Unit V : Navigation and Testing

3. the use of algorithms and machine learning to enable autonomous systems to make decisions and operate independently.
4. testing the functionality and reliability of an autonomous system's hardware and software components while the system is in flight or in operation.
6. potential developments and advancements in the field of navigation and testing.
9. testing the functionality and reliability of an autonomous system's hardware and software components while they are stationary and connected to a ground control station.
11. considering the moral and ethical implications of using autonomous systems, particularly in military or surveillance applications.
14. software that allows operators to remotely control and monitor an autonomous system.
15. the development of standardized testing procedures and protocols to ensure that autonomous systems are thoroughly tested and evaluated before deployment.

1. pre-determined locations that an autonomous system can navigate to in order to complete a mission.
2. involves determining the position and direction of an autonomous system.
5. the ability of an autonomous system to learn from its experiences and improve its performance over time.
7. evaluating the functionality and reliability of an autonomous system's hardware and software components.
8. the process of combining different components and subsystems of an autonomous system into a cohesive and functional whole.
10. obstacles and issues that must be overcome in order to improve the safety and reliability of autonomous systems.
12. ensuring that autonomous systems operate safely and without posing a threat to humans or the environment.
13. devices that detect and respond to changes in an autonomous system's environment.