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Research Spending & Results

Award Detail

Doing Business As Name:University of California-San Diego
  • William G Griswold
  • (858) 534-6898
  • Sanjoy Dasgupta
  • Hovav Shacham
  • Tajana S Rosing
  • Ingolf H Krueger
Award Date:08/15/2009
Estimated Total Award Amount: $ 1,499,098
Funds Obligated to Date: $ 1,499,098
  • FY 2009=$1,499,098
Start Date:09/01/2009
End Date:08/31/2013
Transaction Type:Grant
Awarding Agency Code:4900
Funding Agency Code:4900
CFDA Number:47.070
Primary Program Source:040101 RRA RECOVERY ACT
Award Title or Description:CPS:Medium: CitiSense - Adaptive Services for Community-Driven Behavioral and Environmental Monitoring to Induce Change
Federal Award ID Number:0932403
DUNS ID:804355790
Parent DUNS ID:071549000
Program:CPS-Cyber-Physical Systems
Program Officer:
  • David Corman
  • (703) 292-8754

Awardee Location

Street:Office of Contract & Grant Admin
City:La Jolla
County:La Jolla
Awardee Cong. District:49

Primary Place of Performance

Organization Name:University of California-San Diego
Street:Office of Contract & Grant Admin
City:La Jolla
County:La Jolla
Cong. District:49

Abstract at Time of Award

This award is funded under the American Recovery and Reinvestment Act of 2009 (Public Law 111-5). The objective of this research project is to achieve fundamental advances in software technology that will enable building cyber-physical systems to allow citizens to see the environmental and health impacts of their daily activities through a citizen-driven body-worn mobile-phone-based commodity sensing platform. The approach is to create aspect-oriented extensions to a publish-subscribe architecture, called Open Rich Services (ORS), to provide a highly extensible and adaptive infrastructure. As one example, ORS will enable highly adaptive power management that not only adapts to current device conditions, but also the nature of the data, the data?s application, and the presence and status of other sensors in the area. In this way, ORS will enable additional research advances in power management, algorithms, security and privacy during the project. A test-bed called CitiSense will be built, enabling in-the-world user and system studies for evaluating the approach and providing a glimpse of a future enhanced by cyber-physical systems. The research in this proposal will lead to fundamental advances in modularity techniques for composable adaptive systems, adaptive power management, cryptographic methods for open systems, interaction design for the mobile context, and statistical inference under multiple sources of noise. The scientific and engineering advances achieved through this proposal will advance our national capability to develop cyber-physical systems operating under decentralized control and severe resource constraints. The students trained under this project will become part of a new generation of researchers and practitioners prepared to advance the state of cyber-physical systems for the coming decades.

Publications Produced as a Result of this Research

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P. Aghera, J. Yang, P. Zappi, D. Krishnaswamy, A. Coskun, and T. Simunic Rosing "Energy Management in Wireless Mobile Systems Using Dynamic Task Assignment" Journal of Low Power Electronics, v.9, 2013, p.198. doi: 

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