Abstract—Recently, the scale of distributed computing
environment is growing larger. One of the reasons is
development of IoT environment which directly impacts the
human life by providing instant access to vast amount of
information and services correspond to healthcare, smart home
service, etc. Interaction testing among distributed systems such
as IoT systems is non-trivial task, also cooperative simulation of
both model and code components is more difficult one.
Model-based and code-based simulation techniques are widely
used to test embedded systems. Usually code-based simulation is
possible when all the modules are implemented, after finishing
model-based simulation. Both simulations cannot be applied
cooperatively due to lacks of cooperation among model and code
components. In this paper, we propose a ZeroMQ-based
simulation framework for simulating distributed components to
mitigate these problems of testing distributed components. This
framework can be applicable to even incompletely implemented
system, which makes it possible to develop the system
incrementally.
Index Terms—Cooperative simulation, distributed simulation,
model and code, IoT.
The authors are with the Department of Computer Science and
Engineering, Kyungpook National University, Republic of Korea (e-mail:
lee3229910@gmail.ac.kr, bbakeung@naver.com, woojin@knu.ac.kr).
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Cite: Sunghee Lee, Heungjun Park, and Woo Jin Lee, "Design of ZeroMQ-Based Cooperative Simulation Framework for Distributed Code and Model Components," International Journal of Future Computer and Communication vol. 4, no. 4, pp. 258-261, 2015.
