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arxiv: 2505.01777 · v1 · pith:GFOMNRTNnew · submitted 2025-05-03 · 📡 eess.SP · math.OC

Pinching Antenna-enabled ISAC Systems: Exploiting Look-Angle Dependence of RCS for Target Diversity

classification 📡 eess.SP math.OC
keywords sensingisactargetdifferentdiversityreliabilitytimeaccumulated
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We investigate a novel integrated sensing and communication (ISAC) system supported by pinching antennas (PAs), which can be dynamically activated along a dielectric waveguide to collect spatially diverse observations. This capability allows different PAs to view the same target from different angles across time, thereby introducing target diversity, which is a key advantage over conventional fixed antenna arrays. To quantify the sensing reliability, we adopt the outage probability as a performance metric, capturing the likelihood that the accumulated radar echo signal power falls below a detection threshold. In contrast to traditional ISAC models that assume deterministic sensing channels, we explicitly account for the look-angle dependence of radar cross-section (RCS) by modeling it as a random variable. We ensure the long-term quality-of-service (QoS) for communication users by enforcing an accumulated data rate constraint over time. We derive an exact closed-form expression for the sensing outage probability based on the distribution of weighted sums of exponentially distributed random variables. Since the resulting expression is highly non-convex and intractable for optimization, we use a tractable upper bound based on the Chernoff inequality and formulate a PA activation optimization problem. A successive convex approximation (SCA) framework is proposed to efficiently solve the formulated problem. Numerical results show that dynamically activating different PAs across time slots significantly enhances sensing reliability compared to repeatedly activating the same PA at a fixed position and conventional antenna selection schemes, respectively. These findings highlight the benefits of integrating outage-based reliability metrics and target diversity into ISAC systems using PAs.

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Cited by 4 Pith papers

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  1. Center-Fed Pinching Antenna System for Uplink Environment Sensing

    cs.IT 2026-06 unverdicted novelty 6.0

    Center-fed pinching antenna system achieves strictly lower Ziv-Zakai bound on mean-squared reconstruction error than end-fed PASS for uplink environment sensing via doubled degrees of freedom and closed-form feed-poin...

  2. Pinching Antennas-Assisted Sensing: A Ziv-Zakai Bound (ZZB) Perspective

    eess.SP 2026-06 unverdicted novelty 5.0

    Derives general and specialized ZZB expressions for PASS uplink sensing, characterizes asymptotics, and proposes surrogate objectives for ZZB-based optimization.

  3. Robust Beamforming Design for Coherent Distributed ISAC with Statistical RCS and Phase Synchronization Uncertainty

    eess.SY 2026-04 unverdicted novelty 4.0

    A robust beamforming optimization for coherent distributed ISAC maximizes expected KLD for target detection under statistical RCS and imperfect CSI, delivering up to 3 dB SCNR gains over conventional schemes while pre...

  4. Pinching Antenna Systems (PASS): Enabling Reconfigurable and Controllable Wireless Channels -- A Comprehensive Survey

    cs.IT 2026-04 unverdicted novelty 2.0

    The paper provides a comprehensive review and categorization of pinching antenna systems (PASS) for objectives including network coverage, data rate, secure transmission, sensing, integrated sensing and communication,...