学术报告:Programming Network via SDN and Global Environment for Network Innovations
报告人:Xiaoyan Hong,Associate Professor in the Department of Computer Science at the University of Alabama
时间:2014年6月12日星期四 14:30
地点:通用208
Abstract
Programming a network for innovative services or for function improvements has never been easier using Software Defined Networking (SDN). However, the programming tasks can also be significantly complicated by the inconsistent states of data plane and complex control states of services in the distributed control plane of SDN. In order to reduce the programming complexity, we propose a proGRAmming Control (GRACE) layer as a generic solution, with two key features, namely, re-configurability and reusability. This talk introduces the concepts of re-configurability and reusability, their design goals and their implementations. Two popular network services, ICN (Information-Centric Networking) and CDN (Content Distribution Networks) will use used to illustrate these concepts.
In addition, it is vital that network innovations be tested in large-scale experiments. Global Environment for Network Innovations (GENI) is such a virtual laboratory for at-scale networking experimentations. Its development is at the frontiers of network science and engineering for exploring future internets. We will introduce the development progress of GENI and its experimentation capability. GENI itself also demonstrates the research trend for software defined networking. When time permits, this talk will introduce movement characteristics, social contact behaviors and graph properties can be of great help in assisting routing in mobile networks.
Biography
Xiaoyan Hong is an Associate Professor in the Department of Computer Science at the University of Alabama. She received her Ph.D. degree in Computer Science from the University of California at Los Angeles (UCLA). Her research interests are in the area of mobile and wireless networks, virtualized network architecture and software defined networking, and intelligent transportation systems. Her research has been supported by National Science Foundation and the University of Alabama Research Advisory Committee Award. She has published about 100 peer-reviewed papers in prestigious international journals and conferences. She has served on many technical program committees for major international conferences. More details can be found at http://hong.cs.ua.edu/.