Simulation code for the analysis of concurrent transmission in IEEE 802.15.4 wireless networks. This is the accompanying code to the technical report available at ArXiv; the full paper appeared in IEEE Transactions on Wireless Communications 13(12) (On the Reception of Concurrent Transmissions in Wireless Sensor Networks).
src: Python code for calculating the demodulator output of the receiverjulia: re-implementation in Julia using@parallel, awesomely fasterfigs: matplotlib code used to generate some of the figures in the paper, to see how to use phitau.pycollision-viz: re-implementation of the simulation code in JavaScript and the visualization applet code
For the src/figs part, you need
- numpy/scipy
- matplotlib installation that supports TeX output (see the matplotlib help page)
For julia, you need
- the release version (v0.5) of Julia
- package
NPZ(to read and write numpy data files) PyPlot(to call matplotlib from julia)DistributedArrays(for speed up by parallel computations)
Run it like this to enable parallel execution on worker threads (inside the subfolders in the figs folder):
$ julia -O 3 -p auto gen_ser_contour.jl unif soft
Plot of the bit error rate that a sender experiences when time or phase offsets are present.
An example waveform of the physical signal when the sender employs the minimum shift keying modulation.
