Abstract: The disclosed inventions include personal Unmanned Aerial Vehicles (UAV's) and UAV universal docking ports “docking ports” to be incorporated into and/or attached to headwear, footwear, clothing, outerwear, devices, gear and equipment, land, air, water and space vehicles, buildings, wireless towers and other mobile or stationary objects and surfaces referred to collectively as “docking stations”. A docking station may have one or more docking ports for docking, networking and charging or refueling UAVs, and for providing data communications between said UAVs and other electronic devices. Said docking ports may also incorporate wireless power transmission for remote wireless charging of one or more UAV's. Supplemental power for recharging said UAVs when docked may be supplied by battery(s) integrated in said docking port or may be provided directly from the docking station or other connected power source.

Abstract: A path prediction device comprises a storage unit that generates and stores, based on information collected from a plurality of vehicles including a first vehicle, traveling path information indicating information associated with paths where the respective vehicles have traveled; a positional information acquisition unit that acquires a first position indicating the current position of the first vehicle; and a path prediction unit that predicts the traveling path of the first vehicle using at least one of first path information indicating paths of the first vehicle and second path information indicating paths of second vehicles among the traveling path information, wherein the path prediction unit determines a use ratio of the first path information, which is used to predict the traveling path, based on a past traveling record of the first vehicle at the first position.

Abstract: A work machine includes a prime mover, a hydraulic pump to be operated by the prime mover to output an operation fluid, a hydraulic device to be operated by the operation fluid, a measurement sensor to measure a first temperature and a second temperature, the first temperature being a temperature of the operation fluid at starting of the prime mover, the second temperature being a temperature of the operation fluid after the starting of the prime mover, and a controller including a determiner to determine an upper limit revolution speed based on the first temperature, the upper limit revolution speed being an upper limit of a revolution speed of the prime mover, and a changer to change the upper limit revolution speed based on the second temperature.

Abstract: A method of health monitoring and assessment of an aircraft structure includes collecting data from a plurality of sensors located at one or more components of the aircraft. The sensors assess a physical condition of the components and are arrayed in one or more aircraft zones. The data is communicated to a health assessment module, which calculates one or more component structural condition indicators of each component. The component structural condition indicators are compiled and one or more component structural health indicators are calculated. The component structural health indicators are compiled by aircraft zone and a zone structural health indicator is calculated based on the component structural health indicators of components residing in the particular aircraft zone. An aircraft level health indicator is calculated based on the zone structural health indicators and one or more maintenance actions are recommended based on the structural condition and health indicators.

Abstract: A feature for a vehicle that enables taking precautionary actions in response to conditions on the road network around or ahead of the vehicle, in particular, an unusually narrow road width or lane width. A database representing the road network is used to determine locations where an unusually narrow road or lane width exists. Then, precautionary action data is added to the database indicating locations at which a precautionary action is to be taken. A precautionary action system installed in a vehicle uses this database, or a database derived therefrom, in combination with a positioning system to determine when the vehicle is at a location that corresponds to the location of a precautionary action. When the vehicle is at such a location, a precautionary action is taken by a vehicle system as the vehicle is approaching a location where the unusually narrow road width or lane width exists.

Abstract: An aviation system is disclosed that has the capabilities to position a high-altitude aviation vehicle within a designated geographic region for extended periods of time or maneuver the high-altitude aviation vehicle along predetermined designated paths.

Abstract: A method for providing safe-driving support of a vehicle includes obtaining occupant data and vehicle data received at a vehicle hub. The occupant data is related to an identity and health status of an occupant and the vehicle data is related to a status of the vehicle. The method also includes obtaining action data based on an application of the occupant data and vehicle data to a machine learning safe-driving model. The machine learning safe-driving model is associated with a user profile of the occupant that is identified from among a plurality of user profiles based on the occupant data. A server maintains a plurality of user profiles, each having a respective machine learning safe-driving model. The action data relates to an action to be performed by the vehicle while the occupant is located in the vehicle.

Abstract: A brake system for motor vehicles controllable by a driver or independently of the driver, comprises first and second brake actuation sensors. First and second electrically controllable pressure sources, can actuate the wheel brakes. A first electronic control unit controls the first pressure source, and is connected to the first brake actuation sensor. A second electronic control unit controls the second pressure source and is connected to the second brake actuation sensor. A hydraulic control device comprises a first solenoid valve between the wheel brakes and the first pressure source and a second solenoid valve between the wheel brakes and the second pressure source. There is a data connection between the first electronic control unit and the second electronic control unit. The first electronic control unit has a first interface and the second electronic control unit has a second interface that are not connected to each other.

Abstract: A system includes a controller in a vehicle in communication with sensors supported on pedals of the vehicle. The controller includes instructions for determining a user intention based on a detected movement of a foot of the user. Upon determination that the user intention is to take over control the vehicle, the controller sets a control mode of the vehicle to a manual control mode.

Abstract: A method for performing autonomous operation of a vehicle is provided. The method obtains object data, by a plurality of vehicle onboard sensors; obtains road data, by one or more cameras onboard the vehicle; determines, by at least one processor, an initial vehicle trajectory, based on the object data and the road data; identifies, by the at least one processor, a set of constraints associated with the initial vehicle trajectory; determines a final vehicle trajectory, based on the potential vehicle trajectory and the set of constraints; and transmits the final vehicle trajectory to a steering mechanism onboard the vehicle.

Abstract: A driver assistance system and a method for automatically logging a transition of the responsibility during a status change between fully automatic operation and manual operation of a motor vehicle is provided. The driver assistance system and the method include an event data recorder with a data storage and with a control unit. The control unit is designed such that a time-limited recording of log data is triggered by means of the data storage when a pre-warning signal, which announces the status change between fully automatic vehicle operation and manual vehicle operation, is transmitted to the control unit. In this manner, a secure logging process of the transition of the responsibility is ensured.

Abstract: An assembly for correcting an attitude of at least a selected portion of a structure, where the assembly includes a controller affixed to a structure operatively coupled with one or more jacks operable to change the attitude of the structure; and a remote device configured to communicate wirelessly with the controller to change the attitude of a selected portion of the structure. Also disclosed is a method for adjusting an attitude of a movable structure.

Abstract: A display control system of a vehicle includes a surround view module configured to generate a surround view including a predetermined top view image of vehicle and one or more features located within a predetermined area around the vehicle. A parking module is configured to selectively generate a parking signal when, for at least a predetermined period, a vehicle speed is less than a predetermined speed and at least one of: (i) an accelerator pedal position is less than a predetermined position; (ii) a brake pedal position indicates a request for vehicle braking; and (iii) a magnitude of a steering wheel angle is greater than a predetermined steering wheel angle. A display control module is configured to, in response to the generation of the parking signal, display the surround view on a display within the vehicle.

Abstract: A method for autonomously parking or un-parking a motor vehicle includes receiving a map of a parking area having a first temporary obstruction zone, determining a starting location of the motor vehicle relative to the parking area, selecting a destination location within the parking area, setting the first temporary obstruction zone as operative or inoperative, generating a path from the starting location to the destination location, wherein the path does not enter the first temporary obstruction zone when operative, and driving the motor vehicle autonomously along the path from the starting location of the motor vehicle to the destination location.

Abstract: Methods, apparatus, systems and articles of manufacture to implement computer aided dispatch of drones are disclosed. Example drone dispatching methods disclosed herein include transmitting a flight plan for a drone to a flight control platform, the flight plan based on a first location associated with a service request. Disclosed example methods also include, in response to receiving a message from the flight control platform indicating the flight plan is approved, initiating a first communication session between the flight control platform and a flight control unit of the drone to permit remote piloting of the drone. Disclosed example methods further include, in response to receiving the message from the flight control platform indicating the flight plan is approved, initiating a second communication session to exchange multimedia data between the flight control platform and a drone observation platform separate from the flight control platform.

Abstract: A vehicle includes a power plant, an electrical port, and a controller. The controller is configured to transmit a signal to the inverter via a conductor of the port indicating a maximum power available. The signal may be transmitted responsive to indication of an off-board inverter being plugged into the port. The controller may be further configured to complete a circuit between the power plant and the inverter. The circuit may be completed responsive to an expected predefined reduction in peak voltage of the signal caused by the inverter.

Abstract: The present disclosure provides an auto-braking system which includes a braking device, a receiver, and a controller. The controller includes a determining portion, a verifying portion and an executing portion. The determining portion determines whether a vehicle will violate a red signal of the traffic light based on the traffic light state information. The verifying portion verifies the traffic light state information is valid by comparing the traffic light state information with the image of the traffic light captured by the sensor. The executing portion executes a first braking control to slow the vehicle at a first deceleration rate when the determining portion determines that the vehicle will violate a red signal. The executing portion executes a second braking control to slow the vehicle at a second deceleration rate to stop at a specified position when the verifying portion verifies that the traffic light state information is valid.

Abstract: An electric motor can be accurately drive-controlled even when a failure occurs in a motor electric angle detection unit. When at least one of a resolver and an angle computation unit is diagnosed as abnormal in an initial diagnosis after a system restart, a motor electric angle initial value is estimated on a basis of a response output of a three-phase electric motor in response to input of a motor drive signal to the three-phase electric motor, a motor electric angle estimation value is calculated on a basis of an output shaft rotation angle detection value detected by an output-side rotation angle sensor and a relative offset amount estimated on a basis of the estimated motor electric angle initial value, and the three-phase electric motor is drive-controlled on a basis of the calculated motor electric angle estimation value.

Abstract: A method, apparatus and computer software for coding for tracks in a system is presented. At least one track of an object is determined on a detection display map, the track having an icon associated therewith. The icon is supplemented with a shape indicating additional information relating to attributes of the track, the shape providing perceptual visual awareness for an operator of said system. The shape includes an indicator of at least one of direction, velocity, path uncertainty, and a level of urgency of the track of the object.

Abstract: A motive power system includes a first energy storage, a second energy storage, an actuator, an internal combustion engine, a power transmission circuit, and circuitry. The circuitry is configured to control the power transmission circuit in a charge-depleting mode such that the first energy storage supplies to the actuator a first electric energy that is stored in the first energy storage with a first charge rate range and the second energy storage supplies to the actuator a second electric energy that is stored in the second energy storage with a second charge rate range. The first charge rate range is larger than the second charge rate range.