BS IEC SRD 62913-1:2022 – TC:2023 Edition
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Tracked Changes. Generic smart grid requirements – Specific application of the use case methodology for defining generic smart grid requirements according to the IEC systems approach
| Published By | Publication Date | Number of Pages |
| BSI | 2023 | 150 |
PDF Catalog
| PDF Pages | PDF Title |
|---|---|
| 1 | 30471280 |
| 91 | A-30441007 |
| 92 | undefined |
| 94 | CONTENTS |
| 97 | FOREWORD |
| 99 | INTRODUCTION |
| 100 | 1 Scope 2 Normative references 3 Terms, definitions and abbreviated terms 3.1 Terms and definitions |
| 104 | 3.2 Abbreviated terms Tables Table 1 – Differences between business use cases and system use cases |
| 105 | 4 Systems approach 4.1 A systems perspective 4.2 Applying the IEC systems approach to smart energy |
| 107 | 4.3 Main areas of work |
| 108 | 4.4 Breaking down the scope 4.5 Link with some existing conceptual models |
| 109 | 5 Specific application of use case methodology for defining generic smart grid requirements 5.1 General 5.2 Why the use case methodology is particularly adapted to smart grid 5.2.1 General Table 2 – Links between SGAM and IEC SRD 62913 series domains |
| 110 | 5.2.2 Linking the use case methodology with existing frameworks Figures Figure 1 – The GridWise Architecture Council’s model (NIST, 2012) |
| 111 | Figure 2 – Simplification of the GWAC model (CEN-CENELEC-ETSI, 2014) Figure 3 – Smart grid plane domains and hierarchical zones |
| 112 | Figure 4 – The Smart Grid Architecture Model (CEN-CENELEC-ETSI, 2014) |
| 113 | 5.2.3 Notion of role Figure 5 – Interactions between the use case methodology and the Smart GridArchitecture Model (based on CEN-CENELEC-ETSI, 2014) |
| 114 | 5.3 Applying the use case methodology to define generic smart grid requirements 5.3.1 A customer-centric and business-processes-driven approach |
| 115 | Figure 6 – Defining smart grid requirements methodology |
| 116 | Figure 7 – Point of view of a domain role |
| 117 | Figure 8 – The first two levels of detail used to capture genericsmart grid requirements |
| 118 | 5.3.2 Generic smart grid requirements Figure 9 – The three levels of detail used to capture generic smart grid requirements |
| 120 | Figure 10 – Generic smart grid functional requirements and non-functional requirements captured in use cases |
| 122 | 5.4 Approach used to elaborate a consolidated smart grid role model Figure 11 – Example of representation of a domain’s role model |
| 123 | 6 UML profile for modelling smart grid use cases 6.1 A formal approach of use cases modelling 6.1.1 General 6.1.2 Key principles Figure 12 – Example of representation of relations between roles |
| 124 | 6.2 UML-driven top-down approach methodology 6.2.1 Formalism and objectives 6.2.2 Modelling language |
| 125 | 6.2.3 Scope and information type classification: diagrams and main elements Figure 13 – Four-layer model architecture |
| 126 | 6.2.4 Key benefits |
| 128 | 6.2.5 Types of diagrams and views Figure 14 – UML use case profile for the IEC SRD 62913 series aligned with the IEC 62559 series |
| 129 | Figure 15 – Use case overview diagram Figure 16 – Domain overview diagram |
| 130 | 6.3 IEC use cases UML profile concepts Figure 17 – BUC-SUC relations diagram |
| 131 | Table 3 – Use cases concepts |
| 132 | 7 UML modelling diagrams Figure 18 – Mapping between use case concepts and architecture concepts |
| 133 | Figure 19 – Domain overview concepts UML model Figure 20 – Use case overview concepts UML model |
| 134 | Figure 21 – Scenario overview concepts UML model |
| 135 | Figure 22 – Activity overview concepts UML model Figure 23 – Requirement overview concepts UML model |
| 136 | Annex A (informative)Existing Actors Lists |
| 137 | Annex B (informative)Content of the use case mapped on IEC 62559-2 template B.1 Description of the use case B.1.1 Name of use case B.1.2 Version management B.1.3 Scope and objectives of use case B.1.4 Narrative of use case |
| 138 | B.1.5 Key performance indicators (KPI) B.1.6 Use case conditions B.1.7 Further information to the use case for classification / mapping B.1.8 General remarks B.2 Diagrams of use case |
| 139 | B.3 Technical details B.3.1 Actors B.3.2 References B.4 Step by step analysis of use case B.4.1 Overview of scenarios |
| 140 | B.4.2 Steps of scenarios B.5 Information exchanged B.6 Requirements (optional) B.7 Common terms and definitions |
| 141 | B.8 Custom information (optional) B.9 IEC 62559-2 UML Modelling Figure C.1 – Use case mapping to IEC 62559-2 |
| 142 | Figure C.2 – Use case mapping to IEC 62559-2 – Scenario and activities |
| 143 | Annex C (informative)Example of telecommunications related non-functional requirements Table C.1 – Example of telecommunications related non-functional requirements |
| 144 | Annex D (informative)Existing Smart Grid Conceptual Models Figure D.1 – NIST/SGIP Smart Grid Conceptual Model Table D.1 – NIST/SGIP domains |
| 145 | Figure D.2 – M490 domains Table D.2 – SGAM domains |
| 146 | Bibliography |
