Abstract: An actuator assembly includes a driver element, a driven element, and a panel disposed between the driver element and the driven element. The driver element has a first magnetic field generator configured to generate a rotating magnetic field. The driven element has a second magnetic field generator disposed thereon. The panel physically separating the driver element and the driven element, such that in response to the rotating magnetic field, the driven element is rotated relative to the panel.

Abstract: A liquid level sensor is arranged to sense a quantity of a liquid within a reservoir. The sensor includes a plurality of discrete sensing units disposed within the reservoir. Each of the plurality of sensing units has an output, and the output has a first value when the sensing unit is immersed in a liquid and a second value, different from the first value, when the sensing unit is not immersed in a liquid. A signal generator is operably electrically coupled to each of the plurality of sensing units. The signal generator is operable to provide an excitation signal to each of the plurality of sensing units. Each of the plurality of sensing units is operable to provide the output responsive to the excitation signal.

Abstract: A window system for a passenger compartment of a vehicle includes a transparent window having a window treatment, an incident light monitoring subsystem, an incident light management subsystem and a controller. The incident light monitoring subsystem monitors incident light transmitted into the passenger compartment, determines a field of view of a passenger and determines an intensity of the incident light relative to the field of view of the passenger. The incident light management subsystem individually controls a plurality of light projectors to project a light beam that interacts with a subsection of the window treatment to modulate light transparency of one of the subsections of the window based upon the intensity of the incident light in relation to a field of view of the passenger.

Abstract: A window system for a passenger compartment of a vehicle includes a window including an inner transparent layer, an outer transparent layer and a pixelated layer interposed therebetween. The pixelated layer includes a two-dimensional array of electrochromic cells and an electrode array that is electrically connected to the electrochromic cells. A controller determines, via an incident light monitoring subsystem, a field of view of a passenger and determines an intensity of incident light in relation to the field of view of the passenger. The controller is disposed to command a passenger compartment incident light management subsystem to activate selected electrochromic cells in the transparent window based upon the intensity of the incident light in relation to the field of view of the passenger.

Abstract: A resettable sensor assembly includes a housing having a longitudinal axis and defining a cavity therein. The assembly includes a divider disposed within the cavity and in contact with the housing, at least one electrical contact disposed within the cavity and extending through the divider, and a pin reversibly translatable within the cavity along the axis. The assembly includes at least one actuator element disposed within the cavity and abutting the housing. The element is configured for translating the pin along the axis between a first position wherein the pin contacts the electrical contact and a second position wherein the pin is spaced apart from the electrical contact. The actuator element is formed from a shape memory alloy that is transitionable between an austenite crystallographic phase and a martensite crystallographic phase in response to a thermal activation signal to thereby translate the pin between the first and second positions.

Abstract: A window system for a passenger compartment of a vehicle includes a transparent window having a window treatment, an incident light monitoring subsystem, an incident light management subsystem and a controller. The incident light monitoring subsystem monitors incident light transmitted into the passenger compartment, determines a field of view of a passenger and determines an intensity of the incident light relative to the field of view of the passenger. The incident light management subsystem individually controls a plurality of light projectors to project a light beam that interacts with a subsection of the window treatment to modulate light transparency of one of the subsections of the window based upon the intensity of the incident light in relation to a field of view of the passenger.

Abstract: A window system for a passenger compartment of a vehicle includes a window including an inner transparent layer, an outer transparent layer and a pixelated layer interposed therebetween. The pixelated layer includes a two-dimensional array of electrochromic cells and an electrode array that is electrically connected to the electrochromic cells. A controller determines, via an incident light monitoring subsystem, a field of view of a passenger and determines an intensity of incident light in relation to the field of view of the passenger. The controller is disposed to command a passenger compartment incident light management subsystem to activate selected electrochromic cells in the transparent window based upon the intensity of the incident light in relation to the field of view of the passenger.

Abstract: Methods and systems for receiving, by a destination device at which a securement-monitoring application is operating, from a securement sensor device, a securement-condition communication indicating a condition of a securement remote to the destination device. Operations also include determining, by the destination device using the securement-monitoring application, an action to take responsive to the securement-condition communication, such as notifying a user of an undesired condition at the securement. The operations further include initiating the action determined.

Abstract: An animate object detection system includes an apparatus configured for supporting an animate object and a sensor disposed in physical communication with the apparatus. The sensor includes a piezoelectric material and is configured for producing an electric signal in response to a force applied to the apparatus by the animate object. The system also includes a signal conditioner disposed in electrical communication with the sensor and configured for manipulating the electric signal and producing an output signal, and a receiver configured for receiving the output signal and generating an indicator signal. A method of detecting an animate object is also disclosed.

Abstract: A system and method for optimizing various vehicle safety systems, such as airbags and seat belt load tensioning limiters, for a particular occupant of a vehicle seat, such as the vehicle driver or passenger, based on the weight of the occupant and the fore-aft position of the seat. The method senses the mass of the occupant and the position of the seat and classifies the combination of the mass and position. The method then determines the optimized setting of the safety systems for that combination classification, and automatically sets the safety systems to that setting. The method can also determine the optimized setting of the safety systems based on whether the occupant is wearing a seat belt.

Abstract: A method and system for recognizing and verifying the identity of a driver and front seat passenger of a vehicle. A vehicle owner uploads profile data for several individuals who may be a driver or passenger to a database in the vehicle. When a driver or passenger enters the vehicle, the system uses the profile data—which can include height, weight, and gender information about the individual—along with vehicle data such as seat position, to identify the driver or passenger from the database. The profile data for the known individual is then used to adjust the position of the seat and other components in the cockpit. The profile data is also used by various safety and convenience systems onboard the vehicle.

Abstract: A resettable sensor assembly includes a body having a axis and defining a cavity therein. The body includes a first plurality of threads disposed about the axis. The assembly includes a housing mated to the body and including at least one electrical contact. The assembly further includes a plate. The assembly also includes an actuator element configured for translating the plate along the axis between a first position in which the plate contacts the at least one electrical contact and a second position in which the plate is spaced apart from the at least one electrical contact. The element is formed from a shape memory alloy that is transitionable between an austenite crystallographic phase and a martensite crystallographic phase in response to a thermal activation signal to thereby translate the plate between the first position and the second position.

Abstract: A resettable sensor assembly includes a housing having a longitudinal axis and defining a cavity therein. The assembly includes a divider disposed within the cavity and in contact with the housing, at least one electrical contact disposed within the cavity and extending through the divider, and a pin reversibly translatable within the cavity along the axis. The assembly includes at least one actuator element disposed within the cavity and abutting the housing. The element is configured for translating the pin along the axis between a first position wherein the pin contacts the electrical contact and a second position wherein the pin is spaced apart from the electrical contact. The actuator element is formed from a shape memory alloy that is transitionable between an austenite crystallographic phase and a martensite crystallographic phase in response to a thermal activation signal to thereby translate the pin between the first and second positions.

Abstract: Systems and assemblies for determining the status of a fuel door of a vehicle are provided. A latching mechanism having a sensing target and an axis is rotatable about the axis through an unlocked position and a locked position and is longitudinally movable about the axis between an open position and a closed position. A sensor module is configured to detect a sensed position of the sensing target. The sensed position of the sensing target determines a state of the latching mechanism and the status of the fuel door.

Abstract: A system for enabling a driver of a vehicle to visibly observe objects located in a blind spot includes, but is not limited to, a rear view viewing device that is mounted to the vehicle and configured to be electronically adjustable. The system further includes a sensor that is associated with the vehicle and that is configured to detect a location of an object with respect to the vehicle and to generate a first signal indicative of the location of the object. The system further includes a processor that is communicatively coupled with the sensor and that is operatively coupled with the rear view viewing device. The processor is configured to obtain the first signal from the sensor and to command the rear view viewing device to adjust such that the object is visibly observable to the driver when the processor receives the first signal.

Abstract: A system and method for optimizing various vehicle safety systems, such as airbags and seat belt load tensioning limiters, for a particular occupant of a vehicle seat, such as the vehicle driver or passenger, based on the weight of the occupant and the fore-aft position of the seat. The method senses the mass of the occupant and the position of the seat and classifies the combination of the mass and position. The method then determines the optimized setting of the safety systems for that combination classification, and automatically sets the safety systems to that setting. The method can also determine the optimized setting of the safety systems based on whether the occupant is wearing a seat belt.

Abstract: A system and method for detecting the position of the head and/or eye of a driver of an automobile and automatically adjusting the position of the steering wheel based on the head and/or eye position in order to provide the driver with an optimized view of the instrumentation panel and road. The system and method utilizes the vehicle parameters, driver parameters, and various settings to determine the proper position of the steering wheel including the height, proximity to driver, and tilt angle of the steering wheel. The system may also adjust the height and/or length of the steering column in order to adjust and provide the proper position of the steering wheel.

Abstract: A system and method for classifying the optimization of safety features on a vehicle for a driver of the vehicle based on the height and mass of the driver. The method includes determining a number of basic driver sizes based on driver height and mass and determining a driver's seat position for each basic driver height. The method also identifies a set of tunable design variables that are used to adjust the safety features of the vehicle and performs design optimization analysis to identify an optimal design for the vehicle safety features for each of the basic driver sizes. The method then identifies the design from the optimal designs that provides the best performance for randomly selected reference drivers and classifies all drivers into a predetermined number of classifications where each classification represents a particular optimal design.

Abstract: A system and method for detecting the position of the head and/or eye of a driver of an automobile and automatically adjusting the position of the steering wheel based on the head and/or eye position in order to provide the driver with an optimized view of the instrumentation panel and road. The system and method utilizes the vehicle parameters, driver parameters, and various settings to determine the proper position of the steering wheel including the height, proximity to driver, and tilt angle of the steering wheel. The system may also adjust the height and/or length of the steering column in order to adjust and provide the proper position of the steering wheel.

Abstract: A system for enabling a driver of a vehicle to visibly observe objects located in a blind spot includes, but is not limited to, a rear view viewing device that is mounted to the vehicle and configured to be electronically adjustable. The system further includes a sensor that is associated with the vehicle and that is configured to detect a location of an object with respect to the vehicle and to generate a first signal indicative of the location of the object. The system further includes a processor that is communicatively coupled with the sensor and that is operatively coupled with the rear view viewing device. The processor is configured to obtain the first signal from the sensor and to command the rear view viewing device to adjust such that the object is visibly observable to the driver when the processor receives the first signal.