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Brad Petersen
Director of
Communications
2052 ECE Building
306 N. Wright Street
Urbana, IL 61801
Phone: (217) 244-6376
bradp@illinois.edu

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Meg Dickinson
Communications Specialist
2016 ECE Building
306 N. Wright Street
Urbana, IL 61801
Phone: (217) 300-6664
megd@illinois.edu

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Recent News

New ECE class gives students an in-depth look at the engineering process

New ECE class gives students an in-depth look at the engineering process

Starting this semester, ECE ILLINOIS will offer students an opportunity to study the engineering design process and possibly get a head start on their Senior Design projects with a new class called ECE 398, Special Topics in ECE.

Belabbas receives NSF CAREER Award

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By Mark Pajor, ECE ILLINOIS
April 23, 2014

  • ECE Assistant Professor Mohamed Ali Belabbas received a CAREER Award from the National Science Foundation.
  • The award will fund Belabbas's research uniting graph theory, computer science, and geometry to develop control-theoretic methods to understand decentralized networks.
  • Belabbas's work will enable the deployment and analysis of large-scale, efficient multi-agent systems with a higher degree of complexity and reliability.

A new paradigm has emerged for control systems.

During the past 20 years, engineers and theorists have shifted away from control systems that are centralized, where one agent, the leader or control center, broadcasts commands and information to every other agent. Increasingly, researchers are realizing that many control systems – from decentralized power distribution systems to auction systems – can be configured as a collection of interacting autonomous agents.

This shift in thought requires new frameworks to determine what communication structures between agents form efficient systems.

Mohamed Ali  Belabbas
Mohamed Ali Belabbas
ECE Assistant Professor Mohamed Ali Belabbas recently received a CAREER Award, given by the National Science Foundation (NSF), to develop just such a framework. Uniting ideas from graph theory, computer science, and geometry, Belabbas aims to develop control-theoretic methods to understand decentralized networks. Belabbas is also affiliated with the Coordinated Science Lab (CSL).

Belabbas’s research in control theory could facilitate advancements in a wide range of areas.

“Dynamical systems can represent robots, money markets, flocks of birds, people interacting, or any ensembles as varied as these,” Belabbas said. “My work is to find tools to analyze the systems and predict their behavior.”

With the five-year award to fund a long-term research program, Belabbas will focus on the communication structure between agents of a decentralized system. The level of communication among agents in a system is a structural question that can be applied to any number of areas that involve networks, from distributed optimization to metabolic networks.

Belabbas’s work will enable the deployment and analysis of large-scale, efficient multi-agent systems with a higher degree of complexity and reliability.

The NSF Faculty Early Career Development (CAREER) Program awards junior faculty members who integrate outstanding research and excellent education initiatives. The program limits submitters to three applications to earn the award during their career, and many applicants compete each year. Belabbas submitted his proposal last summer and was notified of his award this January. This was the first time he applied.

“I’m very glad of the help I’ve had from ECE and CSL to apply,” Belabbas said. “The value of the CAREER Award is that it gives you a longer timeline to think about a problem and make as deep a contribution as you can.”

Editor's note: media inquiries should be directed to Brad Petersen, Director of Communications, at bradp@illinois.edu or (217) 244-6376.

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