Software agents architecture for controlling long-range dependent network traffic

Recent measurements of local and wide-area network traffic have proven that the widely used Markovian process models cannot be applied for todayʹs network traffic. If the traffic were Markovian process, the trafficʹs burst length would be smoothed by averaging over a long time scale contradicting with the observations of todayʹs traffic characteristics. Measurements of real traffic also prove that traffic burstiness is present on a wide range of time scales. Traffic that is bursty on many or all time scales can be characterized statistically using the concept of long-range dependency. Long-range dependent traffic has noticeable bursts, long periods with extremely high values on all time creating traffic congestions. Several conventional methods have been implemented to avoid congestion, but they are not responsive enough to the varying transmission capacity and network delay in high-speed networks. research direction, programmable networking, offers a more promising solution for congestion control. Traditional packet networks perform only the processing necessary to forward packets toward their destination. As computing power becomes cheaper, more and more functionality can be deployed inside the network. Programmable networks support dynamic modification of the network software and hardware to manipulate the networkʹs behavior. A special way of network programmability is when special programs called mobile or software agents are carried in the packets to the routers. Software agents are loaded, executed, migrated, and suspended in order to implement some network functions. Software agents provide the highest possible degree of flexibility in congestion control. They can carry congestion-specific knowledge into the network at locations where it is needed, rather than transferring information to the sending hosts as it happens in traditional flow control solutions. paper, we propose a new programmable network architecture using software agents that can reduce the harmful consequences of congestions due to aggregated bursty traffic, such as packet losses, extremely long response times, etc.