Title :
Criticality avoidance: A new paradigm for congestion control based on science of phase transition
Author :
Mau, Siun-Chuon ; Vashist, Akshay ; Poylisher, Alexander ; Chadha, Ritu ; Chiang, Cho-Yu Jason
Author_Institution :
Telcordia Technol., Inc., Piscataway, NJ, USA
Abstract :
Network QoS control is generally difficult due to the complexity, dynamism, and limited measurability of networks. As an alternative, we seek a network phenomenon that is simple, universal and consequential to control. The result is a framework for proactive dynamic network congestion control that is based on the science of continuous phase transition. Key beneficial properties of continuous phase transition are its early onset warning signs and universality. The former allows the detection of proximity to congestion before its occurrence; while the latter implies that any criticality-based network control would likely be insensitive to network details and, in particular, not require any a-priori knowledge of the values of critical loads. Preliminary experimental results demonstrating these promises are presented.
Keywords :
quality of service; telecommunication congestion control; continuous phase transition science; criticality avoidance; criticality-based network control; network QoS control; proactive dynamic network congestion control; proximity detection; Aggregates; Correlation; Delay; Equations; Fluctuations; Fluids; Quality of service; QoS; congestion; control; critciality; onset detection; phase transition; quality of service;
Conference_Titel :
Network and Service Management (CNSM), 2011 7th International Conference on
Conference_Location :
Paris
Print_ISBN :
978-1-4577-1588-4
Electronic_ISBN :
978-3-901882-44-9
