Curated list of open source projects
It’s simply a a curated list of open source ultrasound projects, whatever the use of ultrasounds.
Fork https://github.com/kelu124/openultrasoundprojects, edit the OSProjects.md file, and push it back.
La librairie USTK rassemble des utilitaires. “Nous souhaitons maintenant mettre ces outils à la disposition d’une plus vaste communauté. D’autres laboratoires et centres de R&D pourraient vouloir les utiliser pour prototyper ou développer leurs propres applications médicales temps réel.”
CloudedBats WURB is a bat detector for passive monitoring. It can be use either as a stand alone unit or can be used with internet connection.
Tracking ultrasound tracking it’s a device telling you in real time if there’s a ultrasound beacon close to you, and ultimately to extract the payload from the beacon - but also why not being yourself a beacon to tell the indelicate listeners to gtfo !
Collaborative project of designing a functional low-cost (affordable) and open source connected echo-stethoscope (ultrasound probe)
Attemting to build a proof of concept ultrasonic levitation rig, for the kind of change you have shoved in your pocket after a night out.
Matlab Program for Automated Ultrasound Blood Flow Analysis
Detailing a validated, open-source preclinical MRgFUS system capable of delivering thermal and mechanical FUS in a quantifiable and repeatable manner under real-time MRI guidance.
This is a low cost portable Ultrasonic range finder and sonar device to help a visually impaired person navigate indoors.
A beaglebone black based open-source, low-cost technological DIY kit to allow scientists, academics, hackers, makers or OSH fans to hack their way to ultrasound imaging.
Pathfinder is a wearable device that translates distance into haptic feedback. Users just wear the wristband (or glove) and point at objects up to 500 centimeters away, and feel gentle pulses at their fingertips corresponding to the object’s distance. It’s designed to give the user greater freedom of motion and longer operational range than traditional navigation solutions for the blind, such as the cane. I incorporated research ranging from embedded electronics to the neuroscience of touch to turn this simple concept into the best prototype I could, before sharing the device with my local community center for the blind.