Hotshoe GPS-IMU in enclosure

All the components that get packed into the GPS-IMU

GPS-IMU on hotshoe mount











After all the electronics came the enclosure and hotshoe attachment system. I designed something rough in blender using a trace of the stacked PCB's and got it locally 3D printed by 3D Hubs and Andrew Karas . This mounts nicely on the hotshoe, but the openings for reset, USB and cable to camera are not neat, a more aligned box is in the works.

We take lots of oblique images from a helicopter for our high-resolution 3D modelling service - Aero3Dpro . While photogrammetry and aerotriangulation lets us establish the position and orientation of these photographs afterwards from a relatively poor initial GPS and no IMU, just after capture there is no indication how well an area is covered from different angles. This can be a pretty difficult proposition anyway, especially in the presence of narrow allies and tall buildings. However with a good initial GPS-IMU one could build a low resolution model of the city literally on the fly.So I set about building a system that fills this niche, a camera hotshoe mounted system with a reasonably accurate GPS and IMU. There are already a lot of existing Xadow modules which satisfy the requirements of the system. I just had to cook up a few more as described in a previous post to cater for the unique requirements for interfacing with the camera and logging the data.A lot can be done when all these modules come together to party, the mBed code is available here . The android app for receiving the GPS-IMU data over BLE and predicting the camera foot print is still in the works. If anyone wants to take the app development up as an excercise I can provide the source. In conclusion I must thank Kris Winer for excellent IMU test beds and sample codes which helped me get started down this path.