Volume 3 , Issue 2 , PP: 73-82, 2021 | Cite this article as | XML | Html | PDF | Full Length Article
Ahmed Abdelmonem 1 *
Doi: https://doi.org/10.54216/FPA.030203
With the widespread use of distributed alternative energy sources, electric cars, energy storage systems, and technologies like Cloud Computing (CC), Big Data, and the IoT, energy management in CC contexts has developed. Concerns about the Energy Cloud's performance goals are presented in this fashion as a major development point (EC). The aims of this essay include identifying key FPVs and how they relate to issues in EC, as well as formulating an approach to overseeing the growth and maturity of EC settings. Through literature research, FPVs were identified as well as their influence on each other.
It was determined that those FPVs were an important, secondary, motivational factor, and independent voters by using the AHP approach. An all-encompassing management model for EC is presented in the article, and it can be used as a compass for making strategic choices on technical, organizational, commercial, and regulatory matters. This model may be tailored to the specifics of the business landscape and its breadth.
AHP , Cloud Computing , IoT , Big Data , MCDM
[1] A. Lawrence, T. Nehler, E. Andersson, M. Karlsson, and P. Thollander, “Drivers, barriers and success factors for energy management in the Swedish pulp and paper industry,” Journal of cleaner production, vol. 223, pp. 67–82, 2019.
[2] S. F. Hazudin, M. A. R. A. Kader, N. H. Tarmuji, M. Ishak, and R. Ali, “Discovering small business start up motives, success factors and barriers: A gender analysis,” Procedia Economics and Finance, vol. 31, pp. 436–443, 2015.
[3] S. Aparcana, “Approaches to formalization of the informal waste sector into municipal solid waste management systems in low-and middle-income countries: Review of barriers and success factors,” Waste management, vol. 61, pp. 593–607, 2017.
[4] V. Beillan et al., “Socio-economic barriers and success factors in the development of low energy consumption housing. A comparative study in three European countries,” Act, 2009.
[5] R. Hill, P. I. Pert, J. Davies, F. J. Walsh, and F. Falco-Mammone, Indigenous land management in Australia: extent, scope, diversity, barriers and success factors. Citeseer, 2013.
[6] H. D. Mohammadian, “IoE–A solution for energy management challenges,” in 2019 IEEE Global Engineering Education Conference (EDUCON), 2019, pp. 1455–1461.
[7] S. M. Hakimi and A. Hasankhani, “Intelligent energy management in off-grid smart buildings with energy interaction,” Journal of Cleaner Production, vol. 244, p. 118906, 2020.
[8] L. Miller and R. Carriveau, “Energy demand curve variables–An overview of individual and systemic effects,” Sustainable Energy Technologies and Assessments, vol. 35, pp. 172–179, 2019.
[9] J. C. O. Aravena, A. Aghahosseini, D. Bogdanov, U. Caldera, E. Muñoz-Cerón, and C. Breyer, “The role
[1] A. Lawrence, T. Nehler, E. Andersson, M. Karlsson, and P. Thollander, “Drivers, barriers and success factors for energy management in the Swedish pulp and paper industry,” Journal of cleaner production, vol. 223, pp. 67–82, 2019.
[2] S. F. Hazudin, M. A. R. A. Kader, N. H. Tarmuji, M. Ishak, and R. Ali, “Discovering small business start up motives, success factors and barriers: A gender analysis,” Procedia Economics and Finance, vol. 31, pp. 436–443, 2015.
[3] S. Aparcana, “Approaches to formalization of the informal waste sector into municipal solid waste management systems in low-and middle-income countries: Review of barriers and success factors,” Waste management, vol. 61, pp. 593–607, 2017.
[4] V. Beillan et al., “Socio-economic barriers and success factors in the development of low energy consumption housing. A comparative study in three European countries,” Act, 2009.
[5] R. Hill, P. I. Pert, J. Davies, F. J. Walsh, and F. Falco-Mammone, Indigenous land management in Australia: extent, scope, diversity, barriers and success factors. Citeseer, 2013.
[6] H. D. Mohammadian, “IoE–A solution for energy management challenges,” in 2019 IEEE Global Engineering Education Conference (EDUCON), 2019, pp. 1455–1461.
[7] S. M. Hakimi and A. Hasankhani, “Intelligent energy management in off-grid smart buildings with energy interaction,” Journal of Cleaner Production, vol. 244, p. 118906, 2020.
[8] L. Miller and R. Carriveau, “Energy demand curve variables–An overview of individual and systemic effects,” Sustainable Energy Technologies and Assessments, vol. 35, pp. 172–179, 2019.
[9] J. C. O. Aravena, A. Aghahosseini, D. Bogdanov, U. Caldera, E. Muñoz-Cerón, and C. Breyer, “The role psychology, vol. 15, no. 3, pp. 234–281, 1977.
[32] T. L. Saaty, “Decision making with the analytic hierarchy process,” International journal of services sciences, vol. 1, no. 1, pp. 83–98, 2008.