A center‐controlled dynamic rerouting scheme for fast and reliable handover in mobile ATM networks

This paper proposes a scheme for fast and reliable handover that uses dynamic rerouting controlled by a call setup control station (CCS) operating in mobile asynchronous transfer mode (ATM) networks. The CCS selects appropriate rerouted path and crossover switch (COS), and remotely controls the new path's setup. This omits crossover switch discovery process, and makes fast handover possible. The CCS can select the appropriate rerouted path because it directly and with little delay collects information about the state of links such as traffic loads, quality-of-service (QoS) parameters, and disconnection or restoration of links advertised from every ATM switch in its domain. This reduces blocking and congestion, and makes reliable handover possible. The CCS accepts a handover request message for either backward or forward handover, and can remotely control the new path's setup in the same manner for either handover. The scheme provides forward handover when the radio propagation conditions deteriorate unpredictably. This paper also shows sequences of call origination, connection pre-establishment, and route-change in our proposed scheme, and illustrates operation of the CCS and the ATM switches.