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DTSTAMP:20191108T173446Z
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DTSTART;TZID=US/Eastern:20191107T180000
DTEND;TZID=US/Eastern:20191107T193000
DESCRIPTION:Transactive Energy Systems leverage distributed control and eco
 nomic operational principles to dynamically balance the electrical demand 
 and supply within the electrical grid using advanced information and commu
 nication technologies. Distributed Ledger Technology (DLT\, in particular 
 Blockchain)\, is considered as a promising emerging solution that may tran
 sform future business and social consumer behavior in several industrial s
 egments. DLT and decentralization of the energy sector are two disruptive 
 components of the future of the transactive power markets. Next generation
  transactive power systems will be more autonomous and democratic to a gre
 ater extent with the help of new derivative technologies at a high degree 
 of complexity and flexibility.\n\nSimilar to other emerging technology fie
 lds\, there is also a strong need to create standards in the Energy Blockc
 hain domain. With this proposition\, the IEEE Standards Association (SA) c
 reated\, in September 2018\, the IEEE P2418.5 Blockchain/DLT in Energy Sta
 ndards Working Group\, to address related reference architecture\, taxonom
 y\, scalability\, cyber-security\, interoperability aspects and use cases.
  Technology mapping use case segmentation and system level modelling of th
 e entire energy blockchain landscape are the critical missions to accompli
 sh a successful standardization framework.\n\nThe typical segmentation of 
 blockchain application in the energy sector focuses primarily on two axes\
 , namely\, (a) physical area of use case and applications such as “grid 
 transactions”\, “peer-to-peer energy trading” and “electric vehicl
 es”\, among others\, and (b) key functionalities of blockchain technolog
 y\, such as decentralized transactions that guarantee validity and provide
  auditability and data recoding with proof of existence and immutability.\
 n\nSpeaker(s): Umit Cali\, \n\nAgenda: \nPizza and drinks to be served 15 
 minutes prior to start of the lecture.\n\nRoom: 1332\, Bldg: Energy Produc
 tion & Infrastructure Center (EPIC)\, 8700 Phillips Blvd.\, UNC Charlotte\
 , Charlotte\, North Carolina\, United States\, 28223
LOCATION:Room: 1332\, Bldg: Energy Production & Infrastructure Center (EPIC
 )\, 8700 Phillips Blvd.\, UNC Charlotte\, Charlotte\, North Carolina\, Uni
 ted States\, 28223
ORGANIZER:b.h.chowdhury01@gmail.com
SEQUENCE:2
SUMMARY:Technical Talk: Technical\, Business and Legislative Aspects of Ene
 rgy DLT/Blockchain
URL;VALUE=URI:https://events.vtools.ieee.org/m/209533
X-ALT-DESC:Description: <br /><p>Transactive Energy Systems leverage distri
 buted control and economic operational principles to dynamically balance t
 he electrical demand and supply within the electrical grid using advanced 
 information and communication technologies. Distributed Ledger Technology 
 (DLT\, in particular Blockchain)\, is considered as a promising emerging s
 olution that may transform future business and social consumer behavior in
  several industrial segments. DLT and decentralization of the energy secto
 r are two disruptive components of the future of the transactive power mar
 kets. Next generation transactive power systems will be more autonomous an
 d democratic to a greater extent with the help of new derivative technolog
 ies at a high degree of complexity and flexibility.</p>\n<p>Similar to oth
 er emerging technology fields\, there is also a strong need to create stan
 dards in the Energy Blockchain domain. With this proposition\, the IEEE St
 andards Association (SA) created\, in September 2018\, the IEEE P2418.5 Bl
 ockchain/DLT in Energy Standards Working Group\, to address related refere
 nce architecture\, taxonomy\, scalability\, cyber-security\, interoperabil
 ity aspects and use cases. Technology mapping use case segmentation and sy
 stem level modelling of the entire energy blockchain landscape are the cri
 tical missions to accomplish a successful standardization framework.</p>\n
 <p>The typical segmentation of blockchain application in the energy sector
  focuses primarily on two axes\, namely\, (a) physical area of use case an
 d applications such as &ldquo\;grid transactions&rdquo\;\, &ldquo\;peer-to
 -peer energy trading&rdquo\; and &ldquo\;electric vehicles&rdquo\;\, among
  others\, and (b) key functionalities of blockchain technology\, such as d
 ecentralized transactions that guarantee validity and provide auditability
  and data recoding with proof of existence and immutability.</p><br /><br 
 />Agenda: <br /><p>Pizza and drinks to be served 15 minutes prior to start
  of the lecture.</p>
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