**10. References**


Behboodian, A. (2006). *Model Based Design*. DSP Magazine, Vol.2, pp.52-56., May 2006.


352 Grid Computing – Technology and Applications, Widespread Coverage and New Horizons

Comparing the result with no load and the result with load, it seems that the shapes of the wave forms are almost identical except in the moment that the load resistances are connected. The voltage decreased by about 2% of no load voltage for a very short time of approximately 100 msec, and then it returned to its normal value. So, we can conclude that the proposed controlling algorithm is working well, and it can maintain the disturbance

This research meets the challenges of the embedded system design by applying the Model Based Design (MBD) method in the early design stage. Furthermore, the main contribution of this research is to prove the potential of using the MBD method in the optimization and verification of the embedded system software development. This study proposed the functional model of a microprocessor in the early stage of the inverter power supply development, which allows the full simulation of the system in the virtual environment including the electrical circuit and software implementation. Inverter power supply was taken as a case study of the embedded system design. An entire model of the system was developed, including the electrical circuit and the microprocessor using the MATLAB and Simulink package. All the software parameters were optimized as well as a newly applied controlling algorithm was evaluated using the Model In the Loop Simulation (MILS) environment. The validity and the usefulness of the proposed model were tested comparing with the actual prototype of the inverter power supply. The developed model was shown to be well in agreement with the experimental results. This method can be used to optimize the software parameters before the actual design. Moreover, the models can be used to study and analyze the behaviors of the system which meet the challenges of designing the digital control system. The results show that the suggested models are promising and the models can be useful for optimizing the

Abo Eldahb, M.A. (2011). *Model Based Design Environment for the Embedded System; Case study:* 

Abo Eldahb, M.A., Iino, S. Shirashi, Y.& Tatsumo, M.(2009).*Model Based Design of The inverter* 

Buyya R, Murshed M. GridSim(2002): *A toolkit for the modeling and simulation of distributed* 

Behboodian, A. (2006). *Model Based Design*. DSP Magazine, Vol.2, pp.52-56., May 2006. Berger, A. S. (2002). *Embedded Systems Design: An Introduction to Processes, Tools & Techniques.* 

*Inverter Power supply*. Ph D Thesis, Production Science and technology Dept.,

*Power Supply*, In the Proceeding of ICCAS-SICE International Joint Conference,

*resource management and scheduling for Grid computing.* Concurrency and

occurred due to the load connection.

performances in developing the embedded software.

Gunma University, Japan, Sept. 2011.

Fukuoka, Japan, August 17-21th, 2009.

Computation: Practice and Experience 2002

*Group West Publishers, USA.* 

**9. Conclusions** 

**10. References** 


354 Grid Computing – Technology and Applications, Widespread Coverage and New Horizons

Woodward, V. & Mosterman, J. (2007). *Challenges for Embedded Software Development*. In the

Xue Y., Baekhy K. & Bordonau, J. ( 2004).*Topologies of Single Phase Inverter for Small* 

2007.

September, 2004.

Proceeding of Circuit and System, MWSCAS Conference, pp.630-633, 5-8th August,

*Distributed Power Generators: An Overview*, Transactions, IEEE, Vol.19, No.5,
