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IEEE P2807.3 2022

IEEE P2807.3 2022

$81.25

IEEE Approved Draft Guide for Electric-Power-Oriented Knowledge Graph

Published By Publication Date Number of Pages
IEEE 2022 142
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New IEEE Standard – Active – Draft. This guide defines guidelines for knowledge graphs (KGs) in electric-power fields. The guide specifies data and schema requirements, an Electric-Power-Oriented KG construction process, KG integration, performance evaluation and application scenarios. This guide helps institutions and enterprises that develop KGs in the electric-power field follow a general implementation method. In addition, it may help the suppliers provide compatible KGs under the unified power knowledge model and interface specifications. With this guide, electric-power KGs can be simply and efficiently combined and integrated, forming a more complete and accurate knowledge service ecosystem in the power industry.

PDF Catalog

PDF Pages PDF Title
1 IEEE Std 2807.3™-2022 Front cover
2 Title page
4 Important Notices and Disclaimers Concerning IEEE Standards Documents
8 Participants
10 Introduction
11 Contents
12 1. Overview
1.1 Scope
1.2 Purpose
1.3 Word usage
13 2. Normative references
3. Definitions, acronyms, and abbreviations
3.1 Definitions
15 3.2 Acronyms and abbreviations
4. Framework of electric-power-oriented knowledge graph
4.1 Main activities
16 4.2 Roles
19 5. Electric-power-oriented knowledge graph model
20 5.1 Electric-power-oriented knowledge graph model framework
5.2 Electric-power-oriented knowledge graph concept layer
22 5.3 Electric-power-oriented knowledge graph instance layer
23 5.4 Naming rules for electric power ontology definition meta-models
5.5 Entity type definition
24 5.6 Relation type definition
5.7 Electric-power-oriented knowledge graph subject domain
5.8 Principles for extension of electric-power-oriented knowledge graph ontology definition meta-models
25 6. Electric-power-oriented knowledge graph construction technology
6.1 Overview
6.2 Electric-power-oriented knowledge modeling
26 6.3 Electric-power-oriented knowledge acquisition
6.4 Electric-power-oriented knowledge storage
27 6.5 Electric-power-oriented knowledge fusion
28 6.6 Electric-power-oriented knowledge computing
7. Electric-power-oriented knowledge graph application
7.1 Overview
7.2 Technology-oriented applications of electric-power-oriented knowledge graphs
41 7.3 Scenario-oriented applications of electric-power-oriented knowledge graphs
52 8. Requirements for electric-power-oriented knowledge graph system
8.1 Composition of electric-power-oriented knowledge graph system
8.2 Electric-power-oriented knowledge graph basic service subsystem
54 8.3 Electric-power-oriented knowledge graph construction subsystem
56 8.4 Electric-power-oriented knowledge graph application subsystem
57 8.5 Platform support subsystem
58 8.6 Knowledge exchange subsystem
59 Annex A (informative) Bibliography
60 Annex B (informative) IEEE EPKG model
B.1 Model version
B.2 Subject domain
136 Annex C (informative) EPKG application examples
C.1 Power distribution operation command system
137 C.2 Integrated energy service system
138 C.3 Customer service support system
139 C.4 Electric power equipment warehouse management system
140 C.5 Power generation production management system
142 Back cover

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IEEE P2807.3 2022
$81.25