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  1. Myanmar Institute of Information Technology
  1. Myanmar Institute of Information Technology
  2. Faculty of Computer Science

Software Size Estimation for Embedded Software using COSMIC Functional Size Measurement

http://hdl.handle.net/20.500.12678/0000007962
http://hdl.handle.net/20.500.12678/0000007962
d71c95b6-cf30-4ec4-80b5-6ae4d88701b0
21c8902d-2eaf-4db4-8c7b-fdf000ba0360
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Conference paper
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Publication
Title
Title Software Size Estimation for Embedded Software using COSMIC Functional Size Measurement
Language en
Publication date 2016-12-10
Authors
Thandar Zaw
Swe Zin Hlaing
Myint Myint Lwin
Koichiro Ochimizu
Description
Software sizing estimates the probable size of a piece of software while effort estimation predicts the effort needed to build it. Measurement of software size from user requirements is crucial for the estimation of the developmental time and effort. The generated Function Point methods are designed for business application domain but it is difficult to estimate the real-time software domain such as embedded software system. Therefore, COSMIC Functional Size Measurement (FSM) method is applied to design both in the business application software domain and the real-time software domain. To correctly measure the functional size of embedded system’s requirements documented and modelled by using the popular tools, FSM procedures must be designed and well defined in embedded system development. Firstly, this paper proposes SysML design notations which can be used to estimate the size of embedded software. After that these design notations can be applied to the COSMIC FSM. SysML representation involves sequence diagram to represent the functional requirements. This proposal uses one of the embedded systems. It shows the usage of SysML sequence diagram with COSMIC FSM which is applicable to the case study in elevator control system. SysML sequence meta model can be defined depending upon the SysML design diagram by extending stereotype through the specific profiling mechanism .Finally, the mapping rules between the meta model and COSMIC FSM define to support the functional size measurement of software.
Keywords
"Functional Size Measurement (FSM), Common Software Measurement International Consortium (COSMIC), System Modeling Language (SysML), Meta model "
Conference papers
International Workshop
16th-18th December, 2016
"Proceedings of the 2nd International Workshop on Advanced Information Technologies(UIT) "
University of Information Technology, Yangon
AI and Knowledge Engineering Session (Software Engineering and Natural Language Processing
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