How to cite this paper
Yücenur, G. (2023). MCDM approach to investigate the effectiveness of SCRUM events in minimizing risk factors in project management.Journal of Project Management, 8(4), 227-238.
Refrences
Behera, N. C., Jeet, S., Nayak, C. K., Bagal, D. K., Panda, S. N., & Barua, A. (2022). Parametric appraisal of strength & hardness of resin compacted sand castings using hybrid Taguchi-WASPAS-Material Generation Algorithm. Ma-terails Today: Proceedings, 50(5), 1226-1233.
Borandağ, E., & Yücalar, F. (2020). SCRUM task board application with augmented reality. International Journal of Management Information Systems and Computer Science, 4(1), 1-12.
Buganova, K., & Simickova, J. (2019). Risk management in traditional and agile project management. Transportation Research Procedia, 40, 986–993.
Cano, E. L., Garcia-Camus, J. M., Garzas, J., Moguerza, J. M., & Sanchez, N. N. (2021). A Scrum-based framework for new product development in the non-software industry. Journal of Engineering and Technology Management, 61, 101634.
Cheng, C. H., Chang, J. R., & Ho, T. H. (2006). Dynamic fuzzy OWA model for evaluating the risks of software devel-opment. Cybernetics and Systems: An International Journal, 37(8), 791-813.
Dhir, S., Kumar, D., & Singh, V. B. (2018). Success and Failure Factors that Impact on Project Implementation Using Agile Software Development Methodology. Software Engineering. Advances in Intelligent Systems and Computing, 731.
Elzamly, A., Hussin, B., & Salleh, N. M. (2016). Top Fifty Software Risk Factors and the Best Thirty Risk Management Techniques in Software Development Lifecycle for Successful Software Projects. International Journal of Hybrid Information Technology, 9(6), 11-32.
Endres, M., Bican, P. M., & Wöllner, T. (2022). Sustainability meets agile: Using Scrum to develop frugal innovations. Journal of Cleaner Production, 347, 130871.
Galli, B. J. (2018). Risks Management in Agile New Product Development Project Environments: A Review of Litera-ture. International Journal of Risk and Contingency Management, 7(4), 37-67.
Garcia, L. A., OliveiraJr, E., & Morandini, M. (2022). Tailoring the Scrum framework for software development: Lit-erature mapping and feature-based support. Information and Software Technology, 146, 106814.
Gemino, A., Reich, B. H., & Serrador, P. M. (2020). Agile, Traditional, and Hybrid Approaches to Project Success: Is Hybrid a Poor Second Choice? Project Management Journal, 52(2), 161-175.
Houston, D. X., Mackulak, G. T., Collofello, J. S. (2001). Stochastic simulation of risk factor potential effects for soft-ware development risk management. The Journal of Systems and Software, 59, 247-257.
Hron, M., & Obwegeser, N. (2022). Why and how is Scrum being adapted in practice: A systematic review. Journal of Systems and Software, 183, 111110.
Jiang, J., & Klein, G. (2000). Software development risks to project effectiveness. The Journal of Systems and Software, 52, 3-10.
Kandi, B. P., Jeet, S., Bagal, D. K., Barua, A., Bhoi, S., & Mahapatra, S. S. (2022). Mechanical characterization of quenched hardened chromoly steel using taguchi coupled WASPAS method. Materails Today: Proceedings, 50(5), 2321-2327.
Kumar, C., & Yadav, D. K. (2015). A Probabilistic Software Risk Assessment and Estimation Model for Software Pro-jects. Procedia Computer Science, 54, 353-361.
Lalmi, A., Fernandes, G., & Boudemagh, S. S. (2022). Synergy between Traditional, Agile and Lean management ap-proaches in construction projects: bibliometric analysis. Procedia Computer Science, 196, 732–739.
Loiro, C., Castrp, H., Avila, P., Cruz-Cunha, M. M., Putnik, G. D., & Ferreira, L. (2019). Agile Project Management: A Communicational Workflow Proposal. Procedia Computer Science, 164, 485–490.
Mamaghani, E. J., & Medini, K. (2021). Resilience, agility and risk management in production ramp-up. Procedia, 103, 37–41.
Mamoghli, S., Goepp, V., & Botta-Genoulaz, V. (2018). An approach for the management of the risk factors impacting the model-based engineering methods in ERP projects. IFAC PapersOnLine, 51(11), 1206–1211.
Marnada, P., Raharjo, T., Hardian, B., & Prasetyo, A. (2022). Agile project management challenge in handling scope and change: A systematic literature review. Procedia Computer Science, 197, 290–300.
Menezes, J. Jr., Gusmao, C., & Moura, H. (2019). Risk factors in software development projects: a systematic literature review. Software Quality Journal, 27, 1149–1174.
Nakatsu, R. T., & Iacovou, C. L. (2009). A comparative study of important risk factors involved in offshore and domes-tic outsourcing of software development projects: A two-panel Delphi study. Information & Management, 46, 57–68.
Patanakul, P., & Rufo-McCarron, R. (2018). Transitioning to agile software development: Lessons learned from a gov-ernment-contracted program. The Journal of High Technology Management Research, 29(2), 181-192.
Patil, S. B., Patole, T. A., Jadhav, R. S., Suryawanshi, S. S., & Raykar, S. J. (2022). Complex Proportional Assessment (COPRAS) based Multiple-Criteria Decision Making (MCDM) paradigm for hard turning process parameters. Ma-terails Today: Proceedings, doi.org/10.1016/j.matpr.2022.01.142.
Petersen, K., & Wohlin, C. (2009). A comparison of issues and advantages in agile and incremental development be-tween state of the art and an industrial case. The Journal of Systems and Software, 82, 1479–1490.
Shrivastava, S. V., & Rathod, U. (2017). A risk management framework for distributed agile projects. Information and Software Technology, 85, 1-15.
Tavares, B. G., Sanches da Silva, C. E., & Diniz de Souza A. (2019). Practices to Improve Risk Management in Agile Projects. International Journal of Software Engineering and Knowledge Engineering, 29(3), 381-399.
Vallon, R., Estacio, B. J. S., Prikladnicki, R., & Grechenig, T. (2018). Systematic literature review on agile practices in global software development. Information and Software Technology, 96, 161-180.
Yazdani, M., Torkayesh, A. E., Santibanez-Gonzalez, E. DR., & Otaghsara, S. K. (2020). Evaluation of renewable ener-gy resources using integrated Shannon Entropy-EDAS model. Sustainable Operations and Computers, 1, 35-42.
Yazdi, A. K., Wanke, P. F., Hanne, T., Abdi, F., & Sarfaraz, A. H. (2022). Supplier selection in the oil & gas industry: A comprehensive approach for Multi-Criteria Decision Analysis. Socio-Economic Planning Sciences, 79, 101142.
Yücenur, G. N., Çaylak, Ş., Gönül, G., & Postalcıoğlu, M. (2020). An integrated solution with SWARA&COPRAS methods in renewable energy production: City selection for biogas facility. Renewable Energy, 145, 2587-2597.
https://scrumguides.org/docs/scrumguide/v1/Scrum-Guide-TR.pdf. Arrival date: 22.03.2023.
Borandağ, E., & Yücalar, F. (2020). SCRUM task board application with augmented reality. International Journal of Management Information Systems and Computer Science, 4(1), 1-12.
Buganova, K., & Simickova, J. (2019). Risk management in traditional and agile project management. Transportation Research Procedia, 40, 986–993.
Cano, E. L., Garcia-Camus, J. M., Garzas, J., Moguerza, J. M., & Sanchez, N. N. (2021). A Scrum-based framework for new product development in the non-software industry. Journal of Engineering and Technology Management, 61, 101634.
Cheng, C. H., Chang, J. R., & Ho, T. H. (2006). Dynamic fuzzy OWA model for evaluating the risks of software devel-opment. Cybernetics and Systems: An International Journal, 37(8), 791-813.
Dhir, S., Kumar, D., & Singh, V. B. (2018). Success and Failure Factors that Impact on Project Implementation Using Agile Software Development Methodology. Software Engineering. Advances in Intelligent Systems and Computing, 731.
Elzamly, A., Hussin, B., & Salleh, N. M. (2016). Top Fifty Software Risk Factors and the Best Thirty Risk Management Techniques in Software Development Lifecycle for Successful Software Projects. International Journal of Hybrid Information Technology, 9(6), 11-32.
Endres, M., Bican, P. M., & Wöllner, T. (2022). Sustainability meets agile: Using Scrum to develop frugal innovations. Journal of Cleaner Production, 347, 130871.
Galli, B. J. (2018). Risks Management in Agile New Product Development Project Environments: A Review of Litera-ture. International Journal of Risk and Contingency Management, 7(4), 37-67.
Garcia, L. A., OliveiraJr, E., & Morandini, M. (2022). Tailoring the Scrum framework for software development: Lit-erature mapping and feature-based support. Information and Software Technology, 146, 106814.
Gemino, A., Reich, B. H., & Serrador, P. M. (2020). Agile, Traditional, and Hybrid Approaches to Project Success: Is Hybrid a Poor Second Choice? Project Management Journal, 52(2), 161-175.
Houston, D. X., Mackulak, G. T., Collofello, J. S. (2001). Stochastic simulation of risk factor potential effects for soft-ware development risk management. The Journal of Systems and Software, 59, 247-257.
Hron, M., & Obwegeser, N. (2022). Why and how is Scrum being adapted in practice: A systematic review. Journal of Systems and Software, 183, 111110.
Jiang, J., & Klein, G. (2000). Software development risks to project effectiveness. The Journal of Systems and Software, 52, 3-10.
Kandi, B. P., Jeet, S., Bagal, D. K., Barua, A., Bhoi, S., & Mahapatra, S. S. (2022). Mechanical characterization of quenched hardened chromoly steel using taguchi coupled WASPAS method. Materails Today: Proceedings, 50(5), 2321-2327.
Kumar, C., & Yadav, D. K. (2015). A Probabilistic Software Risk Assessment and Estimation Model for Software Pro-jects. Procedia Computer Science, 54, 353-361.
Lalmi, A., Fernandes, G., & Boudemagh, S. S. (2022). Synergy between Traditional, Agile and Lean management ap-proaches in construction projects: bibliometric analysis. Procedia Computer Science, 196, 732–739.
Loiro, C., Castrp, H., Avila, P., Cruz-Cunha, M. M., Putnik, G. D., & Ferreira, L. (2019). Agile Project Management: A Communicational Workflow Proposal. Procedia Computer Science, 164, 485–490.
Mamaghani, E. J., & Medini, K. (2021). Resilience, agility and risk management in production ramp-up. Procedia, 103, 37–41.
Mamoghli, S., Goepp, V., & Botta-Genoulaz, V. (2018). An approach for the management of the risk factors impacting the model-based engineering methods in ERP projects. IFAC PapersOnLine, 51(11), 1206–1211.
Marnada, P., Raharjo, T., Hardian, B., & Prasetyo, A. (2022). Agile project management challenge in handling scope and change: A systematic literature review. Procedia Computer Science, 197, 290–300.
Menezes, J. Jr., Gusmao, C., & Moura, H. (2019). Risk factors in software development projects: a systematic literature review. Software Quality Journal, 27, 1149–1174.
Nakatsu, R. T., & Iacovou, C. L. (2009). A comparative study of important risk factors involved in offshore and domes-tic outsourcing of software development projects: A two-panel Delphi study. Information & Management, 46, 57–68.
Patanakul, P., & Rufo-McCarron, R. (2018). Transitioning to agile software development: Lessons learned from a gov-ernment-contracted program. The Journal of High Technology Management Research, 29(2), 181-192.
Patil, S. B., Patole, T. A., Jadhav, R. S., Suryawanshi, S. S., & Raykar, S. J. (2022). Complex Proportional Assessment (COPRAS) based Multiple-Criteria Decision Making (MCDM) paradigm for hard turning process parameters. Ma-terails Today: Proceedings, doi.org/10.1016/j.matpr.2022.01.142.
Petersen, K., & Wohlin, C. (2009). A comparison of issues and advantages in agile and incremental development be-tween state of the art and an industrial case. The Journal of Systems and Software, 82, 1479–1490.
Shrivastava, S. V., & Rathod, U. (2017). A risk management framework for distributed agile projects. Information and Software Technology, 85, 1-15.
Tavares, B. G., Sanches da Silva, C. E., & Diniz de Souza A. (2019). Practices to Improve Risk Management in Agile Projects. International Journal of Software Engineering and Knowledge Engineering, 29(3), 381-399.
Vallon, R., Estacio, B. J. S., Prikladnicki, R., & Grechenig, T. (2018). Systematic literature review on agile practices in global software development. Information and Software Technology, 96, 161-180.
Yazdani, M., Torkayesh, A. E., Santibanez-Gonzalez, E. DR., & Otaghsara, S. K. (2020). Evaluation of renewable ener-gy resources using integrated Shannon Entropy-EDAS model. Sustainable Operations and Computers, 1, 35-42.
Yazdi, A. K., Wanke, P. F., Hanne, T., Abdi, F., & Sarfaraz, A. H. (2022). Supplier selection in the oil & gas industry: A comprehensive approach for Multi-Criteria Decision Analysis. Socio-Economic Planning Sciences, 79, 101142.
Yücenur, G. N., Çaylak, Ş., Gönül, G., & Postalcıoğlu, M. (2020). An integrated solution with SWARA&COPRAS methods in renewable energy production: City selection for biogas facility. Renewable Energy, 145, 2587-2597.
https://scrumguides.org/docs/scrumguide/v1/Scrum-Guide-TR.pdf. Arrival date: 22.03.2023.