Abstract
In the face of massive parallel multimedia streaming and user access, multimedia servers are often in an overload state, resulting in the delay of service response and the low utilization of wireless resources, which makes it is difficult to satisfy the user experience quality. Aiming at the problems of low utilization rate of multimedia communication resources and large computing load of servers, this paper proposes a self management mechanism and architecture of wireless resources based on multimedia flow green communication. First, based on the combination of multimedia server, relay base station and user cluster, a multimedia green communication system architecture is built based on the comprehensive utilization rate of multimedia communication, and a cluster green communication control algorithm is proposed. Secondly, aiming at the dynamic service demand and asynchronous multimedia communication environment, aiming at ensuring the balance of resource allocation and accelerating the speed of resource allocation, we build a dynamic multimedia wireless resource architecture. Finally, the experimental results of statistics and analysis, from the server in different scale parallel multimedia streams under different scale delay, number of users relay network free resources proportion, user satisfaction, packet loss rate and other performance show that the proposed algorithm is effective and feasible.
Similar content being viewed by others
References
Aliaskari M, Shahzadi A (2017) A game theoretic approach to joint resource management in wireless ad hoc networks[C]. International symposium on telecommunications. IEEE, pp 6–11
Arjomandy D (2016) Social media integration in electronic human resource management: development of a social eHRM framework[J]. Canadian Journal of Administrative Sciences 33(2):108–123
Castro A, Sedano AA, García FJ et al (2018) Application of a multimedia service and resource management architecture for fault diagnosis[J]. Sensors 18(1):68
Guo L (2017) An embedded multimedia communication terminal based on DSP+FPGA[J]. Multimed Tools Appl 76(16):1–13
Jin Y, Bai GW (2013) A guarantee mechanism of QoS diversity based on error control aware and ARQ block importance in WiMAX networks[J]. J Inf Comput Sci 10(8):2269–2278
Köbel C, García WB, Habermann J (2017) A resource management system for transmission capacity enhancement in wireless mesh networks[J]. Ing Desarro 34(2):370–396
Li S, Zhu G, Lin S et al (2017) Cross-layer resource management in software defined ultra dense wireless networks[C]. International conference on mobile ad-hoc and sensor networks. IEEE, pp 412–416
Li C, Zhu L, Liu Y et al (2017) Resource scheduling approach for multimedia cloud content management[J]. J Supercomput 73(2):1–23
Lopez-Benitez M, Gozalvez J (2011) Common radio resource management algorithms for multimedia heterogeneous wireless networks[J]. IEEE Trans Mob Comput 10(9):1201–1213
Omheni N, Gharsallah A, Zarai F (2017) An enhanced radio resource management based MIH policies in heterogeneous wireless networks[J]. Telecommun Syst 12:1–16
Sheng M, Wang Y, Li J et al (2017) Toward a flexible and reconfigurable broadband satellite network: resource management architecture and strategies[J]. IEEE Wirel Commun 24(4):127–133
Sivaprakash C, Pauline A (2017) Configuring linux system for internet protocol based multimedia communication network[J]. Indian J Sci Technol 10(7):1–6
Song B, Hassan MM, Alamri A et al (2016) A two-stage approach for task and resource management in multimedia cloud environment[J]. Computing 98(1–2):119–145
Yang Q, Wang H, Dohler M et al (2017) Guest editorial multimedia communication in the internet of things[J]. IEEE Internet Things 4(2):484–486
Yu J, Wong WC (2017) A network resource management framework for wireless mesh networks[J]. Wirel Pers Commun 95(3):1–25
Zhu C, Shu L, Leung VCM et al (2017) Secure multimedia big data in trust-assisted sensor-cloud for smart city[J]. IEEE Commun Mag 55(12):24–30
Acknowledgements
This work is supported in part by Jiangsu Province Qing Lan Project.
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Jiang, Y. Wireless resource management mechanism with green communication for multimedia streaming. Multimed Tools Appl 78, 8699–8710 (2019). https://doi.org/10.1007/s11042-018-6149-4
Received:
Revised:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s11042-018-6149-4