References measurement system utilizing piezoelectric ?lm transducers.

ReferencesA. J.

Nevill, M. G. Pepper and M. Whiting, 1995. In-shoe foot pressure measurement system utilizing piezoelectric ?lm transducers.

We Will Write a Custom Essay Specifically
For You For Only $13.90/page!

order now

Medical & Biological Engineering & Computing 33, 76–81, s.n.H. S. Kim, J. H. Kim and J.

Kim, 2011. International Journal of Precision Engineering and Manufacturing 12, 1129–1141. A Review of Piezoelectric Energy Harvesting Based on Vibration.J. Baker, S. Roundy, P.

Wright, 2005. Alternative geometries for increasing power density in vibration energy scavenging for wireless sensor networks. Proceedings of the Third International Energy Conversion Conference, s.

n.K. Prashanthi, N. Miriyala, R. D. Gaikwad, W.

Moussa, V. RamgopalRao, T. Thundat, 2013. Vibtrational energy harvesting using photo-patternable piezoelectric nanocomposite cantilevers. In: Nano Energy 2, . s.

l.:s.n., p.

923–932 .L. Moro and D. Benasciutti, 2010. Harvested power and sensitivity analysis of vibrating shoe-mounted piezoelectric cantilevers. In: Smart Materials and Structures 19. s.

l.:s.n.M. Rguiti, A. Hajjaji, S. D’Astorg, C. Courtois and A.

Leriche, 2014. Elaboration and characterization of a low frequency and wideband piezoceramic generator for energy harvesting. In: Optical Materials . s.l.:s.

n., pp. 8-12.R. Elfrink, T.

M. Kamel, M. Goedbloed, S. Matova, D. Hohlfeld, Y. V.

Andel and R. V. Schaijk,, 2009. Vibration energy harvesting with aluminum nitride-based piezoelectric devices. Journal of Micromechanics and Microengineering , Volume 19, p. 1489–1503 .R.

Meier, N. Kelly, O. Almog and P. Chiang, 2014.

A Piezoelectric Energy-Harvesting Shoe System for Podiatric Sensing. IEEE Engineering in Medicine and Biology Society Conference Proceedings , s.n.S. Roundy, E. S.

Leland, J. Baker, E. Carleton, E. Reilly, E. Lai, B. Otis, J.

M. Rabaey, P. K. Wright and V. Sundararajan, 2005. Improving power output for vibration-based energy scavengers.

s.l., Pervasive Computing IEEE 4.T.

S. Gross and R. P. Bunch, 1988.

Biomedical Engineering 10. Measurement of discrete vertical in-shoe stress with piezoelectric transducers.W. G. Li, S. He and Sh. G. Yu, 2010.

Improving Power Density of a CantileverPiezoelectric Power Harvester through a Curved L-Shaped Proof Mass. IEEE Transactions on Industrial Electronics 57, p. 868–876.Y. M. Zheng, X. Wu, M. Parmar, and D.

W. Lee, 2014. High-ef?ciency energy harvester using double-clamped piezoelectric beams. Review of Scienti?c Instruments 85, Volume 026101–3 .. L. Mateu and F.

Moll,, 2005. Optimum Piezoelectric Bending Beam Structures for Energy Harvesting using Shoe Inserts. In: Journal of Intelligent Material Systems and Structures . s.l.:s.n., p.

835–845 .A. Almusallam, R. N.

Torah, D. Zhu, M. J.

Tudor and S. P. Beeby, 2013.

Screen-printed piezoelectric shoe-insole energy harvester using an improved ?exible PZT-polymer composites. Journal of Physics: Conference Series 476, 012108 , s.n.

A. Daniels, M. Zhu and A. Tiwari, 2013. Design, analysis and testing of a piezoelectric ?ex transducer for harvesting bio-kinetic energy. Journal of Physics: Conference Series 476, 012047.Anon., 2012.

Micropower Generators and Sensors Based On Piezoelectric Polypropylene PP and Polyvinylidene Fluoride PVDF Films-Energy Harvesting From Walking. In: . Applied Mechanics and Materials . s.l.:s.n.

, p. 1245–1251 .Anon., 2013.

Online Accessed 2013 6 6.Anon., n.d. The Universal Resources. Online Available at: http://www. 06 06 2013.

Armstrong, T., n.d. power products,Linear coporation.

Online Available at: electronicsmaker.comAccessed April 2018.B.

Yang and K. S. Yun, 2012. Piezoelectric shell structures as wearable energy harvesters for effective power generation at low-frequency movement. In: Sensors and Actuators A 188. s.l.

:s.n., p. 427–433.Chen, X.-Y. and Jin, Z.

-G, 2012. Physics Procedi. Online Available at:

2012.05.104 Accessed 10 5 2012.

E. Camilloni, M. Carloni, M. Giammarini and M. Conti, 2013.

Energy Harvesting with piezoelectric applied on shoes. In: Vlsi Circuits ; Systems VI 8764. s.


Frontoni, A. M. P. Z. a. A. G., 2013.

Energy Harvesting or Smart Shoes: A Real Life Application. ASME International Design Engineering Technical Conferences and Computers and Information in Engineering Conference, s.n.

F. Goldschmidtboeing and P. Woias, 2008. Characterization of different beam shapes for piezoelectric energy harvesting. Characterization of different beam shapes for piezoelectric energy harvesting.Fourie, D.

, 2010. Shoe-Mounted PVDF Piezoelectric Transducer for Energy Harvesting. Journal of Intelligent Material Systems and Structures 19, p.

66–70.Frontoni, E. M. A.

Z. P. G. A., 2013.. “Energy harvesting for smart shoes: A real life application. s.

l., ASME Design Engineering Technical Conference.H. P. Hu, Ch. Zhao, Sh. Y. Feng, Y.

T. Hu, and Ch. Y. Chen, 2008. IEEE transactions on ultrasonics, ferroelectrics, and frequency control 55,. Adjusting the Resonant Frequency of a PVDF Bimorph Power Harvester through a Corrugation-Shaped Harvesting Structure, p. 668–674.H.

W.Kim, A. Batra, S. Priya, K. Uchino, D. Markley, R.

E. Newnham and H. F. Hofmann, 2004. Energy Harvesting Using a Piezoelectric “Cymbal” Transducer in Dynamic Environment.

Japanese Journal of Applied Physics 43, p. 6178–6183.J. J. Zhao and Zh. You, 2014. A Shoe-Embedded Piezoelectric Energy Harvester for Wearable Sensors. .

In: Sensors 14. s.l.:s.n.

, p. 12497–12510.J. Palosaari, M. Leinonen, J. Hannu, J. Juuti, H. Jantunen, 2012.

Energy harvesting with a cymbal type piezoelectric transducer from low frequency compression. Journal of Electroceramics 28, p. 214–219.K.

Ishida, T. Ch. Huang, K. Honda, Y. Shinozuka, H. Fuketa, T. Yokota, U.

Zschieschang, H. Klauk, G. Tortissier, T. Sekitani, H.

Toshiyoshi, M. Takamiya, T. Someya, and T. Sakurai, 2013. Insole Pedometer with Piezoelectric Energy Harvester and 2 V Organic Circuits. IEEE Journal of Solidstate Circuits 48, p. 255–264.Kendall, C.

, 1998. Dept. of Physics and MIT Media Laboratory, Massachusetts Institute of Technology, Cambridge, Mass. Parasitic Power Collection in Shoe-Mounted Devices.L. Mateu, F.

M., 2006. Sensors and Actuators. Appropriate charge control of the storage capacitor in a piezoelectric energy harvesting device for discontinuous load operation.

, Issue A132, p. 302.L.M. Goncalves, J.G.

Rocha, P.F. Rocha, M.P. Silva, S. LancerosMendez, 2010.

IEEE Transactions on Industrial Electronics. Energy Harvesting From Pzelectric Materials Fully Integrated in Footwear, Volume vol 57, pp. 813-819.L.

M. Goncalves,J.G. Rocha, P.F.

Rocha, M.P. Silva, and S. LancerosMendez, 2010. Energy Harvesting From Pzelectric Materials Fully Integrated in Footwear. IEEE Transactions on Industrial Electronics, Volume 57, pp. 813-819.Luchetti, G.

S. G. F.

E. M. A. Z. P., 2013.

Design and test of a precise mobile GPS tracker. 21st Mediterranean Conference on Control and Automation, s.n.

M. A. Razian and M. G. Pepper, 2003.

Design, Development, and Characteristics of an In-Shoe Triaxial Pressure Measurement Transducer Utilizing a Single Element of Piezoelectric Copolymer Film. In: IEEE Transactions on Neural Systems and Rehabilitation Engineering 11: s.n.

, p. 288–293 .Paradiso, N. S.

a. J., 2001. IEEE Micro.

Energy Scavenging with ShoeMounted Piezo-Electrics, Volume 21, p. 3041.S. J.

Hwang, and H. ParkH. J. Jung, J. H. Kim, J. H.

Ahn, D. Song, T. H. Sung, Y.

Song, H. L. Lee, S. P. Moon , 2015. Designing and Manufacturing a Piezoelectric Tile for Harvesting Energy from Footsteps. Current Applied Physics ed.

s.l.:s.n.sekine, k., n.d. Energy Harvesting, cypress: Analog Busines unit .

Shenck, N. S., 1999.

A Demonstration of Useful Electric Energy Generation from Piezoceramics in a Shoe. MS thesis, Volume , Department of Electrical Engineering and Computer Science,Massachusetts Institute of Technology.T. H.

Ng and W. H. Liao, 2004. Feasibility study of a self-powered piezoelectric sensor. In: Smart structures and materials: smart electronics, MEMS bio-mems and nanotechnology 5389.

s.l.:s.n., p.

377–388 .T. H. Ng and W. H.

Liao, 2005. Sensitivity analysis and energy harvesting for a self-powered piezoelectric sensor. Journal of Intelligent Material Systems and Structures , Volume 16, p. 785–797 .T. J. Johnson, D.

Charnegie, W. W. Clark, M. Buric and G. Kusic, 2006. Energy harvesting from mechanical vibrations using piezoelectric cantilever beams.. San Diego, CA, s.

n.W. S. Jung, M. J. Lee, M. G. Kang, H.

G. Moon, S. J. Yoon, S.

H. Baek and Ch. Y. Kang, 174–181.

Powerful curved piezoelectric generator for wearable applications. In: Nano Energy 13. s.l.:s.n.

, p. 2015.X. T.

Li, M. S. Guo, and Sh. X. Dong,, 2011. A Flex-Compressive-Mode PiezoelectricTransducer for Mechanical Vibration/Strain Energy Harvesting. IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control 58, p.

698–703.Zh. G. Geng, M.

G. Pepper and Y. Yan, n.d. Design and Characterisation of a Single Element Tri-axial Piezoelectric Transducer for In-shoe Force Measurement. Instrumentation and Measurement Technology Conference (I2MTC) IEEE 2010, 1048–1052 (2010)., s.n.


I'm Casey!

Would you like to get a custom essay? How about receiving a customized one?

Check it out