Remote Control and Autonomous Vehicles: Difference between revisions
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*Identify industry standards for open source cargo drones. Same as above. | *Identify industry standards for open source cargo drones. Same as above. | ||
*Identify cost of acquisition for open-sourcing proprietary (default) versions from companies, individuals, organizations. | *Identify cost of acquisition for open-sourcing proprietary (default) versions from companies, individuals, organizations. | ||
*From the above, select a team of 12 technology specialists to develop: | |||
**Controller - must be Beagle Bone, Arduino, not R-Pi as needs to be open source [[DIN SPEC 3105]] compliant | |||
**Frame | |||
**Motor system | |||
**Gimbal | |||
**Night vision camera - range of resolution from a pixel to 4k | |||
**Thermal camera - range of resolution from a pixel to 4k | |||
**Motion sensor camera - largely software | |||
** | |||
Revision as of 14:52, 12 January 2023
- Identify industry standards for cargo drones.
- Weight, cost, flight time, cargo capacity, motor specification, battery specification, controller specification
- Identify industry standards for open source cargo drones. Same as above.
- Identify cost of acquisition for open-sourcing proprietary (default) versions from companies, individuals, organizations.
- From the above, select a team of 12 technology specialists to develop:
- Controller - must be Beagle Bone, Arduino, not R-Pi as needs to be open source DIN SPEC 3105 compliant
- Frame
- Motor system
- Gimbal
- Night vision camera - range of resolution from a pixel to 4k
- Thermal camera - range of resolution from a pixel to 4k
- Motion sensor camera - largely software