| Big Ideas |
Tools and technologies can be adapted for specific purposes. |
Remotely Operated Vehicles and Drones 12 |
No CCG |
| Keyword: technologies |
Elaboration: tools that extend human capabilities |
|
| Big Ideas |
Personal design interests require the evaluation and refinement of skills. |
Remotely Operated Vehicles and Drones 12 |
No CCG |
|
| Big Ideas |
Design for the life cycle includes consideration of social and environmental impacts. |
Remotely Operated Vehicles and Drones 12 |
No CCG |
| Keyword: Design for the life cycle |
Elaboration: taking into account economic costs, and social and environmental impacts of the product, from the extraction of raw materials to eventual reuse or recycling of component materials |
| Keyword: environmental impacts |
Elaboration: including manufacturing, packaging, disposal, and recycling considerations |
|
| Content |
interpersonal and consultation skills for interacting with colleagues and clients |
Remotely Operated Vehicles and Drones 12 |
No CCG |
| Keyword: interpersonal and consultation skills |
Elaboration: for example, professional communications, collaboration, follow-ups, courtesies, record keeping, ways of presenting visuals |
|
| Content |
future career options and opportunities in UAV design, production, and emerging applications |
Remotely Operated Vehicles and Drones 12 |
No CCG |
|
| Content |
design for the life cycle |
Remotely Operated Vehicles and Drones 12 |
No CCG |
|
| Content |
emerging technologies |
Remotely Operated Vehicles and Drones 12 |
No CCG |
| Keyword: emerging technologies |
Elaboration: for example, autonomous cars, autonomous flight, formation flight of autonomous aerial vehicles, autonomous vehicles in formation |
|
| Content |
programming and coding |
Remotely Operated Vehicles and Drones 12 |
No CCG |
|
| Content |
operational planning from remote locations |
Remotely Operated Vehicles and Drones 12 |
No CCG |
|
| Content |
radio-controlled (RC) communication
|
Remotely Operated Vehicles and Drones 12 |
No CCG |
| Keyword: radio-controlled |
Elaboration: for example, crystal, pulse, frequency spectrum
|
|
| Content |
structure, sensors, and attachments |
Remotely Operated Vehicles and Drones 12 |
No CCG |
| Keyword: structure, sensors, and attachments |
Elaboration: structure: design considerations for chassis, frame or airframe, such as shape, geometry, and materialssensors: cameras, laser light, radar, sonar, rotation angle sensors, pressure sensors, depth sensors, inclination sensors, accelerometers and proximity switches, GPSattachments: manipulators, arms, claws, rakes, wrenches, hammers |
|
| Content |
propulsion |
Remotely Operated Vehicles and Drones 12 |
No CCG |
| Keyword: propulsion |
Elaboration: for example, AC and DC motors, speed controllers, wheels, tracks, propellers and thrusters |
|
| Content |
navigation |
Remotely Operated Vehicles and Drones 12 |
No CCG |
| Keyword: navigation |
Elaboration: for example:position: latitude, longitude, altitudeInertial Navigation System (INS): accelerometers (motion sensors) and gyroscopes (rotation sensors)Global Positioning System (GPS)compass, loxodrome, radar, echo sounder, satellite navigation |
|
| Content |
tethered control |
Remotely Operated Vehicles and Drones 12 |
No CCG |
|
| Content |
ethical, legal, and regulatory considerations |
Remotely Operated Vehicles and Drones 12 |
No CCG |
| Keyword: regulatory considerations |
Elaboration: Transport CanadaCanadian Aviation RegulationsFederal Aviation Administrationprohibited airspace, restricted flight zones, no drone zones |
|