran. Aerospace and Electronic Systems, vol. 41, pp. 346-355, 2005.
[79]L. P. Jarvis, P. J. Cygan, and M. P. Roberts, “Hybrid power source for manportable applications,” IEEE Aerosp. Electron. Syst. Mag., vol. 18, no. 1, pp. 13–16, 2003.
[80]Z. Jiang, L. Gao, and R. A. Dougal, “Flexible multiobjective control of power converter in active hybrid fuel cell/battery power sources,” IEEE Trans. Power Electron, vol. 20, no. 1, pp. 244–253, 2005.
[81]G.L. Guizzi, M. Manno, and M. De Falco, “Hybrid fuel cell-based energy system with metal hydride hydrogen storage for small mobile applications” International Journal of Hydrogen Energy, vol.34, Issue: 3, pp. 3112-3124, 2009.
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