Robotic systems increasingly demand simultaneous high-precision sensing and low-latency communication—a duality that traditional disjoint architectures struggle to satisfy efficiently. Integrated Sensing and Communication (ISAC) addresses this challenge by unifying both functions within shared radio frequency and spectral resources, eliminating hardware redundancy and spectral inefficiency. This article surveys ISAC-enabled robotics, examining how joint waveform design, cross-layer protocols, and emerging technologies (mmWave, THz, in-band full-duplex transceivers) enable transformative applications. We focus on mission-critical scenarios where ISAC provides unique value: (1) factory robots achieving sub-centimeter positioning alongside millisecond-latency coordination for collision-free assembly, (2) surgical robots requiring simultaneous tissue imaging and instrument teleoperation with ultra-reliability, (3) autonomous vehicle platoons performing radar-based spacing control while exchanging cooperative maneuver plans, and (4) UAV swarms conducting distributed target tracking with bandwidth-efficient inter-agent communication. The article analyzes fundamental trade-offs in ISAC system design—sensing accuracy versus communication throughput, spectrum coexistence, RF front-end integration challenges, and security vulnerabilities arising from shared physical layers. We identify open research directions including AI-driven resource allocation, real-time co-optimization frameworks, and regulatory pathways for spectrum sharing. By consolidating sensing and communication primitives, ISAC emerges as an enabling infrastructure for autonomous robotic systems requiring tight perception-action coupling under stringent resource constraints.
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10 December 2025
Research Article|
December 10 2025
ISAC-enhanced robotic coordination: a tutorial on joint sensing-communication co-design for autonomous multi-agent systems Available to Purchase
Shivani Sharma;
Shivani Sharma
School of Computer Science,
UPES Dehradun
, Dehradun, India
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Aryan Kaushik;
Aryan Kaushik
RakFort,
Ireland and IIITD
, India
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Rohit Singh
Rohit Singh
Dr B R Ambedkar NIT Jalandhar
, Jalandhar, India
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Online ISSN: 1554-0588
Print ISSN: 1554-057X
© 2025 Shivani Sharma, Aryan Kaushik and Rohit Singh
2025
Shivani Sharma, Aryan Kaushik and Rohit Singh
Licensed re-use rights only
Foundations and Trends in Networking (2025) 15 (4): 272–329.
Citation
Sharma S, Kaushik A, Singh R (2025), "ISAC-enhanced robotic coordination: a tutorial on joint sensing-communication co-design for autonomous multi-agent systems". Foundations and Trends in Networking, Vol. 15 No. 4 pp. 272–329, doi: https://doi.org/10.1561/1300000076
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