The Vehicle-to-Grid (V2G) has become a reality with development in power grid and advancements in vehicle technology. The EVs will gradually replace the existing vehicles due to growing oil demands and environment concerns. The EVs can be integrated to the grid for power transaction and contribute to the grid. The grid control center (GCC) to aggregator communication is very crucial in V2G operation and meet the load demand. The fixed WiMAX (Worldwide Interoperability for Microwave Access) protocol is proposed for the GCC to aggregator communication. The applicable path loss models for WiMAX protocol are analysed and compared. The physical layer of WiMAX protocol is modeled in MATLAB/SIMULINK and its performance is investigated.
Chunhua Liu; Chau, K.T.; Diyun Wu; Shuang Gao,"Opportunities and Challenges of Vehicle-to-Home, Vehicle-to-Vehicle, Technologies," Proceedings of the IEEE, vol.101, no.11, pp.2409, 2427, Nov. 2013. and Vehicle-to-Grid
Z. Wang; S.Wang, “Grid Power Peak Shaving and Valley Filling Using Vehicle-to-Grid Sytems,” IEEE Trans. Power Delivery., vol. 28, no. 3, pp.1822–1829, July 2013.
Diyun Wu; Chunhua Liu; Shuang Gao, "Coordinated Control on a Vehicle–to-Grid System”, in IEEE Conference, 2010.
Yilmaz, M.; Krein, P.T., "Review of the Impact of Vehicle-to-Grid Technologies on Distribution Systems and Transactions on, vol.28, no.12, pp.5673, 5689, Dec. Electronics, IEEE
Willett Kempton; Jasna Tomić, “Vehicle-to-grid power fundamentals: Calculating capacity and net revenue”, Elsevier Journal of Power Sources, vol.144, no.1, pp. 279, June 2005.
Willett Kempton; Jasna Tomić, “Vehicle-to-grid power implementation: From stabilizing the grid to supporting large-scale renewable energy”, Elsevier Journal of Power Sources, vol. 144, no. 1, pp. 280-294, June 2005.
Christophe Guille; George Gross, “A conceptual framework for the vehicle-to-grid (V2G) implementation”, Elsevier Energy Policy, vol.37, no.11, pp. 4379-4390, November 2009.
E. I. Zountouridou; G.C.Kiokes; N.D.Hatziargyriou; N.K.Uzunogle, “An Evaluation Study of Wireless Access Technologies International Applications to Power Systems, Crete, Greece, 2011. on Intelligence Conference System
Santoshkumar; Udaykumar R.Y, “IEEE 802.16-2004
(WiMAX) Protocol for Grid Control Center and Aggregator Communication in V2G for Smart Grid Application”, Computational Intelligence and Computing Research, Madurai, India (2013). international Conference on Santoshkumar; Investigation
Aggregator and Electrical Vehicle Communication in Vehicle-to-Grid(V2G)”, IEEE Canadian Conference on Electrical and Computer Engineering, Toronto, Canada (2014). R.Y., Performance of WiMAX Protocol for Massimo Conti; Dario Fedeli; Marco Virgultil,
“Bluetooth(B4V2G) for Electrical Vehicle to Smart Grid Connection”, IEEE Intelligent Systems in Embedded Systems, pp. 13-18 (2011).
Kovacs A; Marples D; Schmidt; R., Morsztyn R; “Integrating EVs into International Conference on ITS Telecommunications (ITST), pp. 413 – 418 (2013). th
Cheol-soon Park; Eunjo Lee ; Sung-kwon Park, “Link adaptation layer of Home Plug Green PHY for V2G communication interface”, 18th Asia-Pacific Conference on Communications,pp.572-573 (2012).
Huei-Ru Tseng, “A Secure and Privacy-Preserving Communication Protocol for V2G Networks”, IEEE Wireless Communications and Networking Conference: Mobile and Wireless Networks, pp.2706-2711 (2012).
Huei-Ru Tseng, “On the Security of a Unique Batch Authentication Communications”, 12th International Conference on ITS Telecommunications,pp.280-83(2012). Vehicle-to-Grid
Mohammad Shahajahan; A. Q. M. Abdulla Hes -Shafi, “Analysis of Propagation Models for WiMAX at 3.5 GHz”, Technology, September(2009). Blekinge Institute of
Josip Milanovic; Rimac-Drlje S; Bejuk K, “Comparison of propagation model accuracy for WiMAX on 5GHz”, IEEE International conference on electronic circuits and systems, Morocco(2007).
V.S. Abhayawardhana; I.J. Wassel; D. Crosby; M.P. Sellers; M.G. Brown, “Comparison of empirical propagation path loss models for fixed wireless access systems”, Stockholm(2005). Technology Conference,
Vinko Erceg; Larry J. Greenstein; “An Empirically Based Path Loss Model for Wireless Channels in Suburban Environments”, IEEE Trans. Selected areas in communication, vol.17, no.7, pp.1205–1211(1999). J.G.Andrews; Arunabha Ghosh; Rias Muhamed,
Chunhua Liu; Chau, K.T.; Diyun Wu; Shuang Gao,"Opportunities and Challenges of Vehicle-to-Home, Vehicle-to-Vehicle, Technologies," Proceedings of the IEEE, vol.101, no.11, pp.2409, 2427, Nov. 2013. and Vehicle-to-Grid
Z. Wang; S.Wang, “Grid Power Peak Shaving and Valley Filling Using Vehicle-to-Grid Sytems,” IEEE Trans. Power Delivery., vol. 28, no. 3, pp.1822–1829, July 2013.
Diyun Wu; Chunhua Liu; Shuang Gao, "Coordinated Control on a Vehicle–to-Grid System”, in IEEE Conference, 2010.
Yilmaz, M.; Krein, P.T., "Review of the Impact of Vehicle-to-Grid Technologies on Distribution Systems and Transactions on, vol.28, no.12, pp.5673, 5689, Dec. Electronics, IEEE
Willett Kempton; Jasna Tomić, “Vehicle-to-grid power fundamentals: Calculating capacity and net revenue”, Elsevier Journal of Power Sources, vol.144, no.1, pp. 279, June 2005.
Willett Kempton; Jasna Tomić, “Vehicle-to-grid power implementation: From stabilizing the grid to supporting large-scale renewable energy”, Elsevier Journal of Power Sources, vol. 144, no. 1, pp. 280-294, June 2005.
Christophe Guille; George Gross, “A conceptual framework for the vehicle-to-grid (V2G) implementation”, Elsevier Energy Policy, vol.37, no.11, pp. 4379-4390, November 2009.
E. I. Zountouridou; G.C.Kiokes; N.D.Hatziargyriou; N.K.Uzunogle, “An Evaluation Study of Wireless Access Technologies International Applications to Power Systems, Crete, Greece, 2011. on Intelligence Conference System
Santoshkumar; Udaykumar R.Y, “IEEE 802.16-2004
(WiMAX) Protocol for Grid Control Center and Aggregator Communication in V2G for Smart Grid Application”, Computational Intelligence and Computing Research, Madurai, India (2013). international Conference on Santoshkumar; Investigation
Aggregator and Electrical Vehicle Communication in Vehicle-to-Grid(V2G)”, IEEE Canadian Conference on Electrical and Computer Engineering, Toronto, Canada (2014). R.Y., Performance of WiMAX Protocol for Massimo Conti; Dario Fedeli; Marco Virgultil,
“Bluetooth(B4V2G) for Electrical Vehicle to Smart Grid Connection”, IEEE Intelligent Systems in Embedded Systems, pp. 13-18 (2011).
Kovacs A; Marples D; Schmidt; R., Morsztyn R; “Integrating EVs into International Conference on ITS Telecommunications (ITST), pp. 413 – 418 (2013). th
Cheol-soon Park; Eunjo Lee ; Sung-kwon Park, “Link adaptation layer of Home Plug Green PHY for V2G communication interface”, 18th Asia-Pacific Conference on Communications,pp.572-573 (2012).
Huei-Ru Tseng, “A Secure and Privacy-Preserving Communication Protocol for V2G Networks”, IEEE Wireless Communications and Networking Conference: Mobile and Wireless Networks, pp.2706-2711 (2012).
Huei-Ru Tseng, “On the Security of a Unique Batch Authentication Communications”, 12th International Conference on ITS Telecommunications,pp.280-83(2012). Vehicle-to-Grid
Mohammad Shahajahan; A. Q. M. Abdulla Hes -Shafi, “Analysis of Propagation Models for WiMAX at 3.5 GHz”, Technology, September(2009). Blekinge Institute of
Josip Milanovic; Rimac-Drlje S; Bejuk K, “Comparison of propagation model accuracy for WiMAX on 5GHz”, IEEE International conference on electronic circuits and systems, Morocco(2007).
V.S. Abhayawardhana; I.J. Wassel; D. Crosby; M.P. Sellers; M.G. Brown, “Comparison of empirical propagation path loss models for fixed wireless access systems”, Stockholm(2005). Technology Conference,
Vinko Erceg; Larry J. Greenstein; “An Empirically Based Path Loss Model for Wireless Channels in Suburban Environments”, IEEE Trans. Selected areas in communication, vol.17, no.7, pp.1205–1211(1999). J.G.Andrews; Arunabha Ghosh; Rias Muhamed,
Kumar, S., & Yaragatti, U. R. (2015). Modeling and Comprehensive Analysis of WiMAX Protocol for Grid Control Center to Aggregator Communication in V2G. International Journal Of Renewable Energy Research, 5(1), 133-138.
AMA
Kumar S, Yaragatti UR. Modeling and Comprehensive Analysis of WiMAX Protocol for Grid Control Center to Aggregator Communication in V2G. International Journal Of Renewable Energy Research. Mart 2015;5(1):133-138.
Chicago
Kumar, Santosh, ve Udaykumar R Yaragatti. “Modeling and Comprehensive Analysis of WiMAX Protocol for Grid Control Center to Aggregator Communication in V2G”. International Journal Of Renewable Energy Research 5, sy. 1 (Mart 2015): 133-38.
EndNote
Kumar S, Yaragatti UR (01 Mart 2015) Modeling and Comprehensive Analysis of WiMAX Protocol for Grid Control Center to Aggregator Communication in V2G. International Journal Of Renewable Energy Research 5 1 133–138.
IEEE
S. Kumar ve U. R. Yaragatti, “Modeling and Comprehensive Analysis of WiMAX Protocol for Grid Control Center to Aggregator Communication in V2G”, International Journal Of Renewable Energy Research, c. 5, sy. 1, ss. 133–138, 2015.
ISNAD
Kumar, Santosh - Yaragatti, Udaykumar R. “Modeling and Comprehensive Analysis of WiMAX Protocol for Grid Control Center to Aggregator Communication in V2G”. International Journal Of Renewable Energy Research 5/1 (Mart 2015), 133-138.
JAMA
Kumar S, Yaragatti UR. Modeling and Comprehensive Analysis of WiMAX Protocol for Grid Control Center to Aggregator Communication in V2G. International Journal Of Renewable Energy Research. 2015;5:133–138.
MLA
Kumar, Santosh ve Udaykumar R Yaragatti. “Modeling and Comprehensive Analysis of WiMAX Protocol for Grid Control Center to Aggregator Communication in V2G”. International Journal Of Renewable Energy Research, c. 5, sy. 1, 2015, ss. 133-8.
Vancouver
Kumar S, Yaragatti UR. Modeling and Comprehensive Analysis of WiMAX Protocol for Grid Control Center to Aggregator Communication in V2G. International Journal Of Renewable Energy Research. 2015;5(1):133-8.