Environmental Engineering Reference
In-Depth Information
34.
F.I. Simjee and P.H. Chou, “Efficient charging of supercapacitors for extended
lifetime of wireless sensor nodes,”
IEEE Transactions on Power Electronics
, vol. 23,
no. 3, pp. 1526-1536, 2008.
35.
C. Park and P.H. Chou, “AmbiMax: Autonomous energy harvesting platform for
multi-supply wireless sensor nodes,”
3rd Annual IEEE Communications Society on
Sensor and Ad Hoc Communications and Networks (SECON)
, vol. 1, pp. 168-177,
2006.
36.
D. Dondi, A. Bertacchini, D. Brunelli, L. Larcher, and L. Benini, “Modeling and
optimization of a solar energy harvester system for self-powered wireless sensor
networks,”
IEEE Transaction on Industrial Electronics
, vol. 55, no. 7, pp. 2759-2766,
2008.
37.
N.S. Hudak and G.G. Amatucci, “Small-scale energy harvesting through ther-
moelectric, vibration, and radio frequency power conversion,”
Journal of Applied
Physics
, vol. 103, no. 10, pp. 101-301(1-24), 2008.
38.
F. Cottone, “Nonlinear piezoelectric generators for vibration energy harvesting,”
Ph.D. thesis, University of Perugia, Italy, 2008.
39.
V. Leonov, T. Torfs, P. Fiorini, and C. Van Hoof, “Thermoelectric converters of
human warmth for self-powered wireless sensor nodes,”
IEEE Sensors Journal
,
vol. 7, no. 5, pp. 650-657, 2007.
40.
H.A. Sodano, G.E. Simmers, R. Dereux, and D.J. Inman, “Recharging batteries
using energy harvested from thermal gradients,”
Journal of Intelligent Material
Systems and Structures
, vol. 18, no. 1, pp. 3-10, 2007.
41.
T. Kanesaka, “Development of a thermal energy watch,”
Proceedings of the 64th
Conference on Chronometry (Socit Suisse de Chronomtrie)
,LeSentier, Switzerland,
pp. 19-22, 1999.
42.
J.W. Stevens, “Heat transfer and thermoelectric design considerations for a
ground-source thermo generator,”
Proceedings of 18th International Conference on
Thermoelectrics
, 1999.
43.
E.E. Lawrence and G.J. Snyder, “A study of heat sink performance in air and
soil for use in a thermoelectric energy harvesting device,”
Proceedings of 21st
International Conference on Thermoelectrics (ICT 02)
, 2002.
44.
C. Moser, “Power management in energy harvesting embedded systems,” Ph.D.
thesis, Swiss Federal Institute of Technology, Zurich, 2009.
45.
S. Roundy, P.K. Wright, and J.M. Rabaey,
Energy Scavenging for Wireless Sen-
sor Networks with Special Focus on Vibrations
, Kluwer Academic Press, Boston,
2004.
46.
N. Shenck and J. Paradiso, “Energy scavenging with shoe-mounted piezo-
electrics,”
IEEE Micro
, vol. 21, no. 3, pp. 30-42, 2001.
47.
S.J. Roundy, “Energy scavenging for wireless sensor nodes with a focus on vibra-
tion to electricity conversion,” Ph.D. thesis, University of California, Berkeley,
2003.
48.
P. Glynne-Jones, M.J. Tudor, S.P. Beeby, and N.M. White, “An electromagnetic,
vibration-powered generator for intelligent sensor systems,”
Sensors and Actua-
tors
, vol. 110, nos. 1-3, pp. 344-349, 2004.
49.
J. Edmison, M. Jones, Z. Nakad, and T. Martin, “Using piezoelectric materials
for wearable electronic textiles,”
Proceedings of 6th International Symposium on
Wearable Computers (ISWC)
, 2002.
50.
S. Meninger, A.P. Amirtharajan, and R. Chandrakasan, “Vibration-to-electric en-
ergy conversion,”
IEEE Transaction on VLSI System
, vol. 9, pp. 64-71, 2001.
Search WWH ::
Custom Search