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The bandwidth allocation problem in the ATM network model is NP-complete
Information Processing Letters
Computer networks: a systems approach
Computer networks: a systems approach
On network bandwidth allocation policies and feedback control algorithms for packet networks
Computer Networks: The International Journal of Computer and Telecommunications Networking
Understanding TCP Vegas: a duality model
Journal of the ACM (JACM)
A priority-based resource allocation strategy in distributed computing networks
Journal of Systems and Software
Bandwidth sharing: objectives and algorithms
IEEE/ACM Transactions on Networking (TON)
Hector: An Agent-Based Architecture for Dynamic Resource Management
IEEE Concurrency
Path selection and bandwidth allocation in MPLS networks
Performance Evaluation - Special issue: Internet performance and control of network systems
Distributed Management of Exclusive Resources in Collaborative Multimedia Systems
ISCC '98 Proceedings of the Third IEEE Symposium on Computers & Communications
Computers and Operations Research
Optimal bandwidth allocation for bandwidth adaptation in wireless multimedia networks
Computers and Operations Research
A duality model of TCP and queue management algorithms
IEEE/ACM Transactions on Networking (TON)
Linear stability of TCP/RED and a scalable control
Computer Networks: The International Journal of Computer and Telecommunications Networking
A new generalized cellular automata approach to optimization of fast packet switching
Computer Networks: The International Journal of Computer and Telecommunications Networking
Bandwidth allocation for isochronous connections in DQDB using the PA scheme
Computer Communications
Call admission control and bandwidth allocation in a multiservice DQDB network
Computer Communications
A study of the generalised max-min fair rate allocation for ABR control in ATM
Computer Communications
Fair intelligent bandwidth allocation for rate-adaptive video traffic
Computer Communications
Effective bandwidth and associated CAC procedure for traffic streams multiplexed over a VBR link
Computer Communications
A heuristic algorithm for allocating virtual path bandwidth in an ATM network
Computer Communications
Dynamic bandwidth control in ATM networks
Computer Communications
A new generalized particle approach to parallel bandwidth allocation
Computer Communications
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This paper presents a new duality approach to optimize the resource assignment and bandwidth allocation in networks, which is based on the generalized particle model (GPM). By the GPM, the network's optimization problem is transformed into the kinematics and dynamics of numerous particles in two reciprocal dual force-fields. Like the Kelly's duality model and Low's duality model related to Lagrangian multipliers methods (LMM), the GPM-based duality model also contains two distributed algorithms for resource supplies and resource demands, respectively, and can be carried out in parallel. Both the LMM-based and GPM-based duality models may not only embody the market mechanism between the supplies and demands very well, but also may describe the influence of congestion degree of networks on the resource allocation. But the GPM-based duality model is different from other duality models in terms of the basic principle, mathematical formalization, and properties. Features of the GPM-based duality model and the corresponding duality algorithm include a powerful processing ability in a complex environment that involves the priority, personality, autonomy, and interaction of different entities in networks. Furthermore, the GPM-based duality model can realize the optimization of multiple objectives, including the aggregate utility, the personal utility, the minimal personal utility, the resource utilization, and the users' satisfactory degree. The proposed approach also has the advantages in terms of the higher parallelism, lower computation complexity, and the ease for hardware implementation. The properties of the GPM-based duality model, including the correctness, convergency and stability, are discussed in detail. The numerous simulations on the network bandwidth allocation have shown the effectiveness and suitability of the proposed approach.