In this paper, we investigate the performance analysis of full-duplex random access in distributed networks. Recently, full-duplex communication is focused on the 5G cellular and wireless networks. Full-duplex communication is able to efficiently use the bandwidth by transmitting a signal simultaneously on the same frequency band. The technical progress on the analog and digital interference cancellation makes full-duplex communication feasible in wireless networks and it can be increased in system throughput compared to the existing half-duplex system. Especially, we considered the proximity environment using the full-duplex communication such as the device-to-device communication. We can analyze the performance gain for full-duplex random access in the aspect of MAC protocol. In addition, we considered the stochastic approach for the large scale system to obtain the practical calculation. Simulation results of the ON/OFF system model show that the full-duplex random access in distributed network can improve the system throughput by up to 10 % performance gain. In addition, the results of stochastic model represented about 3-times performance improvement in the general case. We can anticipate the enhanced system performance in random access process by using the full-duplex communication in a proximity distributed system. ⓒ 2015 DGIST
Table Of Contents
Ⅰ. Introduction 1 -- Ⅱ. Basic concept of related work 5 -- 2.1 Full-duplex communication 5 -- 2.2 Device-to-Device communication 8 -- Ⅲ. System model 13 -- 3.1 Channel model 13 -- 3.2 ON/OFF system model 14 -- IV. Full-duplex random access 17 -- 3.1 Random access probability 17 -- 3.2 Stochastic model approach 20 -- V. Simulation results 23 -- 4.1 Performance evaluation in ON/OFF system model 24 -- 4.2 System capacity 26 -- VI. Conclusion 31
Research Interests
Communication System; Signal Processing; Communication Circuit Design; 생체 신호 통신 및 신호 처리; 뇌-기계 인터페이스(BMI); 차세대 교차계층 통신 및 신호 처리; 5G 모바일 통신