Topology-Aware Integrated Communication, Sensing, and Power Transfer for SAGIN

TL;DR

This paper introduces a topology-aware framework for SAGIN that optimizes integrated sensing, communication, and power transfer by leveraging topological structures, leading to improved performance over benchmarks.

Contribution

The paper proposes a novel topology-aware approach for SAGIN that reformulates the ISCPT problem into a mixed integer linear program based on visibility and channel strength.

Findings

Superior performance compared to benchmarks

Effective utilization of topological structure in SAGIN

Reformulation into mixed integer linear program

Abstract

The space-air-ground integrated network (SAGIN) has garnered significant attention in recent years due to its capability to extend communication networks from terrestrial environments to near-ground and space contexts. The application of SAGIN enables to achieve a high-quality, multi-functional, and complex communication requirements, which are essential for sixth-generation communication systems. This paper presents a topology aware (TA) framework to leverage the topological structure in SAGIN to address the multi-functional communication challenge, particularly the integrated sensing, communication, and power transfer (ISCPT) problem. To take advantage of the topological structure, we initially establish the topology according to the criteria of visibility and channel strength. The ISCPT problem can be reformulated into a topological structure as a mixed integer linear program, providing valuable insights from the objectives and constraints. Results demonstrate the superior performance of our solution compared to the benchmarks.