This book constitutes the proceedings of the second Asia Pacific Requirements Engineering Symposium, APRES 2016, held in Nagoya, Japan, in November 2016.
The 7 full papers presented together with three short papers, were carefully reviewed and selected from 14 submissions. The papers are organized in topical sections on requirements traceability and prioritization; requirements modeling and process for quality; requirements validation; requirements analysis.

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nexusstc/Requirements Engineering Toward Sustainable World : Third Asia-Pacific Symposium, APRES 2016, Nagoya, Japan, November 10-12, 2016, Proceedings/d2c946b8f8a10a396f81c9213da137fa.pdf

scihub/10.1007/978-981-10-3256-1.pdf

zlib/Computers/Seok-Won Lee, Takako Nakatani (eds.)/Requirements Engineering Toward Sustainable World : Third Asia-Pacific Symposium, APRES 2016, Nagoya, Japan, November 10-12, 2016, Proceedings_2804905.pdf

Requirements engineering towards sustainable world : Third Asia-Pacific Symposium, APRES 2016, Nagoya, Japan, November 10-12, 2016, Proceedings

436452_Print.indd

Asia Pacific Requirements Engineering Symposium

Seok Won Lee; Takako Nakatani

Joseph George

0002624

Springer Science + Business Media Singapore Pte Ltd

Springer Nature Singapore Pte Ltd

Communications in computer and information science, 671, Singapore, 2016

1st ed, Place of publication not identified, 2016

Springer Nature, Singapore, 2016

Singapore, Singapore

1st ed. 2016, 2016

Nov 08, 2016

1, 20161107

lg1582342

producers:
Acrobat Distiller 10.0.0 (Windows)

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Source title: Requirements Engineering Toward Sustainable World: Third Asia-Pacific Symposium, APRES 2016, Nagoya, Japan, November 10-12, 2016, Proceedings (Communications in Computer and Information Science (671))

Preface 6
Organization 8
Keynote Papers 11
In Requirements Engineering, All Roads Lead to ROME 12
Vehicle New Capabilities as a Social Infrastructure 13
Strategy Rules Five Timeless Lessons from Bill Gates, Andy Grove, and Steve Jobs 14
The Future of Requirements Engineering 15
Sensing Technologies Required for ADAS/AD Applications 16
Machine Learning as a Programming Paradigm and its Implications to Requirements Engineering 17
REBOK and Requirements Engineering for the Digital Business Age 18
Contents 19
Requirements Traceability and Prioritization 21
Ensuring Traceability in Modeling Requirement Using Ontology Based Approach 22
Abstract 22
1 Introduction 22
2 Background and Related Works 23
2.1 Requirements Traceability 23
2.2 Scenario-Based Approach 25
2.3 Information Retrieval Technique in Requirements Traceability 25
2.4 Ontology-Based Approach 26
3 Proposed Approach 26
3.1 Extracting Keyword and Defining Requirements 27
3.2 Mapping Requirements 28
4 Case Study and Implementation 28
4.1 Smart Grid System 28
4.2 Linking Requirements Ontology and Smart Grid Ontology 29
4.3 Implementation and Discussion 31
5 Conclusion and Future Work 34
Acknowledgement 34
References 34
Situation-Oriented Evaluation and Prioritization of Requirements 37
Abstract 37
1 Introduction 37
2 Related Work 38
2.1 Direct Stakeholder Collaboration Based Approaches 38
2.2 Search Based Approaches 39
2.3 Machine Learning Based Approaches 40
2.4 External Factors 40
3 Situations, Situation-Transition Structure and Requirements Elicitation Using Situation-Transition Structure 41
3.1 Situations 41
3.2 Situation-Transition Structure 41
3.3 Requirements Elicitation Using Situation-Transition Structure 42
4 Requirements Evaluation and Prioritization Using the Situation-Transition Structure 43
4.1 Importance Factor of Requirements 43
4.2 Risk Factor of Requirements 44
4.3 Requirements Prioritization 46
5 Cooperative Research Environment (CoRE) – A Case Study 46
5.1 Evaluating the Individual Requirement Importance Factor 47
5.2 Evaluating the Risk Factor 48
5.3 Prioritizing the Requirements 49
5.4 Prioritizing the Requirements Based on Individual End-User 49
6 Discussion 50
7 Conclusion 51
References 51
Requirements Prioritization Decision Rule Improvement for Software Product Line Evolution 53
1 Introduction 53
2 Problem Definition and Solution Approach 54
2.1 Core Assets Model Relationships 54
2.2 Lead Time for Model0 55
2.3 Moldel0 Analysis 56
2.4 Problem Definition and Solution Approach 57
3 Method for Managing Requirements Prioritization Decision Rule 57
3.1 Extracting Concrete Knowledge 57
3.2 Decision Rules and Application Processes 57
3.3 Meta-model for Requirements Prioritization 59
3.4 Meta-model Utilization Process 60
3.5 Launching Process 60
3.6 Improvement Process 61
4 Evaluation 62
4.1 Evaluation Method 62
4.2 Applied Rules 62
4.3 Duration for Requirements Definition 63
4.4 Cost Analysis 64
4.5 Improvement of Rules 65
4.6 Launching Decision Rules for Other Projects 65
5 Conclusion 67
References 67
Requirements Modeling and Process for Quality 69
Incorporating Sustainability Design in Requirements Engineering Process: A Preliminary Study 70
Abstract 70
1 Introduction 70
2 Background and Related Works 71
2.1 Sustainability in Software Engineering 71
2.2 Capturing Sustainability Requirements 72
3 Proposed Approach 72
3.1 Defining Sustainability Goals 74
3.2 Structuring Sustainability Requirements 74
3.3 Sustainability Requirements Trade-Off Analysis 75
3.4 Runtime Meta Model 76
4 Result and Analysis 77
4.1 Case Study 77
4.2 Implementation 78
5 Threats of Validity 81
6 Conclusion 82
Acknowledgment 83
References 83
MOYA: Model-Oriented Methodology for Your Awareness 85
Abstract 85
1 Introduction 85
2 MOYA: Model-Oriented Methodology for Your Awareness 86
2.1 Approach 86
2.2 Procedures and Deliverables 87
3 Case Study 92
3.1 Nature of Project 92
3.2 Practice of MOYA 92
3.3 Feedbacks from Stakeholders 93
4 Discussions 94
4.1 Effectiveness of MOYA 94
4.2 Limitations of MOYA 94
4.3 Capability for Practice of MOYA 95
5 Summary 95
References 95
2-dip-dfs: Algorithm to Detect Conflict Between Two Goal Selection Criteria 96
1 Introduction 96
2 Overview of GORE 97
2.1 Definitions of Terms 99
2.2 Definition of Symbols 99
2.3 Contribution Value 100
2.4 Preference Matrix 100
2.5 Validity of Customers' Needs 101
2.6 Metric to Detect Conflict 103
3 2-dip-dfs 103
4 Evaluation Experiment 106
5 Discussion 106
6 Conclusions and Future Work 109
References 109
Requirements Validation 111
Automated Support to Capture and Validate Security Requirements for Mobile Apps 112
Abstract 112
1 Introduction 112
2 Background 113
2.1 Test Driven Development (TDD) 113
2.2 Essential Use Cases (EUCs) 113
2.3 Essential User Interface (EUI) 114
2.4 SecEUC and SecEUI 115
3 Our Approach 115
3.1 Mobile SecAttributes Pattern Library 117
3.2 Mobile Security Pattern Library 117
3.3 Test Prioritization Using Fuzzy Logic 117
4 Implementation 121
5 Evaluation 122
5.1 Accuracy Test 122
5.2 Usability Study 123
5.3 Expert Review 124
6 Related Work 125
7 Summary 126
Acknowledgement 126
References 126
A Template-Based Test-Authoring Tool to Write Quality Tests for Requirements Validation 128
Abstract 128
1 Introduction 128
2 Background and Related Works 129
2.1 Test Requirements and Test Cases 129
2.2 Template Based Approach 129
3 Our Approach 130
4 Usage Example 132
5 Evaluation and Result 133
6 Conclusion and Future Works 134
Acknowledgment 134
References 135
Requirements Analysis 136
A Digital Business Analysis Method 137
Abstract 137
1 Introduction 137
2 Related Works 138
3 Approach 138
4 Digital Business Analysis Method 139
4.1 DBA Framework 139
4.2 Enterprise Architecture Model 140
4.3 Responsibility Model 140
4.4 DBA Process Model 141
4.5 Collaboration Model 142
5 Evaluation and Discussion 143
5.1 RQ1: Evaluation of the Proposed DBA Process 143
5.2 RQ2: Comparison with BABOK Tasks 143
6 Conclusions 144
Acknowledgement 144
References 145
Integrated Framework for Software Requirements Analysis and Its Support Tool 146
Abstract 146
1 Introduction 146
2 Research Question 147
3 Integrated Framework for Software Requirements Analysis 147
4 Case Study Implementation 148
5 Support Tool 150
6 Conclusion and Future Work 153
References 153
Author Index 155

Front Matter....Pages I-XXIV
Front Matter....Pages 1-1
Ensuring Traceability in Modeling Requirement Using Ontology Based Approach....Pages 3-17
Situation-Oriented Evaluation and Prioritization of Requirements....Pages 18-33
Requirements Prioritization Decision Rule Improvement for Software Product Line Evolution....Pages 34-49
Front Matter....Pages 51-51
Incorporating Sustainability Design in Requirements Engineering Process: A Preliminary Study....Pages 53-67
MOYA: Model-Oriented Methodology for Your Awareness....Pages 68-78
2-dip-dfs: Algorithm to Detect Conflict Between Two Goal Selection Criteria....Pages 79-93
Front Matter....Pages 95-95
Automated Support to Capture and Validate Security Requirements for Mobile Apps....Pages 97-112
A Template-Based Test-Authoring Tool to Write Quality Tests for Requirements Validation....Pages 113-120
Front Matter....Pages 121-121
A Digital Business Analysis Method....Pages 123-131
Integrated Framework for Software Requirements Analysis and Its Support Tool....Pages 132-140
Back Matter....Pages 141-141

This book constitutes the proceedings of the Third Asia Pacific Requirements Engineering Symposium, APRES 2016, held in Nagoya, Japan, in November 2016. The 7 full papers presented together with three short papers, were carefully reviewed and selected from 14 submissions. The papers are organized in topical sections on requirements traceability and prioritization; requirements modeling and process for quality; requirements validation; requirements analysis.

2016-11-20