The IRMA Community
Newsletters
Research IRM
Click a keyword to search titles using our InfoSci-OnDemand powered search:
|
A Social-Oriented Mobile Cloud Scheme for Optimal Energy Conservation
|
Author(s): Constandinos X. Mavromoustakis (University of Nicosia, Cyprus), George Mastorakis (Technological Educational Institute of Crete – Agios Nikolaos, Greece), Athina Bourdena (University of Nicosia, Cyprus), Evangelos Pallis (Technological Educational Institute of Crete – Heraklion, Greece), Dimitrios Stratakis (Technological Educational Institute of Crete – Heraklion, Greece), Emmanouil Perakakis (Technological Educational Institute of Crete – Agios Nikolaos, Greece), Ioannis Kopanakis (Technological Educational Institute of Crete – Agios Nikolaos, Greece), Stelios Papadakis (Technological Educational Institute of Crete – Agios Nikolaos, Greece), Zaharias D. Zaharis (Aristotle University of Thessaloniki, Greece), Christos Skeberis (Aristotle University of Thessaloniki, Greece)and Thomas D. Xenos (Aristotle University of Thessaloniki, Greece)
Copyright: 2015
Pages: 25
Source title:
Resource Management of Mobile Cloud Computing Networks and Environments
Source Author(s)/Editor(s): George Mastorakis (Technological Educational Institute of Crete, Greece), Constandinos X. Mavromoustakis (University of Nicosia, Cyprus)and Evangelos Pallis (Technological Educational Institute of Crete, Greece)
DOI: 10.4018/978-1-4666-8225-2.ch005
Purchase
|
Abstract
This chapter elaborates on energy usage optimization issues by exploiting a resource offloading process based on a social-oriented mobile cloud scheme. The adoption of the proposed scheme enables for increasing the reliability in services provision to the mobile users by guaranteeing sufficient resources for the mobile application execution. More specifically, this chapter describes the process to improve the energy consumption of the mobile devices through the exploitation of a social-oriented model and a cooperative partial process offloading scheme. This research approach exploits social centrality, as the connectivity model for the resource offloading, among the interconnected mobile devices to increase the energy usage efficiency, the mobile nodes availability, as well as the process of execution reliability. The proposed scheme is thoroughly evaluated to define the validity and the efficiency for the energy conservation increase of future mobile computing devices.
Related Content
Dina Darwish.
© 2024.
43 pages.
|
Kassim Kalinaki, Musau Abdullatif, Sempala Abdul-Karim Nasser, Ronald Nsubuga, Julius Kugonza.
© 2024.
23 pages.
|
Yogita Yashveer Raghav, Ramesh Kait.
© 2024.
17 pages.
|
Renuka Devi Saravanan, Shyamala Loganathan, Saraswathi Shunmuganathan.
© 2024.
21 pages.
|
Veera Talukdar, Ardhariksa Zukhruf Kurniullah, Palak Keshwani, Huma Khan, Sabyasachi Pramanik, Ankur Gupta, Digvijay Pandey.
© 2024.
30 pages.
|
Dharmesh Dhabliya, Sukhvinder Singh Dari, Nitin N. Sakhare, Anish Kumar Dhablia, Digvijay Pandey, Balakumar Muniandi, A. Shaji George, A. Shahul Hameed, Pankaj Dadheech.
© 2024.
9 pages.
|
Avtar Singh, Shobhana Kashyap.
© 2024.
11 pages.
|
|
|