李亦卿
+
Personal Information
-
Date of Birth:
1993-06-01 -
Date of Employment:
2022-07-12 -
School/Department:
计算机学院 -
Gender:
Female -
Status:
On-the-job -
Teacher College:
School of Computer Science
Other Contact Information:
-
Telephone:
34687a723eac0ff313e12e1c64d548b24049657e0822725911fd49c4d7e0e045de94f690f8c37dd615b2a231b0f4847ecf20bb716285bf38df482aa5aad5ef328382ebb5f545a96834645e2bef6d4615375af90c3672a5cbe989e4ea08ca6fa10b52c9e99cd7662d76d9ca28403b70616f778f610c6355fb53f5f18d0ff33949 -
Email:
7c15073ef83d586dff621380cf9eacbec4b3b23278f2bfd50ced17d3db6f84c91f3d93520204c62d47e6c6d0c0dba138c17dd050e755a10854f78da7035deaeaa558e1bb20387c9f8ae13fb5ab6cfd953aade14f6fb956e05fe35fffece1468e934c71093d919d2da740badbc12e00b398185bd189b79c881b804e8c6804f5d1
Paper Publications
Current position: Home > Scientific Research > Paper Publications
Joint Transmit Beamforming and Receive Filters Design for Coordinated Two-cell Interfering Dual-Functional Radar-Communication Networks
- Release time:2022-11-01
- Hits:
Impact Factor:
6.239DOI number:
10.1109/TVT.2022.3193001Journal:
IEEE Transactions on Vehicular TechnologyAbstract:
Dual-functional radar-communication (DFRC) has been viewed as a promising component in future networks. The considered two-cell interfering DFRC network involves two multi-antenna base stations (BSs), and each BS serves multiple single-antenna users and receives echo signals to detect the target. An optimization framework for the joint transmit beamforming and receive filters design of a coordinated two-cell network is formulated. Specifically, we minimize the transmit power at two BSs subject to the signal-to-interference-and-noise ratio constraints. To solve the formulated non-convex optimization problem, an alternating optimization-based method is invoked. For the transmit beamforming design, a locally optimal successive inner convex approximation (SICA)-based method with fast convergence is firstly proposed. To further reduce the computational complexity, we also provide three zero-forcing (ZF)-based sub-optimal methods for practical consideration. For the receive filters design, a power iterations-based method is proposed. Simulation results validate the effectiveness of our proposed SICA-based locally optimal and ZF-based sub-optimal schemes.First Author:
Li YiqingCorrespondence Author:
jmiaoDiscipline:
EngineeringFirst-Level Discipline:
Information and Communication EngineeringDocument Type:
JVolume:
71Issue:
11Page Number:
12362—12367ISSN No.:
1939—9359Translation or Not:
noDate of Publication:
2022-07-21Included Journals:
SCILinks to published journals:
https://ieeexplore.ieee.org/document/9835135