This paper is concerned with the design and validation of a consensus based rate control for the Asynchronous Transfer Mode (ATM) networks. A sufficient condition for network closed loop stability in the presence of multiple bottleneck and heterogeneous sources with different time delays is given and it is used for switch-controller parameters design. The stability condition and the resulting congestion control performance in terms of robustness to network uncertainties, fairness, link utilization and packet loss are validated by discrete packet simulator. Moreover, it ensured convergence of the queue length to the desired consensus steady-state value with resulting network queue balancing
In this thesis, we first use the fluid flow modeling technique to build an end-to-end model and a ho...
Abstract — A rate-based congestion control algorithm is a feedback-based flow control mechanism for ...
Abstract — The asynchronous transfer mode (ATM) Forum has chosen rate-based control as the flow cont...
This paper is concerned with the design and validation of a consensus based rate control for the Asy...
This paper introduces the concept of a bottleneck-switches cooperation in the explicit rate-control ...
The Asynchronous Transfer Mode (ATM) is a network standard currently under analysis and development....
Congestion control plays important role the effective and stable operation ATM networks. This paper ...
In this paper, an analytical method for design of a congestion control scheme in packet switching ne...
This paper is concerned with the analysis, design and validation of a congestion cooperative rate co...
In this chapter we formulate consensus-based algorithms operating at the network layer of the multil...
Motivated by available bit rate class of service in ATM networks, we study a continuous time queuein...
In this paper we introduce the concept of a bottleneck-routers cooperation in the explicit rate-cont...
In this paper, an analytical method for a design of a congestion control scheme in packet switching ...
This paper describes the "explicit rate indication for congestion avoidance" (ERICA) schem...
Congestion control mechanisms for ATM networks as selected by the ATM Forum traffic management group...
In this thesis, we first use the fluid flow modeling technique to build an end-to-end model and a ho...
Abstract — A rate-based congestion control algorithm is a feedback-based flow control mechanism for ...
Abstract — The asynchronous transfer mode (ATM) Forum has chosen rate-based control as the flow cont...
This paper is concerned with the design and validation of a consensus based rate control for the Asy...
This paper introduces the concept of a bottleneck-switches cooperation in the explicit rate-control ...
The Asynchronous Transfer Mode (ATM) is a network standard currently under analysis and development....
Congestion control plays important role the effective and stable operation ATM networks. This paper ...
In this paper, an analytical method for design of a congestion control scheme in packet switching ne...
This paper is concerned with the analysis, design and validation of a congestion cooperative rate co...
In this chapter we formulate consensus-based algorithms operating at the network layer of the multil...
Motivated by available bit rate class of service in ATM networks, we study a continuous time queuein...
In this paper we introduce the concept of a bottleneck-routers cooperation in the explicit rate-cont...
In this paper, an analytical method for a design of a congestion control scheme in packet switching ...
This paper describes the "explicit rate indication for congestion avoidance" (ERICA) schem...
Congestion control mechanisms for ATM networks as selected by the ATM Forum traffic management group...
In this thesis, we first use the fluid flow modeling technique to build an end-to-end model and a ho...
Abstract — A rate-based congestion control algorithm is a feedback-based flow control mechanism for ...
Abstract — The asynchronous transfer mode (ATM) Forum has chosen rate-based control as the flow cont...