On defining, computing and guaranteeing quality-of-service in high-speed networks
IEEE INFOCOM '92 Proceedings of the eleventh annual joint conference of the IEEE computer and communications societies on One world through communications (Vol. 3)
Asynchronous transfer mode (2nd ed.): solution for broadband ISDN
Asynchronous transfer mode (2nd ed.): solution for broadband ISDN
ATM: theory and application
ATM networks (2nd ed.): concepts, protocols, applications
ATM networks (2nd ed.): concepts, protocols, applications
ATM foundation for broadband networks
ATM foundation for broadband networks
Broadband Network Analysis and Design
Broadband Network Analysis and Design
Introduction to Algorithms: A Creative Approach
Introduction to Algorithms: A Creative Approach
Integrated Broadband Networks; An Introduction to ATM-Based Networks
Integrated Broadband Networks; An Introduction to ATM-Based Networks
Applied Numerical Methods with Personal Computers
Applied Numerical Methods with Personal Computers
Broadband ISDN and asynchronous transfer mode (ATM)
IEEE Communications Magazine
Broadband ISDN resource management: the role of virtual paths
IEEE Communications Magazine
Control of resources in broadband networks with quality of service guarantees
IEEE Communications Magazine
Topology design and bandwidth allocation in ATM nets
IEEE Journal on Selected Areas in Communications
Call Admission Control for Voice/Data Integration in Broadband Wireless Networks
IEEE Transactions on Mobile Computing
Design and analysis of a TDMA call assignment scheme for cellular networks
Computer Communications
Experimental platform for telecommunication resource management
Computer Communications
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Broadband Integrated Services Digital Networks (BISDNS)/Asynchronous Transfer Mode (ATM) are expected to support diverse applications demanding different bandwidth and Quality of Services (QoSs). Particularly for integrated voice and data networks, voice traffic results in call losses and data traffic suffers from longer delays should networks have insufficient bandwidth. The main goal of the paper is to analytically determine optimal bandwidth allocated to voice and data by means of a queueing model with heterogeneous arrivals and multiple designated channels. The accuracy of analytical results is confirmed by simulation results. On the basis of the analysis, the paper proposes a bandwidth assignment paradigm for the assignment of network bandwidth to voice and data in an effort to guarantee minimal data delay and voice call blocking probability. The run time complexity of the bandwidth assignment computation and paradigm construction is shown to be polynomial bounded. Consequently, the resulting bandwidth assignment assures QoSs in terms of data delay and voice call blocking probability under various network loads.