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ADVANCES IN INDUSTRIAL ENGINEERING AND MANAGEMENT
ISSN:2222-7059 (Print);EISSN: 2222-7067 (Online)
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Title : A Novel Design for HEMS consisting of Sensor Network Nodes with Energy Harvesting and Wireless Power Transmission
Author(s) : Takashi Yoshikawa, Ikuo Awai
Author affiliation :
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Abstract:
The HEMS is expected as one of the promising technologies to satisfy the demand for energy saving. Though it is understood useful and really used on some situations, it has not prevailed well into the public. The reason is considered to be the high initial cost of the equipment, low mobility of the system and regrettable unconcern for saving energy. In order to change the present situation, we have proposed to introduce a sensor network system into HEMS. The distributed sensors are easy to change their location and number as we like. Moreover, we have proposed to employ the energy harvesting and power transfer technology. This architecture will provide the basis for the system operation with no power supply and no maintenance. In this paper we will study the grand design for the sensor network HEMS mentioned above. As a result, we’ve concluded the sensor network node can continue to work with energy harvesting and wireless power supply. Still we’ve clarified the fact that our method of wireless power transmission could transmit power by more than 1m. These results would provide great progress for future HEMS.

Key words:HEMS, Sensor Network, Energy Harvesting, Wireless Power Transmission

Cite it:
Takashi Yoshikawa, Ikuo Awai, A Novel Design for HEMS consisting of Sensor Network Nodes with Energy Harvesting and Wireless Power Transmission, Advances in Industrial Engineering and Management, Vol. 2, No. 1, pp. 11-15, 2013

Full Text : PDF(size: 629.4 kB, pp.11-15, Download times:1035)

DOI : 10.7508/AIEM-V2-N1-11-15

References:
[1] “Harvesting HEMS” , NEDO Report DB (Key Word “HEMS”, 2009~2010 , .
[2] Thomas von Buren et al. 2006., "Optimization of Inertial Micropower Generators for Human Walking Motion", IEEE Sensors Journal, 6 (1), pp.28-38.
[3] André Kurs, Aristeidis Karalis, Robert Moffatt, J. D. Joannopoulos, Peter Fisher & Marin Soljai, 2007. “Wireless Power Transfer via Strongly Coupled Magnetic Resonances”, Science, Vol.317. No.5834, pp.83-86.
[4] Ikuo Awai, Dec. 2009. “Analysis of Resonant-type Wireless Power Transmission by BPF Theory.” IEICE Technical Report, AP-2009-169, General Conference Proceedings, BS-9-6, Mar. 2010 .pp. 81-86.
[5] Takashi Yoshikkawa, & Ikuo Awai, 2011. "HEMS with Resonant-type Wireless Power Transmission", IMWS-IWPT9-1 Proceedings, pp.167-170.
[6] I. Awai, T. Komori & T. Ishizaki, Jan. 2011. “Design and Experiment of Multi-stage Wireless Power Transfer System with Coupled Resonators”, IEICE Technical Report on WPT, WPT C. A. Grimes, E. C. Dickey, C. Mungle, K. G, 2010-19, pp.31-36.

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