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IEEE Vision for Smart Grid Control: 2030 and Beyond Roadmap

IEEE Smart Grid Research: Control Systems: 2013 10 24

Zusammenfassung:

- Active. This roadmaps parent document, IEEE Vision for Smart Grid Controls: 2030 and Beyond, discusses many topics that outline the evolution of the Smart Grid and the opportunities and challenges that it presents for control, ranging from generators to consumers, from planning to real-time operation, from current practice to scenarios in 2050 in the grid and all of its subsystems. Chapter 5 of the parent document focuses on major research challenges across the entire grid and the emerging control themes. As pointed out in the reference model for the vision, IEEE Vision for Smart Grid Controls: 2030 and Beyond Reference Model, in order to realize this vision, research needs to be carried out to address all of these challenges. In this document, we provide a roadmap together with time markers for each of these challenges. For Corporate or Institutional Access, request a custom quote for your organization at www.ieee.org/smartgridresearch

Zusammenfassung
Produktdetails
Produkttyp: Norm
Seiten: 12
Sprache: E
Herausgeber: IEEE
Suchbegriffe: autotransformers , distribution transformers , electrical requirements , mechanical requirements , power transformers , regulating transformers , autotransformers , distribution transformers , electrical requirements , mechanical requirements , power transformers , regulating transformers , bedside , IEEE 11073 , IEEE Std 802.3-2008 , Infrared Data Association (IrDA) , legacy device , medical device , medical device communications , MIB , patient , SNTP , autotransformers , distribution transformers , electrical requirements , mechanical requirements , power transformers , regulating transformers , bedside , IEEE 11073 , IEEE Std 802.3-2008 , Infrared Data Association (IrDA) , legacy device , medical device , medical device communications , MIB , patient , SNTP , Class 1E power systems , IEEE 308 , nuclear power station design , nuclear safety , autotransformers , distribution transformers , electrical requirements , mechanical requirements , power transformers , regulating transformers , bedside , IEEE 11073 , IEEE Std 802.3-2008 , Infrared Data Association (IrDA) , legacy device , medical device , medical device communications , MIB , patient , SNTP , Class 1E power systems , IEEE 308 , nuclear power station design , nuclear safety , functional tests , IEEE 338 , periodic testing , risk-informed testing , surveillance testing , autotransformers , distribution transformers , electrical requirements , mechanical requirements , power transformers , regulating transformers , bedside , IEEE 11073 , IEEE Std 802.3-2008 , Infrared Data Association (IrDA) , legacy device , medical device , medical device communications , MIB , patient , SNTP , Class 1E power systems , IEEE 308 , nuclear power station design , nuclear safety , functional tests , IEEE 338 , periodic testing , risk-informed testing , surveillance testing , C++ , computer languages , digital systems , discrete event simulation , electronic design automation , electronic system level , electronic systems , embedded software , fixed-point , hardware description language , hardware design , hardware verification , IEEE 1666 , SystemC , system modeling , system-on-chip , transaction level , autotransformers , distribution transformers , electrical requirements , mechanical requirements , power transformers , regulating transformers , bedside , IEEE 11073 , IEEE Std 802.3-2008 , Infrared Data Association (IrDA) , legacy device , medical device , medical device communications , MIB , patient , SNTP , Class 1E power systems , IEEE 308 , nuclear power station design , nuclear safety , functional tests , IEEE 338 , periodic testing , risk-informed testing , surveillance testing , C++ , computer languages , digital systems , discrete event simulation , electronic design automation , electronic system level , electronic systems , embedded software , fixed-point , hardware description language , hardware design , hardware verification , IEEE 1666 , SystemC , system modeling , system-on-chip , transaction level , cable ampacity , cable maintenance , cable testing , conductors , field testing , IEEE 1017 , submersible pump cable , autotransformers , distribution transformers , electrical requirements , mechanical requirements , power transformers , regulating transformers , bedside , IEEE 11073 , IEEE Std 802.3-2008 , Infrared Data Association (IrDA) , legacy device , medical device , medical device communications , MIB , patient , SNTP , Class 1E power systems , IEEE 308 , nuclear power station design , nuclear safety , functional tests , IEEE 338 , periodic testing , risk-informed testing , surveillance testing , C++ , computer languages , digital systems , discrete event simulation , electronic design automation , electronic system level , electronic systems , embedded software , fixed-point , hardware description language , hardware design , hardware verification , IEEE 1666 , SystemC , system modeling , system-on-chip , transaction level , cable ampacity , cable maintenance , cable testing , conductors , field testing , IEEE 1017 , submersible pump cable , ampacity ratings , assembly , cable construction , cable testing , EPDM , EPR , field testing , IEEE 1018 , submersible pump cable , autotransformers , distribution transformers , electrical requirements , mechanical requirements , power transformers , regulating transformers , bedside , IEEE 11073 , IEEE Std 802.3-2008 , Infrared Data Association (IrDA) , legacy device , medical device , medical device communications , MIB , patient , SNTP , Class 1E power systems , IEEE 308 , nuclear power station design , nuclear safety , functional tests , IEEE 338 , periodic testing , risk-informed testing , surveillance testing , C++ , computer languages , digital systems , discrete event simulation , electronic design automation , electronic system level , electronic systems , embedded software , fixed-point , hardware description language , hardware design , hardware verification , IEEE 1666 , SystemC , system modeling , system-on-chip , transaction level , cable ampacity , cable maintenance , cable testing , conductors , field testing , IEEE 1017 , submersible pump cable , ampacity ratings , assembly , cable construction , cable testing , EPDM , EPR , field testing , IEEE 1018 , submersible pump cable , ampacity ratings , assembly , cable construction , cable testing , electric submersible pump , ESP cable , field cable testing , IEEE 1019 , submersible pump cable , testing polypropylene , autotransformers , distribution transformers , electrical requirements , mechanical requirements , power transformers , regulating transformers , bedside , IEEE 11073 , IEEE Std 802.3-2008 , Infrared Data Association (IrDA) , legacy device , medical device , medical device communications , MIB , patient , SNTP , Class 1E power systems , IEEE 308 , nuclear power station design , nuclear safety , functional tests , IEEE 338 , periodic testing , risk-informed testing , surveillance testing , C++ , computer languages , digital systems , discrete event simulation , electronic design automation , electronic system level , electronic systems , embedded software , fixed-point , hardware description language , hardware design , hardware verification , IEEE 1666 , SystemC , system modeling , system-on-chip , transaction level , cable ampacity , cable maintenance , cable testing , conductors , field testing , IEEE 1017 , submersible pump cable , ampacity ratings , assembly , cable construction , cable testing , EPDM , EPR , field testing , IEEE 1018 , submersible pump cable , ampacity ratings , assembly , cable construction , cable testing , electric submersible pump , ESP cable , field cable testing , IEEE 1019 , submersible pump cable , testing polypropylene , power line communication , PLC , medium access control , MAC , physical layer , PHY , IFFT OFDM , narrow band , PRIME , G3-PLC , coexistence , autotransformers , distribution transformers , electrical requirements , mechanical requirements , power transformers , regulating transformers , bedside , IEEE 11073 , IEEE Std 802.3-2008 , Infrared Data Association (IrDA) , legacy device , medical device , medical device communications , MIB , patient , SNTP , Class 1E power systems , IEEE 308 , nuclear power station design , nuclear safety , functional tests , IEEE 338 , periodic testing , risk-informed testing , surveillance testing , C++ , computer languages , digital systems , discrete event simulation , electronic design automation , electronic system level , electronic systems , embedded software , fixed-point , hardware description language , hardware design , hardware verification , IEEE 1666 , SystemC , system modeling , system-on-chip , transaction level , cable ampacity , cable maintenance , cable testing , conductors , field testing , IEEE 1017 , submersible pump cable , ampacity ratings , assembly , cable construction , cable testing , EPDM , EPR , field testing , IEEE 1018 , submersible pump cable , ampacity ratings , assembly , cable construction , cable testing , electric submersible pump , ESP cable , field cable testing , IEEE 1019 , submersible pump cable , testing polypropylene , power line communication , PLC , medium access control , MAC , physical layer , PHY , IFFT OFDM , narrow band , PRIME , G3-PLC , coexistence , commercial grade item , diversity , safety systems , software , software tools , software verification and validation , autotransformers , distribution transformers , electrical requirements , mechanical requirements , power transformers , regulating transformers , bedside , IEEE 11073 , IEEE Std 802.3-2008 , Infrared Data Association (IrDA) , legacy device , medical device , medical device communications , MIB , patient , SNTP , Class 1E power systems , IEEE 308 , nuclear power station design , nuclear safety , functional tests , IEEE 338 , periodic testing , risk-informed testing , surveillance testing , C++ , computer languages , digital systems , discrete event simulation , electronic design automation , electronic system level , electronic systems , embedded software , fixed-point , hardware description language , hardware design , hardware verification , IEEE 1666 , SystemC , system modeling , system-on-chip , transaction level , cable ampacity , cable maintenance , cable testing , conductors , field testing , IEEE 1017 , submersible pump cable , ampacity ratings , assembly

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