Real-Time Push-Pull Communications Model for Distributed Real-Time and Multimedia Systems

摘要

Real time and multimedia applications like multi-party collaboration. Internet telephony and distributed command control systems require the exchange of information over distributed and heterogeneous nodes. Multiple data types including voice, video, sensor data, real time intelligence data and text are being transported widely across today's information, control and surveillance networks. All such applications can benefit enormously from middleware, operating system and networking services that can support QoS guarantees, high availability, dynamic reconfigurability and scalability. In this paper, we propose a middleware layer called the Real Time Push Pull Communications Service to easily and quickly disseminate information across heterogeneous nodes with flexible communication patterns. Real time push pull communications is an extension of the real time publisher/subscriber model, and represents both push (data transfer initiated by a sender) and pull (data transfer initiated by a receiver) communications. Nodes with widely differing processing power and networking bandwidth can coordinate and co-exist by the provision of appropriate and automatic support for transformation on data. In particular, unlike the real time publisher/subscriber model, different information sources and sinks can operate at different frequencies and also can choose another (intermediate) node to act as their proxy and deliver data at the desired frequency. In addition to the synchronous communications of the publisher subscriber model, information sinks can also choose to obtain data asynchronously. This service has been implemented on RT-Mach, a resource centric kernel using resource kernel primitives. This paper presents an overview of the design, implementation and a performance evaluation of the model.