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View all- Nguyen LSmith JThai M(undefined)Vulnerability Assessment of Social-Smart Grids: An Algorithmic Approach2019 IEEE Global Communications Conference (GLOBECOM)10.1109/GLOBECOM38437.2019.9014195(1-7)
The social smart grid
Abstract
HighlightsWe highlight the motivation and applicable use cases for a social overlay network for the smart grid.The social overlay network model dealing with formation and SLA negotiation and monitoring, is implemented using open standards only.We discuss the overall framework in course of an agent-based simulation to proof the feasibility of our social smart grid approach. The smart grid promises to improve the efficiency and reliability of tomorrow's energy supply. One of the biggest achievements of future smart grids will be their distributed mode of operation which effectively eliminates vulnerable nodes causing single points of failures in the grid. However, due to the lack of centralized energy production and control, the coordination of energy consumption becomes first priority. Because there do not exist technologies to store energy at large-scale yet, all energy that is required must be produced at the same time. The biggest challenge of energy producers is therefore to reliably predict and provide the right amount of required energy to avoid shortages and breakdowns. In this paper, we propose a novel way to let smart grid stakeholders, i.e., energy producers and consumers, coordinate their energy demands themselves. For that purpose we combine traditional social network models and service-oriented computing concepts with the smart grid to allow consumers to form communities according to their energy consumption behavior. These communities enable them to interact with other grid stakeholders to coordinate energy consumption plans and set up private energy sharing alliances. This way, the utility provider and industrial energy producers can rely on a better predictable and a smoother energy demand of customers. We introduce a software framework, making use of widely adopted standards, demonstrate its feasibility with an agent-based simulation, and discuss its overall applicability.
References
[1]
A. Agrawal, WS-BPEL Extension for People (bpel4people), Version 1.0, 2007.
[2]
V. Allee, Reconfiguring the value network, Journal of Business Strategy, 21 (2000).
[3]
G. Alonso, F. Casati, H. Kuno, V. Machiraju, Web Services - Concepts, Architectures and Applications, Springer, October 2003.
[4]
G. Alonso, F. Casati, H. Kuno, V. Machiraju, Web Services: Concepts, Architectures and Applications, Springer, Berlin, 2004.
[5]
M. Amend, Web Services Human Task (WS-HumanTask), Version 1.0, 2007.
[6]
A. Andrieux, Web services agreement specification (WS-agreement), Open Grid Forum (2007).
[7]
Brickley, D., Miller, L., FOAF vocabulary specification 0.98, 2010. http://xmlns.com/foaf/spec.
[8]
L.M. Camarinha-Matos, H. Afsarmanesh, Collaborative networks, 2006.
[9]
Chima, C., How social media will make the smart energy grid more efficient, 2011. http://mashable.com/2011/02/08/smart-grid-social-media/.
[10]
Clark, J., Xsl transformations (xslt) version 1.0, W3C Recommendation, Tech. Rep., 11, 1999. Online}. Available: http://www.w3.org/TR/xslt.
[11]
European Regulators Group for Electricity and Gas, Position paper on smart grids no. e09-eqs-30-04, Berlin, 2010.
[12]
Service-Oriented Computing, in: Service-Oriented Computing, MIT Press, Cambridge, MA, 2008.
[13]
IBM, An architectural blueprint for autonomic computing, Whitepaper, 2005.
[14]
A. Ipakchi, F. Albuyeh, Grid of the future, IEEE Power and Energy Magazine, 7 (2009) 52-62.
[15]
M.O. Jackson, A. Watts, The evolution of social and economic networks, Journal of Economic Theory, 106 (1999) 265-295.
[16]
M. Jackson, A. Wolinsky, A strategic model of social and economic networks, Journal of Economic Theory, 71 (1996) 44-74.
[17]
L. Juszczyk, S. Dustdar, Script-based generation of dynamic testbeds for SOA, 2010.
[18]
J. Kleinberg, The convergence of social and technological networks, Communications of the ACM, 51 (2008) 66-72.
[19]
S.R. Kruk, S. Grzonkowski, A. Gzella, T. Woroniecki, H.-C. Choi, D-FOAF: distributed identity management with access rights delegation, 2006.
[20]
Ludwig, H., et al., Web service level agreement (WSLA) language specification, version 1.0, 2003.
[21]
Massoud, B.F. Wollenberg, Toward a smart grid: power delivery for the 21st century, IEEE Power and Energy Magazine, 3 (2005) 34-41.
[22]
B. Medjahed, A. Bouguettaya, A dynamic foundational architecture for semantic web services, Distributed and Parallel Databases, 17 (2005) 179-206.
[23]
Novakouski, M., Simanta, S., Peterson, G., Morris, E., Lewis, G., Performance analysis of WS-security mechanisms in soap-based web services, Berlin, 2010.
[24]
Organization for the Advancement of Structured Information Standards (OASIS), WS-Security 1.1, 2006.
[25]
OPower Company, 2011. http://opower.com/.
[26]
M.J. Osborne, A. Rubinstein, A Course in Game Theory, MIT Press, 1999.
[27]
H. Psaier, F. Skopik, D. Schall, S. Dustdar, Resource and agreement management in dynamic crowdcomputing environments, 2011.
[28]
A. Reka, Barabási, Statistical mechanics of complex networks, Reviews of Modern Physics, vol.74 (2002) 47-97.
[29]
D. Schall, H.-L. Truong, S. Dustdar, Unifying human and software services in web-scale collaborations, Internet Computing, 12 (2008) 62-68.
[30]
D. Schall, H.L. Truong, S. Dustdar, Unifying human and software services in web-scale collaborations, IEEE Internet Computing, 12 (2008) 62-68.
[31]
D. Schall, F. Skopik, H. Psaier, S. Dustdar, Bridging socially-enhanced virtual communities, 2011.
[32]
D. Schall, A human-centric runtime framework for mixed service-oriented systems, Distributed and Parallel Databases (2011) 1-28.
[33]
F. Skopik, C. Wagner, Novel energy saving opportunities in smart grids using a secure social networking layer, 2012.
[34]
F. Skopik, D. Schall, S. Dustdar, Opportunistic information flows through strategic social link establishment, 2011.
[35]
F. Skopik, D. Schall, S. Dustdar, Managing social overlay networks in semantic open enterprise systems, 2011.
[36]
D. Sosnoski, Java Web Services: The High Cost of (ws-)Security, 2009.
[37]
Story, H., Harbulot, B., Jacobi, I., Jones, M., Foaf+ssl: Restful authentication for the social web, last access: 2012. http://esw.w3.org/Foaf+ssl.
[38]
University of Stratclyde, Energy demand profile generator (last access: November 2011), 2007. http://www.esru.strath.ac.uk.
[39]
Encyclopedia of Cryptography and Security, in: Encyclopedia of Cryptography and Security, Springer, 2005.
[40]
S. Wasserman, K. Faust, Social Network Analysis: Methods and Applications, 1st ed., ser. Structural Analysis in the Social Sciences, Cambridge University Press, 1994.
[41]
World Wind Energy Association, World wind energy report 2010, February 2011.
[42]
M. Yokoo, V. Conitzer, T. Sandholm, N. Ohta, A. Iwasaki, Coalitional games in open anonymous environments, 2005.
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Published: 01 March 2014
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View all- Nguyen LSmith JThai M(undefined)Vulnerability Assessment of Social-Smart Grids: An Algorithmic Approach2019 IEEE Global Communications Conference (GLOBECOM)10.1109/GLOBECOM38437.2019.9014195(1-7)