COOKIES: By using this website you agree that we can place Google Analytics Cookies on your device for performance monitoring. |

University of Cambridge > Talks.cam > CUED Control Group Seminars > Towards Scale-Free Control of large-scale traffic networks

## Towards Scale-Free Control of large-scale traffic networksAdd to your list(s) Download to your calendar using vCal - Carlos Canudas-de-Wit, CNRS, Grenoble
- Thursday 23 November 2017, 14:00-15:00
- Cambridge University Engineering Department, Lecture Room number LR11.
If you have a question about this talk, please contact Tim Hughes. The talk discuss new research lines addressing the optimal control of time-varying dynamic large-scale traffic networks. The driving idea consists in aggregating the whole network in sub-networks having some suitable control properties, allowing the optimal games to be more tractable. The talk starts with a recall of controllability and observability properties in 1-D traffic networks and provide a detailed example of how to partition the systems and how to solve the associated time-varying optimal games [1]. Then we discuss recent work on how such ideas can be extended to 2-D graphs in relation with the problem of games played over networks and focus our attention on the importance of the topology of communication between nodes. We analyze the topology of the graph and its importance in the structure of the game. We show that, by condensing the strongly connected components of the control graph into super-nodes, it is possible to give a hierarchical interpretation to the network game. According to this analysis, we assign to each node a level of priority and define a sequential procedure to steer the response of the network to a Nash equilibrium. Given a certain topology, this equilibrium is unique and it depends on the particular topology and the set of local cost function (Ref.2). The talk finishes by discussing new avenues for organizing such large-scale complex networks, by proposing a new aggregation procedure that combines, complexity reduction (scale-free graph structure), physical preservation properties, and control targets [3]. In connection with this goal, some preliminary results [3] will be presented. [1] D. Pisarski and C. Canudas-de-Wit. “Nash Game Based Distributed Control Design for Balancing of Traffic Density over Freeway Networks. IEEE Transactions on Control of Network Systems, IEEE , 2016, 3 (2), pp.149-161. [2] G. Casadei, C. Canudas De-Wit. Networks Games: Condensation of the Graph as a Hierarchical interpretation of the Game, IFAC WC ’17. Toulouse, France. [3] N. Martin, C. Canudas-de-Wit, and P. Frasca. “Large-scale network reduction towards scale-free structure”. To be presented at the 6th Int. Conference on Complex Networs and their applications, Lyon, Dec. 2017. This talk is part of the CUED Control Group Seminars series. ## This talk is included in these lists:- All Talks (aka the CURE list)
- CUED Control Group Seminars
- Cambridge Centre for Data-Driven Discovery (C2D3)
- Cambridge University Engineering Department Talks
- Cambridge University Engineering Department, Lecture Room number LR11
- Cambridge talks
- Centre for Smart Infrastructure & Construction
- Chris Davis' list
- Featured lists
- Information Engineering Division seminar list
- Interested Talks
- School of Technology
- Signal Processing and Communications Lab Seminars
- Trust & Technology Initiative - interesting events
- bld31
- ndk22's list
- rp587
Note that ex-directory lists are not shown. |
## Other listsLand Economy Type the title of a new list here Applied and Computational Analysis Graduate Seminar## Other talksAuxin and cytokinin regulation of root architecture - antagonism or synergy Domain Uncertainty Quantification Constructing datasets for multi-hop reading comprehension across documents Transcription by influenza virus RNA polymerase: molecular mechanisms, cellular aspects and inhibition Imaging surfaces with atoms |