Nexcsi is a fast and simple CSI decoder for Nexmon_CSI files written in Python.
pip install nexcsifrom nexcsi import decoder
device = "raspberrypi" # nexus5, nexus6p, rtac86u
samples = decoder(device).read_pcap('pcap/output10k.pcap')
print(samples['rssi']) # [-75 -77 -77 ... -77 -76 -76]
print(samples['fctl']) # [128 148 148 ... 148 148 148]
print(samples['csi']) # [[ 19489 0 -19200 -96 -42 ...
# samples is a Numpy Structured Array
print(samples.dtype)
# [
# ('ts_sec', '<u4'), ('ts_usec', '<u4'), ('saddr', '>u4'),
# ('daddr', '>u4'), ('sport', '>u2'), ('dport', '>u2'),
# ('magic', '<u2'), ('rssi', 'i1'), ('fctl', 'u1'),
# ('mac', 'u1', (6,)), ('seq', '<u2'), ('css', '<u2'),
# ('csp', '<u2'), ('cvr', '<u2'), ('csi', '<i2', (512,))
# ]
# Accessing CSI as type complex64
csi = decoder(device).unpack(samples['csi'])CSI values of some subcarriers contain large and arbitrary values. Removing or zeroing them can make the changes in CSI better visible.
To zero the values of Null and Pilot subcarriers:
csi = decoder(device).unpack(samples['csi'], zero_nulls=True, zero_pilots=True)Alternatively you can completely delete the columns of those subcarriers. Although I don't recommend this, because it changes the indexes of other subcarriers.
import numpy as np
csi = np.delete(csi, csi.dtype.metadata['nulls'], axis=1)
csi = np.delete(csi, csi.dtype.metadata['pilots'], axis=1)