MAGNET: Columbia's Integrated Network Testbed

Abstract

Fundamental issues arising in the design and implementation of architectures and protocols for integrated local area networks (ILAN's) supporting video, voice, graphics, data, and facsimile, are addressed, and open questions are identified. To characterize the performance of ILAN's, a set of performance evaluation guidelines is established. A class of conceptual solutions for ILAN's is proposed, and its expected performance is obtained by means of simulation. The class includes priority assignment schemes, parametrized sequential and simultaneous scheduling algorithms, and centralized and decentralized access control mechanisms. Our analysis, based upon simulations, shows that the bandwidth freed up by the video and voice calls during periods of little movement in the images and silence periods in the speech signals can be efficiently utilized for graphics and data transmission. The optimal priority mechanism among the different user classes depends on the traffic mix. Finally, it is argued that additional experimentation providing empirical data is imperative for understanding the real-time behavior of ILAN's. Consequently, a network testbed (NTB) called MAGNET is proposed for evaluating the performance of the proposed theoretical systems. It consists of an adaptive ILAN whose mediaaccess protocol is controlled by an Expert System.