Working Set in channel management for cellular networks

Channel resource management (e.g., allocation and borrowing) is a critical aspect of wireless cellular networks. Since channel borrowing is an expensive task, incurring long delay, a key design goal of efficient channel resource management is to minimize the total number of channel borrowing operations. This paper focuses on the 'Quantum' issue (number of channels) in the channel borrowing and releasing steps. The proposed concept employs the Working Set approach, popular in Operating Systems, into channel resource management, where the quantum of channels transacted during each borrowing and release operation reaches a "middle point" and would not be too small or too large. An analytical model and steady-state simulation have been used to demonstrate the benefits.

[1]  Sajal K. Das,et al.  A dynamic load balancing strategy for channel assignment using selective borrowing in cellular mobile environment , 1996, MobiCom '96.

[2]  M. Frodigh Optimum dynamic channel allocation in certain street microcellular radio systems , 1992, [1992 Proceedings] Vehicular Technology Society 42nd VTS Conference - Frontiers of Technology.

[3]  Sajal K. Das,et al.  A dynamic load balancing strategy for channel assignment using selective borrowing in cellular mobile environment , 1997, Wirel. Networks.

[4]  V. H. Mac Donald,et al.  Advanced mobile phone service: The cellular concept , 1979, The Bell System Technical Journal.

[5]  H. Zheng A channel resource management framework for cellular networks , 1999, 1999 IEEE International Performance, Computing and Communications Conference (Cat. No.99CH36305).

[6]  Quan Lin,et al.  A remote channel borrowing approach for real-time congestion control in wireless communication , 1997, GLOBECOM 97. IEEE Global Telecommunications Conference. Conference Record.

[7]  B. Eklundh,et al.  Hybrid channel assignment and reuse partitioning in a cellular mobile telephone system , 1987, 37th IEEE Vehicular Technology Conference.

[8]  S.M. Elnoubi,et al.  A new frequency channel assignment algorithm in high capacity mobile communication systems , 1982, IEEE Transactions on Vehicular Technology.

[9]  Ming Zhang,et al.  Comparisons of channel assignment strategies in cellular mobile telephone systems , 1989, IEEE International Conference on Communications, World Prosperity Through Communications,.

[10]  Ming Zhang,et al.  The nonuniform compact pattern allocation algorithm cellular mobile systems , 1991 .

[11]  M. M. Peritsky,et al.  Statistically-Optimum Dynamic Server Assignment in Systems with Interfering Servers , 1972, IEEE Trans. Commun..