Browsing by Author "Debbarma, T."
Now showing 1 - 5 of 5
- Results Per Page
- Sort Options
Item A review on mobile cloud computing interoperability issues and challenges(Springer, 2020) Debbarma, T.; Chandrasekaran, K.Mobile cloud computing (MCC) is the convergence of two recent technologies namely “Cloud Computing” and “Mobile Computing” with wireless networks as a communication backbone. There are mainly three paradigms that use the concepts of MCC, viz. edge computing, fog computing and cloudlets. Due to the presence of various heterogeneous hardware and software platforms in MCC, there are many interoperability issues which create vendor/services lock-in problems, it also makes data and application portability difficult. This paper studies the different paradigms of MCC and the challenges in making them interoperable in heterogeneous hardware and software platforms. We have summarized some of the MCC-based research papers and their findings. Contribution of this paper is the summary of challenges and research scopes in the field of MCC where it needs to be addressed to mitigate the interoperability issues. © Springer Nature Singapore Pte Ltd. 2020.Item Green measurement metrics towards a sustainable software: A systematic literature review(2016) Debbarma, T.; Chandrasekaran, K.With the advancement in computing hardware's the complexity and energy consumption of software has increased largely. There are various primary studies which uses different software measurement metrics in green and sustainable software development. In this paper we systematically reviewed and analyzed different green measurement metrics in sustainable software. Our objective is to find the recent studies in green metrics and find the different state-of-the-art measures that is taking place in green software development and engineering. We reviewed 14 studies with different aspects of green metrics and sustainable software. This review summarizes different green metrics and methods proposed in the recent years. � 2016 IEEE.Item Green measurement metrics towards a sustainable software: A systematic literature review(Institute of Electrical and Electronics Engineers Inc., 2016) Debbarma, T.; Chandrasekaran, K.With the advancement in computing hardware's the complexity and energy consumption of software has increased largely. There are various primary studies which uses different software measurement metrics in green and sustainable software development. In this paper we systematically reviewed and analyzed different green measurement metrics in sustainable software. Our objective is to find the recent studies in green metrics and find the different state-of-the-art measures that is taking place in green software development and engineering. We reviewed 14 studies with different aspects of green metrics and sustainable software. This review summarizes different green metrics and methods proposed in the recent years. © 2016 IEEE.Item Middleware Frameworks for Mobile Cloud Computing, Internet of Things and Cloud of Things: A Review(Springer, 2020) Debbarma, T.; Chandrasekaran, K.Mobile cloud computing (MCC) is an extension of cloud computing (CC) technologies. It provides seamless access of different cloud services to smart mobile devices (SMDs). There is no denying that CC can be scaled to a great extent in terms of computing, storage and other services, but the SMDs used for accessing those services are limited on battery capacity, storage and computing power due to their small form factors. The limitations of SMDs can be minimised/resolved by using MCC platforms. Though MCC is advantageous in many ways, it has its own inherent challenges and issues due to the heterogeneous hardware and software platforms used by SMDs and CC platforms, which makes it difficult to have interoperable services and the development of applications for those devices. This paper studied recently (from 2012 onwards) proposed/developed middlewares for the Internet of things (IoT), cloud of things (CoT), context-aware middlewares (CaMs) and mobile cloud middlewares (MCMs). Different middleware architectures are chosen, as in many cases, these technologies converge in terms of features, functions and services they provide. The study finds that the present middlewares lack in providing an integrated solution that complies with interoperability, portability, adaptability, context awareness, security and privacy, service discovery, fault tolerance requirements. At the end of the paper, the challenges pertaining to achieve portability, interoperability, context awareness, security are discussed and identify the gaps in the existing approaches in MCC interoperability and context adaptability. © 2020, Springer Nature Singapore Pte Ltd.Item Sustainable software development with a shared repository(Springer Verlag service@springer.de, 2018) Debbarma, T.; Chandrasekaran, K.Cloud-based computing services trend has significantly increased the building of new cloud data centres in the recent times. These data centres consume a large amount of electrical energy to run the Information Communication Technology (ICT) devices and for its cooling, as a result of that emission of $$CO:2$$ and Greenhouse Gas (GHG) has increased largely. This paper proposes a Sustainable Software Development Life Cycle (SDLC) Model. This model would contribute towards making the cloud computing systems more energy efficient and the ICT a green and sustainable development ecosystem. The Green Cloud Computing will be considered as an implementation platform for the proposed Sustainable SDLC. It is proposed that reusable, modular and cloud-shared development approach be used to make the software development and the software more energy efficient. The SDLC will use a cloud repository which will be accessible as per software development organizations cloud deployment model. © Springer Nature Singapore Pte Ltd. 2018