Encyclopedia of Wireless Networks

Living Edition
| Editors: Xuemin (Sherman) Shen, Xiaodong Lin, Kuan Zhang

Integrated System of Networking, Caching, and Computing

  • Chenmeng Wang
  • F. Richard Yu
Living reference work entry
DOI: https://doi.org/10.1007/978-3-319-32903-1_124-1

Synonyms

Definition

Integrated systems of networking, caching, and computing refer to integrated frameworks and technologies in wireless or mobile communication systems that take into consideration at least two aspects of networking, caching, and computing, aiming at providing coherent and sustainable services to fulfill various mobile network user demands, such as high-data-rate communication, low-latency information retrieval, and extensive computation resources.

Historical Background

Software-Defined Networking (SDN), Network Functions Virtualization (NFV) (Liang and Yu, 2014), and Heterogeneous Network (HetNet) are key supporting technologies from the networking vector of the integrated system. SDN can enable the separation between the data plane and the control plane, therefore realizing the independence of the data plane capacity from the control plane resource, which means high data rates can be achieved without incurring...

This is a preview of subscription content, log in to check access.

References

  1. He Y, Yu F, Zhao N, Leung VCM, Yin H (2017a) Software-defined networks with mobile edge computing and caching for smart cities: a big data deep reinforcement learning approach. IEEE Commun Mag 55(12):31–37CrossRefGoogle Scholar
  2. He Y, Zhang Z, Yu F, Zhao N, Yin H, Leung V, Zhang Y (2017b) Deep reinforcement learning-based optimization for cache-enabled opportunistic interference alignment wireless networks. IEEE Trans Veh Technol 66(11):10433–10445CrossRefGoogle Scholar
  3. Huo R, Yu F, Huang T, Xie R, Liu J, Leung V, Liu Y (2016) Software defied networking, caching, and computing for green wireless networks. IEEE Commun Mag 54(11):185–193CrossRefGoogle Scholar
  4. Khan J, Ghamri-Doudane Y (2016) Saving: socially aware vehicular information-centric networking. IEEE Commun Mag 54:100–107CrossRefGoogle Scholar
  5. Liang C, Yu F (2014) Wireless network virtualization: a survey, some research issues and challenges. IEEE Commun Surv Tutorials 17(1):358–380CrossRefGoogle Scholar
  6. Liang C, Yu F (2015) Virtual resource allocation in information-centric wireless virtual networks. In: Proceedings of IEEE international conference on communications (ICC), London, UK, pp 3915–3920Google Scholar
  7. Ma L, Yu F, Leung VCM, Randhawa T (2004) A new method to support UMTS/WLAN vertical handover using SCTP. IEEE Wirel Commun 11(4):44–51CrossRefGoogle Scholar
  8. Sheng M, Xu C, Liu J, Song J, Ma X, Li J (2016) Enhancement for content delivery with proximity communications in caching enabled wireless networks: architecture and challenges. IEEE Commun Mag 54(8):70–76CrossRefGoogle Scholar
  9. Wang S, Dey S (2013) Adaptive mobile cloud computing to enable rich mobile multimedia applications. IEEE Trans Multimedia 15(4):870–883CrossRefGoogle Scholar
  10. Wang C, Liang C, Yu F, Chen Q, Tang L (2017a) Computation offloading and resource allocation in wireless cellular networks with mobile edge computing. IEEE Trans Wirel Commun 16(8):4924–4938CrossRefGoogle Scholar
  11. Wang C, Yu F, Liang C, Chen Q, Tang L (2017b) Joint computation offloading and interference management in wireless cellular networks with mobile edge computing. IEEE Trans Veh Technol 66(8):7432–7445CrossRefGoogle Scholar
  12. Wang C, He Y, Yu F, Chen Q, Tang L (2018) Integration of networking, caching, and computing in wireless systems: a survey, some research issues, and challenges. IEEE Commun Surv Tutorials 20(1):7–38CrossRefGoogle Scholar
  13. Xie R, Yu F, Ji H, Li Y (2012) Energy-efficient resource allocation for heterogeneous cognitive radio networks with femtocells 11(11):3910–3920Google Scholar
  14. Yu F, Krishnamurthy V (2007) Optimal joint session admission control in integrated WLAN and CDMA cellular networks with vertical handoff. IEEE Trans Mobile Comput 6(1):126–139CrossRefGoogle Scholar
  15. Zeydan E, Bastug E, Bennis M, Kader M, Karatepe I, Er A, Debbah M (2016) Big data caching for networking: moving from cloud to edge. IEEE Commun Mag 54(9):36–42CrossRefGoogle Scholar

Copyright information

© Springer Nature Switzerland AG 2018

Authors and Affiliations

  • Chenmeng Wang
    • 1
  • F. Richard Yu
    • 2
  1. 1.Chongqing University of Posts and TelecommunicationsChongqingChina
  2. 2.Carleton UniversityOttawaCanada

Section editors and affiliations

  • Richard Yu

There are no affiliations available