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Paper Abstract and Keywords
Presentation 2013-03-08 14:25
Reduction of SAR due to FPU for Road Race Considering Frequency Migration
Naoto Kogo, Tetsuomi Ikeda (NHK)
Abstract (in Japanese) (See Japanese page) 
(in English) During live outside broadcasting (OB) of road races, such as marathons and ekiden, video images are taken using cameras on moving OB vans and the signals of the video images are transmitted by FPU in 700 MHz band. The frequency band for the FPU is planned to migrate to 1.2 and 2.3GHz bands by the action plan for radio spectrum reallocation developed by the ministry of internal affairs and communications. After the frequency migration of FPU, the transmission power will be higher than that of 700MHz band; however, few studies have been performed concerning the SAR on the human body due to the FPU considering the frequency migration. In this report, we propose to use a conductive sheet on the window near human body to reduce the SAR due to the FPU. From our examinations, the SAR can be reduced about 60%.
Keyword (in Japanese) (See Japanese page) 
(in English) FPU(Field Pick-up Unit) / Specific Absorption Rate(SAR) / Numerical Human-Body Model / 700MHz Band / 1.2GHz Band / 2.3GHz Band / Collinear Antenn / Frequency Migration  
Reference Info. ITE Tech. Rep., vol. 37, no. 14, BCT2013-58, pp. 67-72, March 2013.
Paper # BCT2013-58 
Date of Issue 2013-03-01 (BCT) 
ISSN Print edition: ISSN 1342-6893  Online edition: ISSN 2424-1970
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Conference Information
Committee IEICE-EMCJ BCT  
Conference Date 2013-03-08 - 2013-03-08 
Place (in Japanese) (See Japanese page) 
Place (in English) Kikai-Shinko-Kaikan Bldg. 
Topics (in Japanese) (See Japanese page) 
Topics (in English) Broadcast, EMC, etc. 
Paper Information
Registration To BCT 
Conference Code 2013-03-EMCJ-BCT 
Language Japanese 
Title (in Japanese) (See Japanese page) 
Sub Title (in Japanese) (See Japanese page) 
Title (in English) Reduction of SAR due to FPU for Road Race Considering Frequency Migration 
Sub Title (in English)  
Keyword(1) FPU(Field Pick-up Unit)  
Keyword(2) Specific Absorption Rate(SAR)  
Keyword(3) Numerical Human-Body Model  
Keyword(4) 700MHz Band  
Keyword(5) 1.2GHz Band  
Keyword(6) 2.3GHz Band  
Keyword(7) Collinear Antenn  
Keyword(8) Frequency Migration  
1st Author's Name Naoto Kogo  
1st Author's Affiliation NHK (NHK)
2nd Author's Name Tetsuomi Ikeda  
2nd Author's Affiliation NHK (NHK)
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Date Time 2013-03-08 14:25:00 
Presentation Time 20 
Registration for BCT 
Paper # ITE-BCT2013-58 
Volume (vol) ITE-37 
Number (no) no.14 
Page pp.67-72 
#Pages ITE-6 
Date of Issue ITE-BCT-2013-03-01 

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