Abstract
Low-Carbon Economy policies drive Europe for an integrated approach for utility consumption and management; number of integrated distribution companies are increasing. This new trend will soon cause the need for group decisions, collective intelligence approach to the energy industry. This study aims to review the collective intelligence concepts and methods to give a summary of collective intelligence use in energy applications. It can be considered as a foundation for the future of collective intelligence in the energy industry.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
References
Aghajani, G. R., Shayanfar, H. A., & Shayeghi, H. (2017). Demand side management in a smart micro-grid in the presence of renewable generation and demand response. Energy, 126, 622–637.
Assareh, E., Behrang, M. A., Assari, M. R., & Ghanbarzadeh, A. (2010). Application of PSO (particle swarm optimization) and GA (genetic algorithm) techniques on demand estimation of oil in Iran. Energy, 35(12), 5223–5229. Available from: http://dx.doi.org/10.1016/j.energy.2010.07.043.
Bale, C. S. E., Varga, L., & Foxon, T. J. (2015, January 21). Energy and complexity: New ways forward. Appl Energy, 138, 150–159. Available from: http://www.sciencedirect.com/science/article/pii/S0306261914011076.
Bitam, S., Mellouk, A., & Zeadally, S. (2013). HyBR: A hybrid bio-inspired bee swarm routing protocol for safety applications in Vehicular Ad hoc NETworks (VANETs). Journal of Systems Architecture, 59(10 PART B), 953–957.
Bonabeau, E. (2009). Decisions 2.0: The power of collective intelligence. MIT Sloan Management Review, 50(2), 45–52.
Bugała, A., Zaborowicz, M., Boniecki, P., Janczak, D., Koszela, K., Czekała, W., et al. (2018). Short-term forecast of generation of electric energy in photovoltaic systems. Renewable and Sustainable Energy Reviews, 81, 306–312.
Burke, M. J., & Stephens, J. C. (2017). Political power and renewable energy futures: A critical review. Energy Research & Social Science.
Cardenas, J. A., Gemoets, L., Ablanedo Rosas, J. H., & Sarfi, R. (2014). A literature survey on smart grid distribution: An analytical approach. Journal of Cleaner Production, 65, 202–216.
Chaouachi, A., Kamel, R. M., Andoulsi, R., & Nagasaka, K. (2013). Multiobjective intelligent energy management for a microgrid. IEEE Transactions on Industrial Electronics, 60(4), 1688–1699.
Chu, S-C., Tsai, P., & Pan, J-S. (2006). Cat swarm optimization. In Pacific Rim International Conference on Artificial Intelligence (pp. 854–858). Available from: http://link.springer.com/10.1007/978-3-540-36668-3_94.
Conrad, M. (1987). Rapprochement of artificial intelligence and dynamics. European Journal of Operational Research, 30(3), 280–290.
Cross, R. L., Jr., & Israelit, S. B. (2000). Strategic learning in a knowledge economy : Individual, collective and organizational learning process. In Resources for the knowledge based economy series (Vol. xviii, p. 348).
Dorigo, M., Birattari, M., & Stützle, T. (2006) Ant colony optimization. IEEE Computational Intelligence Magazine, 1(4), 28–39. Available from: http://ieeexplore.ieee.org/lpdocs/epic03/wrapper.htm?arnumber=4129846.
Dorigo, M., & Di Caro, G. (1999). The ant colony optimization meta-heuristic. New Ideas Optimization, 2, 11–32. Available from: http://portal.acm.org/citation.cfm?id=329055.329062.
Dudek, G. (2015). Pattern similarity-based methods for short-term load forecasting—Part 1: Principles. Applied Soft Computing, 37, 277–287.
Elia, G., Margherita, A., & Vella, G., et al. (2014). A conceptual model to design a collective intelligence system supporting technology entrepreneurship. In: C. Vivas, & P. Sequeira (Eds.), Proceedings of the 15th European Conference on Knowledge Management (ECKM 2014) (pp. 297–305).
Faia, R., Pinto, T., Abrishambaf, O., Fernandes, F., Vale, Z., & Corchado, J. M. (2017). Case based reasoning with expert system and swarm intelligence to determine energy reduction in buildings energy management. Energy and Buildings, 155.
Favuzza, S., Graditi, G., Ippolito, M. G., & Sanseverino, E. R. (2007). Optimal electrical distribution systems reinforcement planning using gas micro turbines by dynamic ant colony search algorithm. IEEE Transactions on Power Systems, 22(2), 580–587.
Fisch, D., Jänicke, M., Kalkowski, E., & Sick, B. (2012). Learning from others: Exchange of classification rules in intelligent distributed systems. Artificial Intelligence, 187–188, 90–114.
García, T. R., Cancelas, N. G., & Soler-Flores, F. (2014). The artificial neural networks to obtain port planning parameters. Procedia-Social and Behavioral Sciences, 162, 168–177. Available from: http://linkinghub.elsevier.com/retrieve/pii/S1877042814062983.
Gavrilets, S. (2015). Collective action and the collaborative brain. Journal of the Royal Society Interface, 12(102), 20141067–20141067. Available from: http://rsif.royalsocietypublishing.org/cgi/doi/10.1098/rsif.2014.1067.
Georges, P., Nietvelt, K., de Taisne, B., Stenqvist, A., & Schiavo, M. (2017). European integrated utilities in 2017: Rebenchmarking the sector. Standard & Poor’s Financial Services LLC. Available from: https://www.spratings.com/documents/20184/1481001/European+Integrated+Utilities+In+2017/a5a59071-259b-4566-a0e2-abfd1652d9fb.
Ghanbari, A., Kazemi, S. M. R., Mehmanpazir, F., & Nakhostin, M. M. (2013). A cooperative ant colony optimization-genetic algorithm approach for construction of energy demand forecasting knowledge-based expert systems. Knowledge-Based Systems, 39, 194–206. Available from: http://dx.doi.org/10.1016/j.knosys.2012.10.017.
González, J. S., Burgos Payán, M., & Riquelme Santos, J. M. (2018). Optimal design of neighbouring offshore wind farms: A co-evolutionary approach. Applied Energy, 209, 140–152.
He, Y., Jiao, J., Chen, Q., Ge, S., Chang, Y., & Xu, Y. (2017). Urban long term electricity demand forecast method based on system dynamics of the new economic normal: The case of Tianjin. Energy, 133, 9–22.
Huo, D., Le Blond, S., Gu, C., Wei, W., & Yu, D. (2018). Optimal operation of interconnected energy hubs by using decomposed hybrid particle swarm and interior-point approach. International Journal of Electrical Power & Energy Systems, 95, 36–46.
Ishida, T., Murakami, Y., Tsunokawa, E., Kubota, Y., & Sornlertlamvanich, V. (2011). Federated operation model for service grids. Cognitive Technologies, 279–298.
Jalali, M., Zare, K., & Seyedi, H. (2017). Strategic decision-making of distribution network operator with multi-microgrids considering demand response program. Energy, 141, 1059–1071.
Jin, M., Feng, W., Marnay, C., & Spanos, C. (2017). Microgrid to enable optimal distributed energy retail and end-user demand response. Applied Energy.
Kapetanios, E. (2008). Quo Vadis computer science: From turing to personal computer, personal content and collective intelligence. Data & Knowledge Engineering, 67(2), 286–292.
Kaplan, C. A. (2001). Collective intelligence: A new approach to stock price forecasting. In 2001 IEEE International Conference on Systems, Man and Cybernetics e-Systems and e-Man for Cybernetics in Cyberspace (CatNo01CH37236) (Vol. 5, pp. 2893–2898).
Karaboga, D., & Akay, B. (2007). Artificial Bee Colony (ABC) Algorithm on training artificial neural networks. In 2007 IEEE 15th Signal Processing and Communications Applications (pp. 1–4). Available from: http://ieeexplore.ieee.org/document/4298679/.
Karadede, Y., Ozdemir, G., & Aydemir, E. (2017). Breeder hybrid algorithm approach for natural gas demand forecasting model. Energy, 141, 1269–1284.
Kayakutlu, G., & Mercier-Laurent, E. (2017). Intelligence in energy. London: ISTE-Elsevier Ltd.
Kefayat, M., Lashkar Ara, A., & Nabavi Niaki, S. A. (2015, March 28). A hybrid of ant colony optimization and artificial bee colony algorithm for probabilistic optimal placement and sizing of distributed energy resources. Energy Conversion and Management, 2, 149–161. Available from: http://www.sciencedirect.com/science/article/pii/S0196890414010760.
Kennedy, J., & Eberhart, R. (1995). Particle swarm optimization. In 1995 Proceedings, IEEE International Conference on Neural Networks (Vol. 4, pp. 1942–1948).
Khodja, F., Younes, M., Laouer, M., Kherfane, R. L., Kherfane, N. (2014). A new approach ACO for solving the compromise economic and emission with the wind energy. Energy Procedia, 893–906.
Kitamura, S., Mori, K., Shindo, S., & Izui, Y. (2006). Modified multiobjective particle swarm optimization method and its application to energy management system for factories. Electrical Engineering in Japan, 156(4), 33–42. Available from: http://search.ebscohost.com/login.aspx?direct=true&db=a9h&AN=21611108&lang=tr&site=ehost-live.
Korsvold, T, Madsen, B-E., Bremdal, B., Herbert, M. C., Nystad, E., & Danielsen, J. E., et al. (2010). Creating an intelligent energy organization through collective learning. In SPE Intelligent Energy Conference & Exhibition (pp. 892–923). Available from: http://www.scopus.com/inward/record.url?eid=2-s2.0-77953993993&partnerID=40&md5=abf9e61bb1848d9d215ce144eb10f513.
Koubaa, R., & Krichen, L. (2017). Double layer metaheuristic based energy management strategy for a fuel cell/ultra-capacitor hybrid electric vehicle. Energy, 133, 1079–1093.
Król, D., & Lopes, H. S. (2012). Nature-inspired collective intelligence in theory and practice. Information Sciences, 182(1), 1–2.
Kumar, S., & Chaturvedi, D. K. (2013). Optimal power flow solution using fuzzy evolutionary and swarm optimization. International Journal of Electrical Power & Energy Systems, 47, 416–423. Available from: http://www.sciencedirect.com/science/article/pii/S014206151200662X.
Lahiani, A., Miloudi, A., Benkraiem, R., & Shahbaz, M. (2017). Another look on the relationships between oil prices and energy prices. Energy Policy, 102, 318–331.
Lazaric, N., Mangolte, P. A., & Massué, M. L. (2003). Articulation and codification of collective know-how in the steel industry: Evidence from blast furnace control in France. Research Policy, 32(10), 1829–1847.
Li, Z., Xie, Z., & Qin, J. (2005). Application of ant colony algorithms in optimized design of gas transmission pipelines. Tianranqi Gongye/Natural Gas Ind., 25(9), 104–119.
Liu, X., Jiang, T., & Ma, F. (2013). Collective dynamics in knowledge networks: Emerging trends analysis. Journal of Informetrics, 7(2), 425–438.
Lo, C. C., Tsai, S. H., & Lin, B. S. (2016). Economic dispatch of chiller plant by improved ripple bee swarm optimization algorithm for saving energy. Applied Thermal Engineering, 100, 1140–1148.
Ma, W., Fang, S., Liu, G., & Zhou, R. (2017). Modeling of district load forecasting for distributed energy system. Applied Energy, 181–205.
Maleszka, M., & Nguyen, N. T. (2015). Integration computing and collective intelligence. Expert Systems with Applications, 42(1), 332–340.
Mamatzakis, E., & Koutsomanoli-Filippaki, A. (2014). Testing the rationality of DOE’s energy price forecasts under asymmetric loss preferences. Energy Policy, 68, 567–575.
Marzband, M., Yousefnejad, E., Sumper, A., & Domínguez-García, J. L. (2016). Real time experimental implementation of optimum energy management system in standalone Microgrid by using multi-layer ant colony optimization. International Journal of Electrical Power & Energy Systems, 75, 265–274.
Melichar, M. (2016). Energy price shocks and economic activity: Which energy price series should we be using? Energy Economics, 54, 431–443.
Merali, Y. (2000). Individual and collective congruence in the knowledge management process. The Journal of Strategic Information Systems, 9(2–3), 213–234. Available from: http://linkinghub.elsevier.com/retrieve/pii/S0963868700000445.
Mezian, R., Boufala, S., Amara, M., & Amara, H. (2015). Cat swarm algorithm constructive method for hybrid solar gas power system reconfiguration. In: 3rd International Renewable and Sustainable Energy Conference (IRSEC) (pp. 1–7).
Moffett, M. W. (2010). Adventures among ants: A global Safari with a cast of trillions. (1–280 pp). Available from: https://www.scopus.com/inward/record.uri?eid=2-s2.0-84987834827&partnerID=40&md5=5d907b41e3ab02966b2b1695c30e04d7.
Nemoz, S. (2013). Smart campus: Recent advances and future challenges for action research on territorial sustainability. Implementing Campus Greening Initiatives, 313–323.
Palensky, P., & Dietrich, D. (2011). Demand side management: Demand response, intelligent energy systems, and smart loads. IEEE Transactions on Industrial Informatics, 7(3), 381–388.
Paul, S., Haseman, W. D., & Ramamurthy, K. (2004). Collective memory support and cognitive-conflict group decision-making: An experimental investigation. Decision Support Systems, 36(3), 261–281.
Penalva, J. M. (2006). Intelligence collective. Paris: Mines.
Pi, D., Liu, J., & Qin, X. (2010). A grey prediction approach to forecasting energy demand in China. Energy Sources, Part A: Recovery, Utilization, and Environmental Effects, 32(16), 1517–1528.
Rahimian, M., Cardoso-Llach, D., & Iulo, L. D. (2015). Participatory energy management in building networks. Sustainable Human-Building Ecosystems, 27–35.
Rahmani, R., Yusof, R., Seyedmahmoudian, M., & Mekhilef, S. (2013). Hybrid technique of ant colony and particle swarm optimization for short term wind energy forecasting. Journal of Wind Engineering and Industrial Aerodynamics, 123, 163–170.
Rajasekhar, A., Lynn, N., Das, S., & Suganthan, P. N. (2017) Computing with the collective intelligence of honey bees—A survey. Swarm and Evolutionary Computation, 25–48.
Raza, M. Q., & Khosravi, A. (2015). A review on artificial intelligence based load demand forecasting techniques for smart grid and buildings. Renewable and Sustainable Energy Reviews., 50, 1352–1372.
Redlarski, G., Krawczuk, M., Kupczyk, A., Piechocki, J., Ambroziak, D., & Palkowski, A. (2017). Swarm-assisted investment planning of a bioethanol plant. Polish Journal of Environmental Studies, 26(3), 1203–1214.
Rhein, A., Balzer, G., & Renz, P. (2017). Reliability-based improvement of life-cycle maintenance and replacement strategies in transmission systems using ant colony optimization. In 2017 6th International Youth Conference on Energy (IYCE).
Robinson, D. G. (2005). Reliability analysis of bulk power systems using swarm intelligence Year: 2005. In Annual Reliability and Maintainability Symposium (pp. 96–102).
Saba, D., Laallam, F. Z., Hadidi, A. E., & Berbaoui, B. (2015). Contribution to the management of energy in the systems multi renewable sources with energy by the application of the multi agents systems “MAS.” Energy Procedia, 616–623.
Selvakumar, K., Vijayakumar, K., & Boopathi, C. S. (2017). Demand response unit commitment problem solution for maximizing generating companies’ profit. Energies, 10(10).
Sharafi, M., & ElMekkawy, T. Y. (2015). Stochastic optimization of hybrid renewable energy systems using sampling average method. Renewable and Sustainable Energy Reviews, 52, 1668–1679.
Sisodia, G. S., Soares, I., Banerji, S., & Van Den Poel, D. (2015). The status of energy price modelling and its relevance to marketing in emerging economies. Energy Procedia, 500–505.
Sonmez, M., Akgüngör, A. P., & Bektaş, S. (2017). Estimating transportation energy demand in Turkey using the artificial bee colony algorithm. Energy, 122, 301–310.
Suhane, P., Rangnekar, S., Mittal, A., & Khare, A. (2016). Sizing and performance analysis of standalone wind-photovoltaic based hybrid energy system using ant colony optimisation. IET Renewable Power Generation, 10(7), 964–972. Available from: http://ieeexplore.ieee.org/ielx7/4159946/7514393/07514408.pdf?tp=&arnumber=7514408&isnumber=7514393%5Cnhttp://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=7514408&source=tocalert&dld=aG90bWFpbC5jb20=.
Su, Z., Wang, J., Lu, H., & Zhao, G. (2014). A new hybrid model optimized by an intelligent optimization algorithm for wind speed forecasting. Energy Conversion and Management, 85, 443–452.
Szuba, T. (1999). A formal definition of the phenomenon of collective intelligence and its IQ measure. In Lecture notes in computer science (including subseries lecture notes in artificial intelligence and lecture notes in bioinformatics) (pp. 165–173).
Tapscott, D., & Williams, A. D. (2008). Wikinomics: How mass collaboration changes everything. Journal of Information Technology and Politics, 5(2), 259–262. Available from: http://search.ebscohost.com/login.aspx?direct=true&db=lxh&AN=35157924.
Thomas, L. (1973). On various words. The New England Journal of Medicine, 289(19), 1024–1026.
Toksarı, M. D. (2009). Estimating the net electricity energy generation and demand using the ant colony optimization approach: Case of Turkey. Energy Policy, 2009(37), 1181–1187.
Toksari, M. D. (2016). A hybrid algorithm of Ant Colony Optimization (ACO) and Iterated Local Search (ILS) for estimating electricity domestic consumption: Case of Turkey. International Journal of Electrical Power & Energy Systems, 78, 776–782.
Tounsi, W., & Rais, H. (2018). A survey on technical threat intelligence in the age of sophisticated cyber attacks. Computers and Security., 72, 212–233.
Toyokawa, W., Kim, H. R., & Kameda, T. (2014). Human collective intelligence under dual exploration-exploitation dilemmas. PLoS One, 9(4), e95789.
Udayraj, Mulani, K., Talukdar, P., Das, A., & Alagirusamy, R. (2015). Performance analysis and feasibility study of ant colony optimization, particle swarm optimization and cuckoo search algorithms for inverse heat transfer problems. International Journal of Heat and Mass Transfer, 89, 359–378.
Ünler, A. (2008). Improvement of energy demand forecasts using swarm intelligence: The case of Turkey with projections to 2025. Energy Policy, 36(6), 1937–1944.
Watanabe, I. (2005). An ACO algorithm for service restoration in power distribution systems. In IEEE CEC 2005 Proceedings IEEE Congress on Evolutionary Computation (pp. 2864–2871).
Xia, F., Zhao, X., Zhang, J., Ma, J., & Kong, X. (2014). BeeCup: A bio-inspired energy-efficient clustering protocol for mobile learning. Future Generation Computer Systems, 37, 449–460.
Xu, X., Mitra, J., Cai, N., & Mou, L. (2014). Planning of reliable microgrids in the presence of random and catastrophic events. International Transactions on Electrical Energy Systems, 24(8), 1151–1167.
Yanine, F. F., Caballero, F. I., Sauma, E. E., & Córdova, F. M. (2014). Building sustainable energy systems: Homeostatic control of grid-connected microgrids, as a means to reconcile power supply and energy demand response management. Renewable and Sustainable Energy Reviews., 40, 1168–1191.
Yegane, B. Y, Nakhai Kamalabadi, I., & Farughi, H. (2016). A non-linear integer bi-level programming model for competitive facility location of distribution centers. International Journal of Engineering-Transactions B: Applications, 29(8), 1131–1140. Available from: https://www.scopus.com/inward/record.uri?eid=2-s2.0-84984637702&partnerID=40&md5=2cfe1e1faca06a0dedd3440ab0cfb226.
Zahraee, S. M., Khalaji Assadi, M., & Saidur, R. (2016). Application of artificial intelligence methods for hybrid energy system optimization. Renewable and Sustainable Energy Reviews, 66, 617–630. Available from: http://dx.doi.org/10.1016/j.rser.2016.08.028.
Zak, M., & Zak, A. P. (1994). Unpredictable dynamics and collective brain. Computers & Mathematics with Applications, 27(9110), 185–197.
Zhang, H., Li, Z., Qu, Z., & Lewis, F. L. (2015). On constructing Lyapunov functions for multi-agent systems. Automatica, 58, 39–42.
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2018 Springer International Publishing AG, part of Springer Nature
About this chapter
Cite this chapter
Kayakutlu, G., Ercan, S. (2018). Review of Collective Intelligence Used in Energy Applications. In: Kahraman, C., Kayakutlu, G. (eds) Energy Management—Collective and Computational Intelligence with Theory and Applications. Studies in Systems, Decision and Control, vol 149. Springer, Cham. https://doi.org/10.1007/978-3-319-75690-5_21
Download citation
DOI: https://doi.org/10.1007/978-3-319-75690-5_21
Published:
Publisher Name: Springer, Cham
Print ISBN: 978-3-319-75689-9
Online ISBN: 978-3-319-75690-5
eBook Packages: EngineeringEngineering (R0)