Abstract: An apparatus for supporting a patient comprises a frame, a mattress supported by the frame, and a patient position detection system including an alarm and at least one sensor configured to detect a position of the patient relative to the mattress. The patient position detection system has at least three different modes of operation.

Abstract: Apparatuses and methods for monitoring and detecting seat belt usage, having an enforcement device with an enforcement circuit board and a vehicle device with a vehicle circuit board. Each of the enforcement circuit board and the vehicle circuit board has a transformer and a receiver and a pair of antennas for transmitting and receiving a first signal and a return signal. The enforcement device and the vehicle device communicate a properly fastened state or an improperly fastened state for a seat belt.

Abstract: A seat-load measuring device for measuring a weight of a passenger and an object sitting on a car seat includes a load sensor disposed under the seat for electrically sending load data, a first data processing unit having a predetermined response time, a second data processing unit having a slower response time than that of the first data processing unit, a detecting device for detecting a change in the load data, and a switching device electrically connected to the detecting device. The first and the second data processing unit switch between the first and the second data processing unit to process the load data from the load sensor.

Abstract: A passenger determination device includes a load sensor attached to a seat main body, a controller for calculating a detected load value on the basis of an outputted load value of the load sensor and for determining a passenger on the basis of a large and small relationship between the detected load value and a predetermined determination threshold value, a load variations detecting device for detecting variations of the detected load value when the large and small relationship between the detected load value and a predetermined determination threshold value changes and a prohibition device for prohibiting from changing the determination of the passenger by the change of the large and small relationship between the detected load value and a predetermined determination threshold value when the detected load variations is small.

Abstract: A method of deploying a passenger side airbag as a function of the actual mass of the occupant on the passenger seat. This is accomplished by providing force sensors at one or more of the anchor pieces at which a seat belt is connected to the vehicle. The sensors may be strain gauges that measure the deflection of bolts connecting the ends of the seat belt to the anchor pieces. By sizing the nominal resistance of strain gauges at two anchor pieces, the two resistors can be put in a series circuit such that only the sum of the two resistances need be measured. The measurements obtained are then used to obtain the vertical components of force due to the seat belt. This value is then be subtracted from the total vertical force measured by a seat cushion weight sensor to determine the mass of the seat occupant.

Abstract: An occupant determining device includes a load detecting sensor provided on a seat body and a controller. The controller calculates a detected load value based on an output value of the load detecting sensor and performs occupant determination based on the detected load value. The occupant determination state is switched to an adult determination state when a certain delaying time elapses after the detected load value exceeds a first determination threshold. The controller sets the delaying time shorter when the detected load value exceeds the first determination threshold within a predetermined time after the detected load value exceeds a second determination threshold.

Abstract: In order to form a device for detecting and preprocessing weights acting on a vehicle seat in such a way that it can be used in particular in conditions which are very difficult in terms of measuring technology, and in particular under the other special ambient conditions within a vehicle, and the weighing signal of which is substantially uninfluenced by this and can consequently provide a reliable parameter for airbag activation, it is proposed that this device comprises at least three load cells, which are disposed on load-carrying parts of the vehicle seat at corner points of an imaginary polygonal area and in each case generate a weighing signal corresponding to the weight, and an electronic evaluation circuit, which receives and preprocesses the weighing signals of the load cells and generates an output signal based on the weighing signals, the evaluation circuit comprising an evaluation function with which a localization of the center of gravity of the weight acting on the vehicle seat can be carried ou

Abstract: A method for adjusting the sensor cells of a seat mat (3) to a mechanical stress caused by the installation of the seat mat (3) in a vehicle seat is proposed, a diagnostic tester being connected to a control unit at the seat mat, and the diagnostic tester reads out the sensor values of the seat mat and compares them to setpoint values, in order then to transmit back correcting values to the control unit, which the control unit uses in further operation for calibrating the sensor values.

Abstract: A system for classifying occupants of a vehicle, which, in addition to a sound-wave receiver, has at least one sound-wave transmitter in the seat. Therefore, it is possible to obtain additional information, particularly by using a propagation-time measurement and a shift in frequency. Moreover, by the evaluation of the reception spectra, it is possible to infer the ageing of the elements used for generating or receiving sound waves.

Abstract: In view of a possibility that a conventional structure which mounts a pressure-sensitive riding detection sensor on a seat bottom plate and mounts a seat cushion on the riding detection sensor lowers the sensitivity of the riding detection sensor, the present invention arranges the riding detection sensor such that the riding detection sensor can have favorable sensitivity. A lower seat cushion is arranged on a seat bottom plate of a seat, and a seat switch is supported on the lower seat cushion. A seat cushion body which is made thin by the thickness of the lower seat cushion is mounted on the seat switch, and a seat skin covers an upper surface of the seat cushion body.

Abstract: An operator presence sensing apparatus for a seat of a vehicle includes a base member (7, 8) for supporting the seat (6), and a relay member (9) extending vertically between the base member and the seat. The seat is oscillatable about a pivot axis (X) extending in a transverse direction in the base member. The relay member is pivotably supported at one end thereof by the pivot axis and at the other end by the base member through a cushion spring (10). A seat lift-up spring (12) is disposed between an underside of the seat and the base member for receiving part of the weight of the seat. The seat unoccupied by the operator is oscillated to a floating position lifted from the relay member by the lift-up spring.

Abstract: A multiple sensor, vehicle seat occupant status determination system uses dynamic variations in occupant responsive sensor output due to accelerations of the vehicle seat to discriminate via a statistical method between sensors that are failed and those that are operating correctly and eliminates the contribution of signals detected as not valid from the status determination. If and only if the maximum and minimum sampled signal values of at least one of the received signals span upper and lower control reference values derived from the sampled signal values, a variance value for each of the signals is derived; and one or both of the greatest two or the smallest two variance values are checked against a relative size factor to detect an outlier signal value. If an outlier signal value is detected more than a predetermined number of consecutive times, the status classification is performed without signal values from the outlier sensor.

Abstract: An apparatus for preventing occupant injury during accident has various features to ensure safety. A sensor (70), detecting seat belt engagement is provided. In addition, there is a means for varying the tension of a seatbelt (17), depending upon the weight of the occupant (110) and the speed of the vehicle carrying the occupant (110). When said occupant (110) seats on any of the seats (17), the load cell switch (18) will close, allowing the load cell output energy to energize the control module (25). The control module (25), after receiving signal communication from any of the said load cells (15), enables the counter (50) to count the number of closed load cell switches (18) before enabling the optoisolator switch (70), to then energize the latching relay (80) to check for the seat belt latching of the occupied seats (10) with closed load cell switches (18) to assure occupants safety.

Abstract: A passenger detector detects a passenger occupying a seat based on his/her weight. Output signals of the passenger detector are fed to, e.g., an airbag controller so that a degree of inflation of the airbag is controlled according to the output signals of the passenger detector. The passenger detector is composed of an ECU and load sensors for detecting a load imposed on the seat. The ECU includes a ROM in which an original design-target threshold load for detecting a passenger is stored and a rewritable memory such as EEPROM in which a load for adjusting the design-target threshold load according to an actual operation of the load sensors is stored. The adjusting load stored in the rewritable memory is easily renewed by communication with an outside adjusting tool.

Abstract: The present invention relates to a vehicle passenger detecting apparatus capable of detecting an unoccupied-seat state through the use of existing signals in a vehicle and correcting an unoccupied-seat reference value with a simple configuration. In a case in which an ignition key switch and a buckle switch are in off conditions and a load detecting value, which is the sum of measurement data from load sensors in these conditions, falls below a predetermined unoccupied-seat load value, an occupied-seat reference value serving as a load measurement standard for detection of a state of a vehicle passenger is corrected using the load detection value. This eliminates the influence of vibrations stemming from engine revolutions and electrical noises and enables the reference value to be corrected using a stabler load detection value.

Abstract: An occupant determining device includes a load detecting sensor provided on a seat body and a controller. The controller calculates a detected load value based on an output value of the load detecting sensor and performs occupant determination based on the detected load value. The occupant determination state is switched to an adult determination state when a certain delaying time elapses after the detected load value exceeds a determination threshold. The controller sets plural determination thresholds, and the larger each determination threshold being exceeded by the detected load value is, the shorter the delaying time is set.

Abstract: An improved force-measurement system utilizes active magnetostrictive sensors for generating a signal representative of a force, such as the weight of a person or thing on a seat within a motor vehicle, or the force applied to the horn sensor switch on a vehicle steering wheel. The active magnetostrictive sensor includes an excitation coil and a detection coil.

Abstract: A triggering algorithm contains an accident classification section. The accident classification section senses the type of an accident that occurs. The accident classification section forms probability values for the types of accident in question when an accident cannot be classified unambiguously. By reference to the type of accident or the probabilities that are determined, weighting factors are formed and are taken into account in the calculation of the criterion and/or of one or more comparison thresholds. The triggering algorithm is modular and can thus be easily standardized on a module-specific basis.

Abstract: A system and method for measuring the weight of patients in a wheelchair are disclosed, including two portable weight measurement devices, wherein the devices measure the weight imposed on two wheels of a four wheel wheelchair, and a receiver that accepts weight measurement data from the portable weight measurement devices. The weight data exchanged between the two portable weight measurement devices and/or with the receiver may be transported over wireless connections.

Abstract: A forage harvester represents agricultural implements that include at least one rotating component which is driven through a drive train including a main clutch operable between engaged and disengaged conditions so as to selectively couple and disconnect an output of the implement power source with the rotatable component. A rotation alarm circuit is provided for causing a warning device or devices to be energized in the event that the operator leaves a seat, in which he sits for normal operation, for a predetermined minimum time period while the rotatable component is still rotating, as determined by a rotation sensor. The warning device will remain energized until the rotatable component spins down to a zero speed.

Abstract: A vehicle occupant classification system categorizes vehicle occupants into various classes such as adult, child, infant, etc. to provide variable control for a vehicle restraint system such as an airbag. The classification system utilizes sensors that are installed in various locations in the vehicle. The sensors are used to generate a three-dimensional profile for the vehicle occupant. Various factors can affect the accuracy of this three-dimensional profile. Fuzzy logic is used to reduce some of the inaccuracies by providing multiple decision levels for various stages of the classification. Inaccuracies are also caused by sensors shifting within the system from their original position. This condition creates offset and the system evaluates this offset and generates a correction factor to provide a more accurate three-dimensional profile.

Abstract: To sense the occupancy status of the seat surface of a seat, in particular in a vehicle, an electrically conductive foamed plastic is used, at least in sections, in the seat surface, and a signal corresponding to the resistance value between a top-side and a bottom-side electrode is utilized for discrimination purposes to determine whether the seat is occupied or not. An array of a plurality of parallel strips or a matrix of patches of the conductive foamed plastic permits a more thorough discrimination in terms of the occupying object or the occupying person.

Abstract: An occupant weight detecting device includes plural load detecting device and a signal processing device. The plural load detecting device outputs a load signal in response to largeness of load applied to the seat, and the signal processing device sets an occupant load detection range. The signal processing device outputs a variable primary load detection signal based on the load signal in case of the load signal being within the occupant load detection range and a constant secondary load detection signal in case of the load signal being out of the occupant load detection range. The occupant weight detecting device further includes a control device to which the primary load detection signal or the secondary load detection signal is inputted. The control device determines that error is generated on the load detecting device when the signal processing device continues to output the secondary load detection signal during predetermined time.

Abstract: A seat-occupant sensing device for a car seat is provided, such that a heater can be installed in the seat without deterioration of sitting comfort. A load sensor is mounted to a cushion frame of a car seat. The end of a flexible cushion support is linked with the load sensor. Because the flexible cushion support flexes when a person sits on the seat, the load sensor detects the moment when the person sits on the seat.

Abstract: A seat sensor 10 including a pressure sensing mat 12, and several barbed members or tabs 14 which are integrally formed within sensing mat 12. Sensor 10 is adapted to be operatively installed on a conventional vehicle seat. In order to install sensor 10, several holes or cavities 20 are formed within the foam 22 of the seat in a conventional manner prior to assembly, and tabs 14 are forced into cavities 20. Once tabs 14 are inserted into cavities 20, barbed portions 18 “spring” outward against the sides of the cavities 20, thereby frictionally engaging and/or piercing the sides of the cavities 20 and securing seat sensor 10 to the seat.

Abstract: A sensor mat configuration includes a sensor mat having row lines, column lines, and a plurality of force-dependent resistors connected between the row lines and the column lines to form a matrix having rows and columns. The sensor mat configuration includes a printed circuit board having a plurality of fixed resistors. The first terminal of each one of the plurality of the fixed resistors is connected to a respective one of the column lines, and the second terminal of each one of the plurality of the fixed resistors are connected together, thereby forming an additional row of the matrix. The resistances of the plurality of the fixed resistors are known within a narrow tolerance range, which enables these resistors to be used in measurements for accurately determining the resistances of the force-dependent resistors of the sensor mat.

Abstract: There is provided herein a sensor for use in patient monitoring situations, wherein the level of patient motion activity is tracked for purposes of determining whether or not that patient has exhibited sufficient activity to merit eliminating a scheduled assisted relocation to a new position. The instant device broadly operates to sense the length of time since a patient has last moved from a previous sitting or lying position. If the patient has not moved during some predetermined time interval, it is preferred that the nursing staff be notified that it is time to manually reposition the patient. On the other hand, if the patient has changed position within the specified time period, the device will note that fact and inform the attending nurse or other caregiver that the patient need not be moved at the next scheduled relocation, thereby eliminating the need in some cases to rouse the patient from an otherwise sound sleep.

Abstract: An apparatus (100) for sensing presence and weight of a vehicle occupant includes a first conductor (120) that is electrically coupled to an oscillating circuit and disposed adjacent a first surface (112) of a compliant pad (110) within the seat of the vehicle. A first conductor (120) generates an oscillating signal at a first intensity. A second conductor (130) is disposed adjacent a second opposing surface (114) of the compliant pad (110) and is capable or receiving the oscillating signal at a second intensity. A detection circuit electrically coupled to the second conductor (130) and capable of receiving the oscillating signal at the second intensity determines the presence and weight of a vehicle occupant based upon the second intensity of the oscillating signal.

Abstract: A vehicle seat weight calibration includes at least one weight sensor for determining weight on a seating surface and at least one presence sensor for determining the presence of an occupant on the seating surface. The at least one weight sensor is calibrated based upon a determination by the presence sensor that an occupant is not present on the seating surface. If it is determined that no occupant is present on the seating surface, and if the current weight indication from the weight sensor is within a predetermined value of a previously stored zero-reference weight, the current weight is stored as the new zero-reference weight.

Abstract: The present invention relates to a wheelchair and an underseat alarm system therefor.

Abstract: In a mounting structure, a seat occupant sensor is disposed on the central region of the bearing surface of the foam of a seat, and signal lines that connect the sensor to an ECU cross a groove formed on foam. Deeper portions are formed on the bottom of the groove so as to correspond to the portions of the groove where the signal lines cross the groove. Further the portions of a wire buried in the foam corresponding to the deeper portions are routed so that the wire bypasses the deeper portion. According to this arrangement, the signal lines can move freely in the deeper portion of the groove, and therefore the signal lines are immune to breaking even if the foam deforms. Thus the reliability and the durability of the seat occupant sensor are ensured.

Abstract: An occupant detection system comprises first and second electric field sensors mounted in or on a seat back of a seat, and at least one seat weight sensor. The first electric field sensor provides a measure of the central/inboard capacitance of a first electrode located proximate to an upper central region of a seating surface of the seat back, and extending downwards towards a middle inboard region of the seating surface. The second electric field sensor provides a measure of outboard capacitance of a second electrode located proximate to the outboard side of the seating surface. If the central/inboard capacitance is less than an associated central/inboard capacitance threshold, and if the measure of seat weight is less than an associated weight threshold, then the side air bag inflator is disabled. Otherwise if the outboard capacitance is greater than an associated outboard capacitance threshold, then a side ratio SR=(W/M)n·(C1/C2) is calculated.

Abstract: The purpose of this invention is to sense the presence of a seated occupant in a vehicle such as an automobile, plane, train or bus, or in a room or location where it is desirable to detect if seats are occupied. The occupant presence detection device consists of a single seat-mounted electrode, an oscillator circuit, a bridge circuit, a detection circuit and a circuit for processing the detected signals. The oscillator circuit excites the electrode. If an occupant is present on the seat, additional capacitance from the human body is introduced into the bridge via the electrode. This created differences in the voltage and phase of the waveform in each arm of the bridge circuit which are amplified by a differential amplifier. The signal is then converted to a DC voltage that, when above a predetermined threshold, causes the device to outputs a signal that indicates the presence of an occupant.

Abstract: A vehicle occupant classification system categorizes vehicle occupants into various classes such as adult, child, infant, etc. to provide variable control for a vehicle restraint system such as an airbag. The classification system utilizes sensors that are installed in various locations in the vehicle. The sensors are used to generate a three-dimensional profile for the vehicle occupant. Various factors can affect the accuracy of this three-dimensional profile. Fuzzy logic is used to reduce some of the inaccuracies by providing multiple decision levels for various stages of the classification. Inaccuracies are also caused by sensors shifting within the system from their original position. This condition creates offset and the system evaluates this offset and generates a correction factor to provide a more accurate three-dimensional profile.

Abstract: A method and a device are for evaluating sensor signals from a seat mat in a vehicle seat, the signals functioning to characterize the sensors in the seat mat as active and inactive. In this manner, a linear evaluation method is performed to make possible a weight classification of passengers situated on the vehicle seat. For this purpose, a seat profile is generated using the active and inactive sensors.

Abstract: A passenger detection system is provided. The passenger detection system utilizes an oscillation circuit that causes an antenna electrode to emit an electric field that is disrupted by the electrical characteristics of an object placed on the seat. This disruption alters the current and phase of the signal in the antenna electrode. By comparing the current flowing in the antenna electrode and/or the difference between the phase of the signal in the antenna electrode and the oscillation circuit output signal with predetermined threshold values, it is possible to detect the presence of a passenger in a reliable and inexpensive manner. Environmental sensors are used to make the determination more accurate. Humidity, moisture and/or grounding condition are detected and used to alter processing, values or calculations.

Abstract: A weight detector for detecting the weight of a passenger seated on a vehicle seat includes a first load sensor and a second load sensor provided on opposite sides of a rear portion of the vehicle seat. Each of the first and second load sensors has a predetermined detection range. The weight detector further includes a third load sensor and a fourth load sensor provided on opposite sides of a front portion of the vehicle seat. Each of the third and fourth load sensors has a predetermined detection range. If a detection value based on a load acquired by one of the first through fourth load sensors exceeds its detection range, the weight detector uses an old value that was determined under proper condition. Otherwise, the weight detector determines the size of the passenger based on the currently detected values.

Abstract: A detector for detecting the load applied to a passenger seat of an automobile equipped with an air bag. The load detector includes a sensor bracket having a deformation portion that deforms in accordance with the amount of the load. A strain sensor is arranged on the deformation portion to detect the degree of deformation of the deformation portion. A force limiter bracket is located adjacent to the sensor bracket to limit deformation of the deformation portion within a predetermined range. An anchor bracket is formed integrally with the force limiter bracket and is connected to a seat belt.

Abstract: A seat occupancy sensor for detecting the presence of a body or object, e.g. on a motor vehicle front seat, includes a soft and yielding substrate, on the top surface of which is provided a wiring pattern. The wiring pattern is comprised of a plurality of pairs of electrical wires. Each pair of electrical wires defines a capacitive element. Each capacitive element is connected to a detector circuitry via a connecting wiring.

Abstract: A child seat alarm including a car seat portion adapted for being positioned within a motor vehicle. The car seat portion includes child engagement straps. The child engagement straps include a male buckle and a corresponding female receptacle. The male buckle is lockably received within the female receptacle in a locked orientation. An alarm is disposed within the car seat portion. The alarm includes a pair of speakers for broadcasting an audible alarm. The alarm is in an activated orientation when the male buckle is lockably received within the female receptacle. The alarm is in a deactivated orientation when the male buckle is removed from the female receptacle. The alarm is in communication with an electrical system of the vehicle whereby a shut down of the motor vehicle's engine or an opening of a driver's door will sound the alarm when the alarm is in the activated orientation.

Abstract: A very reliable device, which can be implemented at a low cost, has a switch mechanism arranged on a fastening device which is installed on a vehicle seat and can engage with a plug element on a child seat; The switch mechanism has a stationary part attached to the fastening, device and a movable part, which is moved by the plug element into the stationary part on mutual engagement of the plug element with the fastenings device, thereby activating a switch so that occupancy of the vehicle seat by a child seat is signaled.

Abstract: A sensor configuration for measuring the local distribution of a measured variable has a plurality of sensor elements which are disposed in a distributed fashion and interconnected in an array. An electric response of the sensor elements is a function of the local value of the measured variable. At least one of the sensor elements has a series circuit composed of a series element which is independent of the value of the measured variable and a measuring element which is dependent on the value of the measured variable.

Abstract: A sensor device (11) for a vehicle seat, in particular a motor vehicle seat, has at least one sensor (15) for the detection of forces inside the vehicle seat. The vehicle seat has at least one bearing area between two components that are mobile relative to one another, and the sensor device (11) is installed in the bearing area.

Abstract: A system (and method) includes a seating platform, at least one sensor for detecting a state of the seating platform connected to a first wireless communications device, the first wireless communications device for conveying information on the state of the seating platform, and a second wireless communications device for receiving information from the first wireless communications device, and a computing system. The second wireless communications device is for receiving the information carrying signal and is connected to the computing system. The computing system is for initiating an action based upon the information.

Abstract: An occupant detection system comprises a weight sensor and an electric field sensor, each operatively coupled to a seat. The electric field sensor generates an electric field from at least one electrode in the seat bottom of the seat, provides for generating a response to an influence of the occupant thereupon, and is adapted to provide for discriminating from the response a seated infant or child seating condition from another seating condition. If a measure of weight from the weight sensor is less than a threshold, or if a seated child seating condition is detected by the electric field sensor, then a signal processor provides for disabling an associated restraint actuator. The electric field sensor may comprise a plurality of electrodes over separate first and second regions of differing proximity to a seated infant or child, or at least one electrode in cooperation with a shield or void over at least one of the regions.

Abstract: A seating condition detecting system has four load sensors, a belt tension sensor and a self-diagnostic system. The first and second abnormal ranges are set for detecting abnormal operations of the system. The upper limit of the first range is set so that a total load becomes heavier as a belt tension becomes higher. The lower limit of the second range is set so that the total load becomes heavier as the belt tension deviates from the point at which the total load becomes lightest. When the total load falls in the first range or the second range, an abnormal operation of the seating condition detecting system is determined.

Abstract: An apparatus for detecting a patient, including a plurality of pressure detecting devices which are adapted to be placed on a bed such that the pressure detecting devices are arranged in a widthwise direction of the bed, and which detect respective pressures and produce respective pressure signals representing the detected pressures, and a position detecting device for detecting, based on the pressure signals supplied from the pressure detecting devices, a position, in the widthwise direction of the bed, where the patient is present.

Abstract: A passenger detection system is provided to determine if a passenger is present or not because the weight value corresponding to when the seat is empty has shifted. The passenger detection system detects when the door has changed from the closed state to the open state based on a signal from a door switch. The passenger detection system then senses the decrease in weight that occurs thereafter and stores the weight value obtained after the decrease as the empty seat value.

Abstract: An occupant detection sensor assembly for a motor vehicle includes a generally horizontal seat cushion portion and a generally upright back portion operatively connected to the seat cushion portion. The occupant detection sensor assembly includes a seat cushion disposed within the seat cushion portion of the seat having at least one channel therein. The occupant detection sensor assembly also includes at least one sensor connected to the seat cushion and communicating with the at least one channel. The occupant detection sensor assembly further includes an electronic controller electrically connected to the at least one sensor for detecting an occupant seated on the seat cushion portion.

Abstract: In a passenger weight measuring apparatus, each of bend parts of front and rear brackets for supporting a seat to a vehicle main body side becomes bent and deformed in response to the load applied by the weight of the passenger sit in the seat. A load sensor on each the bend part detects the load based on the bend deformation and outputs a voltage signal of magnitude responsive to the load to a signal processor. The processor generates a load detection signal clamped in the voltage range corresponding to a preset passenger weight load range from the voltage signal and outputs the load detection signal to an output terminal. When the detected load is a collision load set in a load region out of the load range, the processor outputs an abnormal load detection signal different from the load detection signal to the same output terminal.