Unmanned aerial vehicle and operations thereof

What is claimed is: 1. A multi-rotor unmanned aerial vehicle (UAV) having a weight, the UAV comprising: a housing forming a body of the UAV, the housing comprising an outer surface and an inner surface, the inner surface forming a cavity; one or more electrical components disposed within the cavity, the one or more electrical components selected from a group comprising a power source, flight control module, inertial measurement unit (IMU), and GPS receiver; a landing stand attached to and extending away from the housing to bear the weight of the UAV when the UAV is not airborne; and a magnetometer attached to the landing stand at a distance of at least about 3 cm from the one or more electrical components. 2. The UAV of claim 1 , further comprising a carrier configured to support a payload device. 3. The UAV of claim 2 , wherein the landing stand is one of two landing stands, the two landing stands being attached to a lower body portion of the housing at corresponding attachment interfaces, and wherein the carrier includes a gimbal, and wherein the UAV further comprises the payload device, the payload device including a camera, with both the gimbal and the camera positioned between the two landing stands. 4. The UAV of claim 1 , wherein the landing stand includes an attachment interface adjacent the housing, the attachment interface having an opening, and wherein the UAV further comprises a wire connected to the magnetometer and extending through the opening and into the cavity. 5. The UAV of claim 1 , further comprising: multiple actuators carried by the housing; multiple rotors carried by corresponding individual actuators; and an indicator light source carried by the housing toward a lower portion of the UAV, away from the multiple rotors. 6. The UAV of claim 1 , wherein the magnetometer is at least 3 cm from the GPS receiver. 7. A multi-rotor unmanned aerial vehicle (UAV), comprising: a central body comprising an upper housing member and a lower housing member, the upper housing member and the lower housing member forming a central cavity, wherein the central cavity is configured to house one or more electrical components (1) configured to control the operation of the UAV, and (2) comprising at least a flight control module; multiple branch housing members extending from the central body, with individual branch housing members comprising an upper branch housing member and a lower branch housing member; at least one landing stand attached to the lower housing member at at least one corresponding attachment interface; and a magnetometer carried by the at least one landing stand; wherein the individual branch housing members are configured to support one or more actuator assemblies, with individual actuator assemblies comprising an actuator configured to provide thrust to the UAV in response to communications from the flight control module; wherein at least a portion of the lower branch housing member of an individual branch housing member extends beneath at least a portion of a corresponding actuator assembly; and wherein the upper branch housing members and the upper housing member form an integral upper body portion, the lower branch housing members and the lower housing member form an integral lower body portion, and the integral upper body portion and the integral lower body portion are removably coupled to form a hollow body portion comprising the central cavity. 8. The UAV of claim 7 , wherein the at least one landing stand includes an attachment interface adjacent the housing, the attachment interface having an opening, and wherein the UAV further comprises a wire connected to the magnetometer and extending through the opening and into the cavity. 9. The UAV of claim 7 , wherein the at least one landing stand is one of two landing stands, and wherein the UAV further comprises a gimbal and a camera carried by the gimbal, and wherein the camera and the gimbal are both positioned between the two landing stands. 10. A multi-rotor unmanned aerial vehicle (UAV), comprising: a housing having an outer surface and an inner surface, the inner surface defining a cavity, the housing including: an upper body portion formed from an upper central housing member and multiple upper branch housing members; and a lower body portion attached to the upper body portion and formed from a corresponding lower central housing member and multiple corresponding lower branch housing members; a flight control module positioned in the cavity; at least one landing stand attached to the outer surface of the housing at at least one corresponding attachment interface; a magnetometer attached to the at least one landing stand, and positioned at least 3 cm from the flight control module; and multiple actuator assemblies, with individual actuator assemblies including an actuator and a rotor; wherein individual upper branch housing members and corresponding individual lower branch housing members form individual branch housing members, and wherein individual actuator assemblies are located at corresponding individual branch housing members. 11. The UAV of claim 10 , wherein the magnetometer includes a compass. 12. The UAV of claim 10 , further comprising a carrier supporting a payload device. 13. The UAV of claim 12 , wherein the at least one landing stand is one of two landing stands, and wherein the payload device includes a camera carried between the two landing stands. 14. The UAV of claim 10 , wherein the landing stand includes an attachment interface adjacent the housing, the attachment interface having an opening, and wherein the UAV further comprises a wire connected to the magnetometer and extending through the opening and into the cavity. 15. The UAV of claim 10 , further comprising an indicator light source carried by the housing. 16. The UAV of claim 10 , wherein the individual upper branch housing members include corresponding openings, and wherein the actuators of the corresponding individual actuator assemblies extend upwardly though the corresponding openings. 17. The UAV of claim 10 , wherein individual actuator assemblies are coupled to corresponding electronic speed controller (ESC) modules via corresponding wires. 18. The UAV of claim 17 , wherein the ESC modules are carried by the corresponding individual branch housing members. 19. The UAV of claim 17 , wherein the corresponding wires are carried by the corresponding individual branch housing members. 20. A multi-rotor unmanned aerial vehicle (UAV), comprising: a housing having an outer surface and an inner surface, the inner surface defining a cavity, the housing having an “X” shaped arrangement and including: an upper body portion integrally formed from an upper central housing member and multiple upper branch housing members; and a lower body portion attached to the upper body portion and integrally formed from a corresponding lower central housing member and multiple corresponding lower branch housing members; a flight control module positioned in the cavity; a first landing stand attached to the outer surface of the housing at two corresponding attachment interfaces; a second landing stand attached to the outer surface of the housing at two corresponding attachment interfaces; a magnetometer attached to the first landing stand, and positioned at least 3 cm from the flight control module; a wire connected to the magnetometer and extending through an opening in one of the attachment interfaces of the first landing stand, and into the cav