Channel Cycle Time: A New Measure of Short-term Fairness

This paper puts forth a new metric, dubbed channel cycle time, to measure the short-term fairness of communication networks. Channel cycle time characterizes the average duration between two successful transmissions of a user, during which all other users have successfully accessed the channel at least once. Compared with existing short-term fairness measures, channel cycle time provides a comprehensive picture of the transient behavior of communication networks, and is a single real value that is easy to compute. To demonstrate the effectiveness of our new approach, we analytically characterize the channel cycle time of slotted Aloha and CSMA/CA. It is shown that CSMA/CA is a short-term fairer protocol than slotted Aloha. Channel cycle time can serve as a promising design principle for future communication networks, placing greater emphasis on optimizing short-term behaviors like fairness, delay, and jitter.