Abstract: A route guidance service apparatus includes: a checking unit configured to check a particular floor in a destination building based on a destination keyword; a calculation unit configured to calculate an output level of the particular floor based on building information related to the destination building so as to distinguish the particular floor from other floors; and a control unit configured to perform a control operation such that floor information related to the particular floor is separately arranged at a position adjacent to the destination building when the particular layer is selected.

Abstract: In an electric power steering device, if a semiconductor switching element is used between a battery and a bridge circuit for opening and closing a current path, this arises a problem of generation of heat by an ON resistance; for this reason, a current flowing through the semiconductor switching element is limited if a difference between the gate voltage and the source voltage of the semiconductor switching element is smaller than or equal to a predetermined value.

Abstract: Methods, systems and computer program products for detecting gas leaks using a drone are provided. Aspects include capturing a first set of data regarding a presence of a gas in the geographic area while flying along the initial flight path. Aspects also include creating secondary flight paths through regions in the geographic area in which the presence of the gas exceeds a threshold amount and capturing a second set of data regarding a concentration of the gas in the one or more regions while flying along the secondary flight paths. Aspects further include capturing wind data while flying along the initial and second flight paths and creating a three-dimensional gas plume model for gas leaks identified in the geographic area based on the first set of data, the second set of data and the wind data, wherein the three-dimensional gas plume model identifies a source of the gas leaks.

Abstract: The present invention relates to a method and system for accurately predicting future trajectories of observed objects in dense and ever-changing city environments. More particularly, the present invention relates to substantially continuously tracking and estimating the future movements of an observed object. As an example, an observed object may be a moving vehicle, for example along a path or road. Aspects and/or embodiments seek to provide an end to end method and system for substantially continuously tracking and predicting future movements of a newly observed object, such as a vehicle, using motion prior data extracted from map data.

Abstract: A system and method for providing safety for a motorized mobile system (MMS) are optimized for accurate object detection, the system comprising at least two sensors that are operably configured to generate one or more of a range measurement and a bearing measurement to an object in a field-of-view of the sensors, wherein the range and bearing measurements have associated uncertainties.

Abstract: A system includes an acquisition unit that acquires an operation amount or a duration count, and a switching unit that switches a driving state. The switching unit switches the driving state to the cooperative driving state when the operation amount is equal to or greater than an intervention threshold and less than a start threshold or the duration count is equal to or greater than a first threshold and less than a second threshold during the autonomous driving state, switches the driving state to the autonomous driving state when the operation amount is less than the intervention threshold or the duration count is less than the first threshold during the cooperative driving state, and switches the driving state to the manual driving state when the operation amount is equal to or greater than the start threshold or the duration count is equal to or greater than the second threshold.

Abstract: An automatic driving vehicle includes an automatic driving mode in which autonomous traveling is carried out. The automatic driving vehicle receives a setup for a destination and an arrival time after a driver or a passenger gets out of the automatic driving vehicle. The setup for the destination and the arrival time is input when the driver or the passenger gets out of the automatic driving vehicle. The automatic driving vehicle is controlled to move to the destination after the driver or the passenger gets out of the automatic driving vehicle on a basis of the destination and the arrival time.

Abstract: A driving assistance system for a vehicle includes a processor of the vehicle operable to process data for the driving assistance system. The driving assistance system determines a priority for various processing tasks required by one or more systems of the vehicle. Responsive to the determination of the priority of various processing tasks required by one or more systems of the vehicle, the processor determines a task with a higher priority than other lower priority tasks and is operable to process the higher priority task and to shift processing of lower priority tasks to other processors within the vehicle.

Abstract: A system and method are provided for hybrid electric internal combustion engine applications in which a motor-generator, a narrow switchable coupling and a torque transfer unit therebetween are arranged and positioned in the constrained environment at the front of an engine in applications such as commercial vehicles, off-road vehicles and stationary engine installations. The motor-generator is preferably positioned laterally offset from the switchable coupling, which is co-axially-arranged with the front end of the engine crankshaft. The switchable coupling is an integrated unit in which a crankshaft vibration damper, an engine accessory drive pulley and a disengageable clutch overlap such that the axial depth of the clutch-pulley-damper unit is nearly the same as a conventional belt drive pulley and engine damper. The front end motor-generator system includes an electrical energy store that receives electrical energy generated by the motor-generator when the coupling is engaged.

Abstract: A method for the delayed parking optimization of an autonomous vehicle includes activating a delayed parking optimization mode in a vehicle and, during the delayed parking optimization mode, detecting a presence of one or more passengers in the vehicle. On condition that no further passengers are detected in the vehicle, a delay period is initiated subsequent to which the vehicle engages the transmission of the vehicle from park to reverse, applies power to cause the vehicle to back out of the parking spot onto the roadway, engages the transmission into drive, applies power and manages steering and braking of the vehicle in order to navigate the vehicle forward on the roadway beyond the parking spot, engages the transmission into reverse, applies power and manages steering of the vehicle to cause the vehicle to back into the parking spot and engages the transmission of the vehicle into park.

Abstract: An aircraft braking system comprising: a first group (Ga) of actuators and a second group (Gb) of actuators. A first control module (105a) is adapted, in a nominal mode, to control the first group, and in a reconfigured mode, to control the first group and the second group. A second control module (105b) is adapted, in a nominal mode, to control the second group, and in a reconfigured mode, to control the first group and the second group. A monitoring unit adapted is adapted to monitor the first control module and the second control module, and to put the first control module into the reconfigured mode of operation when the monitoring unit detects a failure of the second control module, and to put the second control module into the reconfigured mode when the monitoring unit detects a failure of the first control module.

Abstract: A method that includes a computer in a vehicle. The method includes: controlling an approach to a pivotable bridge that spans between two transport carriages or between one of the carriages and a vehicle loader; receiving, from a communication device coupled to the bridge or one of the carriages, an indication to cross the bridge; and based on the indication, crossing the bridge.

Abstract: Systems and methods for communicating autonomous vehicle confidence levels are provided. In one example embodiment, a computer implemented method includes obtaining, by a computing system including one or more computing devices onboard an autonomous vehicle, data associated with the autonomous vehicle. The method includes determining, by the computing system, a vehicle confidence level associated with one or more system actions of the autonomous vehicle based at least in part on the data associated with the autonomous vehicle. The method includes determining, by the computing system, an external vehicle indication that is indicative of the vehicle confidence level. The method includes outputting, by the computing system via an output device onboard the autonomous vehicle, the external vehicle indication that is indicative of the vehicle confidence level. The external vehicle indication is outputted to at least a portion of a surrounding environment of the autonomous vehicle.

Abstract: A system and method for providing safety for a motorized mobile system (MMS) are optimized for accurate object detection, the system comprising at least two sensors that are operably configured to generate one or more of a range measurement and a bearing measurement to an object, wherein the range and bearing measurements have associated uncertainties.

Abstract: A method is provided for characterizing the amplitude of play in an electromechanical actuator comprising an electric motor, a movable element, an upstream sensor, a downstream sensor, and a force sensor. The method includes steps of measuring the position of the motor, the position of the movable element and the load applied to the movable element using the three sensors. On the basis of a computer model of the actuator and of the measurements, a value of the amount of mechanical play is estimated using a state observer considering the play to be a state component. The amplitude of the play is determined from a set of values of the dynamic variable obtained in the preceding step at various times.

Abstract: A filter system for a motor vehicle, such as a car, truck, train, ship includes a filter element for a fluid filter with a wireless identification means having second data about the filter element. A filter housing for the fluid filter in which the filter element is exchangeably arranged and which has a read device for the wireless identification means. A central data base in which third data about the filter element is stored. An evaluation unit configured to retrieve the third data about the filter element from the central data base and to compare them to the second data about the filter element that were obtained from the read device.

Abstract: A system and method for providing safety for a motorized mobile system (MMS) are optimized for accurate object detection, the method comprising generating one or more of a range measurement and a bearing measurement to an object using at least two sensors, wherein the range and bearing measurements have associated uncertainties.

Abstract: A system and method are provided for hybrid electric internal combustion engine applications in which a motor-generator, a narrow switchable coupling and a torque transfer unit therebetween are arranged and positioned in the constrained environment at the front of an engine in applications such as commercial vehicles, off-road vehicles and stationary engine installations. The motor-generator is preferably positioned laterally offset from the switchable coupling, which is co-axially-arranged with the front end of the engine crankshaft. The switchable coupling is an integrated unit in which a crankshaft vibration damper, an engine accessory drive pulley and a disengageable clutch overlap such that the axial depth of the clutch-pulley-damper unit is nearly the same as a conventional belt drive pulley and engine damper. The front end motor-generator system includes an electrical energy store that receives electrical energy generated by the motor-generator when the coupling is engaged.

Abstract: A control system for providing a yaw moment control action is provided. The control system comprises a command interpreter and a control segment. The command interpreter is configured to generate desired current vehicle states, when a vehicle is driven manually, wherein the current vehicle states comprise a target yaw rate state and a target lateral velocity state. The command interpreter is further configured to generate a desired states vector, when the vehicle is driven autonomously, using vehicle path planning instructions, wherein the desired states vector comprises current and future ideal yaw rate and lateral velocity states. The control segment is configured to generate a yaw moment control action using the desired current vehicle states when the vehicle is driven manually and generate a yaw moment control action using the desired states vector when the vehicle is driven autonomously.

Abstract: A system and method are provided for hybrid electric internal combustion engine applications in which a motor-generator, a narrow switchable coupling and a torque transfer unit therebetween are arranged and positioned in the constrained environment at the front of an engine in applications such as commercial vehicles, off-road vehicles and stationary engine installations. The motor-generator is preferably positioned laterally offset from the switchable coupling, which is co-axially-arranged with the front end of the engine crankshaft. The switchable coupling is an integrated unit in which a crankshaft vibration damper, an engine accessory drive pulley and a disengageable clutch overlap such that the axial depth of the clutch-pulley-damper unit is nearly the same as a conventional belt drive pulley and engine damper. The front end motor-generator system includes an electrical energy store that receives electrical energy generated by the motor-generator when the coupling is engaged.