A new approach for providing Quality-of-Service in a dynamic network environment

This paper looks at issues involved in providing Quality, of Service (QoS) support in a dynamic environment. We focus on a resource reservation-based approach, which we believe is attractive for military applications but is especially, difficult ill a dynamic network environment. This is because resources reserved for a particular flow may contract after they have been "committed" to the flow, causing the reservation to be dropped. Our approach is to expand the semantics of the reservation so that instead of being a single value indicating the level of service needed by an application, it becomes a range of service levels in which the application can operate, together with the current reserved value within that range. This provides flexibility so that reservations call be maintained as network conditions change. Rather than being forced to make a binary "admit/fail" decision for each flow, the network provides feedback to applications on the current reservation level. Based on this feedback, applications can adapt their behavior to what the network call support. We have developed a prototype implementation of this concept by extending the Reservation Setup Protocol (RSVP) protocol. We are currently evaluating the implementation bt a testbed network where we can vary link bandwidth. The testbed also includes several adaptive applications (audio, video, data transfer) running over the User Datagram Protocol (UDP). The paper discusses our approach, testbed, experiences to date, and current plans.