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Workshop videos for requirements communication


Shared understanding of requirements between stakeholders and the development team is a critical success factor for requirements engineering. Workshops are an effective means for achieving such shared understanding. Stakeholders and team representatives can meet and discuss what a planned software system should be and how it should support achieving stakeholder goals. However, some important intended recipients of the requirements are often not present in such workshops: the developers. Thus, they cannot benefit from the in-depth understanding of the requirements and of the rationales for these requirements that develops during the workshops. The simple handover of a requirements specification hardly compensates the rich requirements understanding that is needed for the development of an acceptable system. To compensate the lack of presence in a requirements workshop, we propose to record that requirements workshop on video. If workshop participants agree to be recorded, a video is relatively simple to create and can capture much more aspects about requirements and rationales than a specification document. This paper presents the workshop video technique and a phenomenological evaluation of its use for requirements communication from the perspective of software developers. The results show how the technique was appreciated by observers of the video, present positive and negative feedbacks from the observers, and lead to recommendations for implementing the technique in practice.

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  1. Glinz M, Wieringa R (2007) Stakeholders in requirements engineering. IEEE Softw 24:18–20

    Article  Google Scholar 

  2. Glinz M, Fricker S (2014) On shared understanding in software engineering: an essay. Comput Sci Res Dev

  3. Fricker S (2009) Pragmatic requirements communication: the handshaking approach: Shaker

  4. Schwaber K (1995) scrum development process. In: Presented at the OOPSLA’95 business object design and implementation workshop, Austin, Texas

  5. Gottesdiener E (2002) Requirements by collaboration: workshops for defining needs. Addison-Wesley Professional, Boston

    Google Scholar 

  6. Voinov A, Bousquet F (2010) Modelling with stakeholders. Environ Model Softw 25:1268–1281

    Article  Google Scholar 

  7. Persson A (2008) The practice of participatory enterprise modelling: a competency perspective. In: Johannesson P, Söderström E (eds) Information systems engineering: from data analysis to process networks. IGI Publishing, Hershey

    Google Scholar 

  8. Dutoit A, McCall R, Mistrík I, Paech B (2006) Rationale management in software engineering. Springer, Berlin

    Book  Google Scholar 

  9. World Trade Organization (2011) Understanding the WTO. World Trade Organization, Geneva, Switzerland

    Google Scholar 

  10. Heath C, Hindmarsh J, Luff P (2010) Video in qualitative research. Sage Publications, Thousand Oaks

    Google Scholar 

  11. Jirotka M, Luff P (2006) Supporting requirements with video-based analysis. IEEE Softw 23:42–44

    Article  Google Scholar 

  12. Brill O, Schneider K, Knauss E (2010) Video vs. use cases: can videos capture more requirements under time pressure? Presented at the requirements engineering: foundation for software quality (REFSQ 2010), Essen, Germany

  13. Broll G, Hussmann H, Rukzio E, Wimmer R (2007) Using video clips to support requirements elicitation in focus groups: an experience report. In: Presented at the SE 2007 workshop on multimedia requirements engineering, Hamburg, Germany

  14. Pham R, Meyer S, Kitzmann I, Schneider K (2012) Interactive multimedia storyboard for facilitating stakeholder interaction. In: Presented at the 8th international conference of information and communication technology (Quatic 2012), Lisbon, Portugal

  15. Zachos K, Maiden N, Tosar A (2005) Rich-media scenarios for discovering requirements. IEEE Softw 22:89–97

    Article  Google Scholar 

  16. Rabiser R, Seyff N, Grünbacher P, Maiden N (2006) Capturing multimedia requirements descriptions with mobile re tools. In: Presented at the 1st international workshop on multimedia requirements engineering, Minneapolis, MN, USA

  17. Maiden N, Otojare O, Seyff N, Grünbacher P, Mitteregger K (2007) Determining stakeholder needs in the workplace: how mobile technologies can help. IEEE Softw 24:46–52

    Article  Google Scholar 

  18. Bevan N (1995) measuring usability as quality of use. Softw Qual J 4:115–130

    Article  Google Scholar 

  19. Holzinger A (2004) Rapid prototyping for a virtual medical campus interface. IEEE Softw 21:92–99

    Article  Google Scholar 

  20. Creighton O, Ott M, Bruegge B (2006) Software Cinema—Video-based Requirements Engineering. In: Presented at the 14th IEEE international requirements engineering conference (RE’06). Minneapolis, Minnesota, USA

  21. Ivarsson M, Gorschek T (2009) Technology transfer decision support in requirements engineering research: a systematic review of REj. Requirements Eng 14:155–175

    Article  Google Scholar 

  22. Fricker S, Grünbacher P (2008) Negotiation Constellations - Method Selection Framework for Requirements Negotiation. In: Presented at the requirements engineering: foundation for software quality (REFSQ 2008). France, Montpellier

  23. Fricker S, Gorschek T, Byman C, Schmidle A (2010) Handshaking with implementation proposals: negotiating requirements understanding. IEEE Softw 27:72–80

    Article  Google Scholar 

  24. Maiden N, Ncube C, Kamali S, Seyff N, Grünbacher P (2007) Exploring scenario forms and ways of use to discover requirements on airports that minimize environmental impact. In: Presented at the 15th IEEE international requirements engineering conference (RE’07). New Delhi, India

  25. Gemino A, Wand Y (2005) Complexity and clarity in conceptual modeling: comparison of mandatory and optional properties. Data Knowl Eng 55:301–326

    Article  Google Scholar 

  26. Lauesen S (2002) Software requirements: styles and techniques. Pearson Education, New York

    Google Scholar 

  27. Guarino N, Oberle D, Staab S (2009) What is an Ontology. In: Staab S, Studer R (eds) Handbook on ontologies. Springer, Berlin

    Google Scholar 

  28. Schneider K (2009) Experience and knowledge management in software engineering. Springer, Berlin

    Book  Google Scholar 

  29. Wood J, Silver D (1995) Joint application development. Wiley, Hoboken

    Google Scholar 

  30. Gottesdiener E (2004) Running a use case/scenario workshop. In: Alexander I, Maiden N (eds) Scenarios, stories, use cases: through the systems development life-cycle. Wiley, Hoboken

    Google Scholar 

  31. Stirna J, Persson A, Sandkuhl K (2007) Participative enterprise modeling. Experiences and recommendations. In: Presented at the 19th international conference on advanced information systems engineering (CAiSE 2007), Trondheim, Norway

  32. Sutcliffe A, Maiden N, Minocha S, Manuel D (1998) Supporting scenario-based requirements engineering. IEEE Trans Software Eng 24:1072–1088

    Article  Google Scholar 

  33. Weidenhaupt K, Pohl K, Jarke M, Haumer P (1998) Senarios in system development: current practice. IEEE Softw 15:34–45

    Article  Google Scholar 

  34. Seyff N, Maiden N, Karlsen K, Lockerbie J, Grünbacher P, Graf F et al (2009) Exploring how to use scenarios to discover requirements. Requirements Eng 14:91–111

    Article  Google Scholar 

  35. Atladottir G, Hvannberg ET, Gunnarsdottir S (2012) Comparing task practicing and prototype fidelities when applying scenario acting to elicit requirements. Requirements Eng 17:157–170

    Article  Google Scholar 

  36. Rettig M (1994) Prototyping for tiny fingers. Commun ACM 37:21–27

    Article  Google Scholar 

  37. Ishida T, Hattori H (2009) Participatory technologies for designing ambient intelligence systems. Journal of Ambient Intelligence and Smart Environments 1:43–49

    Google Scholar 

  38. Stapel K, Schneider K, Lübke D, Flohr T (2007) Improving an industrial reference process by information flow analysis: a case study. In: Presented at the product-focused software process improvement (PROFES 2007). Riga, Latvia

  39. Stapel K, Schneider K (2012) Managing knowledge on communication and information flow in global software projects. Expert systems—special issue on knowledge engineering in global software development

  40. Stapel K, Knauss E, Schneider K (2009) Using flow to improve communication of requirements in globally distributed software projects. In: Presented at the collaboration and intercultural issues on requirements: communication, understanding and soft skills (CIRCUS 2009). Atlanta, Georgia, USA

  41. Kwan I, Damian D, Storey M-A (2006) Visualizing a requirements-centred social network to maintain awareness wtihin development teams. In: Presented at the 1st international workshop on requirements engineering visualization (REV 2006). DC, USA, Washington

  42. Gorschek T, Wohlin C (2006) Requirements abstraction model. Requirements Eng 11:79–101

    Article  Google Scholar 

  43. Kruchten P (1996) A rational development process. CrossTalk 9:11–16

    Google Scholar 

  44. Royce W (1970) Managing the development of large software systems. In: Presented at the IEEE WESCON. Los Angeles, USA

  45. Raijlich VT, Bennet KH (2000) A staged model for the software life cycle. Computer 33:66–71

    Article  Google Scholar 

  46. Fricker S, Glinz M (2010) Comparison of requirements hand-off, analysis, and negotiation: case study. In: Presented at the 18th ieee international requirements engineering conference (RE’10). Australia, Sydney

  47. Carter LR, Karatsolis A (2009) Lessons from trying to develop a robust documentation exemplar. In: Presented at the 27th ACM international conference on design of communication, Bloomington, Indiana, USA

  48. Owen R, Stilgoe J, Macnaghten P, Gorman M, Fisher E, Guston D (2013) A framework for responsible innovation. In: Owen R, Bessant J, Heintz M (eds) Responsible innovation: managing the responsible emergence of science and innovation in society. Wiley, Hoboken, pp 27–50

    Chapter  Google Scholar 

  49. Silas M, Grassia P, Langerman A (2015) Video recording of the operating room—is anonymity possible? J Surg Res

  50. Bunn A (2015) The curious case of the right to be forgotten. Comput Law Secur Rev 31:336–350

    Article  Google Scholar 

  51. Feeney W (1983) Documenting software using video. In: Presented at the IEEE computer society workshop on software engineering technology transfer. Miami Beach, FL, USA

  52. DeMarco T, Geertgens C (1990) Use of video for program documentation. In: Presented at the 12th international conference on software engineering (ICSE 1990), Nice, France

  53. Pham R, Holzmann H, Schneider K, Brüggermann C (2012) Beyond plain video-recording of gui-tests—linking test case instructions with visual response documentation. In: Presented at the 7th IEEE/ACM international workshop on automation of software test (AST 2012). Zurich, Switzerland

  54. Alexander I, Maiden N (2005) Scenarios, stories, use cases: through the systems development life-cycle. Wiley, Hoboken

    Google Scholar 

  55. Schneider K, Stapel K, Knauss E (2008) Beyond documents: visualizing informal communication proceedings of third international workshop on requirements engineering visualization (REV ’08)

  56. Wieringa R, Maiden N, Mead N, Rolland C (2006) Requirements engineering paper classification and evaluation criteria: a proposal and a discussion. Requir Eng 11:102–107

    Article  Google Scholar 

  57. Miles M, Huberman M (1994) Qualitative data analysis: an expanded sourcebok. SAGE Publications, California, USA

    Google Scholar 

  58. Schneider K (2006) Rationale as a By-Product. In: Dutoit A, McCall R, Mistrik I, Paech B (eds) Rationale management in software engineering. Springer, Berlin, pp 91–109

    Chapter  Google Scholar 

  59. Gorschek T, Wohlin C, Carre P, Larsson S (2006) A model for technology transfer in practice. Softw IEEE 23:88–95

    Article  Google Scholar 

  60. Höst M, Regnell B, Wohlin C (2000) Using students as subjects: a comparative study of students and professionals in lead-time impact assessment. Empir Softw Eng 5:201–214

    Article  MATH  Google Scholar 

  61. Ericsson KA, Simon HA (1980) Verbal reports as data. Psychol Rev 87:215–251

    Article  Google Scholar 

  62. Horova I, Kolacek J, Zelinka J (2012) Kernel smoothing in matlab: theory and practice of kernel smoothing. World Scientific Pub Co, Singapore

    Book  MATH  Google Scholar 

  63. Trochim W, Donnelly J (2008) The research methods knowledge base, (3rd edn) Atomic Dog

  64. Hsieh HF, Shannon SE (2005) Three approaches to qualitative content analysis. Qual Health Res 15:1277–1288

    Article  Google Scholar 

  65. Regnell B, Berntsson Svensson R, Olsson S (2008) Supporting roadmapping of quality requirements. IEEE Softw 25:42–47

    Article  Google Scholar 

  66. Yin RK (2008) Case study research: design and methods. SAGE Publications, Thousand Oaks

    Google Scholar 

  67. Runeson P, Höst M (2009) Guidelines for conducting and reporting case study research in software engineering. Empir Softw Eng 14:131–164

    Article  Google Scholar 

  68. Fricker S, Grau R, Zwingli A (2014) Requirements engineering: best practice. In: Fricker S, Thuemmler C, Gavras A (eds) Requirements engineering for digital health. Springer, Berlin

    Google Scholar 

  69. Glinz M (2008) A risk-based, value-oriented approach to quality requirements. IEEE Softw 25:34–41

    Article  Google Scholar 

  70. Davis A, Zowghi D (2006) Good requirements practices are neither necessary nor sufficient. Requir Eng 11:1–3

    Article  Google Scholar 

  71. Regev G, Gause D, Wegmann A (2008) Requirements engineering education in the 21st Century, an experiential learning approach. In: Presented at the 16th iEEE international requirements engineering conference (RE’08), Barcelona, Spain

  72. Kolb D (1984) Experiential learning. Prentice Hall, Upper Saddle River, NJ, USA

    Google Scholar 

  73. Fiedler M, Hossfeld T, Phuoc T-G (2010) A generic quantitative relationship between quality of experience and quality of service. IEEE Netw 24:36–41

    Article  Google Scholar 

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This work was partially supported by the European Commission (FP7 project FI-STAR, Grant agreement no. 604691) and by the German Federal Ministry of Education and Research (K3 project 13N13548).

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Correspondence to Samuel A. Fricker.

Appendix: evaluation questions

Appendix: evaluation questions

Table 25 shows the questions that were used for evaluating the observer’s perception of a workshop video. The questions were contained in a questionnaire that was administered to a respondent after he or she had studied a workshop video in detail.

Table 25 Evaluation questions

The question QQ1 was used to understand prior knowledge of the respondent. If learning plays a role in how a workshop video is perceived, prior knowledge of the system discussed in the workshop may affect the answers of the respondent.

The questions QQ2–QQ5 were posed as closed-ended questions for rating the studied workshop video. The idea was to develop a comprehensive judgment of the practice through triangulation. To understand the ratings, all answers had to be complemented with a rationale. QQ2 asked for an all-over-the-board judgment of the workshop video and was used to answer RQ2.1. Such questioning with the opinion score scale is common in quality-of-experience evaluation, e.g., [73]. At the place of the investigator, it is the respondent that decides about the criteria to be used for the judgment. In our case, we identified the criteria used by the respondents by asking them to justify the answers with a rationale. QQ3 was used in earlier requirements communication research [46], thus provides an opportunity to compare the answers. QQ4 was proposed for strategic planning of quality [65] with the explicit notions of good enough and competitiveness. QQ3 and QQ4 were used to answer RQ1.2. QQ5 finally elicits the willingness of the respondents to actually use a video for requirements communication. RQ3.1.

The questions QQ6–QQ8 were posed to understand the strengths and weaknesses of the workshop video when used for requirements communication, thus answering RQ1.3 and RQ2.3. The respondent was asked to take the perspective of a potential developer when answering these questions. To avoid complication of the study, we did not require the respondents to actually develop the solution. Instead, they were asked to use their prior software development experiences to identify plausible strengths and weaknesses. Thus, the answers reflect the reaction of a developer before he or she starts using the video for implementation. The split of the answers into data for RQ1.3 and RQ2.3 was made through content analysis. In the validation of the workshop video with the head designer from the real project, the opinions were based on actual development experience, thus reflecting the reaction of a developer during implementation. Both situations are relevant for the evaluation of workshop videos. The discussion of the validation with the head designer shows the similarities and differences in the two situations.

The questions QQ9–QQ12 were used to answer RQ3 by asking how the respondent would use the video to support development and by asking for recommendations for the improvement of requirements engineering, video filming, and accompanying documentation. Again, the respondents were basing their answers by assuming they may be starting development. The head designer was giving feedback from within development. The discussion of the validation with the head designer shows the similarities and differences of the two situations.

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Fricker, S.A., Schneider, K., Fotrousi, F. et al. Workshop videos for requirements communication. Requirements Eng 21, 521–552 (2016).

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  • Workshop videos
  • Requirements communication
  • Video analysis
  • Developer perception
  • Phenomenological evaluation