Implementation of call admission control technique in HAP for enhanced QoS in wireless network deployment

Exponential growth in the number of subscribers of mobile communication services has prompted service providers to maintain high level of quality of service (QoS). QoS performance is usually measured in terms of the probability of call blocking and probability of call dropping parameters. Recently, high altitude platform (HAP) is being explored to deploy mobile communication services due to various advantages. In this paper, a modified call admission control (CAC) technique has been proposed. We propose a novel CAC technique which uses two schemes viz. “bandwidth reservation” and “degradation scheme” to deliver the desired QoS. Under the ‘bandwidth reservation scheme’, we allocated dedicated bandwidth to each category of service. Consequently, when a new call request arrives and when there are no more channels available, in that particular class; we use the ‘adaptive degradation scheme’ under which the allocated bandwidth of each channel is reduced slightly and additional channels are created and hence allocated to the new call request. Using these schemes in conjunction with CAC, better bandwidth utilization has been obtained over preferred category of committed QoS and the connections services enjoy more available bandwidth with improve in the blocking probability and dropping probability.

[1]  Pasquale Pace,et al.  Effective Admission Policy for Multimedia Traffic Connections over Satellite DVB-RCS Network , 2006 .

[2]  Mohsen Guizani,et al.  Mobility prediction in telecom cloud using mobile calls , 2014, IEEE Wireless Communications.

[3]  Shunliang Mei,et al.  A QoS architecture for the MAC protocol of IEEE 802.16 BWA system , 2002, IEEE 2002 International Conference on Communications, Circuits and Systems and West Sino Expositions.

[4]  Mostafa Zaman Chowdhury,et al.  Call admission control based on adaptive bandwidth allocation for wireless networks , 2013, Journal of Communications and Networks.

[5]  Daqiang Zhang,et al.  NextCell: Predicting Location Using Social Interplay from Cell Phone Traces , 2015, IEEE Transactions on Computers.

[6]  Dharma P. Agrawal,et al.  Modeling and efficient handling of handoffs in integrated wireless mobile networks , 2002, IEEE Trans. Veh. Technol..

[7]  D.P. Agrawal,et al.  Dynamic admission control and QoS for 802.16 wireless MAN , 2005, Symposium, 2005 Wireless Telecommunications.

[8]  Rahim Tafazolli,et al.  Quality of service for multimedia CDMA , 2000 .

[9]  N. S. Rajput,et al.  Performance and analysis of propagation models for efficient handoff in high altitude platform system to sustain QoS , 2014, 2014 IEEE Students' Conference on Electrical, Electronics and Computer Science.

[10]  Aura Ganz,et al.  Packet scheduling for QoS support in IEEE 802.16 broadband wireless access systems , 2003, Int. J. Commun. Syst..

[11]  Shubhangi S. Palve Call Admission Control based on SFR in 4G Technology , 2014 .

[12]  Chiapin Wang,et al.  Dynamic admission control and bandwidth reservation for IEEE 802.16e mobile WiMAX networks , 2012, EURASIP J. Wirel. Commun. Netw..

[13]  R.K. Guha,et al.  Adaptive Connection Admission Control and Packet Scheduling for QoS Provisioning in Mobile WiMAX , 2007, 2007 IEEE International Conference on Signal Processing and Communications.

[14]  Shang-Juh Kao,et al.  Handoff optimization in 802.11 wireless networks , 2011, EURASIP J. Wirel. Commun. Netw..

[15]  David Grace,et al.  Downlink Coexistence Performance Assessment and Techniques for WiMAX Services from High Altitude Platform and Terrestrial Deployments , 2008, EURASIP J. Wirel. Commun. Netw..

[16]  Zhe Chen,et al.  An Energy-Efficient Routing Protocol Using Movement Trends in Vehicular Ad hoc Networks , 2013, Comput. J..

[17]  Neelakantan Pattathil Chandrasekharamenon,et al.  Connectivity analysis of one-dimensional vehicular ad hoc networks in fading channels , 2012, EURASIP Journal on Wireless Communications and Networking.

[18]  Fredrik Rusek,et al.  Iterative receivers with channel estimation for multi-user MIMO-OFDM: complexity and performance , 2012, EURASIP Journal on Wireless Communications and Networking.

[19]  S. H. Alsamhi,et al.  Neural Network in Intelligent Handoff for QoS in HAP and Terrestrial Systems , 2014 .

[20]  Mario Gerla,et al.  Adaptive bandwidth management and QoS provisioning in large scale ad hoc networks , 2003, IEEE Military Communications Conference, 2003. MILCOM 2003..

[21]  S. H. Alsamhi,et al.  An Intelligent Hand-off Algorithm to Enhance Quality of Service in High Altitude Platforms Using Neural Network , 2015, Wirel. Pers. Commun..

[22]  Adão Silva,et al.  Power allocation strategies for distributed precoded multicell based systems , 2011, EURASIP J. Wirel. Commun. Netw..

[23]  S. K Satyanarayana,et al.  Call Admission Control algorithm for Wireless Multimedia Networks , 2014 .

[24]  Christos V. Verikoukis,et al.  Traffic-Aware Connection Admission Control Scheme for Broadband Mobile Systems , 2010 .

[25]  Asad Mahmood,et al.  Algorithm-Architecture Co-Optimization of Bit-Loading Algorithm for Delay Constrained Adaptive Wireless Systems , 2009, 2009 5th International Conference on Wireless Communications, Networking and Mobile Computing.

[26]  Mingjiang Wu,et al.  Characteristics of Settlement Consolidation and Influencing Factors Analysis of Dredger Fill of Clay Soil Mixing Sand , 2017 .