Digital Object Identifier:10.11989/JEST.1674-862X.80716117 Technical Analysis of Security Management in Terms of Crowd Energy and Smart Living MD Shahrukh Adnan Khan* | Muhammad Ahad Rahman Miah | Shaikh Rashedur Rahman | Mirza Mursalin Iqbal | Aseef Iqbal | Aravind CV | Chua Kein Huat Abstract—In this paper, a technical and statistical analysis of security system and security management is provided for crowd energy and smart living. At the same time, a clear understanding is made for crowd energy concept and next generation smart living. Various case examples have been studied and a brief summary has been provided. Furthermore, a statistical analysis has been provided in terms of security management in smart living where it is found that young technocrats give the highest importance to security management in smart living. Last but not the least, current limitation, constraints, and future scope of security implementation have been discussed in terms of crowd energy clustered with next generation smart living. Index Terms—Crowd energy, security management, smart living, statistical analysis. 1. Introduction The industrial development of the world has raised the prosperity of life of at the cost of exhausting limited natural resources and damaging the environment. The consumption of fossil fuels, on which the industrial development has been largely based, has been recognized as a major cause of climate change. The impacts on the global ecosystem resulting from climate change are in turn expected to lead to substantial economic losses. Moreover, the global pollution due to traditional sources of energy moves scientists to search for other sources of green energy and to create a common platform for both energy producer and consumer. Our nation’s electric power infrastructure known as “the grid” is rapidly reaching to its limit. We may get the electricity supply but the risks associated with that depending on the traditional structure are increased with the rising demand of the grid. So it is very essential to decentralize the entire power system to make it more secure and sustainable. *Corresponding author Manuscript received 2018-07-16; revised 2018-10-03. M. S. A. Khan, M. A. R. Miah, and S. R. Rahman are with the Department of Electrical and Electronic Engineering, University of Asia Pacific, Dhaka 1205, Bangladesh (e-mail: DrShahrukh@ieee.org). M. M. Iqbal is with Technical University of Munich, Munich, D-80333, Germany. A. Iqbal is with the Department of Computer Science and Engineering, Chittagong Independent University, Chittagong, Bangladesh. C. Aravind is with Taylor’s University, Subang Jaya 47500, Malaysia. C. K. Huat is with Universiti Tunku Abdul Rahman, Kampar 31900, Malaysia. Publishing editor: Xin Huang JOURNAL OF ELECTRONIC SCIENCE AND TECHNOLOGY, VOL. 16, NO. 4, DECEMBER 2018 367