Abstract is missing.
- Towards the integration of sysml and problem framesPietro Colombo, Vieri Del Bianco, Luigi Lavazza. 1-8 [doi]
- Implementable requirements in problem orientationDerek P. Mannering. 9-15 [doi]
- Communicating requirements for business: UML or problem frames?Mark Vincent. 16-22 [doi]
- A method for web service description by using problem frames approachGuangjun Cai, Zhi Jin, Zhijing Feng. 23-28 [doi]
- RGPS: a unified requirements meta-modeling frame for networked softwareJian Wang, Keqing He, Ping Gong 0004, Chong Wang, Rong Peng, Bing Li 0010. 29-35 [doi]
- An ontology-guided process for developing problem frame specification: an exampleXiaohong Chen, Zhi Jin. 36-39 [doi]
- Problem frames for intelligent building services: a suitability studyMilan Hlousek. 40-43 [doi]
- Functional size measurement based on problem frames: a case studyLuigi Lavazza, Vieri Del Bianco. 44-47 [doi]
- Problem frames and business strategy modellingAbdul R. Babar, Didar Zowghi, Karl Cox, Vladimir Tosic, Steven J. Bleistein, June M. Verner. 48-51 [doi]
- Progressing problems from requirements to specifications in problem framesZhi Li. 53-59 [doi]
- Using problem frames to model the requirements ofa system for monitoring dangerous goods transportationPietro Colombo, Vieri Del Bianco, Luigi Lavazza. 60-66 [doi]
- Non-monotonic modelling from initial requirements: a proposal and comparison with monotonic modelling methodsJelena Marincic, Angelika Mader, Hanno Wupper, Roel J. Wieringa. 67-73 [doi]
- Using the event calculus to reason about problem diagramsAndreas Classen, Robin C. Laney, Thein Than Tun, Patrick Heymans, Arnaud Hubaux. 74-77 [doi]
- Relating problem oriented engineering to current development processes: a research agendaDariusz W. Kaminski, Jon G. Hall, Michel Wermelinger. 78-81 [doi]