[1] Kawarasaki, M. and Jabbari, B. (1991) B-ISDN Architecture and Protocol. IEEE Journal on Selected Areas in Communication, 9, 1405-1415.
[2] Pattavina, A. (1998) Switching Theory Architectures and Performance in Broadband ATM Networks. John Wiley & Sons Ltd., Hoboken.
[3] Jabbari, B. and Ycgcnoglu, F. (1992) An Efficient Method for Computing Cell Loss Probability for Heterogeneous Bursty Traffic in ATM Networks. International Journal of Digital and Analog Communication Systems, 5, 39-48.
http://dx.doi.org/10.1002/dac.4510050105
[4] Ani, C.I. (1989) The Determination of the Blocking Probability of a Telecommunication Exchange(Station) in the Developing Countries. Proceedings of the International Conference on Developing Countries and the New Information Age, September 1989, 138-146.
[5] Ani, C.I., Fred, H. and Riaz, A. (1994) Methodology for Derivation of Network Resources to Support Video Related Service in ATM Based Private WAN. IEEE Proc-Communication, 142, 42.
[6] Ani, C.I. and Fred H. (1995) Simulation Technique for Evaluating Cell-Loss Rate in ATM Networks. SIMULATION, 64, 320-329.
http://dx.doi.org/10.1177/003754979506400505
[7] Sykas, D., et al. (1993) Congestion Control—Effective Bandwidth Allocation in ATM Networks. High Performance Networking. IV (C-14), IFIP, Belgium, 65-80.
[8] Guerin, R., Ahmadi, H. and Naghshineh, M. (1991) Equivalent Capacity and Its Application to Bandwidth Allocation in High-Speed Networks. IEEE Journal on Selected Areas in Communications, 9, 968-981.
http://dx.doi.org/10.1109/49.103545
[9] Ani, C.I. (2004) Determination of Optimum Number of Trunk Line for Corporate Network Backbone in Nigeria. Nigerian Journal of Technology, 23, 53.
[10] Chong, S., Li, S.-Q. and Ghosh, J. (1994) Dynamic Bandwidth Allocation for Effective Transport of Real Time VBR Video over ATM. Proceedings of IEEE Globecom, 93, 744-750.