Self-enclosed air vehicle

What is claimed is: 1. An unmanned air vehicle reconfigurable between a transport configuration and a flight configuration, the unmanned air vehicle comprising: a body; at least one arm connected to the body; and landing gear connected to the at least one arm such that the landing gear is automatically deployed upon reconfiguration of the unmanned air vehicle from the transport configuration to the flight configuration. 2. The unmanned air vehicle of claim 1 , wherein the body is configured to support a camera. 3. The unmanned air vehicle of claim 1 , wherein the at least one arm is connected to the body such that the at least one arm is movable between a first position corresponding to the transport configuration and a second position corresponding to the flight configuration. 4. The unmanned air vehicle of claim 3 , wherein the at least one arm is generally flush with an outer surface of the body in the first position and the at least one arm extends outwardly from the body in the second position. 5. The unmanned air vehicle of claim 4 , wherein the at least one arm includes a first pair of arms that are movable in a first direction during movement from the first position to the second position and a second pair of arms that are movable in a second, different direction during movement from the first position to the second position. 6. The unmanned air vehicle of claim 5 , wherein the first pair of arms move towards a first end of the body during movement from the first position to the second position and the second pair of arms move towards a second end of the body during movement from the first position to the second position. 7. The unmanned air vehicle of claim 1 , wherein the at least one arm is configured to support a propeller assembly. 8. The unmanned air vehicle of claim 7 , wherein the propeller assembly is reconfigurable between a first configuration and a second configuration different from the first configuration. 9. The unmanned air vehicle of claim 8 , wherein the propeller assembly is configured for storage when the propeller assembly is in the first configuration and the propeller assembly is configured for flight when the propeller assembly is in the second configuration. 10. An unmanned air vehicle reconfigurable between a transport configuration and a flight configuration, the unmanned air vehicle comprising: a body; at least one arm connected to the body such that the at least one arm is foldably deployable from a first position, which corresponds to the transport configuration, to a second position, which corresponds to the flight configuration; and landing gear supported on the at least one arm such that the at least one arm and the landing gear are foldably deployable in unison. 11. The unmanned air vehicle of claim 10 , wherein the at least one arm is generally flush with an outer surface of the body in the first position and the at least one arm extends outwardly from the body in the second position. 12. The unmanned air vehicle of claim 10 , wherein the at least one arm includes a first pair of arms that unfold towards a forward end of the body and a second pair of arms that unfold towards a rear end of the body. 13. The unmanned air vehicle of claim 10 , wherein the body is configured to support a camera. 14. The unmanned air vehicle of claim 10 , further including a propeller assembly supported by the at least one arm. 15. The unmanned air vehicle of claim 14 , wherein the propeller assembly is reconfigurable between an inactive configuration and an active configuration. 16. The unmanned air vehicle of claim 15 , wherein the propeller assembly is configured for storage in the inactive configuration and the propeller assembly is configured for flight in the active configuration. 17. The unmanned air vehicle of claim 16 , wherein the propeller assembly is positionable in the inactive configuration when the unmanned air vehicle is in the transport configuration and the propeller assembly is positionable in the active configuration when the unmanned air vehicle is in the flight configuration. 18. A method of operating an unmanned air vehicle, the method comprising: automatically deploying landing gear included on arms of the unmanned air vehicle upon movement of the arms of the unmanned air vehicle from a transport configuration into a flight configuration such that the landing gear is positioned to support the unmanned air vehicle during landing; and driving propeller assemblies supported by the arms to cause flight of the unmanned air vehicle. 19. The method of claim 18 , wherein deploying the landing gear includes unfolding the arms such that the arms and the landing gear are deployed in unison. 20. The method of claim 19 , wherein unfolding the arms includes unfolding a first pair of arms such that the first pair of arms move towards a first end of the unmanned air vehicle and unfolding a second pair of arms such that the second pair of arms move towards a second end of the unmanned air vehicle.