This book covers the recent research advancements in the area of charging strategies that can be employed to accommodate the anticipated high deployment of Plug-in Electric Vehicles (PEVs) in smart grids. Recent literature has focused on various potential issues of uncoordinated charging of PEVs and methods of overcoming such challenges. After an introduction to charging coordination paradigms of PEVs, this book will present various ways the coordinated control can be accomplished. These innovative approaches include hierarchical coordinated control, model predictive control, optimal control strategies to minimize load variance, smart PEV load management based on load forecasting, integrating renewable energy sources such as photovoltaic arrays to supplement grid power, using wireless communication networks to coordinate the charging load of a smart grid and using market price of electricity and customers payment to coordinate the charging load. Hence, this book proposes many new strategies proposed recently by the researchers around the world to address the issues related to coordination of charging load of PEVs in a future smart grid.
Abstract: This amendment enhances IEEE 802.20 Management Information Base (MIB) clauses to include additional information and MIB documentation (i.e., a discussion of security impacts, and cross references to the text for appropriate parameters within the MIB, itself) to conform with the applicable parts of the IETF's 2008 guidelines for MIBs. The amendment also corrects any errors, inconsistencies, and ambiguities associated with the MIB clause of IEEE Std 802.20-2008. Keywords: 802.20, Management Information Base, MIB.
Abstract: Extensions to IEEE Std 802.21-2008 for handovers with downlink only technologies is discussed in the amendment. Keywords: broadcast, downlink only, IEEE 802.21, IEEE 802.21b, media independent handover (MIH).
Abstract: Additional components of the IEEE 1900.4 system are defined in this amendment to enable mobile wireless access service in white space frequency bands without any limitation on used radio interface (physical and media access control layers, carrier frequency, etc.). Keywords: dynamic spectrum access, IEEE 1900.4, IEEE 1900.4a, mobile wireless access, white space frequency bands.