Nonconvex distributed optimization based power allocation for maximizing DL-UL total sum rate in dynamic TDD systems
Nonconvex distributed optimization based power allocation for maximizing DL-UL total sum rate in dynamic TDD systems
We investigate the power allocation problem of a dynamic time division duplexing based heterogeneous network comprising downlink (DL) macro base stations (MBSs) and uplink (UL) small base stations (SBSs). In such networks, beyond intracell interference, the asynchronous DL transmission of MBSs and UL transmission of SBSs introduce additional interference known as cross-link interference. This interference occurs not only between MBSs and SBSs, but also between macro-cell user equipment and small-cell user equipment (SUE). To maximize the sum rate of UL and DL, we formulate a non-convex distributed optimization problem where power allocation variables of both DL and UL are to be optimized. We propose a power allocation algorithm relying on the Lagrange method with logarithmic barrier. Simulation results demonstrate that our proposed algorithm outperforms the representative benchmark schemes.
Kong, Jin-Xin
62081d2d-1886-4133-9a83-8f3c7a84b07f
Yang, Shaoshi
23650ec4-bcc8-4a2c-b1e7-a30893f52e52
Chen, Sheng
9310a111-f79a-48b8-98c7-383ca93cbb80
8 June 2025
Kong, Jin-Xin
62081d2d-1886-4133-9a83-8f3c7a84b07f
Yang, Shaoshi
23650ec4-bcc8-4a2c-b1e7-a30893f52e52
Chen, Sheng
9310a111-f79a-48b8-98c7-383ca93cbb80
Kong, Jin-Xin, Yang, Shaoshi and Chen, Sheng
(2025)
Nonconvex distributed optimization based power allocation for maximizing DL-UL total sum rate in dynamic TDD systems.
In ICC 2025 - IEEE International Conference on Communications.
IEEE.
6 pp
.
(doi:10.1109/ICC52391.2025.11161908).
Record type:
Conference or Workshop Item
(Paper)
Abstract
We investigate the power allocation problem of a dynamic time division duplexing based heterogeneous network comprising downlink (DL) macro base stations (MBSs) and uplink (UL) small base stations (SBSs). In such networks, beyond intracell interference, the asynchronous DL transmission of MBSs and UL transmission of SBSs introduce additional interference known as cross-link interference. This interference occurs not only between MBSs and SBSs, but also between macro-cell user equipment and small-cell user equipment (SUE). To maximize the sum rate of UL and DL, we formulate a non-convex distributed optimization problem where power allocation variables of both DL and UL are to be optimized. We propose a power allocation algorithm relying on the Lagrange method with logarithmic barrier. Simulation results demonstrate that our proposed algorithm outperforms the representative benchmark schemes.
Text
icc2025
- Accepted Manuscript
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Published date: 8 June 2025
Venue - Dates:
IEEE International Conference on Communications, , Montreal, Canada, 2025-06-08 - 2025-06-12
Identifiers
Local EPrints ID: 506627
URI: http://eprints.soton.ac.uk/id/eprint/506627
PURE UUID: da44abb9-89b2-46eb-a642-881d090ff28d
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Date deposited: 12 Nov 2025 17:44
Last modified: 12 Nov 2025 17:44
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Author:
Jin-Xin Kong
Author:
Shaoshi Yang
Author:
Sheng Chen
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