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Electric power distribution / Electric power transmission systems / Emerging technologies / Smart grid / Smart meter / Electricity meter / Internet privacy / Demand response / Privacy / Electric power / Energy / Technology


Privacy-Enhanced Bi-Directional Communication in the Smart Grid using Trusted Computing Andrew Paverd Andrew Martin
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Document Date: 2015-03-18 10:54:17

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File Size: 176,04 KB

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Company

Smart Grid Demand Response Systems / Future Home Networks / BT / Smart Grid M2M Networks / Wireless Sensor Networks / Trusted Computing Group / /

Continent

Europe / /

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Event

FDA Phase / /

Facility

Computer Science University of Oxford andrew.paverd@cs.ox.ac.uk Department / University of Oxford / Computer Science University of Oxford andrew.martin@cs.ox.ac.uk Oxford Internet Institute University / /

IndustryTerm

distributed network / attestable services / information processing / software binaries / anonymity networks / software takes / smart energy meters / privacy-enhancing protocols / complicated protocols / trustworthy computing / frequent energy consumption measurements / energy price information / distribution network operator / cryptographic co-processor / lower electricity use / communication protocol / software updates / Online Conference / grid protocols / information processing procedures / trust management / attestation protocols / demand bidding protocols / electricity markets / aggregation groups / energy / home energy management system / electricity / energy consumption / security protocol analysis tool / automated analysis tool / energy supplier / grid communication protocols / energy measurements / privacy-preserving billing protocols / data pseudonymization protocol / overall solution / demand bidding protocol / communication protocols / protocol analysis tool / particular protocol / challenge-response attestation protocol / energy price pt / typical web service / http /

Organization

Oxford andrew.martin@cs.ox.ac.uk Oxford Internet Institute University of Oxford ian.brown@oii.ox.ac.uk Abstract / Computer Science University of Oxford andrew.paverd@cs.ox.ac.uk Department / United States Department of Energy / Computer Science University of Oxford / University of Oxford / Institute for Computer Sciences / Social Informatics and Telecommunications Engineering / /

Person

B. Preneel / V / Andrew Martin Ian Brown / S. Halevi / T. Rabin / E. Demand Response Due / Event Publish / Andrew Paverd Andrew Martin Ian / /

Position

Demand Side Manager / adversary model for bi-directional smart grid communication / Private Data Analysis / /

Product

Casper/FDR tool / Casper/FDR protocol analysis tool / TC / Smart Grids / Casper/FDR / /

PublishedMedium

Lecture Notes in Computer Science / /

Technology

challenge-response attestation protocol / privacy-enhancing protocols / privacy-preserving billing protocols / grid protocols / cryptographic co-processor / grid communication protocols / privacypreserving attestation protocols / defined protocols / operating system / pdf / encryption / Cryptography / defined protocol / particular protocol / communication protocol / attestation protocol / data pseudonymization protocol / communication protocols / demand bidding protocols / demand bidding protocol / TC technologies / /

URL

www.cs.ox.ac.uk/people/andrew.paverd/tre/tre-smart-grid.pdf / http /

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