Excluded articles based on the abstracts

No. Articles Reasons
1. Z. i. VAIRA and A. C. APLINSKAS, "Software Engineering Paradigm Independent Design Problems, GoF 23 Design Patterns, and Aspect Design," Informatica, vol. 22, pp. 289-317, 2011. The article compares the AO and OO on the design pattern implementation. It does not directly measure the impact of design patterns on software quality.
2. J. Zheng and K. E. Harper, "Concurrency design patterns, software quality attributes and their tactics", in: Proceedings of the 3rd International Workshop on Multicore Software Engineering, ACM, Cape Town, South Africa, 2010, pp. 40-47. The design patterns are not in GoF 23 patterns.
3. C. Liyan, "Application Research of Using Design Pattern to Improve Layered Architecture", in: Proceedings of the 2009 IITA International Conference on Control, Automation and Systems Engineering (case 2009), IEEE Computer Society, 2009, pp. 303-306. The design patterns in this study are not The GoF design pattern.
4. N. L. O. Cowley and J. L. Wesson, "An experiment to measure the usefulness of patterns in the interaction design process", in: 1st International Conference on Advanced Data Mining and Applications, ADMA 2005, July 22, 2005 - July 24, 2005, Springer Verlag, Wuhan, China, 2005, pp. 1142-1145. The design patterns in this study are not the GoF patterns
5. E. Nourani and M. A. Azgomi, "A design pattern for dependable web services using design diversity techniques and WS-BPEL", in: Proceedings of the 6th international conference on Innovations in information technology, IEEE Press, AI-Ain, United Arab Emirates, 2009, pp. 290-294. This article proposes a framework for web services. The study does not provdie the empirical assesment of the impact of design patterns.
6. A. Garcia, C. Sant'Anna, E. Figueiredo, U. Kulesza, C. Lucena and A. Von Staa, "Modularizing design patterns with aspects: A quantitative study", Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics), 3880 LNCS (2006) 36-74. This article compares Java and AspectJ solutions for the 23 Gang-of-Four patterns. It does not directly measure the impact of design pattern on software quality.
7. M. Kuhlemann, M. Rosenmuller, S. Apel and T. Leich, "On the duality of aspect-oriented and feature-oriented design patterns", in: 6th Workshop on Aspects, Components, and Patterns for Infrastructure Software, ACP4IS'07 held at the Sixth InternationalConference on Aspect-Oriented Software Development, March 12, 2007 - March 16, 2007, Association for Computing Machinery, Vancouver, BC, Canada, 2007. This article compares the AOP and FOP on the design patterns implementation. It does not directly measure the impact of design patterns on software quality.
8. J. L. Gomes and M. P. Monteiro, "Design pattern implementation in object teams," presented at the Proceedings of the 2010 ACM Symposium on Applied Computing, Sierre, Switzerland, 2010. This article compares the AspectJ and OT/J on the design pattern implementation. This study doese not directly measure the imapct of design patterns.
9. M. Alshayeb, "The Impact of Refactoring to Patterns on Software Quality Attributes", Arabian Journal for Science and Engineering, 36 (2011) 1241-1251. This article demonstrates the impact of refactoring to design patterns. It does not directly measure the impact of design patterns on software quality.
10. T. L. Lewis and M. B. Rosson, "A measure of design readiness: using patterns to facilitate teaching introductory object-oriented design", in: Companion of the 17th annual ACM SIGPLAN conference on Object-oriented programming, systems, languages, and applications, ACM, Seattle, Washington, 2002, pp. 8-9. This article does not directly measure the impact of design patterns on softwareq uality
11. M. L. Bernardi and G. A. Di Lucca, "Using aop to improve design patterns modularity, in: IASTED International Conference on Software Engineering", as part of the 24th IASTED International Multi-Conference on APPLIED INFORMATICS, Febrary 14, 2006 - Febrary 16, 2006, Int. Assoc. of Science and Technology for Development, Innsbruck, Austria, 2006, pp. 236-241. This article does not directly measure the impact of design patterns on sotware quality.
12. O. Corby and C. Faron-Zucker, "RDF/SPARQL Design Pattern for Contextual Metadata", in: Proceedings of the IEEE/WIC/ACM International Conference on Web Intelligence, IEEE Computer Society, 2007, pp. 470-473. This article does not measure the impact of deisgn patterns on software quality.
13. A. Ampatzoglou, K. Savva, I. Stamelos and S. Charalampidou, "An empirical study on design pattern usage on open-source software", in: 5th International Conference on Evaluation of Novel Approaches to Software Engineering, ENASE 2010, July 22, 2010 - July 24, 2010, Inst. for Syst. and Technol. of Inf. Control and Commun., Athens, Greece, 2010, pp. 275-284. This article does not measure the impact of design aptterns on the software quality.
14. A. Kubo, H. Washizaki, A. Takasu and Y. Fukazawa, "Extracting relations among embedded software design patterns", Journal of Integrated Design and Process Science, 9 (2005) 39-52. This article does not measure the impact of design pattern on software quality
15. P. Chen, "Analysis and primary comparison for formalization of design patterns", Jisuanji Gongcheng/Computer Engineering, 31 (2005) 1-2+173. This article does not measure the impact of design pattern on software quality.
16. S. Rosenberg, A. Banerjee and D. A. Naumann, "Local reasoning and dynamic framing for the composite pattern and its clients", in: Proceedings of the Third international conference on Verified software: theories, tools, experiments, Springer-Verlag, Edinburgh, UK, 2010, pp. 183-198. This article does not measure the impact of design patterns on software quality
17. I. Cote, M. Heisel and I. Wentzlaff, "Pattern-based evolution of software architectures", in: 1st European Conference on Software Architecture, ECSA 2007, September 24, 2007 - September 26, 2007, Springer Verlag, Madrid, Spain, 2007, pp. 29-43. This article does not measure the impact of design patterns on software quality.
18. J. Dong, S. Yang, D. S. Lad and Y. Sun, "Service Oriented Evolutions and Analyses of Design Patterns", in: Proceedings of the Second IEEE International Symposium on Service-Oriented System Engineering, IEEE Computer Society, 2006, pp. 11-18. This article does not measure the impact of design patterns on software quality.
19. G. Li and C. Chen, "Application of design patterns for developing small signal stability analysis package", Proceedings of the Chinese Society of Electrical Engineering, 22 (2002) 12-16. This article does not measure the impact of design patterns on software quality.
20. G. d. S. P. Moreira, D. A. Montini, D. D. Fernandes, F. R. M. Cardoso, L. A. V. Dias and A. M. d. Cunha, "Final Inspection for Design Pattern Homologation Using a Real Time Embedded Software in a Production Line", in: Proceedings of the 2009 Sixth International Conference on Information Technology: New Generations, IEEE Computer Society, 2009, pp. 1428-1435. This article does not measure the impact of design patterns on software quality.
21. P. Tonella and G. Antoniol, "Inference of object-oriented design patterns", Journal of Software Maintenance and Evolution, 13 (2001) 309-330. This article does not measure the impact of design patterns on software quality.
22. F. T. Dabous, F. A. Rabhi and H. Yu, "Using software architectures and design patterns for developing distributed applications", in: Proceedings - 2004 Australian Software Engineering Conference ASWEC 2004, April 13, 2004 - April 16, 2004, Institute of Electrical and Electronics Engineers Computer Society, Melbourne, Vic., Australia, 2004, pp. 290-299. This article does not measure the impact of design patterns on the software quality.
23. S. Konrad, B. H. C. Cheng and L. A. Campbell, "Object analysis patterns for embedded systems", Software Engineering, IEEE Transactions on, 30 (2004) 970-992. This article does not measure the impact of design patterns on the software quality.
24. I. Zitter, G. Kinkhorst, R.-j. Simons and O. ten Cate, "In search of common ground: A task conceptualization to facilitate the design of (e)learning environments with design patterns", Computers in Human Behavior, 25 (2009) 999-1009. This article does not measure the impact of design patterns on the software quality.
25. J. Bosch, "Design Patterns & Frameworks: On the Issue of Language Support", in: Proceedings of the Workshops on Object-Oriented Technology, Springer-Verlag, 1998, pp. 133-136. This article does not measure the impact of design patterns.
26. J. Dai, "Design Patterns for Internet-Scale Services", in: Proceedings of the 2009 IEEE International Conference on Data Engineering, IEEE Computer Society, 2009, pp. 1759. This article does not measure the impact of design patterns.
27. I. Fliege, A. Geraldy, R. Gotzhein, T. Kuhn and C. Webel, "Developing safety-critical real-time systems with SDL design patterns and components", Computer Networks, 49 (2005) 689-706. This article does not measure the impact of design patterns.
28. A. K. Goel, B. Bras, M. Helms, S. Rugaber, C. Tovey, S. Vattam, M. Weissburg, B. Wiltgen and J. Yen, "Design patterns and cross-domain analogies in biologically inspired sustainable design", in: 2011 AAAI Spring Symposium, March 21, 2011 - March 23, 2011, AI Access Foundation, Stanford, CA, United states, 2011, pp. 45-52. This article does not measure the impact of design patterns.
29. X. Pang, K. Ma and B. Yang, "Design pattern modeling and implementation based on MDA", in: Proceedings of the 2011 international conference on Web information systems and mining - Volume Part II, Springer-Verlag, Taiyuan, China, 2011, pp. 11-18. This article does not measure the impact of design patterns.
30. L. Prechelt and B. Unger, "Methodology and results of an experiment on design patterns", Informatik Forschung und Entwicklung, 14 (1999) 74-82. This article does not measure the impact of design patterns.
31. H. Gardner, "Design patterns in scientific software", in: Computational Science and it's Applications - ICCSA 2004. International Conference. Proceedings, 14-17 May 2004, Springer-Verlag, Berlin, Germany, 2004, pp. 776-85. This article does not measure the impact of design patterns.
32. H. Liu, Z. Suo, Q. Lu and J. Liang, "Design patterns and their applications to software design", Hsi-An Chiao Tung Ta Hsueh/Journal of Xi'an Jiaotong University, 39 (2005) 1043-1047. This article does not provide the ampirical assessment of the impact of design aptterns.
33. D. Riehle, "Composite design patterns", SIGPLAN Not., 32 (1997) 218-228. This article does not provide the assesement of the impact of design patterns.
34. J. G. Chu and J. Chen, "Research and application of design patterns on shopping mall component design", in: Chinese Control and Decision Conference 2008, CCDC 2008, July 2, 2008 - July 4, 2008, Inst. of Elec. and Elec. Eng. Computer Society, Yantai, Shandong, China, 2008, pp. 697-700. This article does not provide the empirical assesment of the impact of design pattern on software quality.
35. D. W. I. Rouson, J. Xia and X. Xu, "Object construction and destruction design patterns in Fortran 2003", Procedia Computer Science, 1 (2010) 1495-1504. This article does not provide the empirical assesment of the impact of design patterns on the software quailty.
36. C. J. Paul, "The process of building a process manager: architecture and design patterns", IBM Syst. J., 46 (2007) 479-495. This article does not provide the empirical assessment of the impact of design patterns on software quality
37. P. Alencar, D. Cowan, J. Dong and C. Lucena, "Pattern-based approach to structural design composition", in: Proceedings of the 1999 23rd Annual International Computer Software and Applications Conference (COMPSAC '99), October 27, 1999 - October 29, 1999, IEEE, Phoenix, AZ, USA, 1999, pp. 160-165. This article does not provide the empirical assessment of the impact of design patterns on software quality.
38. J. Wang, Y.-T. Song and L. Chung, "From software architecture to design patterns: A case study of an NFR approach", in: 6th International Conference on Software Engineering, Artificial Intelligence, Networking and Parallel/Distributed Computing and 1st ACIS International Workshop on Self-Assembling Wireless Networks, SNPD/SAWN 2005, May 23, 2005 - May 25, 2005, Institute of Electrical and Electronics Engineers Computer Society, Towson, MD, United states, 2005, pp. 170-177. This article does not provide the empirical assessment of the impact of design patterns on software quality.
39. E. Agerbo and A. Cornils, "How to preserve the benefits of design patterns", SIGPLAN Not., 33 (1998) 134-143. This article does not provide the empirical assessment the impact of design patterns on software quality.
40. C. Chambers, B. Harrison and J. Vlissides, "Debate on language and tool support for design patterns", in: POPL'00 - The 27th ACM SIGPLAN-SIGACT Symposium on Principles og Programming Languages, January 19, 2000 - January 21, 2000, ACM, Boston, MA, USA, 2000, pp. 277-289. This article does not provide the empirical eassessment of the impact of design patterns.
41. M. Kontio, H. Mayra and M. Ronkko, "Functional Classes Guide Use of Design Patterns in Implementing Mediators", in: Proceedings of the First International Conference on Complex, Intelligent and Software Intensive Systems, IEEE Computer Society, 2007, pp. 179-184. This article does not provide the empirical essessment of the impact of design patterns on software quality.
42. Rößling Guido, "A First Set of Design Patterns for Algorithm Animation", Electronic Notes in Theoretical Computer Science, 224 (2009) 67-76. This article does not provide the empirical essessment of the impact of design patterns.
43. V. K. Decyk and H. J. Gardner, "Object-oriented design patterns in Fortran 90/95: mazev1, mazev2 and mazev3", Computer Physics Communications, 178 (2008) 611-620. This article does not provide the emprical assesment of the impact of design patterns.
44. H. B. Christensen, "Frameworks: putting design patterns into perspective," SIGCSE Bull., vol. 36, pp. 142-145, 2004. This article does not provie the empirical assessment of the impact of design patterns on software quality.
45. A. Przybylek, "Design patterns with AspectJ, generics, and reflective programming", in: 5th International Conference on Software and Data Technologies, ICSOFT 2010, July 22, 2010 - July 24, 2010, Inst. for Syst. and Technol. of Inf. Control and Commun., Athens, Greece, 2010, pp. 131-136. This article evaluates the new programming langague on the desig patterns implementations. It does not measure directly the impact of design patterns.
46. H. Rajan, "Design pattern implementations in Eos", in: 14th Conference on Pattern Languages of Programs, PLoP '07, September 5, 2007 - September 8, 2007, Association for Computing Machinery, Monticello, IL, United states, 2007. This article evaluates the new programming langauge. It does not measure directly the impact of desig patterns.
47. F. Schmager, N. Cameron and J. Noble, "GoHotDraw: Evaluating the Go programming language with Design Patterns", in: Evaluation and Usability of Programming Languages and Tools, PLATEAU'10, October 17, 2010 - October 21, 2010, Association for Computing Machinery, Reno/Tahoe, NV, United states, 2010, pp. ACM Special Interest Group on Programming Languages (SIGPLAN). This article evaluates the new programming language called 'Go'. It does not directly measure the impact of design patterns on the sofware quality.
48. C. Frauenberger and T. Stockman, "Auditory display design An investigation of a design pattern approach", International Journal of Human-Computer Studies, 67 (2009) 907-922. This article evaluates the proposed framework that supports expert and novice designers in creating auditory artefacts in human.
49. L. Tokuda and D. Batory, "Evolving Object-Oriented Designs with Refactorings", in: Proceedings of the 14th IEEE international conference on Automated software engineering, IEEE Computer Society, 1999, pp. 174. This article evaluates whether refactoring technology can be transferred to the mainstream by restructuring non-trivial C++ applications. It does not the impact of design pattern on software quality.
50. W. Zhi Hu, G. Chang Jie, G. Bo, S. Wei, Z. Zhen and A. Wen Hao, "A Study and Performance Evaluation of the Multi-Tenant Data Tier Design Patterns for Service Oriented Computing", in: e-Business Engineering, 2008. ICEBE '08. IEEE International Conference on, 2008, pp. 94-101. This article evalutes design patterns that are not in the GoF patterns.
51. N. Mani, D. C. Petriu and M. Woodside, "Studying the Impact of Design Patterns on the Performance Analysis of Service Oriented Architecture", in: Proceedings of the 2011 37th EUROMICRO Conference on Software Engineering and Advanced Applications, IEEE Computer Society, 2011, pp. 12-19. This article evalutes the design patterns that are not in GoF patterns.
52. N. El Maghawry and A. R. Dawood,"Aspect oriented GoF design patterns", in: Informatics and Systems (INFOS), 2010 The 7th International Conference on, 2010, pp. 1-7. This article evalutes the effect of using the aspect oriented concepts on the software design that using design patterns. It does not directly measure the impact of desig patterns on software quality.
53. J. Park, D. C. Rine and E. White, "Assessing conformance of pattern-based design in UML", in: Proceedings of the 46th Annual Southeast Regional Conference on XX, ACM, Auburn, Alabama, 2008, pp. 298-303. This article explains the evaluation of pattern-based designs in Unified Modeling Language (UML) for their conformance to the corresponding design patterns.
54. A. Seffah, "The evolution of design patterns in HCI: From pattern languages to pattern-oriented design", in: 1st International Workshop on Pattern-Driven Engineering of Interactive Computing Systems, PEICS '10, Organized at the 2nd ACM SIGCHI Symposium on Engineering Interactive Computing Systems, EICS '10, June 20, 2010 - June 20, 2010, Association for Computing Machinery, Berlin, Germany, 2010, pp. 4-9. This article focuses on HCI patterns that are not in GoF patterns.
55. E. Blomqvist, A. Gangemi and V. Presutti, "Experiments on pattern-based ontology design", in: 5th International Conference on Knowledge Capture, K-CAP'09, September 1, 2009 - September 4, 2009, Association for Computing Machinery, Redondo Beach, CA, United states, 2009, pp. 41-48. This article focuses on the cotent ontology design patterns.
56. C. Hübscher, S. L. Pauwels, S. P. Roth, J. A. Bargas-Avila and K. Opwis, "The organization of interaction design pattern languages alongside the design process", Interacting with Computers, 23 (2011) 189-201. This article focuses on the interfaction design patterns that are not in GoF patterns
57. N. Cacho, C. Sant'Anna, E. Figueiredo, A. Garcia, T. Batista and C. Lucena, "Composing design patterns: A scalability study of aspect-oriented programming", in: 5th International Conference on Aspect-oriented Software Development 2006, AOSD'06, March 20, 2006 - March 24, 2006, Association for Computing Machinery, Bonn, Germany, 2006, pp. 109-121. This article investigates how AOP improve the scalabaility in the design using design patterns. It does not directly measure the impact of design patterns.
58. T. Tomura, K. Uchiro, S. Kanai and S. Yamamoto, "Object-oriented design pattern approach for modeling and simulating open distributed control system", in: Robotics and Automation, 2001. Proceedings 2001 ICRA. IEEE International Conference on, 2001, pp. 211-216 vol.1. This article propoeses new design patterns.
59. K. Stencel, P. Wegrzynowicz, "Implementation Variants of the Singleton Design Pattern", in: Proceedings of the OTM Confederated International Workshops and Posters on On the Move to Meaningful Internet Systems: 2008 Workshops: ADI, AWeSoMe, COMBEK, EI2N, IWSSA, MONET, OnToContent + QSI, ORM, PerSys, RDDS, SEMELS, and SWWS, Springer-Verlag, Monterrey, Mexico, 2008, pp. 396-406. This article proposes a design pattern detection technique.
60. L. Sabatucci, A. Garcia, N. Cacho, M. Cossentino and S. Gaglio, "Conquering Fine-Grained Blends of Design Patterns", in: Proceedings of the 10th international conference on Software Reuse: High Confidence Software Reuse in Large Systems, Springer-Verlag, Beijing, China, 2008, pp. 294-305. This article proposes a fine-grained composition language for describing varying blends of design patterns based on their structural and behavioural semantics.
61. J. M. Lin, Z. W. Hong, H. C. Jiau and W. C. Chu, "A design pattern for reengineering windows software applications into reusable CORBA objects", in: 8th Workshop on Future Trends of Distributed Computing Systems (FTDCS'01), October 31, 2001 - November 2, 2001, Institute of Electrical and Electronics Engineers Computer Society, Bologna, Italy, 2001, pp. 215-221. This article proposes a new desig pattern.
62. Z. Han, L. Wang, L. Yu, X. Chen, J. Zhao and X. Li, "Design pattern directed clustering for understanding open source code", IEEE International Conference on Program Comprehension, (2009) 295-296. This article proposes a new design patten.
63. D. Fogli, L. P. Provenza and C. Bernareggi, "A design pattern language for accessible web sites", in: Proceedings of the International Conference on Advanced Visual Interfaces, ACM, Roma, Italy, 2010, pp. 307-310. This article proposes a new design pattern.
64. E. Folmer, M. v. Welie and J. Bosch, "Bridging patterns: An approach to bridge gaps between SE and HCI", Inf. Softw. Technol., 48 (2006) 69-89. This article proposes a new design pattern.
65. B. Sanden, "A Design Pattern for State Machines and Concurrent Activities", in: Proceedings of the 6th Ade-Europe International Conference Leuven on Reliable Software Technologies, Springer-Verlag, 2001, pp. 203-214. This article proposes a new design pattern.
66. H. Youn and E. Lee, "Design pattern based development methodology and support tool for multi agent system", in: Proceedings of the 2nd KES International conference on Agent and multi-agent systems: technologies and applications, Springer-Verlag, Incheon, Korea, 2008, pp. 142-151. This article proposes a new design pattern.
67. S. L. Pauwels, C. Hübscher, J. A. Bargas-Avila, and K. Opwis, "Building an interaction design pattern language: A case study," Comput. Hum. Behav., vol. 26, pp. 452-463, 2010. This article proposes a new interaction desing pattern in HCI.
68. J. Dong, Y. Zhao and Y. Sun, "Design pattern evolutions in QVT", Software Quality Control, 18 (2010) 269-297. This article proposes an approach for assisting the evolution processes of design patterns by model transformation technology.
69. N.-L. Hsueh, L.-C. Wen, D.-H. Ting, W. Chu, C.-H. Chang and C.-S. Koong, "An Approach for Evaluating the Effectiveness of Design Patterns in Software Evolution", in: Proceedings of the 2011 IEEE 35th Annual Computer Software and Applications Conference Workshops, IEEE Computer Society, 2011, pp. 315-320. This article proposes an approach for evaluating the effectivenss of design pattern in an evolution.
70. D.-K. Kim and W. Shen, "An approach to evaluating structural pattern conformance of UML models", in: Proceedings of the 2007 ACM symposium on Applied computing, ACM, Seoul, Korea, 2007, pp. 1404-1408. This article proposes an approach for evaluating the structural conformance of a UML class diagram to a design pattern.
71. Y. Chen, H. S. Hamza and M. E. Fayad, "A framework for developing design models with analysis and design patterns", in: Information Reuse and Integration, Conf, 2005. IRI -2005 IEEE International Conference on., 2005, pp. 592-596. This article proposes an approach that transforms a stable analysis pattern into a design model by composing the appropriate set of design patterns. It does not measure the impact of design pattern on software quality.
72. D. J. Ram, K. N. Anantharaman, K. N. Guruprasad, M. Sreekanth, S. V. G. K. Raju and A. A. Rao, "An approach for pattern oriented software development based on a design handboo", Ann. Softw. Eng., 10 (2000) 329-358. This article proposes an approach to evaluate the effectivenss of using design patterns.
73. N.-L. Hsueh, P.-H. Chu and W. Chu, "A quantitative approach for evaluating the quality of design patterns", Journal of Systems and Software, 81 (2008) 1430-1439. This article proposes an approach to evaluate the quality of design patterns.
74. C. Iacob, "Design patterns in the design of systems for creative collaborative processes", in: Proceedings of the Third international conference on End-user development, Springer-Verlag, Torre Canne, Italy, 2011, pp. 359-362. This article proposes an approach to identify design pattern that support the collaborative processes. It does not measuret the impact of design patterns.
75. Y.-G. Gueheneuc, H. Sahraoui and F. Zaidi, "Fingerprinting Design Patterns", in: Proceedings of the 11th Working Conference on Reverse Engineering, IEEE Computer Society, 2004, pp. 172-181. This article proposes an approach to identify the roles of design patterns in the software. It does not measure the impact of design patterns on software quality.
76. H. A. Schmid, "Design patterns for constructing the hot spots of a manufacturing framework", JOOP - Journal of Object-Oriented Programming, 9 (1996) 25-37, 73. This article proposes an approach to the design of a manufacturing framework. It does not measure the impact of design patterns.
77. E. L. A. Baniassad, G. C. Murphy and C. Schwanninger, "Design Pattern Rationale Graphs: linking design to source", in: Proceedings of the 25th International Conference on Software Engineering, IEEE Computer Society, Portland, Oregon, 2003, pp. 352-362. This article proposes an approch for identifying design goals in a design pattern.
78. V. Pelechano, O. Pastor and E. Insfrán, "Automated code generation of dynamic specializations: an approach based on design patterns and formal techniques", Data & Knowledge Engineering, 40 (2002) 315-353. This article proposes an automatic code generation process from conceptual models.
79. T. Nishida, S. Kanemune, Y. Idosaka, M. Namiki, T. Bell and Y. Kuno, "A CS unplugged design pattern", SIGCSE Bull., 41 (2009) 231-235. This article proposes an educational method for introducing non-specialists to concepts of CS through hands-on activities that don't require the use of a computer.
80. L. Chen, L. Tan and Y. An, "Design Pattern Integration Method for Improving Performance of EJB and Its Applications", in: Environmental Science and Information Application Technology, 2009. ESIAT 2009. International Conference on, 2009, pp. 539-542. This article proposes EJB design patterns.
81. B. Tu, M. Zou, J. Zhan, L. Wang and J. Fan, "Design Patterns of Scalable Cluster System Software", in: Proceedings of the Seventh International Conference on Parallel and Distributed Computing, Applications and Technologies, IEEE Computer Society, 2006, pp. 415-420. This article proposes new design patterns for using in the clusster computing.
82. O. Babaoglu, G. Canright, A. Deutsch, G. A. Di Caro, F. Ducatelle, L. M. Gambardella, N. Ganguly, M. Jelasity, R. Montemanni, A. Montresor and T. Urnes, "Design patterns from biology for distributed computing", in, Association for Computing Machinery, 2006, pp. 26-66. This article proposes new design patterns.
83. E. S. Chung, J. I. Hong, J. Lin, M. K. Prabaker, J. A. Landay and A. L. Liu, "Development and evaluation of emerging design patterns for ubiquitous computing", in: Proceedings of the 5th conference on Designing interactive systems: processes, practices, methods, and techniques, ACM, Cambridge, MA, USA, 2004, pp. 233-242. This article proposes new design patterns.
84. J. Froyd, J. Layne, D. Fowler and N. Simpson, "Design patterns for faculty development", in: Frontiers In Education Conference - Global Engineering: Knowledge Without Borders, Opportunities Without Passports, 2007. FIE '07. 37th Annual, 2007, pp. T1J-1-T1J-5. This article proposes new design patterns.
85. J. Heer and M. Agrawala, "Software Design Patterns for Information Visualization", IEEE Transactions on Visualization and Computer Graphics, 12 (2006) 853-860. This article proposes new design patterns.
86. P. H. Kahn, N. G. Freier, T. Kanda, H. Ishiguro, J. H. Ruckert, R. L. Severson and S. K. Kane, "Design patterns for sociality in human-robot interaction", in: Proceedings of the 3rd ACM/IEEE international conference on Human robot interaction, ACM, Amsterdam, The Netherlands, 2008, pp. 97-104. This article proposes new design patterns.
87. L. Li and C. Wu, "Design patterns for RESTful communication web services", in: 2010 IEEE 8th International Conference on Web Services, ICWS 2010, July 5, 2010 - July 10, 2010, IEEE Computer Society, Miami, FL, United states, 2010, pp. 512-519. This article proposes new design patterns.
88. L. Li and C. Wu, "Design Patterns for RESTful Communication Web Services", in: Web Services (ICWS), 2010 IEEE International Conference on, 2010, pp. 512-519. This article proposes new design patterns.
89. Y. Manai, J. Haggege and M. Benrejeb, "PI-Fuzzy controller conception with design pattern based approach", in: 14th IEEE International Conference on Electronics, Circuits and Systems, ICECS 2007, December 11, 2007 - December 14, 2007, Institute of Electrical and Electronics Engineers Inc., Marrakech, Morocco, 2007, pp. 483-489. This article proposes new design patterns.
90. T. Okubo, H. Kaiya and N. Yoshioka, "Effective Security Impact Analysis with Patterns for Software Enhancement", in: Availability, Reliability and Security (ARES), 2011 Sixth International Conference on, 2011, pp. 527-534. This article proposes new design patterns.
91. L. Pavlic, M. Hericko and V. Podgorelec, "Improving design pattern adoption with ontology-based design pattern repository", in: ITI 2008 30th International Conference on Information Technology Interfaces, June 23, 2008 - June 26, 2008, University of Zagreb, Cavtat/Dubrovnik, Croatia, 2008, pp. 649-654. This article proposes new design patterns.
92. D. Persico, F. Pozzi and L. Sarti, "Design patterns for monitoring and evaluating CSCL processes", Computers in Human Behavior, 25 (2009) 1020-1027. This article proposes new design patterns.
93. E. Rusman, J. v. Bruggen, R. Cörvers,  P. Sloep and R. Koper, "From pattern to practice: Evaluation of a design pattern fostering trust in virtual teams", Comput. Hum. Behav., 25 (2009) 1010-1019. This article proposes new design patterns.
94. W.-T. Tsai, B. Wu, Z. Jin, Y. Huang and W. Li, "Ontology patterns for service-oriented software development", (2011). This article proposes new design patterns.
95. D. Goswami, A. Singh and B. R. Preiss, "From Design Patterns to Parallel Architectural Skeletons", Journal of Parallel and Distributed Computing, 62 (2002) 669-695. This article proposes new parallel design patterns.
96. E. B. Fernandez, "Security Patterns and Secure Systems Design", in: Proceedings of the 3rd Latin-American symposium on Dependable Computing, Springer-Verlag, Morella, Mexico, 2007, pp. 233-234. This article proposes new patterns that are not in the GoF patterns.
97. A. Armoush, E. Beckschulze and S. Kowalewski, "Safety Assessment of Design Patterns for Safety-Critical Embedded Systems", in: Software Engineering and Advanced Applications, 2009. SEAA '09. 35th Euromicro Conference on, 2009, pp. 523-527. This article proposes safety assessment method for safety-critical systems design patterns. It does not directly measure the impact of design patterns on software quality.
98. B. Huston, "The effects of design pattern application on metric scores", Journal of Systems and Software, 58 (2001) 261-269. This article proposes the approach for software metric that is used to measure effect of design patterns.
99. H. B. K. Tan and T. W. Ling, "Integrated design patterns for database applications", Journal of Systems and Software, 47 (1999) 159-172. This article proposes the approach to use design patterns to provide solutions for some important common requirements in database applications. It does not measure the impact of design patterns on software quality.
100. N. Moha, Yann-Gael Gueheneuc,  "PTIDEJ: identification of design patterns and design defects", in: Companion to the 22nd ACM SIGPLAN conference on Object-oriented programming systems and applications companion, ACM, Montreal, Quebec, Canada, 2007, pp. 868-869. This article proposes the design pattern detection technique.
101. J. McC Smith and D. Stotts, "Elemental design patterns: a formal semantics for composition of OO software architecture", in: Software Engineering Workshop, 2002. Proceedings. 27th Annual NASA Goddard/IEEE, 2002, pp. 183-190. This article proposes the new design pattern.
102. J. Gustafsson, J. Paakki, L. Nenonen and A. I. Verkamo, "Architecture-Centric Software Evolution by Software Metrics and Design Patterns", in: Proceedings of the Sixth European Conference on Software Maintenance and Reengineering, IEEE Computer Society, 2002, pp. 108. This article proposes the tool to evaluate the software architecture.
103. M. Zapf and A. Heinzl, "Evaluation of Generic Process Design Patterns: An Experimental Study", in: Business Process Management, Models, Techniques, and Empirical Studies, Springer-Verlag, 2000, pp. 83-98. This article propses a framework for evaluating generic process design patterns.
104. J. Dong, S. Yang and K. Zhang, "Visualizing Design Patterns in Their Applications and Compositions", Software Engineering, IEEE Transactions on, 33 (2007) 433-453. This article propses an approach to present a UML profile that defines new stereotypes, tagged values, and constraints for tracing design patterns in UML diagrams.
105. S. M. Yacoub and H. H. Ammar, "UML Support for Designing Software Systems as a Composition of Design Patterns", in: Proceedings of the 4th International Conference on The Unified Modeling Language, Modeling Languages, Concepts, and Tools, Springer-Verlag, 2001, pp. 149-165. This article propses an approach to utilize UML modeling capabilities to compose design patterns at various levels of abstractions. It does not directly measure the impact of design patterns on software quality.
106. U. Batra and S. Mukherjee, "Software design patterns for message driven service oriented integration of stovepipe applications in healthcare enterprise", in: 10th WSEAS International Conference on Applied Computer and Applied Computational Science, ACACOS'11, March 8, 2011 - March 10, 2011, World Scientific and Engineering Academy and Society, Venice, Italy, 2011, pp. 211-216. This article propses design patterns for SOA.
107. B. C. P. Heng and R. I. Mackie, "Using design patterns in object-oriented finite element programming", Computers & Structures, 87 (2009) 952-961. This article propses new design patterns.
108. U. Isikdag and J. Underwood, "Two design patterns for facilitating Building Information Model-based synchronous collaboration", Automation in Construction, 19 (2010) 544-553. This article propses new design patterns.
109. J. Y. Wan, Y. Q. Sun and J. Y. Xue, "Expanding design pattern to support parallel programming", in: Technology of Object-Oriented Languages and Systems, 2000. TOOLS - Asia 2000. Proceedings. 36th International Conference on, 2000, pp. 24-31. This article proses new design patterns that are used in parallel programs.
110. A. Lau and R. E. Seviora, "Design patterns for software health monitoring", in: Engineering of Complex Computer Systems, 2005. ICECCS 2005. Proceedings. 10th IEEE International Conference on, 2005, pp. 467-476. This article prposes new design patterns.
111. E. G. Nilsson, "Design patterns for user interface for mobile applications", Adv. Eng. Softw., 40 (2009) 1318-1328. This article prposes UI design patterns.
112. A. Markus, K. Axel and S. Christian, "Design Patterns Usage in Peer-to-Peer Systems--An Empirical Analysis", in: Web Intelligence and Intelligent Agent Technology Workshops, 2006. WI-IAT 2006 Workshops. 2006 IEEE/WIC/ACM International Conference on, 2006, pp. 459-462. This article uses desig patterns that are not in GoF patterns.
113. G. Grimaud, Y. Hodique and I. Simplot-Ryl, "A verifiable lightweight escape analysis supporting creational design patterns", in: 21st International Conference on Advanced Information Networking and ApplicationsWorkshops/Symposia, AINAW'07, May 21, 2007 - May 23, 2007, Inst. of Elec. and Elec. Eng. Computer Society, Niagara Falls, ON, Canada, 2007, pp. 440-447. This article uses design patterns are not in Gof patterns.
114. M. Aleksy, M. Schader, C. Seifried and M. Takizawa, "Empirical study of design pattern usage in peer-to-peer systems", in: 1st International Conference on Network-Based Information Systems, NBiS 2007, September 3, 2007 - September 7, 2007, Springer Verlag, Regensburg, Germany, 2007, pp. 335-344. This article uses design patterns are not in the GoF patterns.
115. P. Baca and V. Vranic, "Replacing object-oriented design patterns with intrinsic aspect-oriented design patterns", in: 2011 2nd Eastern European Regional Conference on the Engineering of Computer Based Systems, ECBS-EERC 2011, September 5, 2011 - September 6, 2011, IEEE Computer Society, Bratislava, Slovakia, 2011, pp. 19-26. This article uses design patterns that are not in GoF patterns.
116. A. Corsaro and C. Santoro, "The analysis and evaluation of design patterns for distributed real-time Java software", in: Emerging Technologies and Factory Automation, 2005. ETFA 2005. 10th IEEE Conference on, 2005, pp. 8 pp.-856. This article uses design patterns that are not in GoF patterns.
117. E. Golden, B. E. John and L. Bass, "The value of a usability-supporting architectural pattern in software architecture design: A controlled experiment", in: 27th International Conference on Software Engineering, ICSE05, May 15, 2005 - May 21, 2005, Association for Computing Machinery, St. Louis, MO, United states, 2005, pp. 460-469. This article uses design patterns that are not in GoF patterns.
118. S. Kurian and M. J. Pont, "Evaluating and improving pattern-based software designs for resource-constrained embedded systems", in: European Safety and Reliability Conference 2006, ESREL 2006 - Safety and Reliability for Managing Risk, September 18, 2006 - September 22, 2006, Taylor and Francis/Balkema, Estoril, Portugal, 2006, pp. 1417-1423. This article uses design patterns that are not in GoF patterns.
119. N. Mani, D. C. Petriu and M. Woodside, "Towards studying the performance effects of design patterns for service oriented architecture", in: Proceedings of the second joint WOSP/SIPEW international conference on Performance engineering, ACM, Karlsruhe, Germany, 2011, pp. 499-504. This article uses design patterns that are not in GoF patterns.
120. J. Richard, J.-M. Robert, S. Malo, and J. Migneault, "Giving UI developers the power of UI design patterns," presented at the Proceedings of the 2011 international conference on Human interface and the management of information - Volume Part I, Orlando, FL, USA, 2011. This article uses design patterns that are not in GoF patterns.
121. C. Silva, J. Castro, J. Araujo, A. Moreira, P. Tedesco and J. Mylopoulos, "Advanced separation of concerns in agent-oriented design patterns", Int. J. Agent-Oriented Softw. Eng., 3 (2009) 306-327. This article uses design patterns that are not in GoF patterns.
122. U. Yildiz, A. Guabtni and A. H. H. Ngu, "Towards scientific workflow patterns", in: Proceedings of the 4th Workshop on Workflows in Support of Large-Scale Science, ACM, Portland, Oregon, 2009, pp. 1-10. This article uses design patterns that are not in GoF patterns.
123. H. Yun, P.-L. Wu, M. Rahmaniheris, C. Kim and L. Sha, "A reduced complexity design pattern for distributed hierarchical command and control system", in: Proceedings of the 1st ACM/IEEE International Conference on Cyber-Physical Systems, ACM, Stockholm, Sweden, 2010, pp. 42-49. This article uses design patterns that are not in GoF patterns.
124. M. Bynens, E. Truyen and W. Joosen, "A system of patterns for reusable aspect libraries", Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics), 6580 (2011) 46-107. This article uses design patterns that are not in the GoF patterns.
125. J. Brusey, E. Gaura and R. Hazelden, "A Pattern-based framework for developing wireless monitoring applications", Lecture Notes in Electrical Engineering, 96 (2011) 75-91. This article uses new design patterns that are not in GoF patterns.
126. H. Cai, "Patterns for Designing Experience Oriented 3D Virtual World Learning Applications", in: Proceedings of the 2008 International Conference on Management of e-Commerce and e-Government, IEEE Computer Society, 2008, pp. 161-168. This article uses new design patterns that are not in the GoF patterns.
127. R. Pea and R. Lindgren, "Video Collaboratories for Research and Education: An Analysis of Collaboration Design Patterns", IEEE Trans. Learn. Technol., 1 (2008) 235-247. This article propses new design patterns.
128. M. A. Laverdiere, A. Mourad, A. Hanna and M. Debbabi, "Security Design Patterns: Survey and Evaluation", in: Electrical and Computer Engineering, 2006. CCECE '06. Canadian Conference on, 2006, pp. 1605-1608. Thsi article evalutes teh security patterns that are not in the GoF patterns.

Last Updated on August 27, 2012.

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