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Main Authors: Bathelt, Andreas, Deutschmann, Benjamin, Rou, Hyeon Seok, Ranasinghe, Kuranage Roche Rayan, de Abreu, Giuseppe Thadeu Freitas, Vouras, Peter
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2510.04913
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author Bathelt, Andreas
Deutschmann, Benjamin
Rou, Hyeon Seok
Ranasinghe, Kuranage Roche Rayan
de Abreu, Giuseppe Thadeu Freitas
Vouras, Peter
author_facet Bathelt, Andreas
Deutschmann, Benjamin
Rou, Hyeon Seok
Ranasinghe, Kuranage Roche Rayan
de Abreu, Giuseppe Thadeu Freitas
Vouras, Peter
contents In every imaging or sensing application, the physical hardware creates constraints that must be overcome or they limit system performance. Techniques that leverage additional degrees of freedom can effectively extend performance beyond the inherent physical capabilities of the hardware. An example includes synchronizing distributed sensors so as to synthesize a larger aperture for remote sensing applications. An additional example is integrating the communication and sensing functions in a wireless system through the clever design of waveforms and optimized resource management. As these technologies mature beyond the conceptual and prototype phase they will ultimately transition to the commercial market. Here, standards play a critical role in ensuring success. Standards ensure interoperability between systems manufactured by different vendors and define industry best practices for vendors and customers alike. The Signal Processing Society of the Institute for Electrical and Electronics Engineers (IEEE) plays a leading role in developing high-quality standards for computational sensing technologies through the working groups of the Synthetic Aperture Standards Committee (SASC). In this column we highlight the standards activities of the P3383 Performance Metrics for Integrated Sensing and Communication (ISAC) Systems Working Group and the P3343 Spatio-Temporal Synchronization of a Synthetic Aperture of Distributed Sensors Working Group.
format Preprint
id arxiv_https___arxiv_org_abs_2510_04913
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle The IEEE Signal Processing Society's Leading Role in Developing Standards for Computational Imaging and Sensing: Part II
Bathelt, Andreas
Deutschmann, Benjamin
Rou, Hyeon Seok
Ranasinghe, Kuranage Roche Rayan
de Abreu, Giuseppe Thadeu Freitas
Vouras, Peter
Signal Processing
In every imaging or sensing application, the physical hardware creates constraints that must be overcome or they limit system performance. Techniques that leverage additional degrees of freedom can effectively extend performance beyond the inherent physical capabilities of the hardware. An example includes synchronizing distributed sensors so as to synthesize a larger aperture for remote sensing applications. An additional example is integrating the communication and sensing functions in a wireless system through the clever design of waveforms and optimized resource management. As these technologies mature beyond the conceptual and prototype phase they will ultimately transition to the commercial market. Here, standards play a critical role in ensuring success. Standards ensure interoperability between systems manufactured by different vendors and define industry best practices for vendors and customers alike. The Signal Processing Society of the Institute for Electrical and Electronics Engineers (IEEE) plays a leading role in developing high-quality standards for computational sensing technologies through the working groups of the Synthetic Aperture Standards Committee (SASC). In this column we highlight the standards activities of the P3383 Performance Metrics for Integrated Sensing and Communication (ISAC) Systems Working Group and the P3343 Spatio-Temporal Synchronization of a Synthetic Aperture of Distributed Sensors Working Group.
title The IEEE Signal Processing Society's Leading Role in Developing Standards for Computational Imaging and Sensing: Part II
topic Signal Processing
url https://arxiv.org/abs/2510.04913