CSL Master Calendar

Back to Listing

DCL Lecture Series: Jorge Cortes, Univeristy of California-San Diego, Distributed Coordination for Separable Network Optimization

Event Type
Seminar/Symposium
Sponsor
Decision and Control Laboratory, Coordinated Science Laboratory
Location
CSL Auditorium BO2
Date
Mar 18, 2015   3:00 - 4:00 pm  
Contact
Heather Glanzer
E-Mail
hglanzer@illinois.edu
Phone
217/333/0433
Views
99
Originating Calendar
CSL Decision and Control Group

Title: Distributed Coordination for Separable Network Optimization

with Coupling Constraints

 

Abstract: Many multi-agent scenarios give rise to network optimization

problems that possess an intrinsic distributed nature. Recent years

have seen a surge of interest in developing distributed algorithmic

solutions to these optimization problems, with applications to a

diverse set of areas including robotics, power networks, and

distributed learning. This talk is a contribution to this growing body

of research. We deal with network optimization problems defined by

separable convex objective functions and constraints that couple the

state of individual agents. We consider two classes of problems:

linear programs where the coupling constraints relate the state of

neighboring agents, and resource allocation problems where the

coupling constraints involve the whole network state. For both cases,

we develop provably-correct coordination algorithms that rely on local

agent interactions and allow each agent to determine its component of

the global optimal solution. We discuss how these algorithms scale

properly with the problem dimension and examine their robustness

properties against disturbances, changing performance specifications,

and communication link failures. Finally, we use our results in

network bargaining, where agents negotiate with each other to benefit

from forming collaborations, and economic dispatch in microgrids,

where generators collaborate to collectively meet a power demand while

respecting individual generator constraints and minimizing total

generation cost.

 

Bio: Jorge Cortes is a Professor with the Department of Mechanical and

Aerospace Engineering at the University of California, San Diego. He

received the Licenciatura degree in mathematics from the Universidad

de Zaragoza, Spain, in 1997, and the Ph.D. degree in engineering

mathematics from the Universidad Carlos III de Madrid, Spain, in 2001.

He held postdoctoral positions at the University of Twente, The

Netherlands, and at the University of Illinois at Urbana-Champaign,

USA. He was an Assistant Professor with the Department of Applied

Mathematics and Statistics at the University of California, Santa Cruz

from 2004 to 2007. He is the author of "Geometric, Control and

Numerical Aspects of Nonholonomic Systems" (New York: Springer-Verlag,

2002) and co-author of "Distributed Control of Robotic Networks"

(Princeton: Princeton University Press, 2009). He received a NSF

CAREER award in 2006 and was the recipient of the 2006 Spanish Society

of Applied Mathematics Young Researcher Prize. He has co-authored

papers that have won the 2008 IEEE Control Systems Outstanding Paper

Award, the 2009 SIAM Review SIGEST selection from the SIAM Journal on

Control and Optimization, and the 2012 O. Hugo Schuck Best Paper Award

in the Theory category. He is a IEEE Fellow and IEEE Control Systems

Society Distinguished Lecturer.

link for robots only