Integrating Agile and the Systems V-Model: Proposing a Hybrid Solution
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This study introduces an Agile Hybrid model that combines the Agile and Systems V philosophies for product development initiatives. Agile frameworks thrive in environments that offer supportive iterative development, continuous integration, and incremental delivery. The current literature introduces existing Agile Hybrid models, but they are presented only at a conceptual level. This leaves practitioners without clear direction on how to implement an Agile Hybrid framework in a complex, real-world scenario. Based on research and practitioner experience, the findings show that the primary challenges are executive understanding and communication links, cultural resistance, management of hardware integration, integration methods, and backlog management. Executives have reported feeling that planning is incomplete when using Agile. This proposed Agile V model provides a practitioner-centric approach to improving these challenges. The models consist of two main components. First, an Agile V Overlay—an Agile/Systems V visual roadmap that aligns Sprints to Gates and ties executive leadership's interests to the development team's work evolution— can be used for both project planning and execution. Secondly, a Comprehensive Adaptive Backlog (CAB) is an artefact repository that contains all engineering- and programmatic-type artefacts typically required for new product development initiatives. The CAB ties work artefacts to Sprints and to the Systems V gate review. Combined, the Overlay and CAB provide tools to help Project Managers and Engineering Managers plan and execute complex product development projects in a highly regulated environment. The goal is to provide tools that enable design evolution while maintaining a systematic, gated approach that supports regulatory compliance. The authors have conducted initial interviews with industry practitioners, which have yielded positive results for the model's utility. Practitioner feedback has been incorporated to fine-tune the model and improve its alignment with real-world applications. Future research will adopt a mixed-methods approach, including interviews with industry practitioners to continue validating the Agile V model.
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Atlassian. (2024). What is agile? https://www.atlassian.com/agile
Atzberger, A., & Paetzold, K. (2019b). Current challenges of agile hardware development: What are the pain points nowadays? Proceedings of the International Conference on Engineering Design, ICED, 2019-August, 2209–2218. DOI: https://doi.org/10.1017/dsi.2019.227
Beck, K., Beedle, M., van Bennekum, A., Cockburn, A., Cunningham, W., Fowler, M., Grenning, J., Highsmith, J., Hunt, A., Jeffries, R., Kern, J., Marick, B., Martin, R. C., Mellor, S., Schwaber, K., Sutherland, J., & Thomas, D. (2001). Manifesto for agile software development. https://agilemanifesto.org/
Conforto, Edivandro & Amaral, Daniel & Luis, da Silva, & Di Felippo, Ariani & Kamikawachi, Dayse. (2016). The agility construct in project management theory. International Journal of Project Management. 34. 660-674. DOI: https://doi.org/10.1016/j.ijproman.2016.01.007
Cooper, R. G., & Furst, P. (2023). Deploying agile for physical-product development: Big challenges and practical solutions. IEEE Engineering Management Review, 51(3), 44–52.
DOI: https://doi.org/10.1109/EMR.2023.3304356
Cooper, R. G. (2016). Agile–stage-gate hybrids: The next stage for product development. Research-Technology Management, 59(1), 21–29. DOI: https://doi.org/10.1080/08956308.2016.1117317
Cooper, R. G., & Sommer, A. F. (2016). The agile–stage-gate hybrid model: A promising new approach and a new research opportunity. Journal of Product Innovation Management, 33(5), 513–526. DOI: https://doi.org/10.1111/jpim.12314
de Borba, J. C. R., Trabasso, L. G., & Pessôa, M. V. P. (2019). Agile management in product development. Research-Technology Management, 62(5), 63–67. DOI: https://doi.org/10.1080/08956308.2019.1638488
Defence Acquisition University. (2023). Defence acquisition guidebook: Chapter 3—Systems engineering. https://www.dau.edu/sites/default/files/2023-09/DAG-CH-3-Systems-Engineering.pdf
Defence Acquisition University. (2023). Engineering & Manufacturing Development (EMD) Phase. Defence Acquisition Guidebook. https://aaf.dau.edu/aaf/mca/emd-phase/
Devopedia. (2023). Requirements development. https://devopedia.org/requirements-development
Edwards, K., Cooper, R. G., & Sommer, A. F. (2020). Agile-stage-gate in SMEs: Evaluating implementation in manufacturing. International Journal of Innovation Management, 24(5), Article 2050045.
DOI: https://doi.org/10.1142/S0219877019500482
European Scrum.org. (2025). 98 Agile methodologies guide (Version 1.0). European Scrum.org. https://www.europeanscrum.org
International Council on Systems Engineering. (2015). INCOSE systems engineering handbook: A guide for system life cycle processes and activities (4th ed.). Wiley. https://www.amazon.in/INCOSE-Systems-Engineering-Handbook-Activities/dp/1118999401
Jocham, R. (2024, May 13). Doing the right thing right – Validation and verification. Scrum.org. https://www.scrum.org/resources/blog/doing-right-thing-right-validation-and-verification
Prostep ivip Association. (2024). Smart Systems Engineering – SmartSE: prostep ivip Recommendation PSI 11 Version 4.0 (pp. 117–132). Prostep ivip Association. https://www.prostep.org/fileadmin/prod-pay-download-8c1d/PSI11_RecV4_Final_aw.pdf
Rigby, Darrell K., Jeff Sutherland, and Hirotaka Takeuchi. "Embracing Agile: How to Master the Process That's Transforming Management." Harvard Business Review 94, no. 5 (May 2016): 40–50. https://www.hbs.edu/faculty/Pages/item.aspx?num=51051
Salvato, J. J., & Laplume, A. O. (2020). Agile stage-gate management (ASGM) for physical products. R and D Management, 50(5), 631–647.
DOI: https://doi.org/10.1111/radm.12426
Schwaber, K., & Sutherland, J. (2020). The Scrum guide: The definitive guide to Scrum: The rules of the game. https://www.scrumguides.org
Serrador, P., & Pinto, J. K. (2015). Does agile work? —A quantitative analysis of agile project success. International Journal of Project Management, 33(5), 1040–1051. DOI: http://dx.doi.org/10.1016/j.ijproman.2015.01.006
Sutherland, J., Kamiyama, H., Aoyama, K., & Oizumi, K. (2015). Systems Engineering and the V-Model: Lessons from an autonomous solar-powered hydrofoil. Department of Systems Innovation, Graduate School of Engineering, The University of Tokyo. https://www.researchgate.net/publication/304022539_Systems_Engineering_and_the_VModel_Lessons_from_an_Autonomous_Solar_Powered_Hydrofoil
Systems Engineering Body of Knowledge (SEBoK). Pyster, A., Olwell, D., Hutchison, N., Enck, S., Anthony, J., Henry, D., Squires, A., & the BKCASE Editorial Board. (2025, May 27). Vee life cycle model. In A. Pyster, D. Olwell, N. Hutchison, S. Enck, J. Anthony, D. Henry, & A. Squires (Eds.), Guide to the Systems Engineering Body of Knowledge (SEBoK) (v. 2.12). The Trustees of the Stevens Institute of Technology. https://sebokwiki.org/wiki/Vee_Life_Cycle_Model
Wu, J. J. W. (2024). An exploratory study of V-Model in building ML-enabled software: A systems engineering perspective. In Conference on AI Engineering Software Engineering for AI (CAIN 2024) (pp. 1–11). ACM. DOI: https://doi.org/10.1145/3644815.3644951