Approach to Assessing Cloud Computing Sustainability
This chapter presents a study on Cloud Computing (CC) Sustainability Assessment methodology. Taking into consideration the characteristics of the Sustainable Development Goals models we proposed the multi-objective cloud computing sustainability assessmen
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Rajiv Ranjan · Karan Mitra Prem Prakash Jayaraman · Lizhe Wang Albert Y. Zomaya Editors
Handbook of Integration of Cloud Computing, Cyber Physical Systems and Internet of Things
Scalable Computing and Communications Series editor Albert Y. Zomaya University of Sydney New South Wales, Australia
Editorial Board Jiannong Cao, The Hong Kong Polytechnic University, Hong Kong Samee Khan, North Dakota State University, USA Rajiv Ranjan, CSIRO, Australia Sartaj Sahni, University of Florida, USA Lizhe Wang, Chinese Academy of Science, China Paul Watson, University of Newcastle, United Kingdom
Scalable computing lies at the core of all complex applications. Topics on scalability include environments, such as autonomic, cloud, cluster, distributed, energy-aware, parallel, peer-to-peer, greed, grid and utility computing. These paradigms are necessary to promote collaboration between entities and resources, which are necessary and beneficial to complex scientific, industrial, and business applications. Such applications include weather forecasting, computational biology, telemedicine, drug synthesis, vehicular technology, design and fabrication, finance, and simulations. The Scalable Computing and Communications Book Series combines countless scalability topics in areas such as circuit and component design, software, operating systems, networking and mobile computing, cloud computing, computational grids, peer-to-peer systems, and high-performance computing. Topics of proposals as they apply to scalability include, but are not limited to: − − − − − − − − − − − − − − − − − − − −
Autonomic computing Big Data computing Data center computing Grid computing Cloud computing Green computing and energy aware computing Volunteer computing and Peer to Peer computing Multi-core and many-core computing Parallel, distributed and high performance simulation Workflow computing Unconventional computing paradigms Pervasive computing, mobile computing and sensor networking Service computing, Internet computing, Web based computing Data centric computing and data intensive computing Cluster computing Unconventional computation Scalable wireless communications Scalability in networking infrastructures Scalable databases Scalable cyber infrastructures and e-Science
More information about this series at http://www.springer.com/series/15044
Rajiv Ranjan • Karan Mitra Prem Prakash Jayaraman • Lizhe Wang Albert Y. Zomaya Editors
Handbook of Integration of Cloud Computing, Cyber Physical Systems and Internet of Things
Editors Rajiv Ranjan School of Computing Newcastle University Newcastle upon Tyne, UK Prem Prakash Jayaraman Swinburne University of Technology Melbourne, Australia Albert Y. Zomaya School of Information Technologies The University of Sydney Darlington, NSW, Australia
Karan Mitra Department of Computer Science Electrical and Space Engineering Luleå University of Technology Skellefteå, Sweden Lizhe Wang School of Computer Science China University of Geosciences Wuhan, China
ISSN 2520-8632 ISSN 2364-9496 (electronic) Scala
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