Published: Sept. 1, 2011

Utility Design for Distributed Multiagent Systems

Jason Marden

 

Department of Electrical, Computing, and Energy Engineering

 

Date and time: 

Thursday, September 1, 2011 - 4:15pm

Abstract: 

TBAThe central goal in multiagent systems is to design local control laws for the individual agents to ensure that the emergent global behavior is desirable with respect to a given system level objective. Ideally, a system designer seeks to satisfy this goal while conditioning each agent’s control law on the least amount of information possible. Unfortunately, there are no existing methodologies for addressing this design challenge. This talk addresses this challenge using the field of game theory. Utilizing game theory for the design and control of multiagent systems requires two steps: (i) defining a local objective function for each decision maker and (ii) specifying a distributed learning algorithm to reach a desirable operating point. One of the core advantages of this game theoretic approach is that this two step process can be decoupled by utilizing specific classes of games. For example, if the designed objective functions result in a potential game then the system designer can utilize distributed learning algorithms for potential games to complete step (ii) of the design process.
Unfortunately, designing agent objective functions to meet objectives such as locality of information and efficiency of resulting equilibria within the framework of potential games is fundamentally challenging and in many case impossible. In this talk we develop a systematic methodology for meeting these objectives using a broader framework of games termed state based potential games. State based potential games represent an extension of potential games where an additional state variable is introduced into the game environment hence permitting more flexibility in our design space. Furthermore, state based potential games possess an underlying structure that can be exploited by distributed learning algorithms in a similar fashion to potential games hence providing a new baseline for our decomposition.