November, 2016


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Brief description of the contents
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sheepsCOLD.bat: the batch file used to run the simulation and obtain the sheepsCOLD.log.

sheepsHOT.bat: the batch file used to run the simulation and obtain the sheepsHOT.log.

sheepsCOLDDRW.bat: the batch file used to obtain the output to sheepsCOLD.drw.

sheepsHOTDRW.bat: the batch file used to obtain the output to sheepsHOT.drw.

sheepsCOLD.ma: the .ma file which use the COLD rule.

sheepsHOT.ma: the .ma file which use the HOT rule.

sheepsCOLD.drw: the output file generated under the COLD rule.

sheepsHOT.drw: the output file generated under the HOT rule.

sheepsCOLD.pal: the .pal file storing the palette used to visualize the COLD condition outputs.

sheepsHOT.pal: the .pal file storing the palette used to visualize the HOT condition outputs.

sheepsCOLD.avi: visualization of the model in cold condition.

sheepsHOT.avi: visualization of the model in hot condition.

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How to run the zip
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1. unzipped the zip file to the directory which including the CD++ tool.

2. click the sheepsCOLD.bat file to generate log file sheepsCOLD.log.

3. click the sheepsHOT.bat file to generate log file sheepsHOT.log.

3. click the sheepsCOLDDRW.bat file to obtain the output file sheepsCOLD.drw.

4. click the sheepsHOTDRW.bat file to obtain the output file sheepsHOT.drw.

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How to run the simulation on the CD++ Web Viewer
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1. upload the files sheepsCOLD.ma, sheepsCOLD.log, sheepsCOLD.pal to the CD++ Web Viewer (http://omarhesham.com/arslab/webviewer/)
   to obtain the results of cold condition.
   
2. upload the files sheepsHOT.ma, sheepsHOT.log, sheepsHOT.pal to the CD++ Web Viewer (http://omarhesham.com/arslab/webviewer/)
   to obtain the results of hot condition.
