GMCC2021: Green Mobile Cloud Computing |
Website | https://sites.google.com/view/gmcc2021/home?authuser=3 |
Submission link | https://easychair.org/conferences/?conf=gmcc2021 |
About Mobile Edge Computing
The increasing energy demands along with the reduction of fossil fuels have been identified as a significant issue which needs to be urgently addressed to have a sustainable future. This realization has motivated towards the development of “Green Cloud computing and Communications” which can enable a transition towards a sustainable society with a reduced carbon footprint. A major role in the "greening" effort to globally reduce the energy consumption will be played by Computing, Communication and Fixed networking technologies. All these technologies have to deal with the critical factors on energy consumption, for example, to control the energy consumption of the large-scale cloud datacenters. Hence, new architectures, systems and related application techniques, such as software-defined networking (SDN), mobile cloud computing (MCC), Fixed Network Connection and hybrid cloud services, are highly required in cloud computing datacenters and in communication & network devices to be more productive and energy efficient, to provide a "Green" world. Thus, this is highly demanding to find out new ways in reducing energy consumption for a better environment. Though the need for “greener” cloud computing communication and fixed networking technologies has been recognized recently by the researchers worldwide, still many challenges remain to be addressed.
Green Mobile Cloud Computing (GMCC) refers to the power/energy-efficient architectures for mobile cloud computing. Due to the low battery life and resource hindrance, the execution of exhaustive applications or storing huge amount of data inside the mobile device is quite difficult. Therefore, the execution of exhaustive applications or storing huge amount of data inside the cloud is performed in MCC. However, the communication with the cloud also needs power/energy consumption of the mobile device. Security and privacy are also major issues while the use of remote cloud comes into the scenario. Therefore, whether to execute the application locally or to the cloud, or store the data locally or to the cloud, this decision making is highly important to achieve a green system.
The objective of this book is to present a collection of high-quality research papers that report the latest research advances in the area of green mobile cloud computing which solicits original, unpublished research papers both from academy and industry reporting on substantial results in the green mobile cloud computing.
The topics interest includes but not limited to.
- Green computing models, simulations, designs, algorithms and paradigms for mobile cloud environment
- Energy/Power-efficient virtualization and consolidation in MCC
- Security and Privacy in GMCC
- Next-generation GMCC Services and Applications
- New energy-aware routing and switching devices in mobile cloud network
- Optimization of green mobile cloud networks
- Energy-efficiency in mobile cloud networks
- Future of green mobile cloud networks
- Performance evaluation and modeling of green mobile cloud networks
- Green Smart grid
- Trade-offs between performance, energy and other resources in mobile cloud datacenters
- Resource efficiency in GMCC
- Architectures and protocols for improving energy efficiency in fixed networks
- Green Fixed network planning and optimization
- Green ICT
- Non-energy relevant green issues, and/or approaches for MCC
- Energy harvesting techniques and strategies for MCC
- QoS Improvement techniques in GMCC
Book Editors
Prof. Debashis De
Professor and Director,
Department of Computer Science and Engineering,
Maulana Abul Kalam Azad University of Technology,
BF-142, Sector-I, Salt Lake, Kolkata-700064, India.
Dr. Anwesha Mukherjee
Assistant Professor, Department of Computer Science,
Mahishadal Raj College (Vidyasagar University),
Garh Kamalpur, West Bengal 721628, India.
Prof. Abdullah Bin Gani
Associate Professor,
Department of Computer System and Technology,
University of Malaya.
Prof. Rajkumar Buyya
Redmond Barry Distinguished Professor and Director,
Cloud Computing and Distributed Systems (CLOUDS) Laboratory,
University of Melbourne, Australia.
Important Dates
Abstract submission: 31st March, 2021
Acceptance notification: 30th April, 2021
Full chapter submission: 30th June, 2021
Final acceptance notification: 30th September, 2021
Submission of final (camera ready) chapters: 30th October, 2021
Expected publication: December 2021
Author Guidelines
Prospective authors are invited to submit original, high quality, unpublished chapters using Easy Chair submission system. Submitted manuscripts will be refereed by at least two expert reviewers. The accepted chapters will be published in the edited book. For preparing your chapter(s), please, consider the following points:
- No publication charge is applicable.
- Each book chapter should have 10-25 pages.
- Each chapter should be complete and self-contained.
- Abstract of each chapter should have approximately 100-150 words and a list of 5-10 keywords.
Use Latex or MS-Word template for preparing the chapter(s). Follow the Springer format (applied).
Contact
buyyaclud@gmail.com
For other details please visit: https://sites.google.com/view/mobile-edge-computing-2020/home?authuser=1