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| [1] Defect prevention through defect prediction: a case study at Infosys |
| Authors: |
Mohapatra, S.; Mohanty, B. |
| Reference: |
Software Maintenance, 2001. Proceedings. IEEE International Conference on |
| Page(s): |
260-272 |
| Date/Year: |
2001 |
| This paper is an experience report of a software process model which will help in preventing defects through defect prediction. The paper gives a vivid description of how the model aligns itself to business goals and also achieves various quality and productivity goals by predicting the number and type of defects well in advance and corresponding preventive action taken to reduce the occurrence of defects. |
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| [2] Incorporating PSP into a traditional software engineering course: an experience report |
| Authors: |
Maletic, J.I.; Howald, A.; Marcus, A. |
| Reference: |
Software Engineering Education and Training, 2001. Proceedings. 14th Conference on |
| Page(s): |
89-97 |
| Date/Year: |
2001 |
| This paper presents an approach to incorporate PSP (Personal Software Process) into a traditional software engineering course that is typically contained within a computer science curriculum. Advantages and disadvantages of similar approaches are discussed. |
|
| [3] Modeling and controlling the software test process |
| Authors: |
Cangussu, J.W. |
| Reference: |
Software Engineering, 2001. ICSE 2001. Proceedings of the 23rd International Conference on |
| Page(s): |
787-788 |
| Date/Year: |
2001 |
| Présentation d’une nouvelle approche pour la modélisation et le contrôle du processus de test du logiciel. Présentation du modèle et des résultats. |
|
| [4] Software – A performing science? |
| Authors: |
Watts S. Humphrey |
| Reference: |
Annals of Software Engineering 10(1) |
| Page(s): |
261-271 |
| Date/Year: |
Jan 2000 |
| To address these problems, the Software Engineering Institute (SEI) has developed the Personal Software Process (PSP) and the Team Software Process (TSP). This paper addresses the problems of software engineering and discusses the intellectual nature of software work. It then reviews the characteristics of this kind of work and describes the principal conditions for effective software performance. In the conclusion, the author makes some observations about the challenges ahead and the future actions required. |
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| [5] A Replicated Empirical Study of the Impact of the Methods in the PSP on Individual Engineers |
| Authors: |
Anders Wesslén |
| Reference: |
Empirical Software Engineering 5(2) |
| Page(s): |
93-123 |
| Date/Year: |
Jun 2000 |
| The personal software development process is improved in steps during the course and a collection of methods is introduced to support the personal development process. The question is, however, how do these methods influence the performance of an individual engineer? This question has been studied in a study made at the Software Engineering Institute, and the study has shown that the methods in the PSP have a positive effect on the performance of the individuals. There is however a need to replicate this study to confirm the findings in other settings and with other individuals. This paper describes a replication of the study made at the Software Engineering Institute. |
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| [6] The Scrum software development process for small teams |
| Authors: |
Rising, L.; Janoff, N.S. |
| Reference: |
IEEE Software , Volume: 17 Issue: 4 |
| Page(s): |
26-32 |
| Date/Year: |
July-Aug. 2000 |
| In today's software development environment, requirements often change during the product development life-cycle to meet shifting business demands, creating endless headaches for development teams. We discuss our experience in implementing the Scrum software development process to address these concerns. |
|
| [7] An experience report on the personal software process |
| Authors: |
Kamatar, J.; Hayes, W. |
| Reference: |
IEEE Software , Volume: 17 Issue: 6 |
| Page(s): |
85-89 |
| Date/Year: |
Nov.-Dec. 2000 |
| Explication de l’auteur sur comment le PSP l’a aidé et quels bénéfices peuvent être tirés du PSP. Emphase sur estimation des projets. |
|
| [8] A culture-centered multilevel software process cycle model |
| Authors: |
Acuna, S.T.; Barchini, G.E.; Sosa, M. |
| Reference: |
Software Engineering, 2000. Proceedings of the 2000 International Conference on |
| Page(s): |
775 |
| Date/Year: |
2000 |
| A culture-centered multilevel software process cycle model (MPCM) is presented. This model interrelates the socio-cultural, scientific/technological and paradigmatological environments. The proposed model is composed of three environments made up of the ecological universe, engineering, management, development and evaluation levels which represent the process cycle, and the lines of `what`, `who` and `how`. |
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| [9] A method and support environment for distributed software component engineering |
| Authors: |
Grundy, J. |
| Reference: |
Software Methods and Tools, 2000. SMT 2000. Proceedings. International Conference on |
| Page(s): |
157-166 |
| Date/Year: |
2000 |
| The paper describes a component engineering methodology we have been developing, along with examples of its notations, development tools and tool collaborative work facilities. |
|
| [10] An integral software process formal model based on the SOCCA approach |
| Authors: |
Acuna, S.T.; Sosa, M.D.V. |
| Reference: |
Computer Science Society, 2000. SCCC '00. Proceedings. XX International Conference of the Chilean |
| Page(s): |
162-171 |
| Date/Year: |
2000 |
| In this article, a Capacity-Centered Integral Software Process Model (CCISPM) applicable to the construction of conventional systems (CS) and of knowledge-based systems (KBS) is described. |
|
| [11] Capacities-centered integral software process formalization |
| Authors: |
Acuna, S.T.; Giandini, R.; Lasserre, C.M.; Quincoces, V. |
| Reference: |
Computer Science Society, 2000. SCCC '00. Proceedings. XX International Conference of the Chilean |
| Page(s): |
152-161 |
| Date/Year: |
2000 |
| We formalize an integral software process model which is applied to the construction of conventional systems (CS) and knowledge-based systems (KBS), centered in the capacities. |
|
| [12] Hybrid Object-Oriented Method (HOOM): the software development process |
| Authors: |
Taibi, T. |
| Reference: |
Technology of Object-Oriented Languages and Systems, 2000. TOOLS-Asia 2000. Proceedings. 36th International Conference on |
| Page(s): |
8-17 |
| Date/Year: |
2000 |
| The paper is aimed at providing a detailed description of the incremental, iterative and well-guided software development process of the Hybrid Object-Oriented Method (HOOM) which mainly encompasses three phases: analysis, design and coding. |
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| [13] Lessons learned from teaching reflective software engineering using the Leap toolkit |
| Authors: |
Moore, C.A. |
| Reference: |
Software Engineering, 2000. Proceedings of the 2000 International Conference on |
| Page(s): |
672-675 |
| Date/Year: |
2000 |
| After using and teaching the Personal Software Process (PSP) (W.S. Humphrey, 1995) for over four years, the author came to appreciate the insights and benefits that it produced. However, there were some general problems with the PSP. |
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| [14] Representing technology to promote reuse in the software design process |
| Authors: |
Barber, K.S.; Bhattacharya, S. |
| Reference: |
Automated Software Engineering, 2000. Proceedings ASE 2000. The Fifteenth IEEE International Conference on |
| Page(s): |
285-288 |
| Date/Year: |
2000 |
| This paper discusses a representation for the specification of technology components exploiting the separation of domain requirements (i.e. functional, data and timing requirements) from installation requirements (i.e. implementation specific infrastructure requirements). A process is outlined for building a technology component archive and a set of coefficients is introduced to assist designers in identifying `best-fit` candidates. |
|
| [15] Scenario-based software process |
| Authors: |
Breitman, K.; Sampaio do Prado Leite, J.C. |
| Reference: |
Engineering of Computer Based Systems, 2000. (ECBS 2000) Proceedings. Seventh IEEE International Conference and Workshopon the |
| Page(s): |
375-380 |
| Date/Year: |
2000 |
| In this paper we propose a scenario-based process framework to support the evolution of scenarios. The framework relies on a set of scenario operations/relationships described previously and incorporates configuration management techniques. |
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| [16] Sharing instability of a distributed cooperative work |
| Authors: |
Ochimizu, K.; Murakoshi, H.; Fujieda, K.; Fujita, M. |
| Reference: |
Principles of Software Evolution, 2000. Proceedings. International Symposium on |
| Page(s): |
36-45 |
| Date/Year: |
2000 |
| We discuss a model and mechanisms to support awareness of recognition gaps and coordination for distributed cooperative work, especially for software development activities. ETC. We also discuss partial requirements of a software process model for distributed cooperative work. |
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| [17] Tutorial: Introduction to the team software process |
| Authors: |
Cannon, B. |
| Reference: |
Software Engineering Education & Training, 2000. Proceedings. 13th Conference on |
| Page(s): |
315-315 |
| Date/Year: |
2000 |
| Auto-explicatif |
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| [18] A model of software development process for virtual environments: definition and a case study |
| Authors: |
Kimer, T.G.; Martins, V.F. |
| Reference: |
Application-Specific Systems and Software Engineering and Technology, 1999. ASSET '99. Proceedings. 1999 IEEE Symposium on |
| Page(s): |
155-161 |
| Date/Year: |
1999 |
| This paper describes a software development process, especially proposed to support the creation of virtual environments and applications. |
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| [19] A software development process model for artificial neural networks in critical applications |
| Authors: |
Rodvold, D.M. |
| Reference: |
Neural Networks, 1999. IJCNN '99. International Joint Conference on , Volume: 5 |
| Page(s): |
3317-3322 vol.5 |
| Date/Year: |
1999 |
| The software development process model presented herein is targeted specifically toward ANNs in critical applications. This model is not unwieldy, and could easily be used on projects without critical aspects. |
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| [20] A unified framework for the software engineering process system standards and models |
| Authors: |
Wang, Y.; King, G.; Dorling, A.; Wickberg, H. |
| Reference: |
Software Engineering Standards, 1999. Proceedings. Fourth IEEE International Symposium and Forum on |
| Page(s): |
132-141 |
| Date/Year: |
1999 |
| This paper develops an integrated framework for software engineering process systems, and unifies a variety of theories in process system modelling, implementation and assessment. |
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