Abstract: A method for recording vehicle-relevant data, in particular for detecting and evaluating damage to a vehicle in which structure-borne noise caused by an event, such as damage or contact, is detected and evaluated. The noise is recorded with its entire frequency spectrum, the frequency spectrum is divided into a lower frequency range and an upper frequency range, and an event is characterized by at least one amplitude in the upper frequency range. The event having an amplitude in the upper frequency range is included in an envelope curve analysis, in which a lower power density and upper power density are determined for a lower and upper frequency range, respectively. A relative measured value is determined from the ratio of the upper power density to the lower power density, an evaluation of the event is made by means of the relative measured value, and the event is stored.

Abstract: A seat occupancy detection device for a vehicle, particularly for a motorcycle, has at least one electrode of a capacitor, which is arranged in a seat area and takes the form of a wire. The seat occupancy detection device includes an electronic unit connected to the wire, which unit has a function generator to generate an electrical signal, and an analyzer. The electrical signal generated by the function generator can be modified by occupation of the seat area. Further, an assistance system may activate or deactivate an assistance unit depending on the detection by the seat occupancy detection device.

Abstract: An airbag module having a first nozzle (10) enclosing a first gas compartment (G1), and a first inflator. At least one adaptive ventilation device for the first gas compartment (G1) is provided with a ventilation opening (12) bordered by flexible material and at least one throttle device with a tear seam, which, in a first state, throttles the gas flow more strongly than in a second state. A second cover (44) surrounding a second gas compartment (G2) and a gas source for the second gas compartment (G2) are provided, wherein the tear seam (49) extends through the second gas compartment and, upon filling of the second gas compartment (G2) by the gas source, the seam ruptures and the adaptive ventilation device passes from the first, to the second state.

Abstract: A lighting device capable of detecting a condition in an environment includes a sensor to capture a video frame from a location in the environment. The lighting device may include a microcontroller, a processor and memory. The sensor may be electrically connected to the microcontroller, and the video frame may be transmitted to the microcontroller as data. The lighting device may also include a light source electrically connected to and controlled by the microcontroller and a rules engine stored in the memory. The processor may compare the data to rules contained in the rules engine to produce an output. The lighting device may further include an interface through which the output is accessible. After an analysis is conducted, an output may be generated responsive to detection of an anomaly.

Abstract: A vehicle door includes a door body, a lower reinforcing member extending in a door width direction at a lower end inside the door body, and a door beam including a beam extension portion extending downwards from a beam body portion extending in the door width direction. The lower reinforcing member includes an upper surface extending in a substantially horizontal direction and an outer side surface extending downwards from the upper surface. The upper surface includes a concave portion and a convex portion. The beam extension portion includes an extension portion body disposed so as to overlap the outer side surface from the vehicle outer side when viewed in a vehicle inside-outside direction, and an inner extension portion that extends towards a vehicle inner side from the extension portion body and that is disposed so as to overlap the convex portion when viewed in the door width direction.

Abstract: Methods and systems are provided for filtering sound. A position sensor determines positions of a plurality of occupants in a defined space. Multiple microphones receive sound and generate corresponding audio signals. A processor in communication with the microphones and the position sensor receives the positions of the occupants and the audio signals. The processor determines which of the occupants are engaging in speech and applies a temporal-spatial filter to the audio signals to generate a plurality of output signals corresponding respectively to each occupant of the defined space.

Abstract: A method and apparatus for controlling the deployment of a passive inflatable restraint system wherein driver and passenger air bags are employed each having two independently actuatable gas generators of the same or different sizes which are activated in a fixed time sequence. The sequence is timed to provide an initial low inflation rate to just open the airbag container and initially deploy the airbag followed by a higher gas flow rate to complete filling of the cushion. An electronic control unit containing a control algorithm and connected to external sensors monitors vehicle decelerations, detects impacts, and determines if impact severity warrants deployment of an airbag for occupant protection.

Abstract: A device for monitoring a voltage supply for a vehicle system includes a self-diagnostic function which evaluates a logic state of the comparison signal which is output by a comparison device as a function of an input signal, and checks whether a reset signal which corresponds to the output comparison signal is generatable. The self-diagnostic function recognizes a malfunction of the comparison device when the evaluated logic state of the comparison signal does not match an expected logic state. The self-diagnostic function recognizes a malfunction of the reset device when the checked logic state of the reset signal does not match an expected logic state.

Abstract: An airbag module having a first shell (10) forming a first gas chamber (GI), a first inflator for the first gas chamber (GI), an adaptive influencing device for influencing the ventilation or shape of the first gas chamber (GI), and an actuation unit (40) for the influencing device. The actuation device (40) has a second shell (44) forming a second gas chamber (G2), and a gas source. The state of the influencing device changing upon actuating the gas source. A tensioning element having a first end (62) is coupled to the adaptive influencing device or forms the device, and a second end (64) is coupled to the second shell (44) when the second gas chamber (G2) is not filled and is decoupled from the second shell (44) when the second gas chamber (G2) is filled.

Abstract: A seat for a passenger vehicle is provided that comprises a first sensor for detecting the presence or absence of an occupant in the seat and a second sensor for validating the seat occupancy. The seat further comprises a transmitter for transmitting a signal indicative of valid occupancy of the seat. The first sensor may be a non-contact, capacitive sensor and the second sensor may comprise a near-field communication device for receiving a seat validation code. A seat validation system may be established on a passenger vehicle such as a train, wherein a central controller may report on seat occupancy status for the vehicle.

Abstract: A vehicle having a system is provided. The system has at least one operating output. The system includes an occupant module and a vehicle system module. The occupant module receives at least one occupant signal indicative of occupants currently located within the vehicle, and determines a current number and location of occupants in the vehicle based on the occupant signal. The vehicle system module receives as input the current number of occupants located in the vehicle. The vehicle system module is configured for determining whether the current number of occupants located in the vehicle is less than a total number of occupants the vehicle is configured to seat. The vehicles system module is configured for adjusting the at least one operating output of the system if the current number of occupants located in the vehicle is less than the total number of occupants the vehicle is configured to seat.

Abstract: A driver assistance system and method are disclosed which provide improved determination of possible collision objects. The system includes at least one sensor and a classification device. The threshold value of the classification device for classifying an object sensed by the at least one sensor as a possible collision object is lowered when a possible hazard situation in a region of surrounding located in front of the motor vehicle is determined based on data received from an inter-vehicular communication device. As a result, hazard situations which may not yet be determined by means of sensors belonging to conventional vehicles because of the distance or the position of the possible hazard situation with respect to the motor vehicle can be detected earlier.

Abstract: A combination automobile seat heater and occupant sensor antenna is provided having a flexible substrate with the seat heater applied on one side of the substrate and the occupant sensor antenna applied on the other side of the substrate. Structure is provided to minimize interference in the performance of the antenna by operation of the seat heater, which can include advantageous positioning of the layers and/or the use of a layer defining air gaps between the seat heater and occupant sensor.

Abstract: An electronic apparatus includes a first casing, a protected device, a detector, a first actuator and a controller. The protected device is spaced apart from the first casing by a first shortest distance. The detector is configured to detect a first early sign before a first collision of the first casing and the protected device. The controller is configured to actuate the first actuator after the detector detects the first early sign, causing an increase of the first shortest distance.

Abstract: A seat occupancy determination device configured to be provided at one of seating portions of a plural vehicle seats includes a pair of seat occupancy amount detection devices detecting a seat occupancy amount increasing and decreasing in response to a change of a load applied to each portion of the seating portion, a seat occupancy state determination device determining a seat occupancy state of the vehicle seat, an unbalanced load detection device detecting a degree of unbalance of the load applied to a right portion and a left portion of the seating portion, and a seat occupancy threshold value setting device setting a seat occupancy threshold value and correcting the seat occupancy threshold value in response to the degree of unbalance of the load applied to the right portion and the left portion of the seating portion based on a detected signal transmitted from the unbalanced load detection device.

Abstract: A depth-photographing method of detecting human face or head includes the steps of using the specific light to illuminate the target under an environmental light, receiving and detecting the reflected light from the target with the detector, generating first depth detecting information corresponding to the depth of the target, turning off the specific light, detecting another reflected light from the target, generating second depth detecting information corresponding to the depth of the target, performing the detection/calculation process based on the first and second depth detecting information to generate the appearance of the target, determining if the appearance of the target represents a human face or head, and if yes, generating depth-photographing detection information used to cancel a lock state, thereby avoiding unintentionally entering power saving (or standby mode), speeding up entering the desired power saving or dynamically changing/adjusting the display content.

Abstract: An occupant detection system includes a controller, a sensing electrode, and a shield electrode, the electrodes disposed in a vehicle seat. The controller is electrically coupled to the sensing electrode and shield electrode by a sensing circuit. The controller is configured to send an input signal to the sensing electrode, the shield electrode, or both and measures current, impedance, or capacitance values to determine the presence of an object on the seat, to classify the object, or both.

Abstract: Exemplary methods of making a bumper component are disclosed, along with exemplary bumper assemblies and vehicles. An exemplary method may include providing a first mold portion defining at least in part a front surface, and positioning at least one sensor in the first mold portion. Exemplary methods may further include enclosing the at least one sensor within the first mold portion with a second mold portion. The second mold portion may define at least in part a rear surface. The method may further include forming a body within the first and second mold portions, thereby embedding the at least one sensor between the front and rear surfaces, the body extending between the front and rear surfaces.

Abstract: Apparatuses and methods of touch discrimination are described. One method receives data from an occupant classification system and sets a touch detection threshold of a touch-sensing device based on the received data. The method may be used to discriminate between an adult touch and a child touch and to selectively allow access to control functionality to adults and not to children.

Abstract: Methods and systems are provided for active noise control in a vehicle. The system includes a position sensor for sensing an occupant position. A microphone receives audible noise and generates an error signal corresponding to the audible noise. A first controller is configured to receive the error signal from the microphone and generate a modified error signal by modifying the error signal based on the occupant position with respect to the microphone. A second controller is in communication with the first controller and configured to generate an anti-noise signal based at least in part on the modified error signal. The system also includes a loudspeaker in communication with the second controller for receiving the anti-noise signal from the second controller and producing sound corresponding to the anti-noise signal to negate at least some of the audible noise.

Abstract: A fire suppression device includes a container body having a discharge orifice. A cooling assembly is coupled along an inner wall of the container body and includes a cooling housing body and an agent cup seat. An agent assembly coupled along the inner wall includes an agent cup with a fire suppression agent generator therein. An agent cup fitting is near an end of the agent cup and is coupled with the agent cup seat. Spacing members extend between the inner wall and at least one of the cooling housing body and the agent cup. The plurality of spacing members space the cooling housing body and the agent cup from the inner wall. An insulation layer is coupled between the inner wall and the plurality of spacing members, and a portion of the insulation layer is clamped between the spacing members and the inner wall.

Abstract: A sensor assembly includes a metal carrier plate (2) and a sensor housing (3) made of plastic, that contains at least one sensor element. The sensor housing (3) is connected to the carrier plate (2) by at least one screw (5) that extends through a through hole (6) of the carrier plate and is screwed into a screwing channel (7) defined in the plastic housing material of the sensor housing. As a result, the sensor assembly has a secure screwed connection.

Abstract: An occupant detection apparatus includes an electrostatic capacitance type sensor having a main electrode, a sub electrode and a guard electrode, an impedance measurement device that outputs an alternating current signal to measure an impedance, and an occupant discrimination device that discriminates an occupant. The guard electrode is provided oppositely to main electrode and not oppositely to the sub electrode. The impedance measurement device outputs an alternating current signal to pass the signal through the main electrode so as to measure a main impedance. Further, the impedance measurement device outputs the alternating current signal to pass the signal through sub electrode so as to measure a sub impedance. The occupant discrimination device discriminates the occupant based on an electrostatic capacitance component of the main impedance and a resistance value component of the sub impedance.

Abstract: Systems and methods for de-energizing battery packs in vehicles that receive at least a portion of their motive power from electricity generated from a battery are provided. By way of example, one embodiment includes a battery de-energizer that is configured to electrically couple to a port or receptacle, such as the service disconnect receptacle, on the vehicle and discharge the electrical energy stored in the battery pack. Another embodiment includes a battery management unit (BMU) designed to monitor one or more sensors to determine if a crash has occurred. If a crash is determined, the BMU electrically couples a battery de-energizer circuit to the battery pack to discharge the electrical energy stored in the battery pack.

Abstract: The invention relates to a driver assistance system for a vehicle (1), wherein the driver assistance system has at least one controller (2, 4, 6, 9, 11, 14) installed in the vehicle (1) and/or at least one sensor device (16, 17, 18, 19) installed in the vehicle (1), wherein the at least one controller (2, 4, 6, 9, 11, 14) and/or the at least one sensor device (16, 17, 18, 19) has a communication interface (21) which can be used to transmit data directly between the controller (2, 4, 6, 9, 11, 14) and/or the sensor device (16, 17, 18, 19) and a portable communication appliance (22) at least in one direction by bypassing a data transmission system (20) inside the vehicle, wherein the data transmission causes the portable communication appliance (22) and the controller (2, 4, 6, 9, 11, 14) and/or the sensor device (16, 17, 18, 19) to interact such that at least one function can be performed which assists a driver in driving the vehicle (1).

Abstract: A method is described for controlling an occupant protection arrangement which has at least two levels of protection for an occupant of a vehicle. The method has a step of selecting one of the at least two levels of protection of the occupant protection means as the level of protection to be used in the event of an impact of the vehicle using a yaw direction of the vehicle.

Abstract: A child safety seat assembly comprises a child seat, a base adapted to assemble with the child seat, wherein the base includes a first portion having an enlarged bottom, and an inclined second portion joined with an upper side of the first portion and provided with a storage pocket, and an abuttal support operable to slide relative to the base between a first position stowed in the storage pocket and a second position deployed outward.

Abstract: An electronic module assembly (EMA) for use in controlling one or more personal restraint systems. A programmed processor within the EMA is configured to determine when a personal restraint system associated with each seat in a vehicle should be deployed. In addition, the programmed processor is configured to perform a diagnostic self-test to determine if the EMA and the personal restraint systems are operational. In one embodiment, results of the diagnostic self-test routine are displayed on a display included on the electronic module assembly. In an alternative embodiment, the results of the diagnostic self-test routine are transmitted via a wireless transceiver to a remote device. The remote device can include a wireless interrogator or can be a remote computer system such as a cabin management computer system.

Abstract: A method and device adapt a sitting position of a vehicle occupant in a vehicle with at least one driver assistance system that includes at least one optical sensor unit, and with a vehicle seat with a drive unit for adjusting the sitting position. At least one physical parameter of a vehicle occupant and/or a hazardous situation is sensed by the optical sensor unit, and on the basis of the sensed physical parameter automatic setting and/or pre-setting of the sitting position of the vehicle seat are/is carried out.

Abstract: A dual-electrode occupant detection system configured to determine an occupant presence on a seat assembly. The system includes two electrodes that each generates an electric field in response to an applied excitation signal. The two electrode signals arising therefrom can be measured individually and/or combined to detect more reliably an occupant. Such a configuration advantageously avoids the added expense and complication of an electrode arrangement that relies on an underlying shield layer to reduce electrode signal degradation caused by a seat heater element.

Abstract: A passenger protection system includes: first and second sensors that detect an impact applied to a vehicle in a width direction; a determination device that determines a collision by comparing a first detection signal from the first sensor with a first determination condition, and by comparing a second detection signal from the second sensor with a second determination condition; and a boarding position detector that detects a boarding position of a passenger. The determination device sets the first determination condition and the second determination condition according to the boarding position in such a manner that the first determination condition is different from the second determination condition.

Abstract: A gas generator includes a cylindrical housing, a diffuser portion, a first combustion chamber defined by a first porous plate member, a second combustion chamber defined by a second porous plate member, and an ignition device having an ignition portion attached to an igniter collar. The first porous plate member comprises first through holes arranged in the vicinity of a peripheral edge portion. An annular space is formed between an outer peripheral surface of the ignition portion and an inner peripheral wall surface of the cylindrical housing. The height (H) of a top surface of the ignition portion from the igniter collar and a smallest length (Lmin) of a first gas generating agent in the first combustion chamber satisfies a relation Lmin<H. An axis of the cylindrical housing is coincident with a central line of the ignition portion, the first porous plate member, and the second porous plate member.

Abstract: Methods and systems for vehicle diagnostic detection and identification through vehicle sensitive skin are disclosed. Specifically, a method to monitor the exterior surface skin of a vehicle to enable detection and identification of damage to the vehicle exterior surface is disclosed. In one embodiment, a change in skin condition provides monitoring of vehicle performance and identifies vehicle operating abnormalities. In the event vehicle skin damage is detected, the system may take a number of actions. In one embodiment, the actions comprise notifying authorized users of the vehicle, a maintenance and diagnostics service provider, a security provider, and emitting a visual or audio alarm.

Abstract: A vehicle system includes at least one sensor configured to detect an impact and a restraint device configured to deploy in response to the impact. A processing device is configured to deploy the restraint device in accordance with a first timing if the impact includes a front impact and a second timing if the impact includes a side impact. The second timing includes the first timing delayed by a predetermined value.

Abstract: A passenger airbag system includes a control unit connected to a switch for switching a passenger airbag between an active and a non-active state. The system also includes a first radio frequency unit arranged in the vehicle and may include a second radio frequency unit arranged in a vehicle remote key, so that when the radio frequency units are brought in contact with each other one of the units is arranged for sending a signal to the control unit for changing a setting of the switch.

Abstract: A method for controlling the filling of an airbag for a vehicle includes closing a valve of a gas generator for the airbag, this valve being connected to an interface to a gas sack of the airbag, after a main volume of a gas has flowed out of the gas generator, through the valve into the gas sack in a first gas mass flow, and opening the valve to direct a residual volume of gas out of the gas generator, through the valve into the gas sack in a second gas mass flow, the second gas mass flow being smaller than the first gas mass flow.

Abstract: A system for deploying a side airbag of a vehicle comprises a front/side airbag controller for controlling processes of deploying a front airbag and a side airbag independently. The front/side airbag controller comprises a front signal monitoring unit converting a front acceleration signal received from the airbag controller into a speed according to time and then determining whether or not the speed according to time exceeds a first threshold. A threshold adjustment unit receives a threshold adjustment request signal from the front signal monitoring unit to lower a second threshold that is a threshold with respect to decision factors for deploying the side airbag.

Abstract: A steering wheel is locatable between an operational position at a driver seat of a vehicle and a stowed position in the vehicle. A first airbag is coupled to the steering wheel, and a multi-stage airbag laterally overlaps the driver seat and a passenger seat of the vehicle next to the driver seat. A controller includes instructions for detecting a frontal collision, locating the steering wheel, deploying the first airbag at the driver seat and the multi-stage airbag at the passenger seat when the steering wheel is in the operational position, and deploying the multi-stage airbag at the driver and passenger seats when the steering wheel is in the stowed position.

Abstract: A flexible electro-resistive impact detection sensor is mounted on an outboard portion of the front bumper for signaling an offset rigid barrier impact event to a forward corner of a motor vehicle and deployment of a small offset rigid barrier airbag mounted on the front rail. The airbag, is attached proximate a distal end of a front rail. The flexible electro-resistive impact detection sensor, attached to a rear surface of an outboard portion of the front bumper, generates a signal upon a corner impact event, whereby a controller processes the signal generated by the impact detection sensor and electrically actuates an inflator upon a predetermined impact severity. The airbag in the inflated condition acts against the offset rigid barrier to generate a lateral force against the offset rigid barrier to push the motor vehicle away from the barrier and thereby redirect impact energy by lateral movement of the motor vehicle.

Abstract: The present invention relates to a seating sensor 100. the base table 10 includes a first part 11 provided with the sensor portion 1 and a second part 12 provided with the connector portion 2, and the second part 12 is arranged within a minimum rectangular area S1 containing the first part 11.

Abstract: A side airbag gas bag is provided for a motor vehicle, in particular a passenger car. The gas bag includes, but is not limited to an occupant region and a child seat region adjoining thereon, which with inflated gas bag optionally forms a recess for receiving a contour of a child seat or a volume for the lateral protection of an occupant.

Abstract: A method for detecting offset for a pedestrian protection device, in which sensor data are ascertained and evaluated for determining an impact point of an object. In the event of a collision with an object, characteristics are extracted for determining the offset of the impact point using the sensor data from at least two sensors, absolute values and/or differential values and/or composite values and/or maximum values and/or minimum values of the sensor data from the at least two sensors being determined in the characteristics extraction.

Abstract: An apparatus (10) is provided for controlling an actuatable restraint (14, 16) in a vehicle (12). An sensor (24) is mounted in the vehicle (12) and outputs an electrical signal having a characteristic indicative of a vehicle event. A discrimination circuit (42) is coupled to the sensor (24) and determines if a predetermined event occurred. A safing circuit (50) is coupled to the sensor (24) signal and sequestered from the discrimination circuit (42) for determining if the predetermined event occurred. An actuation device is actuates the restraint when both the discrimination circuit (42) and the safing circuit (50) determine the predetermined event occurred.

Abstract: An occupant position detection device is an occupant position detection device disposed inside a vehicle to detect a position of an occupant, and includes: a detector comprising two or more sensor electrodes disposed forward of a seat and at least one sensor electrode disposed at a position more rearward and higher than these sensor electrodes, the detector respectively outputting a detection signal based on a distance between each of the sensor electrodes and the occupant; and a computation unit inputted with the detection signal to compute an occupant position. The computation unit selects from the detection signals outputted from the detector three or more types of combinations configured from two of the detection signals, calculates a ratio or difference for each of these combinations of detection signals, and computes the occupant position based on the three or more calculated ratios or differences of the detection signals.

Abstract: A crash sensor assembly including a printed circuit board and a crash sensor mounted on the printed circuit board, At least one connector pin is mounted to the printed circuit board so as to permit external electrical communication with the crash sensor. A first insert molded soft inner layer of material partially covers the printed circuit board and covers the crash sensor, and a second overmolded hard outer layer of material covers the first soft inner layer of material and bonded thereto and rigidly contacts the printed circuit board.

Abstract: A sensor assembly for a motor vehicle adapted for sensing impacts including pedestrian impacts. The sensor assembly integrates functions of pressure based sensors used in one embodiment with a compressible tube extending laterally across the front surface of the vehicle and the outboard front boundary areas of the front end of the vehicle. Both acceleration and pressure based sensors are mounted into an integrated sensor housing which is mounted in a desired position at the vehicle front fascia front boundary areas. The system optimizes pressure based sensing while providing acceleration based sensing at the lateral boundary areas where supporting structure does not enable pressure based sensing. The invention further including sensor arrangements including discrete pressure and acceleration sensors deployed for detecting pedestrian impacts at the center and front boundary areas of the vehicle front end.

Abstract: A collision detection apparatus includes: an energy absorption member that possesses conductivity and absorbs impact energy by being crushed in a front-rear direction; two contact members that possess conductivity and are respectively disposed in contact with front and rear end surfaces of the energy absorption member in order to press and crush the energy absorption member in the front-rear direction; a electric resistance detector that is electrically connected to both of the two contact members in order to detect variation in an electric resistance value accompanying crushing of the energy absorption member; and a displacement calculator that calculates a displacement amount of the energy absorption member in the front-rear direction on the basis of the variation in the electric resistance value detected by the electric resistance detector.

Abstract: A vehicle occupant protection device includes a frontal collision airbag that is provided in front of a front seat, and inflates and deploys by gas being supplied into the airbag, and in which vent holes are provided in both a right side and a left side thereof; a frontal collision inflator that supplies the gas into the airbag by being activated; a discharge limiting portion capable of limiting a discharge of the gas from at least one vent hole, from among the left vent hole and the right vent hole; and a controller that activates the frontal collision inflator when a frontal collision is detected or predicted, and that controls the discharge limiting portion such that the discharge limiting portion limits the discharge of the gas from the one vent hole when a configuration of the frontal collision is an asymmetric collision on a side with the one vent hole.

Abstract: A collision sensor, a collision sensing system, and a method of mounting a collision sensor to a vehicle are disclosed herein. An embodiment of the collision sensor includes, but is not limited to, a processor and a three-axis accelerometer that is communicatively coupled with the processor. The three-axis accelerometer is configured to detect an acceleration experienced by a vehicle and to generate a signal indicative of the acceleration. The processor is configured to obtain the signal from the three-axis accelerometer and to determine when the vehicle has experienced a collision based, at least in part, on the signal.

Abstract: One variation includes a product including actuator system including an actuator connected to a shield; a control module for selectively actuating or deploying the actuator wherein the actuator may be moved from a first position to a second position in which the shield is extended a distance away from the first position.