SubsidieMeestersInformation Theoretic Foundations of Joint Communication and Sensing
This project aims to develop a foundational information-theoretic framework for joint communication and sensing (JCAS) in wireless networks, enhancing efficiency and reliability for diverse applications.
Projectdetails
Introduction
The integration of radio communication and sensing services in the same network infrastructure will be a key feature of next-generation wireless technology. It is envisaged that wireless base-stations will communicate with active devices, and simultaneously detect, localize, and track passive targets within their vicinity; all using the same spectrum and hardware. This emerging joint communication and sensing (JCAS) paradigm, currently at the frontier of wireless research, will revolutionize a broad range of applications, from automotive and transportation to healthcare and environmental monitoring.
Challenges
A major challenge for realizing this vision is the lack of a fundamental theory for JCAS. Communication-centric wireless systems rely on information theory in establishing fundamental performance limits and guiding the design of efficient schemes that best utilize scarce radio resources.
In sharp contrast, information theory for JCAS is currently in its infancy. Without such a theory, optimal signal and protocol design for next-generation wireless networks will remain elusive. The goal of this project is to take the first major steps towards closing this fundamental knowledge gap.
Proposed Approach
I will first introduce a novel information-theoretic approach to sensing. I propose the new notions of sensing capacity and reliability function, which will enable characterizing the fundamental trade-off between sensing efficiency and reliability.
I will then establish new information-theoretic performance limits and optimal schemes for JCAS systems, where signals have the dual function of communicating and probing.
Finally, I will extend the analysis to multiple transceivers, targets, and users by introducing a novel network information theory for sensing and JCAS.
Expected Outcomes
The results of this project will:
- Open a new research frontier in information theory
- Push the boundaries of current knowledge in neighboring domains
- Directly impact the design of future, JCAS-enabled wireless technology
Financiële details & Tijdlijn
Financiële details
| Subsidiebedrag | € 1.499.618 |
| Totale projectbegroting | € 1.499.618 |
Tijdlijn
| Startdatum | 1-1-2024 |
| Einddatum | 31-12-2028 |
| Subsidiejaar | 2024 |
Partners & Locaties
Projectpartners
- TECHNISCHE UNIVERSITEIT EINDHOVENpenvoerder
Land(en)
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Fundamental Limits of Sensing Systems
This project aims to establish information-theoretic limits and tradeoffs for classical and quantum distributed sensing systems to guide practical designs and enhance performance in various applications.
Emerging cooperative autonomous systems: Information for control and estimation
MINERVA aims to revolutionize cooperative autonomous systems by developing a novel framework for real-time control and communication in complex environments, enhancing industrial automation.
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SENSIBILITÉ develops a novel theory for efficient distributed computing of nonlinear functions over networks, aiming to enhance scalability and performance in real-world applications.
Wireless Networks within Next-Generation Computing Systems
The WINC project aims to revolutionize computer architecture by integrating wireless terahertz technology to enhance data communication speed and efficiency in computing systems by tenfold.
Reinventing Multiterminal Coding for Intelligent Machines
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