This project specified the data system functionality and architecture that would fulfilThe information and service requirements of a smart energy system. This included data security and privacy aspects. Hitachi Europe and energy & sustainability consultantsDNVKema worked independently on two £100,000 contracts to identify any data system constraints that need to be incorporated into smart energy systems.The projects were launched in February 2013.The envisaged ETI Smart Systems and Heat system will depend on Information and Communications Technology (ICT) for its efficient design, operation and management.The ICT system will need to provide functionality right along the energy delivery chain: from supply to the end consumer. It will also need to support commercial activities such as billing, and to support academic analysis and review of the system during trials and proving.
The envisaged ETI Smart Systems and Heat system will depend on Information and Communications Technology (ICT) for its efficient design, operation and management.The ICT system will need to provide functionality right along the energy delivery chain: from supply to the end consumer. It will also need to support commercial activities such as billing, and to support academic analysis and review of the system during trials and proving.The purpose of Work Area 3 (WA3) is to specify a data architecture that fulfils the information and service requirements of the smart energy system (including data security and privacy).
The principal objective achieved within the reports identification from other relevant projects of architectural techniques that can be applied to the SSH data architecture design and to identify and assess UK and EU directives, protocols,and legislative initiativesthat may impact upon delivery of the SSH Programme
A formal analysis methodology based on defined Research Questions is used as the basis of analysis. This methodology permits the analysis of initiatives against defined quality aspects and is based on software engineering best practice. Each initiative is analysed to determine how the designers sought to achieve a specified quality aspect (such as performance or reliability) using known design techniques.From an initial extensive list of initiatives the following are identified as directly relevant to the SSHP:HiPerDNOOpenNodeNIST IR 7628 Smart Grid Cyber SecurityPrototype Island Smart GridAutonomous Decentralised Transport Operation C...
The envisaged ETI Smart Systems and Heat system will depend on Information and Communications Technology (ICT) for its efficient design, operation and management.The ICT system will need to provide functionality right along the energy delivery chain: from supply to the end consumer. It will also need to support commercial activities such as billing, and to support academic analysis and review of the system during trials and proving.The purpose of Work Area 3 (WA3) is to specify a data architecture that fulfils the information and service requirements of the smart energy system (including data security and privacy).
The principal objective achieved within the reports identification from other relevant projects of architectural techniques that can be applied to the SSH data architecture design and to identify and assess UK and EU directives, protocols,and legislative initiativesthat may impact upon delivery of the SSH Programme
A formal analysis methodology based on defined Research Questions is used as the basis of analysis. This methodology permits the analysis of initiatives against defined quality aspects and is based on software engineering best practice. Each initiative is analysed to determine how the designers sought to achieve a specified quality aspect (such as performance or reliability) using known design techniques.From an initial extensive list of initiatives the following are identified as directly relevant to the SSHP:HiPerDNOOpenNodeNIST IR 7628 Smart Grid Cyber SecurityPrototype Island Smart GridAutonomous Decentralised Transport Operation C...