Adaptive crankback schemes for hierarchical QoS routing in ATM networks

For reducing network information to achieve scalability in large ATM networks, ATM Private Network-to-Network Interface (PNNI) adopts hierarchical routing. Consequently, although routing complexity is signi®cantly reduced, numerous issues in PNNI routing require further study to achieve more ef®cien

This paper addresses the problem of providing quality of service (QoS) support and routing for wireless networks in the presence of user mobility. The proposed architecture is hierarchical where cells (the basic region of mobile coverage) are organized into QoSÂrouting domains. The QoS mechanism is

We propose an adaptive framework for computing multiple paths in temporal and spatial domains to transmit a large volume of data packets from a source s to a destination d in ad hoc wireless networks. The objective is to achieve quality of service (QoS) by minimizing end-to-end delay for packet deli

In this paper we propose multicast connection rerouting (MCoRe), a novel scheme for ef®cient multicasting in mobile asynchronous transfer mode (ATM) networks. We investigate and evaluate McoRe's performance in mobile ATM networks in the presence of mobile source fand/or receivers. In the past, multi

This paper presents a new media access control (MAC) protocol based on forward error control (FEC), which is appropriate for supporting real-time traf®c with strict QoS requirements in wireless ATM networks. As the channel BER in wireless environments is very high and varying 10 25 ±10 22 , previous

## Abstract In this paper, we propose a combined multi‐class adaptive connection admission control algorithm and a new fair packet scheduling policy, based on an enhanced weighted fair queuing algorithm. It takes into account a realistic behaviour of traffic while considering the spatial variation