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dc.contributor.authorSulistyanto, Hernawan
dc.date.accessioned2014-06-13T07:29:44Z
dc.date.available2014-06-13T07:29:44Z
dc.date.issued2014-03
dc.identifier.citationCheng-Gang, B., J. Chang-Hai, and C. Kai-Yuan, 2010, A reliability improvement predictive approach to software testing with Bayesian method, in IEEE Proceeding of the 29 Chinese Control Conference, July 29-31, Beijing, China, pp. 6031-6036. Cisar, S.M., et.al., 2012, Computer adaptive tests: a comparative study, IEEE Proceeding of 10 th Jubilee International Symposium on Intelligent System and Informatics, September 20-22, Subotica, Serbia, pp. 499-504. Clune, T.L., and R.B. Rood, 2011, Software testing and verification in climate model development, IEEE Journal, Focus: climate change software, September-October, pp. 49-55. Jiang, F. and Y. Lu, 2012, Software testing model selection research based on yin-yang testing theory, in IEEE Proceeding of International Conference on Computer Science and Information Processing (CISP), pp. 590-594 Jin, J., and F. Xue, 2011, Rethinking software testing based on software architecture, in IEEE Proceeding of 7 International Conference on Semantics, Knowledge and Grids, pp. 148-151. DOI 10.1109/SKG.2011.32 th Jin, H. and F. Zeng, 2011, Research on the definition and model of software testing quality, IEEE Journal, pp. 639-644 Kumamoto, H., et.al., 2010, Destructive testing of software systems by model checking, IEEE Journal, pp. 261-266. Lamas, E., A.V. Dias, and A.M. da Cunha, 2013, Applying testing to enhance software product quality, in IEEE Proceeding of 10 International Conference on Information Technology: New generation, pp. 349-356. DOI 10.1109/ITNG.2013.56 th Urgensi Pengujian Pada Kemajemukan Perangkat Lunak Lemos, O.A.L., et. al., 2011, “Evaluation studies of software testing research in the Brazilian symposium on software engineering”, in IEEE Proceeding of 25 th Brazilian Symposium on Software Engineering, pp. 56-65. DOI 10.1109/SBES.2011.30 Nakagawa, E.Y., and J.S. Maldonado, 2011, Contributions and perspectives in architectures of software testing environments, in IEEE Proceeding of 25 Brazilian Symposium on Software Engineering, pp. 66-71. DOI 10.1109/SBES.2011.42 Pressman, R.S., 2010, Software Engineering: a practitioner’s approach, 7 th Edition, McGraw-Hill, New York. th Reza, H., and S. Lande, 2010, Model based testing using software architecture, in IEEE Proceeding of 7 International Conference on Information Technology, pp. 188-192. DOI 10.1109/ ITNG.2010.122 th Sommerville, I., 2011, Software engineering, 9 Edition, Pearson Education, USA. Wen-hong, L. and W. Xin, 2012, The software quality evaluation method based on software testing, th in IEEE Proceeding of International Conference on Computer Science and Service System, pp. 1467-1471. DOI 10.1109/CSSS.2012.369 Wu, Y., Y. Zhang, and M. Lu, 2010, Software reliability accelerated testing method based on mixed testing, IEEE Journal. Wu, X., and J. Sun, 2010, The study on an intelligent general-purpose automated software testing suite, IEEE Proceeding of International Conference on Intelligent Computation Technology and Automation, pp. 993-996. DOI 10.1109/ICICTA.2010.115 Xie, T., et.al., 2011, A study on methods of software testing based on the design models, in Proceeding of 6 International Conference on Computer Science and Education (ICCSE 2011), August 3-5, Singapore, pp. 111-113. th Yang, Y., L. Lun, and X. Chi, 2011, Research on path generation for software architecture testing matrix transform-based, IEEE Journal, pp. 2483-2486. Zhang, B., and X. Shen, 2011, The effectiveness of real-time embedded software testing, IEEE Journal, pp. 661-664.en_US
dc.identifier.issn2087-085X
dc.identifier.urihttp://hdl.handle.net/11617/4489
dc.description.abstractPengujian perangkat lunak merupakan suatu investigasi yang dilakukan untuk mendapatkan informasi mengenai kualitas dari produk atau layanan yang sedang diuji (under test). Pengujian perangkat lunak akan memberikan pandangan mengenai perangkat lunak secara obyektif dan independen yang bermanfaat dalam operasional bisnis untuk memahami tingkat risiko pada implementasinya sebelum disampai kepada pelanggan. Tiga konsep yang perlu diperhatikan dalam pengujian perangkat lunak adalah demonstrasi validitas perangkat lunak pada setiap tahapan pembangunan sistem, penentuan validitas sistem akhir terhadap pemakai kebutuhan, dan pemeriksaan implementasi sistem dengan menjalankan sistem pada suatu contoh data uji. Implementasi pengujian pada perangkat lunak dapat dilaksanakan sesuai dengan kebutuhan dan model sistem. Keragaman dan kemajemukan perangkat lunak mengisyaratkan pentingnya untuk melaksanakan banyak improvisasi saat pengujian dikerjakan, seperti penentuan kasus uji yang tepat, pemilihan model dan metode pengujian yang sesuai, penentuan lingkungan uji yang cocok, serta mempertimbangkan beberapa aspek lain yang bertujuan mengoptimalkan hasil uji yang diperoleh dalam kerangka menjamin kualitas sebuah produk perangkat lunak.en_US
dc.publisherUniversitas Muhammadiyah Surakartaen_US
dc.subjectpengujianen_US
dc.subjectperangkat lunaken_US
dc.subjectkualitas produken_US
dc.titleUrgensi Pengujian pada Kemajemukan Perangkat Lunak dalam Multi Perspektifen_US
dc.typeArticleen_US


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