RESQ:

I was inspired by the constant stream of search and rescue operations on the television show "North Woods Law". Each week they struggled to find lost people in the remote/rugged areas of Maine U.S.A. These areas often have no cellular service but in almost every case the target people had cellphones on them and working. As I live in Canada- we have a surplus of these situations in our vast wilderness as well.  I theorized I could use an external 2.4GHz antenna to receive the beacon frames from those phones ad capture that data and locate persons of interest. 

This hardware can be embedded in to any very small drone or RC aircraft. It can also be attached to existing manned aircraft already participating in the search. It can even be monitored live via Bluetooth on your phone or tablet from inside the aircraft cockpit!

Using small drone aircraft (like the Nano Talon I use here) gives all the advantages such as flight condition tolerance, height, terrain, time of day etc that drones have over manned aircraft. They can also be sent on the full way-point mission without human intervention and tracked live from any ground station. 

What ResQ does:

COMMERCIAL OPTIONS 

I have only found this one unit which does a similar task but is handheld only, limited to ~150 feet range and retails for $2400 USD.  Our ResQ project has similar functionality (using 2.4 GHz) for only a small fraction of this cost.  Our air unit is also easily deployed by aircraft or drone. Nice. 

BUILD

The air and ground units both use exactly the same hardware/PCB with the only difference being the power supply on the ground (battery) and larger directional antenna on the ground unit. This keeps the instructions, assembly and BOM very simple.  All the parts (except YAGI) are currently even stocked in my local Amazon warehouse here in Canada - Handy!

I am using the Wemos D1 mini PRO ESP8266 (for both air and ground units) with an external antenna (YAGI or omni/dipole) to receive the beacon frames, log them to SD Card with the MAC address and GPS coordinates to  easily plot with Google Earth/maps. It can also transmit the live data telemetry via LORA or similar module to the ground instantly as well by sending the debug UART via  radio to a simple USB  interfaced ground station.

The electronics are simple enough that anyone with basic soldering skills can assemble their own ResQ from scratch or kit in under an hour.

V3 of the PCB/project will be entirely discreet components and open the door to possibly producing these units at scale for a lower price and MUCH smaller package. 

MEDIA

Contest Entry Overview Video:

Build Part:1

Build Part 2:

Build Part 3:

Part 4:

See YT playlist for existing tutorials in the links (I documented most facets of the build in standalone related videos which when all combines- make this project) Handy eh

Skills Learned

Here's a fun little summary of the things I think this project has directly taught me or drastically improved by doing it. Maybe it might be of interest to you to learn them too if you make this project!

Check out the project logs to how EVERYTHING unfolded :)  I hope you enjoy this project as much as I have and make it for yourself. Hit me up for a DIY kit if you like or just to chat.