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Conference Object Cosmic Light Vs Cosmic Classic Manual: Case Studies in Functional Size Measurement(CEUR-WS, 2020) Hacaloglu,T.; Unlu,H.; Demirors,O.; Abran,A.Functional size has been used in software engineering for more than 40 years. When measured early in the software development life cycle, it can serve as direct input for effort estimation. The COSMIC Functional Size Measurement (FSM) method developed by the Common Software Measurement Consortium (COSMIC) is the latest ISO-compliant functional sizing method. A streamlined manual titled ''Software Development Velocity with COSMIC Function Points'' summarizes the measurement process and shortens the learning time. The aim of this study is to compare the classic COSMIC FSM manual and this new “light” manual in terms of accuracy of the resulting FSM applied to case studies. The findings show that use of the light manual results in accurate measurement. In addition, there were no significant time differences between the two. With respect to the variations in COSMIC Function Points (CFP) values in the two case studies, they three causes were identified: the Object of Interest (OOI) concept and corresponding data groups, details regarding Functional Process Independence, and Error/Confirmation messages related to the scope of the information included in the manuals. Copyright © 2020 for this paper by its authors.Conference Object Yazilim Mühendisliʇi Eʇitiminde Bitirme Projesi Dersinin Öʇrenci Bakiş Açisiyla Deʇerlendirilmesi(CEUR-WS, 2013) Karakaya,M.; Bostan,A.[No abstract available]Conference Object Üniversite Yazilim Mühendisligi Programlari Müfredatinin Swebok Kilavuzu Kullanilarak Degerlendirme ve İyilestirilmesi: Türkiye'de Bir Vaka Çalismasi(CEUR-WS, 2015) Garousi,V.; Mishra,A.; Yazici,A.[No abstract available]Editorial Foreword(CEUR-WS, 2017) Yazici, Ali; Oǧuztüzün, HalitConference Object Türkiye'de Yazilimin Temel Gösterge Alanlarda Gelisimi(CEUR-WS, 2016) Yazici,A.; Misra,A.; Özkan,B.; Cetin,S.[No abstract available]Conference Object Yazilim Mühendisligi Egitiminde Bitirme Projesinin Yürütülmesinde İki Farkli Yöntemin Ögrenci Bakis Açisiyla Degerlendirilmesi(CEUR-WS, 2015) Karakaya,M.; Bostan,A.[No abstract available]Conference Object Gerçek Zamanli Gömülü Yazilimlar için Test Otomasyonu: Türkiye Endüstrisinden Bir Yaklaşim ve Deneyim Raporu(CEUR-WS, 2014) Urul,G.; Yusifoʇlu,V.G.; Urul,G.[No abstract available]Conference Object Yazilim Mühendisliǧi Alaninda Yayimlanan Tez ve Makalelerin Swebok'a Göre Degerlendirilmesi ve Yazilim Mühendisliǧi Eǧitiminin Iyilestirilmesi için Öneriler(CEUR-WS, 2016) Karakaya,M.; Karakaya, Kasım Murat; Yazici,A.; Yazıcı, Ali; Karakaya, Kasım Murat; Yazıcı, Ali; Computer Engineering; Software Engineering; Computer Engineering; Software Engineering[No abstract available]Conference Object Yazilim Ürün Hatlari için Otomatik İşlevsel Büyüklük Ölçümü Yaklaşimi(CEUR-WS, 2014) Eren,Ö.; Özkan,B.; Demirörs,O.[No abstract available]Conference Object Software Change Size Measurement: an Exploratory Systematic Mapping Study(CEUR-WS, 2024) Hacaloglu, T.; Küçükateş Ömüral, N.; Kılınç Soylu, G.; Demirörs, O.Change in software projects can occur through various channels. Customers may request modifications or new features; appraisal activities such as reviews or testing may uncover issues that necessitate adjustments, or products may need to adapt to changes in their operating environment. Therefore, it is essential to assess these changes explicitly and objectively within the scope of software engineering activities. Specifically, quantifying change by measuring its size is crucial for successful management, as without a meaningful metric, it is impossible to accurately assess its impact on the project's effort, schedule, and cost. This study aims to explore the concept of change in software engineering literature, with a particular emphasis on the methods used to measure its size. The study reveals that the current literature on this topic is still in its early stages and the measurement and estimation of changes remain challenging throughout both development and maintenance phases. According to the reviewed articles, size is primarily used for effort estimation. Various software artifacts from different stages of the Software Development Life Cycle (SDLC) serve as input for change measurement, highlighting the need for a versatile size measurement applicable across all SDLC phases. Most of the reviewed articles interpret change in the context of maintenance activities. This research sets a benchmark for the status of software size measures for software change and highlights related problems to suggest further research topics. © 2024 Copyright for this paper by its authors.
