A system in an atmospheric suit includes a controller within the atmospheric suit. The system also includes a network that is a hub and spoke network arranged within the atmospheric suit. The controller is the hub of the network and each spoke of the network represents wiring that leads to one of a plurality of ports accessible from outside the atmospheric suit.

A system in an atmospheric suit includes a controller within the atmospheric suit. The system also includes a network that is a hub and spoke network arranged within the atmospheric suit. The controller is the hub of the network and each spoke of the network represents wiring that leads to one of a plurality of ports accessible from outside the atmospheric suit.

A system in an atmospheric suit includes a controller within the atmospheric suit. The system also includes a network that is a hub and spoke network arranged within the atmospheric suit. The controller is the hub of the network and each spoke of the network represents wiring that leads to one of a plurality of ports accessible from outside the atmospheric suit.

A system in an atmospheric suit includes a controller within the atmospheric suit. The system also includes a network that is a hub and spoke network arranged within the atmospheric suit. The controller is the hub of the network and each spoke of the network represents wiring that leads to one of a plurality of ports accessible from outside the atmospheric suit.

A system for support of a user includes an atmospheric suit including a removable support structure, the support structure including a set of poles configured to be engaged with the atmospheric suit in a space environment, wherein each pole of the set of poles includes an attachment device, the attachment device configured to removably attach the pole to the atmospheric suit at a plurality of locations on the atmospheric suit.

A system for support of a user includes an atmospheric suit including a removable support structure, the support structure including a set of poles configured to be engaged with the atmospheric suit in a space environment, wherein each pole of the set of poles includes an attachment device, the attachment device configured to removably attach the pole to the atmospheric suit at a plurality of locations on the atmospheric suit.

A system for visibility in an atmospheric suit includes a camera arranged to view an environment outside the atmospheric suit and a display device to display an image obtained by the camera. An input device obtains input from a wearer of the atmospheric suit. A controller changes a feature of the camera based on the input. The image obtained by the camera and displayed by the display device is modified based on the feature.

A facemask-mounted augmented reality (AR) display device is disclosed. In embodiments, the display device is hard-mounted to a breathing apparatus (e.g., oxygen mask, smoke mask) fitted to a user's nose and mouth behind a partially or fully covering external face shield. The AR display system includes display surfaces aligned with the eyes of the user and capable of providing the user with a forward field of view that moves with the user's head. The AR display system synthesizes streaming images with additional overlay sources (e.g., mission data, position data) to generate augmented reality content presented to the user within the field of view of the display surfaces.

An extravehicular mobility unit (EMU) includes a resonant coil on a surface of the EMU to be coupled to a second resonant coil affixed to a structure via a resonant magnetic field. The EMU also includes a receiver in the EMU coupled to the resonant coil to provide a direct current (DC) voltage based on the resonant magnetic field. A battery in the EMU is charged based on the DC voltage.

An extravehicular mobility unit (EMU) includes a resonant coil on a surface of the EMU to be coupled to a second resonant coil affixed to a structure via a resonant magnetic field. The EMU also includes a receiver in the EMU coupled to the resonant coil to provide a direct current (DC) voltage based on the resonant magnetic field. A battery in the EMU is charged based on the DC voltage.