Abstract: An instruction value conversion section (31) of an operation target calculation section (30) converts an instruction signal from a joystick (25). In order to obtain a movement mode of a ship intended by an operator, a target propeller speed calculation section (32) calculates, using each converted value, target rotation speed of right and left propellers (13) and the propeller (14b) of a thruster (14). At a main engine operation control section (40), a slip rate determination section (41) calculates the slip rate U of a clutch mechanism (120) of a marine gear (12) in order to rotate the propellers (13) at the target rotation speed. A drive control section (42) controls operation of the main engine (11) and the clutch mechanism (120). Further, in a thruster operation control section (50), a drive control section (52) controls drive of the propeller (14b) in the rotational direction determined by an operation determining section (51).

Abstract: A system and method for wirelessly transferring content to and from a vehicle, in particular, an aircraft. The content includes, for example, data, voice, video and multimedia, that can be wirelessly exchanged over a wireless communication link between an aircraft and a ground station while the aircraft is at or near a parking gate, or between aircraft. In an example, the system employs long distance metropolitan area technology, such as IEEE Standard 802.16 wireless technology, to increase transfer range. The parameter of the wireless communication link can be adjusted based on, for example, the location of the link. The content can further be provided between the vehicle and ground station based on priorities, such as the available link speed, importance of the information, and/or anticipated connection time between the vehicle and ground station. A media creation center can be networked to a plurality of base stations.

Abstract: A method for activating a restraint system in a vehicle, in which the restraint system is activated as a function of a speed, an activation characteristic, and at least one quantity derived from an acceleration signal, and in which the at least one quantity exceeds a threshold function that is set as a function of the impact speed and a required activation time. The activation characteristic of a particular accident type runs linearly to a first impact speed value. The activation characteristic runs with a second slope between the first impact speed and a second impact speed value, the first and the second impact speed value depending on the particular vehicle type.

Abstract: A device for the detection of the characteristics of an impact into a motor vehicle includes at least one signal generating unit for generating a defined acoustic impulse sequence depending on the speed of the impact, particularly a structure-borne acoustic impulse sequence due to a deformation of a chassis component of the motor vehicle. The acoustic impulse sequence is generated by way of a mechanical activation of the signal generating device caused by the deformation. A sensor system is disposed to detect the defined acoustic impulse sequence. An analysis unit analyses the signals supplied by the sensor system such that information can be supplied on the characteristics of the impact.

Abstract: A vehicle seatbelt apparatus includes a power supply voltage fluctuation detecting section incorporated in a control device for detecting fluctuations of power supply voltage occurring when an engine cranking operation is being performed. The control device changes drive mode of the motor when such fluctuations of the power supply voltage are detected by the power supply voltage fluctuation detecting section.

Abstract: A system and method of controlling deployment of a safety device for a vehicle. The system may include a pre-impact collision assessment system, an impact detection system, and an inflatable safety device. The safety device may be partially inflated when a collision threat is detected based on a signal from the pre-impact collision assessment system. The inflatable device may be subsequently either more fully inflated or deflated.

Abstract: An object struck discrimination system for a vehicle is provided which is effective in increasing the discrimination accuracy for discriminating an object struck by the vehicle. In one form, an object struck discrimination system to be installed in a vehicle includes an impact receiving member for receiving an impact from an object struck which extends lengthwise along the width of the vehicle, a detection sensor for detecting the moving speed or the acceleration of the impact receiving member during a vehicle collision, and a control unit for discriminating the object struck based on the rate of change in the moving speed per unit time or the acceleration introduced from information detected by the detection sensor.

Abstract: A device and a method for triggering passenger protection devices, an accident sensor system generating a first signal and the passenger protection devices being triggered as a function of a frequency of a second signal, which is derived from the first signal, the frequency being determined as a function of a first length of a first signal characteristic of the second signal and of a second length of a second signal characteristic of the added-up second signal.

Abstract: A vehicle occupant protection device comprising a headrest configured to be movable forward with respect to a vehicle, and an actuator configured to implement the forward movement is disclosed. The device is configured to protect a vehicle occupant by operating the actuator to move the headrest forward in a pre-crash stage in the course of an object crashing into the vehicle from backside of the vehicle. The headrest is provided with an electrical capacitance sensor. The device is configured to control an amount of the forward movement of the headrest according to a variation manner of electrical capacitance, which electrical capacitance is detected by the electrical capacitance sensor when the headrest moves forward.

Abstract: There is provided a system and methods for mitigation of the potential dangers to which at least a child, and passengers, are exposed to prior to, during travel and after travel, when outside and adjacent a vehicle. Potential dangers to which a child is exposed are risks associated with driving and non-driving behavior of the driver, when the child is inside and outside the vehicle, when the vehicle is driven on public roads and on private property grounds, and as a result of deficient of mistaken operation of child and passenger related devices. The system and methods require input commands into an indicator to operate equipment elements aboard the vehicle, including sensors, operable devices and alert systems, and are operative for communication with remote stations, with adjacent-driven vehicles, and with the vehicle owner.

Abstract: A device for controlling a passenger protection system of a motor vehicle includes at least one structure-borne noise sensor, used to receive body vibrations, and an evaluation device, used to evaluate the structure-borne noise signal. The evaluation provides information about an impact object and/or the characteristics of the impact. The evaluation device is configured to analyze the structure-borne noise signal in relation to the frequencies contained therein, wherein the frequency spectrum contained in a signal section is distributed into a plurality of frequency ranges. The current signal energy is determined for each frequency range, and the signal energy of the frequency range is a standardized. The device also comprises a passenger protection system, which can be actuated according to the information relating to the impact object and/or the characteristics of the impact.

Abstract: An airbag deployment system including at least one module housing, at least one deployable airbag associated with each housing, an inflator associated with each housing for inflating the airbag(s) to deploy into the passenger compartment, an airbag inflation determination unit for determining that deployment of the airbag(s) is/are desired, and respective electronic control units arranged within or proximate each housing and coupled to a respective inflator and the airbag inflation determination unit for initiating the inflator to inflate the airbag(s) in the respective housing upon receiving a signal from the airbag inflation determination unit. The control units include a power supply for enabling initiation of the inflator.

Abstract: A system for detecting impact events for a vehicle is provided. The system comprises a pressure sensor and a controller. The pressure sensor is positioned in a first impact zone of the vehicle and is configured to generate a pressure signal corresponding to a measured pressure reading within the first impact zone. The controller is positioned within the vehicle and is configured to integrate the pressure signal over time to determine the occurrence of a vehicle impact event at the first impact zone.

Abstract: To achieve an air bag system in which a safing determination processing circuit can be implemented on one integrated circuit, the air bag system, which is equipped with first and second sensors (101, 103) for detecting a vehicle crash, and which outputs a signal for expanding an air bag when it is determined that a vehicle crash has occurred based on the outputs of the first and second sensors, comprises: a processing unit (3) for processing an output signal of the first sensor (101) by software; and a processing circuit (2) for processing an output signal of the second sensor (103) by hardware, wherein the processing unit (3) includes a non-activation fault diagnosis section (33) which, based on the output signal of the second sensor (103), detects a failure that can lead to non-activation of the air bag, and the processing circuit (2) includes an erroneous-activation fault diagnosis section (240) which, based on the output signal of the second sensor (103), detects a failure that can lead to erroneous activ

Abstract: An object struck discrimination system for a vehicle is provided which is effective in increasing the discrimination accuracy for discriminating an object struck by the vehicle. In one form, an object struck discrimination system to be installed in a vehicle includes an impact receiving member for receiving an impact from an object struck which extends lengthwise along the width of the vehicle, a detection sensor for detecting the moving speed and/or the acceleration of the impact receiving member during a vehicle collision, and a control unit for deriving the maximum moving speed and the maximum acceleration based on the information detected by the detection sensor and discriminating the object struck based on the correlation between the maximum moving speed and the maximum acceleration.

Abstract: An aspect of the present invention provides a passenger protection device that includes, a brake pedal sensor configured to detect the amount by which a brake pedal of a vehicle is operated, a webbing, one end of the webbing fixed to the vehicle, configured to restrain a passenger seated on a seat of the vehicle, a retractor connected to the other end of the webbing, the rector configured to retract the webbing and inhibit of the webbing extraction, and an ECU electrically coupled to the brake pedal sensor, the ECU configured to detect that the brake pedal operation amount detected by the pedal sensor exceeds a first threshold value, the ECU configured to revise the threshold value based on safety related information of the vehicle to control the inhibition of the webbing extraction of the retractor.

Abstract: An electronic control unit charges capacitors of sensors to produce idle phase waveforms having different waveform parameters assigned to the sensors, and transmits nothing between the signal phase time periods. Each sensor detects the idle phase waveform parameter of the capacitor. The sensor responds to the ECU during the signal phase time period, if the detected parameter corresponds to predetermined waveform parameter.

Abstract: A method and apparatus for synchronous communication in a control system is disclosed. Within a first time interval, a first source task is executed to broadcast a first destination task, within a second sequential time interval, the first destination task is communicated over a channel to a first destination, and within a third sequential time interval, the first destination task is consumed. Within the first time interval, a second source task may be executed to broadcast a second destination task, within the second sequential time interval, the second destination task may be communicated over the channel to a second destination, and within the third sequential time interval, the second destination task may be consumed. The first source task is allowed to be scheduled ahead of the second source task, and the second source task is allowed to be scheduled ahead of the first source task.

Abstract: A collision determining apparatus for a vehicle includes: a first acceleration measuring device; a second acceleration measuring device; a movement amount calculating device; a change in movement speed calculating device; a first collision determining threshold value setting device which sets a collision determining threshold value for a correlation between the amount of movement of the occupant and the change in movement speed of the occupant based on the acceleration which is measured by the first acceleration measuring device; a first collision determining device which determines whether or not the correlation exceeds the collision determining threshold value; and a control signal generating device which generates a control signal which controls operations of an occupant protection apparatus, in accordance with a result of a determination by the first collision determining device.

Abstract: A measuring system is provided. The measuring system comprising at least a first measuring means for detecting at least one frequency-independent electrical quantity and an evaluation unit for detecting the temporal behaviour of the frequency-independent electrical quantity. The evaluation unit automatically generates from the detection of the temporal course of the frequency-independent electrical quantity a signal that is at least partially equivalent to a frequency-dependent signal. Furthermore a measuring method is provided, in which at least a first measuring means detects at least a frequency-independent electrical quantity and an evaluation unit detects the temporal behaviour of the frequency-independent quantity. The evaluation unit automatically generates a signal from the detection of the temporal course of the frequency-independent electrical quantity, which signal is at least partially equivalent to a frequency-dependent quantity.

Abstract: Externally deployed airbag system for a vehicle including one or more inflatable airbags deployable outside of the vehicle, an anticipatory sensor system for assessing the probable severity of an impact involving the vehicle based on data obtained prior to the impact and initiating inflation of the airbag(s) in the event an impact above a threshold severity is assessed, and an inflator coupled to the anticipatory sensor system and the airbag for inflating the airbag when initiated by the anticipatory sensor system. The airbag may be housed in a module mounted along a side of the vehicle, in a side door of the vehicle (both for side impact protection), at a front of the vehicle (for frontal impact protection) or at a rear of the vehicle (for rear impact protection). Also, the externally deployed airbag can be deployed to cushion a pedestrian's impact against the vehicle.

Abstract: Described is a control unit and an acceleration sensor system, the control unit having an electronic safety switch which, as a function of a signal of an acceleration sensor system, releases output stages for actuating passenger protection means independently of a processor and the processor actuates the output stages as a function of the signal. The safety switch analyzes an integrated acceleration signal.

Abstract: In a method and a device for activating passenger protection device(s), the passenger protection device(s) are activated as a function of a first signal of an acceleration sensor system and a second signal of a structure-borne noise sensor system. The activation is decided as a function of a position of a vector composed of at least two features of the first signal in relation to a characteristic curve, the characteristic curve being modified as a function of the second signal.

Abstract: A method of estimating values beyond sensor limits accurately and simply includes the initial step of determining an actual slope utilizing measured data. An estimated slope is then determined as a percentage of the actual slope to provide an estimation of data values outside of the sensor limits until measured values return to within sensor limits. The estimation method according to this invention increases sensor range without sacrificing resolution with a desired accuracy.

Abstract: A low cost whiplash reduction system for a host vehicle, said host vehicle including a sensor arrangement operable to detect closing velocities of one or more rearwardly approaching objects substantially in a direction of travel of the host vehicle, and a processing arrangement for receiving information from the sensor arrangement indicative of said detected closing velocities, said processing arrangement being operable to actuate adaptive safety features in response to detected velocities of detected rearwardly approaching objects to the host vehicle to automatically selectively apply said adaptive safety features in response to said information received from the sensor arrangement for avoiding or mitigating host vehicle occupant neck whiplash injury occasioned by a crash of the rearwardly approaching object and the host vehicle

Abstract: The present invention relates to systems for determining the position and the type of an occupant in a vehicle. More specifically, the present invention provides an occupant position and type classification system including an occupant detection module, a processor in communication with the occupant detection module, and memory accessible by the processor and storing program instructions executable by the processor to perform the steps of categorizing the occupant into one of a plurality of static categories, each of the static categories including at least one class indicative of the occupant's type or position in the vehicle, and classifying the occupant into one of the classes.

Abstract: A device for controlling a passenger protection system of a motor vehicle includes at least one structure-borne noise sensor, used to receive body vibrations, and an evaluation device, used to evaluate the structure-borne noise signal. The evaluation provides information about an impact object and/or the characteristics of the impact. The evaluation device is configured to analyze the structure-borne noise signal in relation to the frequencies contained therein, wherein the frequency spectrum contained in a signal section is distributed into a plurality of frequency ranges. The current signal energy is determined for each frequency range, and the signal energy of the frequency range is a standardized. The device also comprises a passenger protection system, which can be actuated according to the information relating to the impact object and/or the characteristics of the impact.

Abstract: A remote vehicle starter allows a user to start an engine of a vehicle remotely. The starter includes a parameter-signal generating unit, a receiving unit, an engine starting unit and a controller. The parameter-signal generating unit generates a vehicle-parameter signal on a basis of a power source. The receiving unit receives an instruction for starting the engine. The engine starting unit starts the engine when receives the instruction for starting the engine from the receiving unit and receiving the vehicle-parameter signal satisfying a starting permission condition from the parameter-signal generating unit. The controller controls an engine starting by the engine starting unit, in accordance with a power source voltage value of the power source.

Abstract: A semiconductor device is disclosed in which resistance to the influence of external noise on internal power source network is improved. A semiconductor device operating at any predetermined frequency among a plurality thereof, and having power source networks for supplying power from a power source to internal functional units in the semiconductor device comprises switches, a storage unit, and a control unit. The switches are provided in the power source networks, and switch ON/OFF the supply of power from the power source to the functional units. In the storage unit are mapped and stored a plurality of predetermined operating frequencies and switching information designating an ON state or an OFF state for the switches. The control unit reads, from the storage, switching information corresponding to a current operating frequency, and controls the ON/OFF switching of the switches in accordance with the read switching information.

Abstract: A method of controlling a magneto-rheological power steering coupling is provided. The method is to be employed by a controller and is initiated upon engine start-up. The method includes initializing calibration parameters and reading a plurality of input values. Subsequently, a hand wheel angle rate value is calculated from one of said plurality of input values. A pump speed command value is calculated as a function of at least the hand wheel angle rate value. A pump speed error value is then calculated, and a proportional-integral-derivative calculation is performed acting on the pump speed error value to determine a pulse width modulation duty cycle value. The duty cycle value is then output to a power driver to provide a control signal to the magneto-rheological power steering coupling. Also provided is control system and apparatus operable to perform the functions described hereinabove.

Abstract: The present invention is directed to a system for determining lift-off or wheel departure of one or more wheels associated with a vehicle from a road. The system includes a sensor that measures the wheel speed of at least one wheel, and a controller that calculates the resonance frequency of the at least one wheel, calculates variations in the resonance frequency, compares the variations with a threshold, and indicates lift-off of the wheel from the road if the variations exceed a threshold.

Abstract: A designated function or “golden” slot for implementing and managing re-configurable SDR modules is provided. In an embodiment, the slot includes at least one radio frequency (RF) front end for providing an interface with at least one antenna. In addition, the slot may include at least one slot modem coupled to the RF front end for implementing at least one designated function and at least one input/output (I/O) module coupled to the slot modem. The designated function or “golden” slot is capable of implementing and managing the at least one designated function in a re-configurable module during standard and emergency operations.

Abstract: An air bag system (12) includes a controller (14), a remote satellite sensor (16), and a deployable air bag (18). Controller logic for deployment discrimination of an impact event sensitizes an airbag deployment command in response to signals from the satellite sensor. The logic determines a crash-pulse energy term (CPE) which discriminates impact signals which are particularly useful for identifying side impact events.

Abstract: An automotive vehicle (10) includes a restraint control module (12) coupled to a memory (50). During an impact, data from various sensors including lateral acceleration sensors (30,32) are stored in the memory (50). A computing device (56) with a memory (58) is used to download the data from the lateral acceleration sensors (30,32) and various other sensors for reconstruction of an accident. From the lateral acceleration sensors (30), (32), a determination may be made as to the struck or unstruck side of the vehicle. The lateral acceleration from the unstruck side of the vehicle is used in the reconstruction.

Abstract: Methods and systems for controlling a vehicle are provided which can include advantages of controlling corresponding to lateral wind frequency. Because the vehicle is controlled on the basis of frequency areas and a force of a lateral wind, driving stability of the vehicle and driver comfort can be enhanced.

Abstract: A vehicle illumination system includes a light source emitting light for illuminating the vehicle surroundings or the vehicle interior or both, and a modulation unit modulating the emitting of light of the light source, where the emitted light is modulated with a frequency that is high enough so that the modulation of the light is substantially not perceivable by a person.

Abstract: A device and a method for activating passenger protection means are described in which an acceleration sensor system which is sensitive in the vehicle longitudinal direction generates a first signal and a second acceleration sensor system which is sensitive in the vehicle transverse direction generates a second signal. Furthermore, an analyzer circuit is provided which activates the passenger protection means as a function of the first and second signals, the analyzer circuit (?C) determining at least one measure for vibrational energy occurring during a crash and deciding for activation as a function of this measure.

Abstract: A wireless system that detects the presence of a child in a safety seat located in the passenger cabin of a vehicle includes a controller responsive to signals generated by sensors monitoring predefined functions of the vehicle, RFID tag device attached to the safety seat and RFID tag reader mounted in the cabin. The system generates control signals which activate an alarm, open the doors of the vehicle and roll down windows if the child is left in the safety seat of an unattended vehicle.

Abstract: An apparatus for protecting a vehicle occupant that triggers a restraint means as a function of the vehicle occupant's motion in the context of an accident. The motion is predicted in that by using an occupant detection system and an impact sensor system, a height of the center of mass of the vehicle occupant and a force action on the vehicle occupant are determined, and the motion of the vehicle occupant is thereby predicted.

Abstract: A vehicle behavior judgment system comprising a rolling angular velocity detector adapted for detecting a rolling angular velocity of a vehicle, a rollover judgment device adapted for judging, based on at least a rolling angular velocity of a vehicle, whether the vehicle rolls over or not, and a noise-cutting filter adapted for removing a noise component from the rolling angular velocity.

Abstract: A vehicle occupant protection system includes a plurality of satellite sensors, a control unit, and a plurality of bus lines. The satellite sensors detect a vehicle condition in a vehicle collision or a rollover event. The control unit determines an occurrence of the vehicle collision or the rollover event based on output signals from the satellite sensors and controls activation of an occupant protection unit. The bus lines bus-connect the control unit and the satellite sensors. Three or more of the satellite sensors are connected in series. One of the satellite sensors that is connected in series is operable to determine at least two different collision or rollover events and is bus-connected closest to the control unit.

Abstract: Method and system for obtaining information about a category of an occupying item in a volume of a passenger compartment of a vehicle in which the occupying item is situated during use of the vehicle and controlling one or more vehicular components. A time-varying signal is directed into the volume from at least one location. A modification of the directed signal arising from a property of any occupying items in the volume is detected, different occupying items causing different modifications of the same directed signal. A distinction is made between different occupying items of the volume or between parts of an occupying item based on the detected modification to the directed signal and each component, e.g., an inflatable airbag, is controlled based on the distinction between the occupying items or parts thereof.

Abstract: The invention relates to a control unit for activating an occupant protection means in a motor vehicle and to a method for monitoring the proper functioning of a control unit preferably of this type. To this end, the control unit comprises a first and a second arithmetic unit (R1, R2) as well as an activating unit (AE). A number of logical AND gates (AND1, AND2; AND3) are connected on the input side to the clock signals (clk1, clk2, clk3) of the arithmetic units (R1, R2) respectively assigned thereto or to the activating unit (AE). The signal output of each logical AND gate (AND1, AND2; AND3) is fed to a respectively assigned pulse count comparator unit (PZVE1, PZVE2) whose respective signal output is, in turn, connected to an input of a respectively assigned resetter (RES1, RES2).

Abstract: A determination device includes a single acceleration sensor for measuring an acceleration of a vehicle and a determination circuit for determining severity of a collision in an accident. A plastic deformation pulse detection section and an elastic deformation pulse detection section of the determination circuit detect a plastic deformation pulse and an elastic deformation pulse, respectively, from a waveform of measured accelerations. A severity determination section of the detection circuit determines the severity of a collision based on a correlation between a vehicle speed and a plastic deformation pulse, and a correlation between the vehicle speed, the plastic deformation pulse, and an elastic deformation pulse.

Abstract: A power tool movement monitor system including a first accelerometer operatively configured to sense movement along a first axis of a power tool and a first high pass filter operatively connected to the output of the first accelerometer. The first high pass filter has an output and a cutoff frequency corresponding to a predetermined acceleration limit capable of being output by the first accelerometer. The power tool movement system further includes a logic circuit operatively configured to generate a warning signal when the first high pass filter outputs a signal having a frequency equaling or exceeding the cutoff frequency of the first high pass filter.

Abstract: A bus master for a bus for connection of sensors and/or an ignition means device, which has at least two bus driver arrangements allowing data to be received independently of one another. For this purpose a polling operation, specifically using a multiplexer or a demodulator associated through one of the particular bus driver arrangements, is used. Furthermore, a state machine is provided, which also alternatingly determines the system status on the basis of the measured quantities determined on the bus conductor for the particular bus driver arrangement. In a refinement, a particular bus driver may have a dedicated processor for system status determination.

Abstract: It is important to recognize the severity of an accident more accurately and reliably. To do so, the present invention consists of installing a compression element (25) that can be compressed reversibly into an impact absorption device (2) in order to dampen the impact on a vehicle component. A pressure sensor is integrated in this compression element (25) which detects the pressure during compression of the compression element (25). From the pressure signal, data such as the collision speed can be determined and a safety device such as an airbag can be triggered. By doing so, expensive early crash sensors and similar devices become unnecessary, while the severity of an accident can be reliably determined.

Abstract: Method for the evaluating of an installation location of an acceleration sensor assembly in a vehicle with respect to the transmission characteristics to this installation location of acceleration impulses acting on the vehicle, with a following serially-connected evaluating circuit, especially for the triggering of occupant protection devices, in that a prescribed acceleration impulse is impressed at at least one prescribed position on the vehicle, the impulse response is measured at the installation location, the frequency spectrum of the impulse response is determined, and the installation location is evaluated through comparison of this frequency spectrum with a prescribed nominal spectrum.

Abstract: A wireless system that detects the presence of a child in a safety seat located in the passenger cabin of a vehicle includes a controller responsive to signals generated by sensors monitoring predefined functions of the vehicle, RFID tag device attached to the safety seat and RFID tag reader mounted in the cabin. The system generates control signals which activate an alarm, open the doors of the vehicle and roll down windows if the child is left in the safety seat of an unattended vehicle.

Abstract: An information processing apparatus includes a display controller configured to display a first window that includes an information display area in which information associated with content is displayed and a second window having an input box for entering search reference information in the proximity of the first window when predetermined information is selected from the information displayed in the information display area, thereby displaying the selected predetermined information into the input box.