VIBES Project Publications

Energy Harvesting

[1] R. Amirtharajah, J. Collier, J. Siebert, B. Zhou, and A. Chandrakasan. DSPs for energy harvesting sensors: Applications and architectures. IEEE Pervasive Computing, July 2005.

[2] B. H. Calhoun, D. C. Daly, Naveen Verma, D. F. Finchelstein, D. D. Wentzloff, A. Wang, Seong-Hwan Cho, and A. P. Chandrakasan. Design considerations for ultra-low energy wireless microsensor nodes. IEEE Transactions on Computers, 54:727-740, 2005.

[3] D. Guyomar and C. Richard. Non-linear and hysteretic processing of piezoelement: Application to vibration control, wave control and energy harvesting. International Journal of Applied Electromagnetics and Mechanics, 2005.

[4] D. Joseph-Anthony. Energy harvesting projects. IEEE Pervasive Computing, March 2005.

[5] W. Kim-Hyeoung, S. Priya, K. Uchino, and E. Newnham-Robert. Piezoelectric energy harvesting under high pre-stressed cyclic vibrations. Journal of Electroceramics, 2005.

[6] J. Krikke. Sunrise for energy harvesting products. IEEE Pervasive Computing, January 2005.

[7] Arthur D. Kuo. Harvesting energy by improving the economy of human walking. Science, 309:1686-1687, September 2005.

[8] Ki Bang Lee. Urine-activated paper batteries for biosystems. Journal of Micromechanics and Microengineering, 15(9):S210-S214, September 2005.

[9] Lawrence C. Rome, Louis Flynn, Evan M. Goldmann, and Taeseung D. Yoo. Generating electricity while walking with loads. Science, 309:1725-1728, September 2005.

[10] X. Shengwen, T. Ngo, K.-D., T. Nishida, C. Gyo-Bum, and A. Sharma. Converter and controller for micro-power energy harvesting. In APEC 2005, 2005.

[11] E. Staley-Mark and B. Flatau-Alison. Characterization of energy harvesting potential of terfenol-d and galfenol. In Proceedings of SPIE The International Society for Optical Engineering, 2005.

[12] R. Vijay, A. Kansal, J. Hsu, J. Friedman, and S. Mani. Design considerations for solar energy harvesting wireless embedded systems. In 2005 Fourth International Symposium on Information Processing in Sensor Networks IEEE Cat, 2005.

[13] R. Want, I. Farkas-Keith, and C. Narayanaswami. Energy harvesting and conservation. IEEE Pervasive Computing, March 2005.

[14] P. Woias, Y. Manoli, T. Nann, and V. Stetten, F. Energy harvesting for autonomous microsystems. MST News, August 2005.

[15] J. Wolchok, J. Moffitt, and J. Van-Rij. Vibrational energy scavenging: An interdisciplinary engineering design project. In ASEE Annual Conference and Exposition, Conference Proceedings,, 2005.

[16] Rajeevan Amirtharajah and Anantha P. Chandrakasan. A micropower programmable dsp using approximate signal processing based on distributed arithmetic. IEEE Journal of Solid-State Circuits, 39(2):337-346, February 2004.

[17] J. Han, A. Von-Jouanne, T. Le, K. Mayaram, and T. S. Fiez. Novel power conditioning circuits for piezoelectric micro power generators. In Conference Proceedings IEEE Applied Power Electronics Conference and Exposition APEC, 22-26 Feb, 2004, volume 13, February 2004.

[18] W. Kim-Hyeoung, A. Batra, S. Priya, K. Uchino, D. Markley, E. Newnham-Robert, and F. Hofmann-Heath. Energy harvesting using a piezoelectric "cymbal" transducer in dynamic environment. Japanese Journal of Applied Physics, Part 1: Regular Papers and Short Notes and Review Papers, 2004.

[19] Weilik Leong, John Ngai, and Adam Pike. Human power harvester. Internet (Senior Design Project, University of Illinois Urbana-Champaign), 2004.

[20] P. Niu, P. Chapman, R. Riemer, and X. Zhang. Evaluation of motions and actuation methods for biomechanical energy harvesting. In 35th Annual IEEE Power Electronics Specialists Conference (PESC 04), volume 35, pages 2100-2106, June 2004.

[21] A. Nounou and F. Ragaie-Hani. A lateral comb-drive structure for energy scavenging. In Proceedings 2004 International Conference on Electrical, Electronic and Computer Engineering, ICEEC'04, 2004.

[22] G. Palumbo, D. Pappalardo, and M. Gaibotti. Charge pump circuits: Power consumption optimization - a summary. Circuits and Systems Magazine, IEEE, 4:26-29, 2004.

[23] G. Poulin, E. Sarraute, and F. Costa. Generation of electrical energy for portable devices comparative study of an electromagnetic and a piezoelectric system. Sensors and Actuators A Physical, October 2004.

[24] A. Qidwai-Muhammad, P. Thomas-James, C. Kellogg-James, and J. Baucom. Energy harvesting concepts for small electric unmanned systems. In Proceedings of SPIE The International Society for Optical Engineering, 2004.

[25] K. Reilly-Elizabeth, E. Carleton, S. Roundy, and P. Wright. Vibrational energy scavenging via thin film piezoelectric ceramics. In Advanced Materials for Energy Conversion II, Advanced Materials for Energy Conversion II, 2004.

[26] Shad Roundy, Paul Kenneth Wright, and Jan M. Rabaey. Energy Scavenging For Wireless Sensor Networks : With Special Focus On Vibrations. Kluwer Academic, 2004.

[27] Thad Starner and Joseph Paradiso. Human generated power for mobile electronics. In Powering the Future, April 19-20, 2004, Mont Royal Conference Center, Montreal, Canada, April 2004.

[28] T. Sterken, K. Baert, C. Van-Hoof, R. Puers, G. Borghs, and P. Fiorini. Comparative modelling for vibration scavengers [MEMS energy scavengers]. In D. Rocha, M. Sarro, P., and J. Vellekoop, M., editors, Proceedings of the IEEE Sensors 2004 IEEE Cat, volume 3, 2004.

[29] Charles B. Theurer, Li Zhang, David O. Kazmer, and Robert X. Gao. Energy extraction for a self-energized pressure sensor. IEEE Sensors journal, 4(1):28-35, February 2004.

[30] E.M Yeatman. Advances in power sources for wireless sensor nodes. In Proc. 1st International Workshop on Body Sensor Networks, London, April 6-7 (2004), pages 20-21, 2004.

[31] P. Ayers-Joshua, W. Greve-David, and J. Oppenheim-Irving. Energy scavenging for sensor applications using structural strains. In Proceedings of SPIE The International Society for Optical Engineering, 2003.

[32] N. J. Baker. Linear Generators for Direct Drive Marine Renewable Energy Converters. PhD thesis, School of Engineering, University of Durham, UK, 2003.

[33] T. Douseki, Y. Yoshida, F. Utsunomiya, N. Itoh, and N. Hama. A batteryless wireless system uses ambient heat with a reversible-power-source compatible cmos/soi dc-dc converter. In IEEE International Solid-State Circuits Conference, 2003. Digest of Technical Papers, volume 1, February 2003.

[34] K. Hashimoto, J. Ogawa, T. Toriyama, and S. Sugiyama. Design and fabrication of a resonant micro reciprocating engine for power generation. In Proceedings the 2003 International Symposium on Micromechatronics and Human Science, 2003.

[35] S. Kim, W. Clark-William, and M. Wang-Qing. Piezoelectric energy harvesting using a clamped circular plate: Experimental study. In American Society of Mechanical Engineers, Aerospace Division (Publication) AD, 2003.

[36] S. Kim, W. Clark-William, and M. Wang-Qing. Piezoelectric energy harvesting using a diaphragm structure. In Proceedings of SPIE The International Society for Optical Engineering, 2003.

[37] B. Padmaperuma-Asanga and W. Harper-Aaron. Efficient energy harvesting of conjugated polymers by direct coordination to novel low energy complexes of europium. In Proceedings of SPIE The International Society for Optical Engineering, 2003.

[38] M. Rahimi, H. Shah, S. Sukhatme-Gaurav, J. Heideman, and D. Estrin. Studying the feasibility of energy harvesting in a mobile sensor network. In Proceedings IEEE International Conference on Robotics and Automation, 2003.

[39] J.F. Randall. On The Use Of Photovoltaic Ambient Energy Sources For Powering Indoor Electronic Devices. PhD thesis, EPFL (Swiss Federal Institute of Technology, Lausanne), Switzerland, July 2003.

[40] J.F. Randall and J. Jacot. Is am1.5 applicable in practice? modelling eight photovoltaic materials with respect to light intensity and two spectra. Renewable Energy, 28:1851-1864, November 2003.

[41] Martin A Schmidt. Portable mems power sources. In IEEE International Solid-State Circuits Conference, 2003. Digest of Technical Papers, February 2003.

[42] G. Jeffrey Snyder, James R. Lin, Chen-Kuo Huang, and Jean-Pierre Fleurial. Thermoelectric microdevice fabricated by a mems-like electrochemical process. Nature Materials, 2(8):528-531, August 2003.

[43] A. Sodano-Henry, G. Park, J. Leo-Donald, and J. Inman-Daniel. Use of piezoelectric energy harvesting devices for charging batteries. In Proceedings of SPIE The International Society for Optical Engineering, 2003.

[44] Thad. E. Starner. Powerful change part 1: Batteries and possible alternatives for the mobile market. IEEE Pervasive Computing, 2(4):86-88, Oct-Dec 2003.

[45] T. Sterken, K. Baert, R. Puers, G. Borghs, and R. Mertens. A new power mems component with variable capacitance. In 2003 Proceedings, 2003.

[46] M. Strasser, R. Aigner, C. Lauterbach, T.F. Sturm, M. Franosch, and G. Wachutka. Micromachined cmos thermoelectric generators as on-chip power supply. In Proc. Transducers'03. The 12th International Conference on Solid State Sensors, Actuators and Microsystems, Boston, June 8-12, 2003, pages 45-48, June 2003.

[47] Y. Tang, H. Zhang, and X. Wu. Wireless sensing for bridge health monitoring. In Proceedings of the International Symposium on Test and Measurement, volume 1, pages 775-778, 2003.

[48] J. Wang-Gou, H. Lin-Ying, H. Yang-His, and T. Pan-Cheng. Design and fabrication of a high efficiency piezoelectric vibration-induced micro power generator. In American Society of Mechanical Engineers, Micro Electromechanical Systems Division Publication (MEMS), 2003.

[49] W. Wei, J. Falong, Z. Jing, and Z. Jianzhong. A new type of micro-thermoelectric power generator fabricated by nanowire array thermoelectric material. In Proceedings ICT'03, pages 682-684, 2003.

[50] Z. Wen, Z. Wen, G. Chen, and Z. Jiang. Calculation and simulation of spring-mass system for micro vibration power generator. Optics and Precision Engineering, 11(1):45-48, February 2003.

[51] L. Andrews, D. Energy harvesting materials. Proceedings of the SPIE The International Society for Optical Engineering, 2002.

[52] H. Boettner. Thermoelectric micro devices: Current state, recent developments and future aspects for technological progress and applications. In ICT 2002, 2002.

[53] Alexander Gnodtke. Power sources for ubiquitous computing devices. Seminar: Ubiquitous Computing, Sommersemester 2002, May 2002.

[54] Alexander Gnodtke. Stromversorgung ubiquitaerer geraete: Der mensch als energiequelle, energiegewinnung aus der umgebung. Seminar: Ubiquitous Computing, Sommersemester 2002, May 2002.

[55] Roy D. Kornbluh, Ron Pelrine, Qibing Pei, Richard Heydt, Scott Stanford, Seajin Oh, and Joseph Eckerle. Electroelastomers: Applications of dielectric elastomer transducers for actuation, generation, and smart structures. Smart Structures and Materials 2002: Industrial and Commercial Applications of Smart Structures Technologies. San Diego, CA, United States, 4698(1):254-270, March 2002.

[56] E. Lawrence, E. and J. Snyder, G. A study of heat sink performance in air and soil for use in a thermoelectric energy harvesting device. In D. Chandra, G. Bautista, R., and L. Schlapbach, editors, Proceedings ICT'02, 2002.

[57] P.D. Mitcheson, T.C. Green, E.M. Yeatman, and A.S. Holmes. Analysis of optimized micro-generator architectures for self-powered ubiquitous computers. In Proceedings UBICOMP 2002, Goteborg, Sweden, 2002, pages 5-6, 2002.

[58] M. Strasser, R Aigner, M Franosch, and G Wachutka. Miniaturized thermoelectric generators based on poly-si and poly-sige surface micromachining. Sensors and Actuators, A: Physical, A98-A98:535-542, April 2002.

[59] H. Techet-Alexandra, J. Allen-James, and J. Smits-Alexander. Piezoelectric eels for energy harvesting in the ocean. In Proceedings of the International Offshore and Polar Engineering Conference, 2002.

[60] Nikola Vujic. Power regneration in actively controlled structures. Master's thesis, Virginia Polytechnic Institute and State University, 2002.

[61] N. Vujic, J. Leo, D., and K. Lindner, D. Power flow analysis for amplifier design and energy harvesting [active vibration isolation system]. Proceedings of the SPIE The International Society for Optical Engineering, 2002.

[62] M. Yajima, T. Toriyama, and S. Sugiyama. Self-standing polysilicon-metal thermopile for micro power generator. Transactions of the Institute of Electrical Engineers of Japan, Part E, E(5):256-260, May 2002.

[63] L. Andrews, D. and D. Jenkins, R. Nonlinearities in energy harvesting media. Proceedings of the SPIE The International Society for Optical Engineering, 2001.

[64] D. M. Bennett, R. Selfridge, P. Humble, and J. N. Harb. Hybrid power systems for autonomous mems. In Proceedings-of-SPIE-The-International-Society-for-Optical-Engineering, volume 4334, pages 354-362, March 2001.

[65] H Boettner, A. Schuber, K.H. Schlereth, D. Eberhard, A. Gavrikov, M. Jaegle, G. Kuehner, C. Kuenzel, J. Nurnus, and G. Plescher. New thermoelectric components using micro-systems-technologies. In Proc. Sixth European Workshop on Thermoelectrics, Germany, Sept. 20th to 21st (2001)., 2001.

[66] J. T. Cain, W. W. Clark, L. A. Schaefer, D. J. Ulinski, M. H. Mickle, and W. M. Mandecki. Energy harvesting for dna gene sifting and sorting. International Journal of Parallel and Distributed Systems & Networks, 4(3):140-149, 2001.

[67] P. Glynne-Jones and N.M. White. Self-powered systems: A review of energy sources. Sensor Review, 21(2):91-97, 2001.

[68] P. H. Humble, J. N. Harb, and R. LaFollette. Microscopic nickel-zinc batteries for use in autonomous microsystems. Journal of the Electrochemical Society, 148(12):357-361, December 2001.

[69] K. Lignell, R. Sievers, B. Mattes, and J. Pantolin. Micro-power amtec systems. IEEE Aerospace and Electronic Systems Magazine, 16(3):33-36, March 2001.

[70] M. H. Mickle, M. Lovell, L. Mats, L. Neureuter, and D. Gorodetsky. Energy harvesting, profiles, and potential sources. International Journal of Parallel and Distributed Systems & Networks, 4(3):150-160, 2001.

[71] Justin Mullins. Micro supplies to power mems devices. IEEE Spectrum, pages 23-24, September 2001.

[72] W. Qu, M. Plotner, and J. Fischer-W. Microfabrication of thermoelectric generators on flexible foil substrates as a power source for autonomous microsystems. Journal of Micromechanics and Microengineering, 11(2):146-152, March 2001.

[73] E. Reimers-Clare, M. Tender-Leonard, S. Fertig, and W. Wang. Harvesting energy from the marine sediment-water interface. Environmental Science and Technology, 2001.

[74] G.W. Taylor, J.R. Burns, S.A. Kammann, W.B. Powers, and T. R. Welsh. The energy harvesting eel: A small subsurface ocean/river power generator. IEEE Journal of Oceanic Engineering, 26(4):539-547, October 2001.

[75] T. Toriyama, M. Yajima, and S. Sugiyama. Thermoelectric micro power generator utilizing self-standing polysilicon-metal thermopile. In Proceedings of the IEEE Micro Electro Mechanical Systems (MEMS), pages 562-565, 2001.

[76] Dr. Robert Hahn und Juergen Wolf und Prof. Herbert Reichl. Energieversorung und packaging. Elektronik Magazin, 21:70-72, 2001. In German.

[77] S.R. Vetorino, J.V. Platt, and D.A. Springer. Renewable energy flashlight. US patent 6,220,719 to Applied Innovative Technologies, Inc., 2001.

[78] J. Wang, G. W. Jewell, and D. Howe. Design optimisation and comparison of tubular permanent magnet machine topologies. Electric Power Applications, IEE Proceedings-, 148:456-464, 2001.

[79] R. Amirtharajah, S. Meninger, J. O. Mur-Miranda, A. Chandrakasan, and J. Lang. A micropower programmable dsp powered using a mems-based vibration-to-electric energy converter. In Digest of Technical Papers IEEE International Solid State Circuits Conference, pages 362-363, February 2000.

[80] M. El-hami, P. Glynne-Jones, E. P. James, S. P. Beeby, and N. M. White. Design analysis of a self-powered micro-renewable power supply. Presentation at ICEM 2000, August 2000.

[81] Francesc Moll and Antonio Rubio. An approach to the analysis of wearable body-powered systems. In Proceedings MIXDES 2000, Gdynia, Poland, June 2000., June 2000.

[82] J.O. Mur-Miranda, J.H Lang, A.P. Chandrakasan, A.H. Slocum, and M.A. Schmidt. Vibration-to-electric energy conversion. Presentation at MIT MEMS Lunch, October 2000.

[83] Khalil Najafi. Low-power micromachined microsystems. In Proc. Int. Symp. on Low Power Electronics and Design (ISLPED'00), pages 1-8. ACM, IEEE, July 2000.

[84] Jan M. Rabey, M. Josie Ammer, Julio L. da Silva jr., Danny Patel, and Shad Roundy. Picoradio supports ad hoc ultra_low power wireless networking. IEEE Computer, 33(7):42-48, July 2000.

[85] T. Sterken, K. Baert, R. Puers, and S. Borghs. Power extraction from ambient vibration. In Proceedings of SeSens (Workshop on Semiconductor Sensors) 2002, November 29, 2002 - Veldhoven, the Netherlands, pages 680-683, November 2000.

[86] G. Taylor and S. Kammann. Experimental and theoretical behavior of piezoelectric/electrostrictive 'eel' structures. DARPA Energhy Harvesting Programm, 2000.

[87] H. Glosch, M. Ashauer, U. Pfeiffer, and W. Lang. Thermoelectric converter for energy supply. Sensors and Actuators, A: Physical, 74(1):246-250, April 1999.

[88] Robert Hahn and Herbert Reich. Batteries and power supplies for wearable and ubiquitous computing. In 3rd International Symposium on Wearable Computers October 18 - 19, 1999, San Francisco, California, pages 168-169, 1999.

[89] M. Kishi, H. Nemoto, T. Hamao, M. Yamamoto, S. Sudou, M. Mandai, and S. Yamamoto. Micro-thermoelectric modules and their application to wristwatches as an energy source. In International Conference on Thermoelectrics, ICT, Proceedings, pages 301-307, August 1999.

[90] B. Lee-Jeong, G. Allen-Mark, and A. Rohatgi. Photovoltaic on-demand high voltage pulse generator as an on-board power source for electrostatic actuator array. In Proceedings-of-SPIE-The-International-Society-for-Optical-Engineering, volume 3878, pages 328-336, September 1999.

[91] S. Meninger, T. O. Mur-Miranda, R. Amirtharajah, A. Chandrakasan, and J. Lang. Vibration-to-electric energy conversion. In Proceedings of the International Symposium on Low Power Electronics and Design 1999 (ISLPED'99), pages 48-53, August 1999.

[92] James W. Stevens. Heat transfer and thermoelectric design considerations for a ground-source thermoelectric generator. In Proceedings 18th International Conference on Thermoelectrics '99, pages 68-71. IEEE, August 1999.

[93] N.S. Suzuki, T., Katane, H. Saotome, and O. Saito. A proposal of electric power generating system for implanted medical devices. IEEE Transactions on Magnetics, 35(5):3586-3588, September 1999.

[94] Jiabin Wang, G. W. Jewell, and D. Howe. A general framework for the analysis and design of tubular linear permanent magnet machines. IEEE Transactions on Magnetics, 35:1986-2000, 1999.

[95] A. Chandrakasan, R. Amirtharajah, J. Goodman, and W. Rabiner. Trends in low power digital signal processing. In ISCAS '98, volume 4, pages 604-607, June 1998.

[96] B. Koeneman-Paul, J. Busch-Vishniac-Ilene, and L. Wood-Kristin. Feasibility of micro power supplies for mems. Journal of Microelectromechanical Systems, 6(4):355-362, December 1997.

[97] Nathan S. Shenck. A demonstration of usefule electric energy generation from piezoceramics in a shoe. Master's thesis, Massachusetts Institute of Technology, Cambridge, Massachusetts, USA, May 1997.

[98] IEE, London, UK: 1996; 30pp. IEE Colloquium on Compact Power Sources, May 1996.

[99] C. B. Williams, R. C. Woods, and R. B. Yates. Feasibility study of a vibration powered micro-electric generator. In IEE Colloquium on Compact Power Sources (Ref, page 7, 1996.

[100] J.F. Antaki, G.E. Gertocci, E.C. Green, A. Nadeem, T. Rintoul, R.L. Kormos, and B.P. Griffith. A gait-powered autologous battery charging system for artificial organs. ASAIO J (American Society for Artificial Internal Organs), 41(3):M588-M595, July 1995.

[101] B. Lee-Jeong, Z. Chen, G. Allen-Mark, A. Rohatgi, and R. Arya. Miniaturized high-voltage solar cell array as an electrostatic mems power supply. Journal of Microelectromechanical Systems, 3(4):102-108, September 1995.

[102] J.M.C. Stork. Technology leverage for ultra-low power information system. Proceedings of the IEEE, 83(4):607-618, April 1995.

[103] Wang Xu and L.L. Koss. Frequency response functions for power, power transfer ratio and coherence. Journal of Sound and Vibration, 155(1):55-73, 1992.

[104] D. Snyder. Piezoelectric reed power supply for use in abnormal tire condition warning systems. US patent 4,510,484 to Imperial Clevite Inc., 1985.

[105] C.G. Triplett. Vehicular mounted piezoelectric generator. US patent 4,504,761, 1985.

[106] Wen. H. Ko. Piezoelectric energy converter for electronic implants. US patent 3,456,134, 1969.

[107] A. Chapuis and E. Jaquet. The History of the Self-Winding Watch. Roto-Sadag, 1956.

[108] "Micromachined silicon generator for harvesting power from vibrations"
S. P. Beeby, M. J. Tudor, E. Koukharenko, N. M. White, T. O’Donnell, C. Saha, S. Kulkarni and S. Roy
The 4th Int. Workshop on Micro and Nanotechnology for Power Generation and Energy Conversion Application (PowerMEMS 2004), November 28-30th, Kyoto, Japan, Technical Digest pp. 104-107.

[109] “Power Management Options for AmI Applications”, Hardware Technology Drivers of Ambient, D.Reefman, E.Cantatore, Intelligence Symposium, Veldhoven Netherlands, 9-10 december 2004 and will be published in a book by Kluver Publishers end of 2005

[110] “Energy Scavenging and Power Management in Networks of Autonomous Microsensors”, E.Cantatore, M.Ouwerkerk

[111] “Global Simulation of Self Powered Micro Systems", A.Zenati, Y.Ammar, K.Matou, S.BasrourSymposium on Design Testing Integration and Packaging of MEMS/MOEMS (DTIP ’05), 1-3rd June 2005, Montreux, Switzerland, pp. 178-181.

[112] “Design and Fabrication of Piezoelectric Micro Power Generators for Autonomous Microsystems”, M.Marzencki, B.Charlot, S.Basrour, M.Colin, L.Valbin
Symposium on Design Testing Integration and Packaging of MEMS/MOEMS (DTIP ’05), 1-3rd June 2005, Montreux, Switzerland, pp. 299-302.

[113] “A Bi-stable Micromachined Piezoelectric Transducer for Mechanical to Electrical Energy Transformation”, K.Dogheche, B. Cavallier, P. Delobelle, L.Hirsinger, E.Cattan, D.Rèmiens, B.Charlot, M.Marzencki, S.Ballandras Symposium on Design Testing Integration and Packaging of MEMS/MOEMS (DTIP ’05), 1-3rd June 2005, Montreux, Switzerland, pp. 303-305.

[114] "Design, fabrication and simulations of microelectromagnetic vibration powered generator for low power MEMS", S.P. Beeby, M.J. Tudor, E. Koukharenko, N.M. White, T.O’Donnell, C. Saha, S. Kulkarni, and S. Roy
Symposium on Design Testing Integration and Packaging of MEMS/MOEMS (DTIP ’05), 1-3rd June 2005, Montreux, Switzerland, pp. 374-379.

[115] “Energy Storage Capacity of Vibrating Structure: Application to a shock system”, B. Cavallier, H.Nouira, E.Folfête, L.Hirsinger, S.Ballandras Symposium on Design Testing Integration and Packaging of MEMS/MOEMS (DTIP ’05), 1-3rd June 2005, Montreux, Switzerland, pp. 391-393.

[116] "Modelling and Optimisation of Integrated Piezoelectric Micro Power Generators", M. Marzencki, S. Basrour, B. Charlot, Design, Nanotech 2005, vol. 3, pp. 545-548, June, 2005

[117] "Design and performance of a microelectromagnetic vibration-powered generator"
S. P. Beeby, M. J. Tudor, E. Koukharenko, N. M. White, T. O’Donnell, C. Saha, S. Kulkarni and S. Roy
Transducers ‘05, June 5-9th 2005, Seoul, Korea, Tech. Digest, Vol. 1, pp. 780-783