Abstract: An augmented reality (AR) system for use by a user in a surrounding environment includes a head-mounted display (HMD), a handheld computing device (HCD) and a control module operatively connected with one or both of the HMD and the HCD. The system is configured to enable digital content to be displayed simultaneously on the HMD and on the HCD, and/or to use one of the HMD and the HCD to modify digital content or to execute an action on the other of the HMD and the HCD, with the HCD being positionable by the user outside of the HMD's lens field of view, thereby providing an enhanced or extended user field of view.

Abstract: Devices and methods of a pod that deploys from an aircraft or vehicle and descends to safely land. The pod is configured to be attached to an aircraft or vehicle. The pod includes walls that extend around and form a contained interior space that houses one or more travelers or cargo containers. During flight of the aircraft or vehicle, the pod deploys from the aircraft or vehicle while at an elevation above ground. A landing location is determined for the pod. While the pod is descending, the pod is steered towards and lands at the landing location.

Abstract: A method, apparatus, and system for controlling a deep brain stimulation system. Internal sensor data is received for a group of internal parameters that relate to an operation of the deep brain stimulation system. The internal sensor data is generated by an internal sensor system. External sensor data is received for a group of external parameters for an environment around the device. The external sensor data is generated by an external sensor system. The internal sensor data and the external sensor data are analyzed with aggregated internal sensor data and aggregated external sensor data for deep brain stimulation systems of a same class as the deep brain stimulation system to generate results. An operation of the device is controlled based on the results.

Abstract: A method, apparatus, and system for controlling a device. A device control system comprises a computer system and a controller in the computer system. The controller receives internal sensor data for a group of internal parameters generated by an internal sensor system that senses the group of internal parameters within the device that relate to an operation of the device and receive external sensor data for a group of external parameters generated by an external sensor system that senses the group of external parameters in an environment around the device that relate to the operation of the device. The controller sends the internal sensor data and the external sensor data for an analysis with aggregated internal sensor data and aggregated external sensor data for devices of a same class as the device to generate results. The controller controls the operation of the device based on the results of the analysis.

Abstract: A system and method to transport one or more persons or objects. The system includes pods that each have an interior space to house the one or more persons or objects, and vehicles that are each configured to individually connect to one or more of the pods and to transport the pods from a first location to a second location. A server is located remotely from the pods and the vehicles. The server is configured to receive data from the pods and the vehicles through a wireless communication network to monitor a usage and location of the pods.

Abstract: A transportation system that includes one or more pods that include an interior space configured to house one or more travelers. The pods can be attached to and transported by multiple different vehicles. The different vehicles can provide for different modes of transportation. The pods are configured to supply one or more utility functions to the interior space. One or more of the utility functions to be supplied from the vehicles to the pods when the pods are attached to the vehicles.

Abstract: Methods and devices for monitoring transportation of one or more of travelers and cargo containers in pods that are being transported on a vehicle. The methods and devices may determine that the pods have been deployed from the vehicle. After deployment, the landing locations may be determined. Information may be ascertained about the health of the travelers within the pods and/or a condition of the cargo containers within the pods. Recovery personnel may be notified about this information to facilitate rescue.

Abstract: Systems for collision avoidance for a vehicle. One or more inputs are used to determine an impending collision. Once determined, corrective actions are taken to reduce the severity of the collision. The corrective actions can avoid the collision and/or reduce the damage caused by the collision. The systems and methods can be performed at the vehicle based on data available to a control unit in the vehicle. The systems and methods can also be performed at a system level that controls one or more vehicles and/or objects.

Abstract: A method for managing nonconformances in laminates. The method comprises recording, by a sensor system, layup information about a layup of layers on a workpiece platform, wherein the layup of layers forms a workpiece and recording inspection information about the laminate on an inspection platform, wherein the laminate is formed from curing the workpiece. An analyzer in a computer system identifies a laminate nonconformance in the laminate using the inspection information and a user input verifies the laminate nonconformance in the laminate is present. An artificial intelligence system is trained by the computer system using the layup information, the inspection information, and the user input verifying the laminate nonconformance.

Abstract: A modular transportation system to transport one or more persons and/or objects. The system may include a pod with wall segments that mount together to form an interior space to house the one or more persons and/or objects. The wall segments are modular and configured to connect together in a variety of different configurations to selectively configure the interior space. Vehicles are each configured to individually connect to the pod and to transport the pod from a first location to a second location. At least one of the vehicles is configured to transport the pod by land and at least one of the vehicles is configured to transport the pod by air.

Abstract: A method, apparatus, and system for delivering an electrical current. Optical signals are sent through a group of optical fibers in a medium. Response optical signals occurring in response to the optical signals sent through the group of optical fibers are detected when the group of optical fibers is located in the medium. A group of parameters for the medium is determined using the response optical signals. A group of electrical currents is sent through a group of electrodes based on the group of parameters, wherein the group of electrodes emit the group of electrical currents.

Abstract: A manufacturing materiel management system. The system comprises a manufacturing assembly line to manufacture an object comprising a plurality of parts. The system also comprises a computer to monitor an input device for input that indicates a disruption event defined as an event in which manufacture of the object is disrupted as a result of loss of a resource or the part, or a shortage of human resources. Responsive to receiving the input, the computer system calculates another project which may continue, calculates remaining resources which may be allocated to the other projects, and generate a resource re-allocation plan which defines how remaining resources are to be re-allocated to the other project. A communication system in communication with the computer is configured to communicate the re-allocation plan to a manager of the manufacturing assembly line.

Abstract: A method for managing nonconformances in laminates. The method comprises recording, by a sensor system, layup information about a layup of layers on a workpiece platform, wherein the layup of layers forms a workpiece and recording inspection information about the laminate on an inspection platform, wherein the laminate is formed from curing the workpiece. An analyzer in a computer system identifies a laminate nonconformance in the laminate using the inspection information and a user input verifies the laminate nonconformance in the laminate is present. An artificial intelligence system is trained by the computer system using the layup information, the inspection information, and the user input verifying the laminate nonconformance.

Abstract: A method, apparatus, and system for managing nonconformances in laminates. A nonconformance management system comprises a sensor system and an analyzer in a computer system. The sensor that records layup information about the layup of layers on a workpiece platform and records inspection information about the laminate located on an inspection platform, wherein the laminate is formed from curing the workpiece. The analyzer in the computer system identifies a laminate nonconformance in the laminate using the inspection information, generates nonconformance information about the laminate nonconformance, and displays the nonconformance information about the laminate nonconformance on the laminate using a display system for an augmented reality display.

Abstract: Systems for collision avoidance for a vehicle. One or more inputs are used to determine an impending collision. Once determined, corrective actions are taken to reduce the severity of the collision. The corrective actions can avoid the collision and/or reduce the damage caused by the collision. The systems and methods can be performed at the vehicle based on data available to a control unit in the vehicle. The systems and methods can also be performed at a system level that controls one or more vehicles and/or objects.

Abstract: A transportation system that includes one or more pods that each includes an interior space configured to house travelers and objects. The pods can be attached to and transported by multiple different vehicles. The different vehicles can provide for different modes of transportation depending upon the plans of the travelers. Different modes include but are not limited to ground travel, air travel, water travel, and rail travel.

Abstract: A method, apparatus, and system for controlling a device. A device control system comprises a computer system and a controller in the computer system. The controller receives internal sensor data for a group of internal parameters generated by an internal sensor system that senses the group of internal parameters within the device that relate to an operation of the device and receive external sensor data for a group of external parameters generated by an external sensor system that senses the group of external parameters in an environment around the device that relate to the operation of the device. The controller sends the internal sensor data and the external sensor data for an analysis with aggregated internal sensor data and aggregated external sensor data for devices of a same class as the device to generate results. The controller controls the operation of the device based on the results of the analysis.

Abstract: A method, apparatus, and system for controlling a deep brain stimulation system. Internal sensor data is received for a group of internal parameters that relate to an operation of the deep brain stimulation system. The internal sensor data is generated by an internal sensor system. External sensor data is received for a group of external parameters for an environment around the device. The external sensor data is generated by an external sensor system. The internal sensor data and the external sensor data are analyzed with aggregated internal sensor data and aggregated external sensor data for deep brain stimulation systems of a same class as the deep brain stimulation system to generate results. An operation of the device is controlled based on the results.

Abstract: Devices and methods of a pod that deploys from an aircraft or vehicle and descends to safely land. The pod is configured to be attached to an aircraft or vehicle. The pod includes walls that extend around and form a contained interior space that houses one or more travelers or cargo containers. During flight of the aircraft or vehicle, the pod deploys from the aircraft or vehicle while at an elevation above ground. A landing location is determined for the pod. While the pod is descending, the pod is steered towards and lands at the landing location.

Abstract: Methods and devices for monitoring transportation of one or more of travelers and cargo containers in pods that are being transported on a vehicle. The methods and devices may determine that the pods have been deployed from the vehicle. After deployment, the landing locations may be determined. Information may be ascertained about the health of the travelers within the pods and/or a condition of the cargo containers within the pods. Recovery personnel may be notified about this information to facilitate rescue.