Peter's repositories
adxl355-arduino
Read ADXL355 PMDZ accelerometer on Arduino
Anmr
Arduino NMR
cariboulite
CaribouLite turns any 40-pin Raspberry-Pi into a Tx/Rx 6GHz SDR
COST
CheapOpenSatTracker
Crack-Detection-using-IWR1443
A combined crack detection setup using Arduino and IWR1443
fmcw
Library for fmcw radar
gpufield
A CUDA-accelerated electromagnetostatics solver
hackrf
low cost software radio platform
IWR1443-Read-Data-Python-MMWAVE-SDK-1
Python program to read and plot the position of the reflected points from the IWR1443 and the AWR1443. It works both with Windows and Raspberry Pi.
IWR1443_uart
Implementing reading data from iwr1443 radar using uart and show it on the screen
IWR1642-Test
Just some test
L-Band-Decoders
A few small projects aimed at decoding various L-Band (mostly HRPT) satellites (may be redundant with other projects sharing the same code)
lambert
:earth_africa: C library to convert Lambert coordinates to WGS84 with IGN Algorithms
Leica-GeoCOM-for-drone-tracking
Based on https://github.com/art-mx/leica_ros_sph
leica_ros_sph
ROS node for reading Leica Totalstation measurements
livox_camera_lidar_calibration
Calibrate the extrinsic parameters between Livox LiDAR and camera
livox_scanner
Livox LiDAR 3D scanner
murgen-dev-kit
Imaging ultrasound dev/hacking kit
Nuclear-Magnetic-Resonance-Books
"For magnetic fields that can be routinely produced in the laboratory, the transitions between energy levels for nuclear magnetic dipoles occur in the radio-frequency range, and the transitions between energy levels for unpaired electron spins occur in the microwave range. Nuclear magnetic resonance (NMR) and electron paramagnetic resonance (EPR) yield such valuable structural information that they have become indispensable in chemistry."― Robert J. Silbey
pico-w
All our Pico W projects
pygeocom
Python library for Leica GeoCOM communication
pymmw
Pythonic mmWave Toolbox for TI's IWR Radar Sensors
pyppm
Open source Earth's Field NMR Spectrometer