Low-complexity tuning of pinching-antenna systems for integrated sensing and communication

TL;DR

This paper presents a low-complexity PASS-aided ISAC design that adaptively tunes pinching locations for simultaneous sensing and communication, significantly improving the rate region with minimal computational effort.

Contribution

It introduces a novel bi-partitioning strategy for PASS tuning, enabling dynamic, high-rate adaptation for integrated sensing and communication systems.

Findings

Achieves larger sensing-communication rate region than baseline designs.

Enables real-time PASS tuning with low computational complexity.

Demonstrates effectiveness through numerical simulations.

Abstract

Pinching antenna systems (PASSs) can dynamically adapt their transmit and receive arrays for sensing and communication in wireless systems. This work explores the potential of PASSs for integrated sensing and communication (ISAC) by proposing a novel PASS-aided ISAC design, in which pinching locations are adaptively adjusted to enable simultaneous sensing and data transmission with minimal interference. The proposed design introduces a bi-partitioning strategy that allocates sensing power and tunes pinching locations with remarkably low computational complexity, allowing dynamic PASS tuning at high update rates. Numerical results demonstrate that the proposed approach achieves a significantly larger sensing-communication rate region compared to baseline designs at no noticeable cost.