Resource allocation for cell-Free massive MIMO-aided URLLC systems relying on pilot sharing
Resource allocation for cell-Free massive MIMO-aided URLLC systems relying on pilot sharing
Resource allocation is conceived for cell-free (CF)massive multi-input multi-output (MIMO)-aided ultra-reliable and low latency communication (URLLC) systems. Specifically,to support multiple devices with limited pilot overhead, pilot reuse among the users is considered, where we formulate a joint pilot length and pilot allocation strategy for maximizing the number of devices admitted. Then, the pilot power and transmit power are jointly optimized while simultaneously satisfying the devices’ decoding error probability, latency, and data rate requirements. Firstly, we derive the lower bounds (LBs) of ergodic data rate under finite channel block length (FCBL). Then,we propose a novel pilot assignment algorithm for maximizing the number of devices admitted. Based on the pilot allocation pattern advocated, the weighted sum rate (WSR) is maximized by jointly optimizing the pilot power and payload power. To tackle the resultant NP-hard problem, the original optimization problem is first simplified by sophisticated mathematical transformations, and then approximations are found for transforming the original problems into a series of sub problems in geometric programming (GP) forms that can be readily solved. Simulation results demonstrate that the proposed pilot allocation strategy is capable of significantly increasing the number of admitted devices and the proposed power allocation achieves substantial WSR performance gain.
Cell-free massive MIMO, URLLC, pilot reuse, power control, the undirected graph
2193-2207
Peng, Qihao
030f5afc-95dc-4547-be59-df886a4fa198
Ren, Hong
89831c1b-a3b4-4cc3-932e-448959d97083
Dong, Mixanxiong
9837ad47-2148-4138-880a-6d809f9fe926
Elkashlan, Maged
27c756ff-bfd3-4844-8769-ace5ad28c840
Wong, Kai-Kit
bb7395be-1830-4de8-b714-8dca2b8e6979
Hanzo, Lajos
66e7266f-3066-4fc0-8391-e000acce71a1
1 July 2023
Peng, Qihao
030f5afc-95dc-4547-be59-df886a4fa198
Ren, Hong
89831c1b-a3b4-4cc3-932e-448959d97083
Dong, Mixanxiong
9837ad47-2148-4138-880a-6d809f9fe926
Elkashlan, Maged
27c756ff-bfd3-4844-8769-ace5ad28c840
Wong, Kai-Kit
bb7395be-1830-4de8-b714-8dca2b8e6979
Hanzo, Lajos
66e7266f-3066-4fc0-8391-e000acce71a1
Peng, Qihao, Ren, Hong, Dong, Mixanxiong, Elkashlan, Maged, Wong, Kai-Kit and Hanzo, Lajos
(2023)
Resource allocation for cell-Free massive MIMO-aided URLLC systems relying on pilot sharing.
IEEE Journal on Selected Areas of Communications, 41 (7), .
(doi:10.1109/JSAC.2023.3280976).
Abstract
Resource allocation is conceived for cell-free (CF)massive multi-input multi-output (MIMO)-aided ultra-reliable and low latency communication (URLLC) systems. Specifically,to support multiple devices with limited pilot overhead, pilot reuse among the users is considered, where we formulate a joint pilot length and pilot allocation strategy for maximizing the number of devices admitted. Then, the pilot power and transmit power are jointly optimized while simultaneously satisfying the devices’ decoding error probability, latency, and data rate requirements. Firstly, we derive the lower bounds (LBs) of ergodic data rate under finite channel block length (FCBL). Then,we propose a novel pilot assignment algorithm for maximizing the number of devices admitted. Based on the pilot allocation pattern advocated, the weighted sum rate (WSR) is maximized by jointly optimizing the pilot power and payload power. To tackle the resultant NP-hard problem, the original optimization problem is first simplified by sophisticated mathematical transformations, and then approximations are found for transforming the original problems into a series of sub problems in geometric programming (GP) forms that can be readily solved. Simulation results demonstrate that the proposed pilot allocation strategy is capable of significantly increasing the number of admitted devices and the proposed power allocation achieves substantial WSR performance gain.
Text
Resource Allocation for Cell free Massive MIMO aided URLLC systems relying on pilot sharing
- Accepted Manuscript
More information
e-pub ahead of print date: 8 June 2023
Published date: 1 July 2023
Additional Information:
The work of Lajos Hanzo was supported by the Engineering and Physical
Sciences Research Council Projects under Grant EP/W016605/1 and Grant
EP/X01228X/1 and in part by the European Research Council’s Advanced
Fellow Grant QuantCom under Grant 789028.
Keywords:
Cell-free massive MIMO, URLLC, pilot reuse, power control, the undirected graph
Identifiers
Local EPrints ID: 480542
URI: http://eprints.soton.ac.uk/id/eprint/480542
ISSN: 1558-0008
PURE UUID: 648e2796-5c44-4753-aa3a-488937697974
Catalogue record
Date deposited: 04 Aug 2023 16:37
Last modified: 18 Mar 2024 02:36
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Contributors
Author:
Qihao Peng
Author:
Hong Ren
Author:
Mixanxiong Dong
Author:
Maged Elkashlan
Author:
Kai-Kit Wong
Author:
Lajos Hanzo
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