f40cc506a3
We only have one rest engine now, the example does not need to try and configure this |
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node | ||
rpl-border-router | ||
script | ||
README.md |
This example shows a simple sensor network consisting of node(s),an rpl-border-router and a host connected to the IPv6 network. The nodes (see also node/README.md) regularly transmit simulated sensor data to the host. The host visualises the received data.
The Python script tools/Output-Visualisation.py visualises the received data from the nodes. The script runs on Python27 and uses gnuplot for visualisation. The following installations are needed (tested with Win32 versions:
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Python 27 (https://www.python.org/download/releases/2.7/)
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gnuplot (http://sourceforge.net/projects/gnuplot/files/gnuplot/)
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gnuplot.py (http://gnuplot-py.sourceforge.net/)
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numpy.py (e.g. http://www.lfd.uci.edu/~gohlke/pythonlibs/#numpy) Manual modification: Python27\Lib\site-packages\Gnuplot\gp_win32.py Modify gnuplot_command as in example below gnuplot_command = r'"C:\Program Files (x86)\gnuplot\bin\gnuplot.exe"'
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The IPv6 addresses of nodes need to be entered in the dictionary "node_data" of tools/Output-Visualisation.py A user name for the node can be entered in this table as well.
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The script will send a ping message to the next node in the list every 5 seconds. The nodes will obtain the IPv6 address from this message and start sending "sensor" data to the host.
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Received sensor data is plotted. When no data has been received for more than 30seconds, the plot line will be dashed.
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Plots are updated once per second.