Head mounted display for remote operation of machinery

1 - 20 . (canceled) 21 . A system configured to be coupled to an end of a boom assembly and disposed in a remote operating environment for remote operation, the system comprising: a frame portion; one or more robotic arms coupled to the frame portion; a rotatable camera mount coupled to the frame portion, the rotatable camera mount independently moveable with respect to the one or more robotic arms; a remote capture device fixed to the rotatable camera mount and operable to capture real-time sensory information including video data from the remote operating environment, the remote capture device comprising one or more cameras operable to capture the video data; and a communication portion operable to transmit the real-time sensory information from the remote capture device to an operator device and to receive one or more control inputs from the operator device, the one or more control inputs including at least one instruction for controlling motion of at least one of the one or more robotic arms. 22 . The system of claim 21 , wherein a portion of the real-time sensory information is selected for presentation on the operator device based at least in part on a viewing angle of the operator device. 23 . The system of claim 21 , wherein the rotatable camera mount comprises a gimbal mount. 24 . The system of claim 21 , further comprising: a remote power source disposed on the frame portion. 25 . The system of claim 24 , wherein the remote power source is operable to provide power to the one or more robotic arms. 26 . The system of claim 25 , wherein the remote power source comprises a battery. 27 . The system of claim 21 , further comprising: one or more microphones mounted to the frame portion, the one or more microphones operable to capture audio from the remote operating environment. 28 . A robotic assembly configured to be coupled to a boom assembly and disposed in a remote operating environment for remote operation on at least one power line, the robotic assembly comprising: a frame portion supported by the boom assembly; at least one robotic arm coupled to the frame portion; a camera mount coupled to the frame portion; a remote capture device fixed to the camera mount and operable to capture real-time sensory information including video data from the remote operating environment, the remote capture device comprising one or more cameras operable to capture the video data; and a communication portion operable to transmit the real-time sensory information from the remote capture device to an operator device and to receive one or more control inputs from the operator device, the one or more control inputs including at least one instruction for controlling motion of the at least one robotic arm. 29 . The robotic assembly of claim 28 , wherein the camera mount is independently moveable with respect to the at least one robotic arm. 30 . The robotic assembly of claim 28 , further comprising: a bonding point operable to be electrically bonded to the at least one power line. 31 . The robotic assembly of claim 30 , wherein the bonding point, when electrically bonded to the at least one power line is configured to hold at least a portion of the robotic assembly at a similar electrical potential to the at least one power line. 32 . The robotic assembly of claim 31 , wherein the bonding point is located on the at least one robotic arm. 33 . The robotic assembly of claim 32 , further comprising: at least one sensory device supported on the frame portion. 34 . The robotic assembly of claim 33 , wherein the at least one sensory device comprises a voltage sensor operable to detect an electrical bonding condition of the robotic assembly. 35 . The robotic assembly of claim 34 , wherein the communication portion is operable to transmit information indicative of the electrical bonding condition to the operator device. 36 . A remote operation system coupled to a boom assembly of an aerial device for remote operation on at least one power line in a remote operating environment, the remote operation system comprising: a frame portion configured to be supported by the boom assembly; at least one robotic arm coupled to the frame portion, the at least one robotic arm configured to interact with the at least one power line; a camera mount coupled to the frame portion; a remote capture device fixed to the camera mount and operable to capture real-time sensory information including video data from the remote operating environment, the remote capture device comprising one or more cameras operable to capture the video data; and a communication portion operable to transmit the real-time sensory information from the remote capture device to an operator device and to receive one or more control inputs from the operator device, the one or more control inputs including at least one instruction for controlling motion of the at least one robotic arm. 37 . The remote operation system of claim 36 , further comprising a tool coupled to the at least one robotic arm. 38 . The remote operation system of claim 37 , wherein the tool is used to attach a bonding cable to the at least one power line for electrically bonding the remote operation system to the at least one power line. 39 . The remote operation system of claim 38 , further comprising: at least one sensor device disposed on the frame portion. 40 . The remote operation system of claim 36 , wherein the communication portion transmits the real-time sensory information wirelessly via a wireless connection.