DYNAMIC POWER ALLOCATED SWIPT NOMA OVER RAYLEIGH FADING CHANNEL

被引：0

作者：

Chaudhary B.P. ^{[1
]}

Mishra R.K. ^{[1
]}

机构：

[1] National Institute of Technology, Bihar, Patna

来源：

Telecommunications and Radio Engineering (English translation of Elektrosvyaz and Radiotekhnika) | 2023年 / 82卷 / 09期

关键词：

cooperative communication; dynamic power allocation; NOMA; Rayleigh fading; SWIPT;

D O I：

10.1615/TelecomRadEng.2023047426

中图分类号：

学科分类号：

摘要：

Cooperative NOMA with simultaneous wireless information and power transfer is one possible method for enhancing the energy efficiency (EE) and spectral efficiency (SE) of fifth generation (5G) networks. Non-orthogonal multiple access (NOMA) offers superior spectrum efficiency than the traditional OMA method providing huge connectivity for machine-to-machine communication and enormous machine-type communication. In this paper, we first present a comparative study of dynamic power allocation method over fixed power allocation method to find the better schemes among them. Later, we use a dynamic power allocation scheme with cooperative communication (Cooperative NOMA) to find the performance of the far user with other transmission methods. Finally, we use the dynamic power allocation method for the far end user with SWIPT NOMA for the transmission and compare it with fixed power allocated SWIPT NOMA. © 2023 by Begell House, Inc.

引用

页码：13 / 27

页数：14

共 25 条

[11]

Kumar A., Chakravarty S., Dynamic Power Allocation to Improve an Existing SWIPT Cooperative NOMA Network, Natl. Acad. Sci. Lett, (2022)

[12]

Lim D.W., Kang J., Chun C.J., Kim H.M., Joint Transmit Power and Time-Switching Control for Device-to-Device Communications in SWIPT Cellular Networks, IEEE Comm. Lett, 23, 2, pp. 322-325, (2019)

[13]

Liu Y., Qin Z., Elkashlan M., Ding Z., Nallanathan A., Hanzo L., Nonorthogonal Multiple Access for 5G and Beyond, Proc. IEEE, 105, 12, pp. 2347-2381, (2017)

[14]

Nasir A.A., Zhou X., Durrani S., Kennedy R.A., Relaying Protocols for Wireless Energy Harvesting and Information Processing, IEEE Trans. Wirel. Comm, 12, 7, pp. 3622-3636, (2013)

[15]

Pandya S., Krishna P., Shankar R., Singh Bist A., Examination of the Fifth-Generation Vehicular Simultaneous Wireless Information and Power Transfer Cooperative Non-Orthogonal Multiple Access Network in Military Scenarios Considering Time-Varying and Imperfect Channel State Information Conditions, J. Def. Model. Simul, 19, 4, pp. 723-737, (2022)

[16]

Shankar R., Ahmad A., Veerappan S., Beuria M.K., Krishna P., Singh S.S., Krishnan V.G., Examination of User Pairing NOMA System Considering the DQN Scheme over Time-Varying Fading Channel Conditions, J. Infor. Sci. Engin, 38, pp. 859-875, (2022)

[17]

Shankar R., Mishra R.K., S-DF Cooperative Communication System over Time Selective Fading Channel, J. Infor. Sci. Eng, 35, 6, pp. 1223-1248, (2019)

[18]

Shankar R., Beuria M.K., Kulkarni G.R., Zamani A.S., Krishna P., Krishnan V.G., Examination of the DL Based Ubiquitous Multiple Input Multiple Output U/L NOMA System Considering Robust Fading Channel Conditions for Military Communication Scenario, J. Inform. Sci. Engin, 38, 6, (2022)

[19]

Shankar R., Kumar I., Mishra R.K., Outage Probability Analysis of MIMO OSTBC Relaying Network over Nakagami-m Fading Channel Conditions, Trait. du Signal, 36, pp. 59-64, (2019)

[20]

Shankar R., Nandi S., Rupani A., Channel Capacity Analysis of Non-Orthogonal Multiple Access and Massive Multiple-Input Multiple-Output Wireless Communication Networks Considering Perfect and Imperfect Channel State Information, J. Def. Model. Simul, 19, 4, pp. 771-781, (2022)

← 1 2 3 →