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다국어 초록 (Multilingual Abstract)

The challenge of penetrating obstacles along with impact from weak multipath effects makes 60GHz signal very difficult to be transmitted in non-line of sight (NLOS) channel. So 60GHz system is vulnerable to obstructions and thus likely results in link interruption. While the application of cooperative technology to solve link blockage problemin 60GHz system should consider the characteristic of directional transmission for 60GHz signal. Therefore in this paper a system is proposed to solve the link blockage problem in 60GHz NLOS communication environment based on the concept of cooperation and also the beamforming technology, which is the basis of directional transmission for 60GHz communication system. The process of anti-blockage solution with cooperative communication is presented in detail, and the fast switching and recovery schemes are well designed. The theoretical values of symbol error rate (SER) using decode and forward (DF) cooperation and amplify and forward (AF) cooperation are presented respectively when the common channel interference exists. Simulation results demonstrate that the performance based on DF cooperation is better than the performance based on AF cooperation when directional transmission is used.

참고문헌 (Reference)

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7 H. Zhang., "Resource Allocation in Spectrum-Sharing OFDMA Femtocells with Heterogeneous Services" 62 (62): 2366-2377, 2014

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9 L. X. Cai., "REX: a Randomized EXclusive Regionbased Scheduling Scheme for mmWave WPANs with Directional Antenna" 9 (9): 2010

10 Z. Bai., "Performance analysis of SNR-based incremental hybrid decode-amplify-forward cooperative relaying protocol" 63 (63): 2094-2106, 2015

1 K. Chandra., "mCRAN : A radio access network architecture for 5G indoor communications" 2015

2 N. Zhao., "Wireless Energy Harvesting in Interference Alignment Networks" 53 (53): 72-78, 2015

3 A. Sendonaris., "User cooperation diversity. Part II : Implementation aspects and performance analysis communications" 51 (51): 1939-1948, 2003

4 A. Sendonaris., "User cooperation diversity. Part I : System description communications" 51 (51): 1927-1938, 2003

5 M. Chryssomallis, "Smart antennas" 42 (42): 129-136, 2000

6 J. Qiao., "STDMA-based scheduling algorithm for concurrent transmissions in directional millimeter wave networks" IEEE 5221-5225, 2012

7 H. Zhang., "Resource Allocation in Spectrum-Sharing OFDMA Femtocells with Heterogeneous Services" 62 (62): 2366-2377, 2014

8 B. Langen., "Reflection and transmission behaviour of building materials at 60GHz" 505-509, 1994

9 L. X. Cai., "REX: a Randomized EXclusive Regionbased Scheduling Scheme for mmWave WPANs with Directional Antenna" 9 (9): 2010

10 Z. Bai., "Performance analysis of SNR-based incremental hybrid decode-amplify-forward cooperative relaying protocol" 63 (63): 2094-2106, 2015

11 Z. Bai., "Multiple access interference and multipath interference analysis of orthogonal complementary code‐based ultra‐wideband systems over multipath channels" 27 (27): 4430-4442, 2014

12 M. Jiang., "MIMO Transmission with Rank Adaptation for Multi-Gigabit 60GHz Wireless" 2010

13 G. K. Dong., "Low-cost antenna-in-package solutions for 60-GHz phased-array systems" 93-96, 2010

14 T. Eric., "Indoor millimeter wave MIMO : Feasibility and performance" 10 (10): 4150-4160, 2011

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16 "IEEE P802.11.ad/D9.0, Part 11: Wireless LAN Medium Access Control (MAC) and Physical Layer (PHY) Specifications"

17 "ECMA 387.ISO/IEC 13156-High rate 60 GHz PHY, MAC and HDMI PAL"

18 J. N. Laneman., "Cooperative diversity in wireless networks : efficient protocols and outage behavior" 50 (50): 3062-3080, 2004

19 H. Zhang., "Coexistence of Wi-Fi and Heterogeneous Small Cell Networks Sharing Unlicensed Spectrum" 53 (53): 158-164, 2015

20 P. Pagani, "Characterization and Modeling of the 60 GHz Indoor Channel in the Office and Residential Environments"

21 S. Singh., "Blockage and Directivity in 60 GHz Wireless Personal Area Networks : From Cross-Layer Model to Multihop MAC Design" 27 (27): 2009

22 M. Kim., "Analysis of Directional Communication via Relaying Devices in mmWave WPANs" 16 (16): 342-345, 2012

23 S. K. Yong., "An overview of multigigabit wireless through millimeter wave technology : Potentials and technical challenges" 2007 : 1-10, 2007

24 M. Umehira., "An Extended Calculation Model for Shadowing Loss Caused by a Moving Human Body in 60GHz WLAN" 2014

25 G. C. Yan., "An Anti-blocking Scheme with Spatial Reuse for mmWave Wireless Networks" 2012

26 M. K. Simon., "A unified approach to the performance analysis of digital communication over generalized fading channels" 86 (86): 1860-1877, 1998

27 K. Sato, "A new LOS kiosk channel model based on TSV model"

28 X. Li., "A Novel Interference Alignment Scheme With a Full-Duplex MIMO Relay" 19 (19): 1798-1801, 2015

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연월일	이력구분	이력상세
	학술지등록	한글명 : KSII Transactions on Internet and Information Systems 외국어명 : KSII Transactions on Internet and Information Systems
2023	평가예정	해외DB학술지평가 신청대상 (해외등재 학술지 평가)
2020-01-01	평가	등재학술지 유지 (해외등재 학술지 평가)
2013-10-01	평가	등재학술지 선정 (기타)
2011-01-01	평가	등재후보학술지 유지 (기타)
2009-01-01	평가	SCOPUS 등재 (신규평가)

기준연도	WOS-KCI 통합IF(2년)	KCIF(2년)	KCIF(3년)
2016	0.45	0.21	0.37
KCIF(4년)	KCIF(5년)	중심성지수(3년)	즉시성지수
0.32	0.29	0.244	0.03

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A 60GHz Wireless Cooperative Communication System Based on Switching Beamforming = A 60GHz Wireless Cooperative Communication System Based on Switching Beamforming

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