| A Study on Minimum Transmit Power and Interference in ZigBee Transceivers at 2.4GHz in Multiple Integrated Laser Engagement System |
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Hyun-Sang Kwak, Ho-Joon Yoo, Young-Ho Kim, Sang-Hyun Chun, Jong-Heon Kim, Chan-Joo Lee, Seung-Chan Lim |
1Dept. of Wireless Communications Engineering, Graduate School of Kwangwoon University
2Dept. of Electronic Communication, Shinheung College
3Korea Elecom |
| 2.4GHz대역 ZigBee 송수신기를 사용한 과학화 전투훈련 시스템에서 최소송신전력과 간섭에 관한 연구 |
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곽현상, 유호준, 김영호, 전상현, 김종헌, 이찬주, 임승찬 |
1광운대학교 대학원 전파공학과
2신흥대학 전자통신과
3(주)코리아일레콤 |
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| Abstract |
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In this paper, interference analysis has been performed between RF receiver and transmitters on each soldier for Multiple Integrated Laser Engagement System(MILES) which are following ZigBee standard. In order to obtain minimum transmit power without interference, 1% Packet Error Rates(PER) from 14 transmitters attached on a soldier to a receiver are measured with the scenarios for simple transmitting and receiving network configuration and for repeating network configuration. Based on this transmit power, the available distance for interference free among soldiers is simulated using Spectrum Engineering Advanced Monte Carlo Analysis Tool(SEAMCAT). Later scenario gives the benefit of 10dB lower transmit power, smaller and lighter power source, and better activity of trainee. |
| Key Words:
MILES, SEAMCAT, ZigBee, Inteference, RF Transceiver |
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