Title :
Achieving service portability using self-adaptive data paths
Author :
Zhuoqing, M.M. ; Katz, Randy
Author_Institution :
California Univ., Berkeley, CA, USA
fDate :
1/1/2002 12:00:00 AM
Abstract :
There is a growing demand for service access through heterogeneous devices attached to diverse networks. For ease of deployment, it is crucial to provide application-level support for transparent roaming and ubiquitous service access. We discuss how to develop such a service infrastructure integrating a variety of telephony arid data services spanning diverse access networks reaching heterogeneous end devices. We describe our techniques for achieving goals of transparent network- and device-independent service access, as well as scalable and fault-tolerant access to composed service entities across the wide area using self-adaptive data paths. We evaluate our implementation through applications that require adaptation to end devices and resource variations. The applications include Universal Inbox, Interactive Voice Room Control, MP3 Jukebox access using a cell phone, and real-time video delivery to wireless clients
Keywords :
adaptive systems; cellular radio; data communication; fault tolerance; interactive systems; radio access networks; radiotelephony; visual communication; GSM cell phone; Interactive Voice Room Control; MP3 Jukebox access; Universal Inbox; access networks; application-level support; data services; fault-tolerant access; heterogeneous devices; heterogeneous end devices; real-time video delivery; scalable access; self-adaptive data paths; service entities; service infrastructure; service portability; telephony services; transparent device-independent service access; transparent network-independent service access; transparent roaming; Cameras; Cellular phones; Digital audio players; Forward error correction; GSM; Personal digital assistants; Pulse modulation; Streaming media; Telephony; Videoconference;
Journal_Title :
Communications Magazine, IEEE
