We propose an optimization approach to flow control where the objective is to maximize the aggregate source utility over their transmission rates. We view network links and sources as processors of a distributed computation system to solve the dual problem using a gradient projection algorithm. In this system, sources select transmission rates that maximize their own benefits, utility minus bandwidth cost, and network links adjust bandwidth prices to coordinate the sources' decisions. We allow feedback delays to be different, substantial, and time varying, and links and sources to update at different times and with different frequencies. We provide asynchronous distributed algorithms and prove their convergence in a static environment. We p...
We propose earlier an optimization based flow control for the Internet called Random Early Marking (...
In this paper, we consider the rate control problem for multipath sessionswith the objective ofmaxim...
Many challenges in network science and engineering today arise from systems composed of many individ...
Abstract—We propose an optimization approach to flow control where the objective is to maximize the ...
Abstract-We propose an optimization approach to flow control where the objective is to maximize the ...
We proposed earlier an optimization approach to reactive flow control where the objective of the con...
This thesis concerns the problem of designing distributed algorithms for achieving efficient and fai...
This paper is concerned with flow control and resource allocation problems in computer networks in w...
We consider a flow control algorithm to allocate bandwidth in a network subject to throughput and fa...
ABR sources react to network feedback by adjusting their trans-mission rates. Most schemes fall into...
Available bit rate (ABR) sources react to network feedback by adjusting their transmission rates. Mo...
We propose two flow control algorithms for networks with multiple paths between each source-destinat...
Abstract- This paper presents a State Estimation based Internet flow control and network management ...
The paper reviews current algorithms for distributed, asynchronous control of networks when the cust...
Many challenges in network science and engineering today arise from systems composed of many individ...
We propose earlier an optimization based flow control for the Internet called Random Early Marking (...
In this paper, we consider the rate control problem for multipath sessionswith the objective ofmaxim...
Many challenges in network science and engineering today arise from systems composed of many individ...
Abstract—We propose an optimization approach to flow control where the objective is to maximize the ...
Abstract-We propose an optimization approach to flow control where the objective is to maximize the ...
We proposed earlier an optimization approach to reactive flow control where the objective of the con...
This thesis concerns the problem of designing distributed algorithms for achieving efficient and fai...
This paper is concerned with flow control and resource allocation problems in computer networks in w...
We consider a flow control algorithm to allocate bandwidth in a network subject to throughput and fa...
ABR sources react to network feedback by adjusting their trans-mission rates. Most schemes fall into...
Available bit rate (ABR) sources react to network feedback by adjusting their transmission rates. Mo...
We propose two flow control algorithms for networks with multiple paths between each source-destinat...
Abstract- This paper presents a State Estimation based Internet flow control and network management ...
The paper reviews current algorithms for distributed, asynchronous control of networks when the cust...
Many challenges in network science and engineering today arise from systems composed of many individ...
We propose earlier an optimization based flow control for the Internet called Random Early Marking (...
In this paper, we consider the rate control problem for multipath sessionswith the objective ofmaxim...
Many challenges in network science and engineering today arise from systems composed of many individ...