Your search keyword '"Kang, Shaoli"' showing total 4 results

1. A Unified Framework for Non-Orthogonal Multiple Access.

Author

Yue, Xinwei, Qin, Zhijin, Liu, Yuanwei, Kang, Shaoli, and Chen, Yue

Subjects

MULTIPLE access protocols (Computer network protocols), INTERFERENCE (Telecommunication), MONTE Carlo method, STOCHASTIC geometry, 5G networks

Abstract

This paper proposes a unified framework of non-orthogonal multiple access (NOMA) networks. Stochastic geometry is employed to model the locations of spatially NOMA users. The proposed unified NOMA framework is capable of being applied to both code-domain NOMA (CD-NOMA) and power-domain NOMA (PD-NOMA). Since the detection of NOMA users mainly depend on efficient successive interference cancelation (SIC) schemes, both imperfect SIC (ipSIC) and perfect SIC (pSIC) are taken into account. To characterize the performance of the proposed unified NOMA framework, the exact and asymptotic expressions of outage probabilities as well as delay-limited throughput for CD/PD-NOMA with ipSIC/pSIC are derived. In order to obtain more insights, the diversity analysis of a pair of NOMA users (i.e., thenth user andmth user) is provided. Our analytical results reveal that: 1) the diversity orders ofmth andnth user with pSIC for CD-NOMA aremKandnK, respectively; 2) due to the influence of residual interference, thenth user with ipSIC obtains a zero diversity order; and 3) the diversity order is determined by the user who has the poorer channel conditions out of the pair. Finally, Monte Carlo simulations are presented to verify the analytical results: 1) when the number of subcarriers becomes lager, the NOMA users are capable of achieving more steep slope in terms of outage probability and 2) the outage behavior of CD-NOMA is superior to that of PD-NOMA. [ABSTRACT FROM AUTHOR]

Published

2018

2. Modeling and Analysis of Two-Way Relay Non-Orthogonal Multiple Access Systems.

Author

Yue, Xinwei, Liu, Yuanwei, Kang, Shaoli, Nallanathan, Arumugam, and Chen, Yue

Subjects

MULTIPLE access protocols (Computer network protocols), RADIO access networks, WIRELESS communications, INTERFERENCE (Telecommunication), ERGODIC theory

Abstract

A two-way relay non-orthogonal multiple access (TWR-NOMA) system is investigated, where two groups of NOMA users exchange messages with the aid of one half-duplex decode-and-forward relay. Since the signal-plus-interference-to-noise ratios of NOMA signals mainly depend on effective successive interference cancellation (SIC) schemes, imperfect SIC (ipSIC), and perfect SIC (pSIC) are taken into account. In order to characterize the performance of TWR-NOMA systems, we first derive closed-form expressions for both exact and asymptotic outage probabilities of NOMA users’ signals with ipSIC/pSIC. Based on the derived results, the diversity order and throughput of the system are examined. Then, we study the ergodic rates of users’ signals by providing the asymptotic analysis in high signal-to-noise ratio (SNR) regimes. Finally, numerical simulations are provided to verify the analytical results and show that: 1) TWR-NOMA is superior to TWR-OMA in terms of outage probability in low SNR regimes; 2) due to the impact of interference signal at the relay, error floors and throughput ceilings exist in outage probabilities, and ergodic rates for TWR-NOMA, respectively; and 3) in delay-limited transmission mode, TWR-NOMA with ipSIC and pSIC have almost the same energy efficiency. However, in delay-tolerant transmission mode, TWR-NOMA with pSIC is capable of achieving larger energy efficiency compared with TWR-NOMA with ipSIC. [ABSTRACT FROM AUTHOR]

Published

2018

3. Spatially Random Relay Selection for Full/Half-Duplex Cooperative NOMA Networks.

Author

Yue, Xinwei, Liu, Yuanwei, Kang, Shaoli, Nallanathan, Arumugam, and Ding, Zhiguo

Subjects

RELAY control systems, MULTIPLE access protocols (Computer network protocols), DECODE & forward communication, INTERFERENCE (Telecommunication), INTERNET of things

Abstract

This paper investigates the impact of relay selection (RS) on the performance of cooperative non-orthogonal multiple access (NOMA), where relays are capable of working in either full-duplex (FD) or half-duplex (HD) mode. A number of relays (i.e., $K$ relays) are uniformly distributed within the disc. A pair of RS schemes are considered insightfully: 1) single-stage RS (SRS) scheme; and 2) two-stage RS (TRS) scheme. In order to characterize the performance of these two RS schemes, new closed-form expressions for both exact and asymptotic outage probabilities are derived. Based on analytical results, the diversity orders achieved by the pair of RS schemes for FD/HD cooperative NOMA are obtained. Our analytical results reveal that: 1) the FD-based RS schemes obtain a zero diversity order, which is due to the influence of loop interference at the relay; and 2) the HD-based RS schemes are capable of achieving a diversity order of $K$ , which is equal to the number of relays. Finally, simulation results demonstrate that: 1) the FD-based RS schemes have better outage performance than HD-based RS schemes in the low signal-to-noise ratio (SNR) region; 2) as the number of relays increases, the pair of RS schemes considered are capable of achieving the lower outage probability; and 3) the outage behaviors of FD/HD-based NOMA SRS/TRS schemes are superior to that of random RS and orthogonal multiple access based RS schemes. [ABSTRACT FROM AUTHOR]

Published

2018

4. Toward the Standardization of Non-Orthogonal Multiple Access for Next Generation Wireless Networks.

Author

Chen, Yan, Bayesteh, Alireza, Wu, Yiqun, Ren, Bin, Kang, Shaoli, Sun, Shaohui, Xiong, Qi, Qian, Chen, Yu, Bin, Ding, Zhiguo, Wang, Sen, Han, Shuangfeng, Hou, Xiaolin, Lin, Hao, Visoz, Raphael, and Razavi, Razieh

Subjects

MULTIPLE access protocols (Computer network protocols), WIRELESS Internet, RADIO resource management, WIRELESS communications -- Design & construction, RADIO transmitter-receivers

Abstract

Non-orthogonal multiple access (NOMA) as an efficient method of radio resource sharing has its roots in network information theory. For generations of wireless communication systems design, orthogonal multiple access schemes in the time, frequency, or code domain have been the main choices due to the limited processing capability in the transceiver hardware, as well as the modest traffic demands in both latency and connectivity. However, for the next generation radio systems, given its vision to connect everything and the much evolved hardware capability, NOMA has been identified as a promising technology to help achieve all the targets in system capacity, user connectivity, and service latency. This article provides a systematic overview of the state-of-theart design of the NOMA transmission based on a unified transceiver design framework, the related standardization progress, and some promising use cases in future cellular networks, based on which interested researchers can get a quick start in this area. [ABSTRACT FROM AUTHOR]

Published

2018