Entries |
Document | Title | Date |
20080312801 | Apparatus for determining positions and movements of a brake pedal for a vehicle brake system - The present invention relates to an apparatus for determining a pedal displacement of a brake pedal for a vehicle brake system. In said case, a magnetic element disposed on a piston in the interior of a housing of a brake cylinder is used, which cooperates with a sensor element disposed at the outside of the brake cylinder in order to detect positions and movements of the piston. As positions and movements of the piston connected to the magnetic element correspond directly with positions and movements of a brake pedal connected rigidly and directly thereto or characterize said positions and movements in the case of an indirect connection to the brake pedal, it is possible on the basis of positions and movements, which are determined for the piston, to infer the underlying pedal displacement of the brake pedal. | 12-18-2008 |
20090024293 | Vehicle Control Device - An actual vehicle actuator operation control input and a model operation control input are determined by an FB distribution law such that the difference between a reference state amount determined in a vehicle model and an actual state amount of an actual vehicle approximates zero, and then an actuator device of the actual vehicle and the vehicle model are operated on the basis of the control inputs. The value of a parameter of the vehicle model is set according to an actual vehicle motional state such that the attenuation property of a reference state amount when a drive manipulated variable is changed is higher than the attenuation property of an actual state amount. Accordingly, the actual vehicle actuator device is properly controlled independently of an actual vehicle motional state such that a state amount related to an actual vehicle motion approximates a vehicle state amount on a dynamic characteristic model. | 01-22-2009 |
20090037065 | Method For Calculating The Control Current Of An Electrically Controllable Hydraulic Valve - A method shall render it possible that an especially favorable pilot control can be achieved with an electrically controllable hydraulic valve ( | 02-05-2009 |
20090112433 | METHOD FOR CONTROLLING VALVE IN ELECTRONIC HYDRAULIC PRESSURE CONTROL SYSTEM - Disclosed is a method for controlling a valve in an electronic hydraulic pressure control system, capable of effectively controlling the valve such that differential pressure between a master cylinder and a wheel cylinder is constantly maintained. The method includes the steps of measuring pressure of the master cylinder, measuring pressure of the wheel cylinder, and controlling on/off operation of the valve based on a current value obtained according to the differential pressure between the master cylinder and the wheel cylinder. | 04-30-2009 |
20090118959 | System and method for supplying power to ABS for vehicle - A system and method for supplying power to an Anti-lock Braking System (ABS) for a vehicle includes: determining whether an ignition key has been turned on; comparing voltage of a first battery unit, configured to apply the power to an ABS actuation unit, with voltage of a second battery unit, connected to the first battery unit, if the ignition key has been turned on; determining whether the ABS actuation unit is operating if the voltage of the first battery unit is lower than the voltage of the second battery unit; and charging the first battery unit with the power if the ABS actuation unit is operating, and balancing the voltage of the first battery unit and the voltage of the second battery unit if the ABS actuation unit is not operating. | 05-07-2009 |
20090118960 | Vehicle Stability Control Apparatus - An apparatus for controlling the stability of a vehicle including a controller which is adapted to detect when conditions exist under which vehicle rollover is likely and, when such conditions exist, to trigger an alarm signal or initiate a control intervention by means of which the vehicle travel is controlled to reduce the likelihood of vehicle rollover, wherein the apparatus further includes an accelerometer, the accelerometer being configured to measure the acceleration of the vehicle along two non-parallel axes. | 05-07-2009 |
20090118961 | Method for Regulating The Brake Pressure In Motorcycles - A brake system for motorcycles and a method for regulating the brake pressure in a motorcycle having an anti-lock function and having an integral brake function are provided. By means of the integral brake function, front wheel brake means are actuated in connection with brake actuation at a rear wheel (RW), and a brake pressure (p | 05-07-2009 |
20090132140 | ANTISKID CONTROL UNIT AND DATA COLLECTION SYSTEM FOR VEHICLE BRAKING SYSTEM - A wheel speed transducer including a magnetic device associated with a wheel and a sensor device associated with the axle of the wheel provides data indicative of the velocity of the wheel. A processor located at the axle receives the wheel speed data and processes it to perform antiskid control functions. The velocity data is stored in a data concentrator also associated with the axle. A tire pressure sensor, a brake temperature sensor and a brake torque sensor, each associated with the wheel, send data to the processor at the axle, for storage in the data concentrator. A transmitting antenna associated with the axle and in communication with the data concentrator transmits stored data to a receiving antenna associated with the wheel. A data port at the wheel and in communication with the receiving antenna provides an interface to an external device for receiving the data. | 05-21-2009 |
20090204303 | Method for Determining Trailer Braking Output - A method for providing a trailer equipped with trailer brakes with an electronically controlled trailer braking output to help slow a vehicle/trailer combination as quickly as possible, but in a stable and balanced manner. In situations where a low friction environment is detected, such as a wet or icy road, the present method can brake the trailer in a more aggressive manner than a gain setting would normally allow. This gain-independent segment of the trailer braking output can result in a shorter stopping distance for the vehicle/trailer combination, without causing excessive trailer wheel lockup. | 08-13-2009 |
20090306871 | Compensation of reduced braking effect of a hydraulic brake system for a land craft - The invention relates to a hydraulic brake system and a method for controlling a hydraulic brake system for a land vehicle having a predetermined holding capacity for hydraulic fluid and at least one wheel brake. The invention is characterized by detecting if a current holding capacity of the brake system has increased in relation to the predetermined holding capacity and, if so, by feeding hydraulic fluid to the at least one wheel brake in a controlled manner and an amount corresponding at least to the increase in capacity. | 12-10-2009 |
20100023236 | VEHICLE SPEED CONTROL IN A CRUISE MODE USING VEHICLE BRAKES - A cruise control system includes a speed difference module that compares a current vehicle speed and a target cruise speed, and a brake module that selectively actuates a brake when the current vehicle speed is greater than the target cruise speed by a predetermined speed difference. A related method is also provided and includes comparing a current vehicle speed and a target cruise speed, and selectively actuating a brake when the current vehicle speed is greater than the target cruise speed by a predetermined speed difference. The method includes selectively actuating the brake based on a negative drive torque of a powerplant. The method also includes determining a desired braking force based on the current vehicle speed and the target cruise speed, and actuating the brake to generate an actual braking force less than or equal to the desired braking force. | 01-28-2010 |
20100070150 | AIRCRAFT BRAKE CONTROL ARCHITECTURE HAVING IMPROVED ANTISKID REDUNDANCY - An electromechanical braking system includes first and second electromechanical actuator controllers (EMACs) that each independently generate a complete set of drive control signals for an associated set of electromechanical actuators (EMAs). The drive control signals are generated in accordance with an antiskid algorithm to impart antiskid control to the braking of wheels associated with the EMAs. Drive signals for some of the EMAs from the set of EMAs are output by drivers of the first EMAC and drive signals for the other EMAs from the set of EMAs are output by drivers of the second EMAC. Drive control signals from one of the EMACs are used to control output the drive signals for all the EMAs from the set of EMAs, regardless of the EMAC in which the associated drivers are present. The drive control signals from the other of the EMACs are used as a backup set of drive control signals. | 03-18-2010 |
20100114446 | Motor Vehicle Electric System - A motor vehicle control system having a coil switch which is connected to the vehicle electric system is intended to permit reliable operation of a coil switch without power losses in the semiconductor switches. For this purpose, a step-up converter is connected between the vehicle electric system and the coil switch. | 05-06-2010 |
20100125398 | Service Brake Control System For Optimized Regenerative Braking Of Medium Or Heavy Trucks - Braking control for a hybrid vehicle provides both service and regenerative mode braking for the driven wheels. A hybrid drive system is coupled to the driven wheels to provide traction power and which is capable of operating in a regenerative braking mode. The service brakes are provided by pneumatically actuated service brakes coupled to the driven wheels. Braking is initiated conventionally using an operator controlled brake actuator. A pressure regulator is placed in a pneumatic brake actuation line coupled from the operator controlled brake actuator to the pneumatically actuated service brakes for the driven wheels. The pressure regulator initially closes during braking, preventing operation of the service brakes up to the limit of the ability of the hybrid drive system to absorb torque for regenerative braking. When the torque limit for the hybrid drive system is reached, the regulator opens the actuation line progressively allowing the service brakes to supplement the hybrid drive system. During loss of traction events regenerative braking is discontinued to avoid interference with operation of anti-lock braking of the vehicle's service brakes. | 05-20-2010 |
20100138127 | ELECTRIC MOTORS - An electric motor includes one or more separate coil sets arranged to produce a magnetic field of the motor. The electric motor also includes a plurality of control devices coupled to respective sub-sets of coils for current control. A similar arrangement is proposed for a generator. A coil mounting system for an electric motor or generator includes one or more coil teeth for windably receiving a coil for the motor and a back portion for attachably receiving a plurality of the coil teeth. A traction control system and method for a vehicle having a plurality of wheels independently powered by a respective motor. A suspension control system and method for a vehicle having a plurality of wheels, each wheel being mounted on a suspension arm of the vehicle and being independently powered by a respective motor. | 06-03-2010 |
20100280727 | ANTISKID CONTROL - COMBINED PAIRED/INDIVIDUAL WHEEL CONTROL LOGIC - An anti-skid brake control system for a multi-wheeled vehicle includes both a paired function and an individual function. The paired function controls the wheels of the vehicle in unison. The individual function controls the wheels of the vehicle individually. A paired/individual logic circuit alternatively activates and deactivates the paired function and the individual function. A method for controlling the skid of a vehicle utilizing a paired function and a individual function is also provided. | 11-04-2010 |
20100312447 | Regenerative Brake Control System and Method - A regenerative brake control system for a vehicle includes a vehicle controller, a driveline torque distribution device interfacing with the vehicle controller, an electric machine interfacing with the driveline torque distribution device, a plurality of wheels coupled to the electric machine and at least one traction condition input indicating traction of the plurality of wheels provided to the vehicle controller. The vehicle controller engages the driveline torque distribution device and the electric machine apportions regenerative brake torque to the wheels in proportion to the traction of the wheels. A regenerative brake control method for a vehicle is also disclosed. | 12-09-2010 |
20110087415 | Vehicular Deceleration Aiding Device - A deceleration aiding device capable of achieving deceleration control which reflects a driver's intention more accurately according to a driver's intention to decelerate a vehicle, and by which the acceleration of the vehicle is difficult to exceed a road surface friction coefficient is provided. The deceleration aiding device includes: a road information acquisition unit ( | 04-14-2011 |
20110098903 | BRAKE CONTROL DEVICE - It is an object of the invention to provide a brake control device that can accurately detect a rear wheel lift off state and that is not easily affected by a road surface state, a wear condition of a tire, a slipping state of a front wheel and an operation of a driver etc. | 04-28-2011 |
20110125382 | Coefficient of Friction Based Limitation of the Torque of a Vehicle Control Loop - A process is provided for limiting a torque or an amount characteristic thereof of a control loop used for stabilizing a vehicle. A coefficient of friction is detected according to the process. The coefficient of friction is estimated by way of vehicle-internal quantities. As a function of the coefficient of friction, a limit value is determined for the torque or the amount characteristic thereof. The torque or the amount characteristic thereof will subsequently be limited to the limit value. | 05-26-2011 |
20110251770 | REGENERATIVE BRAKING CONTROL USING A DYNAMIC MAXIMUM REGENERATIVE BRAKING TORQUE CALCULATION - Methods and systems for controlling regenerative braking in a vehicle having a regenerative braking system are provided. Values of one or more dynamic variables are obtained during operation of the vehicle. A maximum regenerative braking torque is calculated using the dynamic variable values. Regenerative braking torque is provided up to the maximum regenerative braking torque. | 10-13-2011 |
20110264349 | TRAVEL CONTROLLING APPARATUS OF VEHICLE - A travel controlling apparatus of a vehicle includes a slip ratio detecting unit that obtains a slip ratio of front wheels and rear wheels depending on a travel state of the vehicle, a friction coefficient detecting unit that obtains a friction coefficient of the front wheels and the rear wheels depending on the travel state of the vehicle, a slip ratio stable region setting unit that sets a slip ratio stable region in which the friction coefficient becomes a predetermined value or more depending on the travel state of the vehicle, a braking/driving force controlling unit that controls a braking/driving force in the slip ratio stable region, and a slip ratio stable region changing unit that changes an upper limit value and a lower limit value in the slip ratio stable region depending on a variation of the friction coefficient when the slip ratio increases and when the slip ratio decreases. | 10-27-2011 |
20110276245 | METHOD FOR OPERATING A VEHICLE BRAKE SYSTEM - A method for operating a vehicle brake system during a wheel slip condition. According to an exemplary embodiment, the method involves receiving a requested brake torque, monitoring wheel slip, and if no wheel slip is detected then operating the vehicle brake system according to the requested brake torque. If, however, wheel slip is detected then the method may operate the vehicle brake system according to a modified brake torque that is less than the requested brake torque. | 11-10-2011 |
20120065861 | METHOD AND DEVICE FOR PERFORMING CLOSED-LOOP OR OPEN-LOOP CONTROL OF THE DRIVING STABILITY OF A VEHICLE - The invention relates to a method and a device for performing open-loop or closed-loop control of the driving stability of a vehicle and for avoiding collisions with an object which is located in the traffic lane. The invention also relates to a closed-loop driving stability controller. The method according to aspects of the invention comprises: determining based on environmental signals whether a critical situation in terms of driving dynamics, in particular an imminent collision, exists, calculating an avoidance path if a critical situation in terms of driving dynamics exists, determining based on a plurality of input variables pressures for individual brakes of the vehicle, and activating preparatory measures of the driving dynamics regulator, in particular dynamic switching over of closed-loop control parameters if the critical situation in terms of driving dynamics exists. The device and the closed-loop driving stability controller are suitable for carrying out the method. | 03-15-2012 |
20120109483 | METHOD FOR CONTROLLING TORQUE AT ONE OR MORE WHEELS OF A VEHICLE - An exemplary method for controlling torque at one or more wheels of a vehicle, including controlling both positive torque (acceleration) and negative torque (braking) with a single torque command. According to one embodiment, the method interprets the acceleration and braking intent of the driver, takes into consideration certain special conditions (e.g., vehicle dynamic conditions like wheel slip, over- and under-steer, etc.), and generates one or more individual torque commands that are sent to individual wheels or corners of the vehicle. The individual torque commands may address certain chassis and powertrain functions like acceleration and braking, and may provide full-feature torque control (i.e., acceleration, braking, vehicle dynamics, etc.) on an individual wheel basis. It is also possible for the method to be used in a system where a number of the common chassis, powertrain and/or vehicle dynamic modules have been integrated into a single torque control module or the like. | 05-03-2012 |
20120150409 | VEHICLE BRAKING FORCE CONTROL DEVICE - A vehicle braking force control device which, at a normal time, performs antilock brake control when the slip ratio of a wheel has become equal to or greater than a predetermined threshold. The control device acquires from the engine control unit an accelerator pedal position signal corresponding to an accelerator pedal position, a clutch connection signal corresponding to a state of connection of a clutch, and a power transmission signal corresponding to a state of power transmission of a transmission. When engine braking is large on the basis of the accelerator pedal position signal, the clutch connection signal, and the power transmission signal, the vehicle braking force control device changes the predetermined threshold value to an offset threshold value that makes it harder to perform the antilock brake control than at the normal time. | 06-14-2012 |
20120239267 | MOTORCYCLE - A motorcycle sets a target slip value based on an accelerator operation by a driver, and prevents a significant decrease in the output torque of the drive power source during execution of traction control to provide a comfortable ride. The motorcycle includes a target slip value calculating section that calculates a target slip value, based on an accelerator operation by a driver; and an actual slip value calculating section that calculates an actual slip value, based on the difference between the rotation speed of the front wheel and the rotation speed of the rear wheel. The motorcycle further includes a drive power source controller arranged and programmed to reduce the output torque of the drive power source, based on the difference between a criterion value different from the target slip value and the actual slip value when the actual slip value is lower than the target slip value. | 09-20-2012 |
20120265419 | VEHICLE BRAKING SYSTEM AND CONTROL METHOD THEREOF - Disclosed herein is a vehicle braking system and control method. The vehicle braking control method includes detecting velocities of respective wheels provided at a vehicle, calculating a vehicle velocity based on the velocities of the respective wheels, calculating slip amounts of the respective wheels by comparing the vehicle velocity and the velocities of the respective wheels, calculating change rates of the slip amounts of the respective wheels, obtaining regenerative braking force corresponding to one of the slip amounts and the slip change rates of the respective wheels, and controlling regenerative braking using the obtained regenerative braking force. | 10-18-2012 |
20120303234 | BRAKE CONTROL SYSTEM IN VEHICLE - A brake control system in a vehicle which executes anti-lock brake control for controlling a braking force applied to a wheel to prevent the wheel from being locked during braking of the vehicle is provided. The brake control system includes an initiation determiner section for determining whether or not an initiation condition used to initiate the anti-lock brake control is met the initiation condition including a condition in which a decrease rate of a wheel speed which is a rotational speed of the wheel is not less than a predetermined threshold; and a brake control section for initiating control of the braking force applied to the wheel in the anti-lock brake control, if the initiation determiner section determines that the initiation condition is met. | 11-29-2012 |
20130035836 | Method for Automatically Preventing Aquaplaning - The invention relates to a method for automatically preventing aquaplaning during the driving operation of a motor vehicle on a route, which method provides according to the invention that
| 02-07-2013 |
20130073164 | METHOD OF AVOIDING BRAKE DISC SCORING IN A VEHICLE - A method for avoiding reducing scoring of the brake disc or the brake drum of a vehicle driven under rainy conditions calculates a product of three parameters, and activates an automatic braking operation for the vehicle, regularly, whenever the product exceeds the pre-determined threshold level. The first parameter is a rain intensity based parameter, a measure of the current raining intensity. The second parameter is a brake-activation-free driving time parameter, representing the time elapsed since the braking system of the vehicle was activated last. The third parameter is a speed parameter, which represents a current speed of the vehicle. As the automatic braking operation is carried out, the particles of dust, water, snow and de-icing substances, adhered to the brake disc of the vehicle, and causing scoring of the brake disc, are quickly removed, thus, reducing disc scoring. | 03-21-2013 |
20130080014 | METHOD FOR OPERATING A BRAKE-SLIP REGULATING MEANS OF A BRAKE SYSTEM OF A VEHICLE - A method and device for operating a brake-slip regulating arrangement of a vehicle brake system in various operating modes, in accordance with driving conditions, including: activating, in an on-road operating mode, the arrangement on at least one rear axle and one front axle, even in the off-road operating mode, the arrangement continues to operate on at least one rear axle of the vehicle until the brake slip on at least one wheel of a front axle is less than or equal to a specified brake-slip limit; if the specified brake-slip limit is exceeded by the brake slip on the at least one wheel of the front axle, putting the arrangement out of operation on the rear axle and is not put into operation again until the brake slip on the at least one wheel of the front axle is again less than or equal to the specified brake-slip limit. | 03-28-2013 |
20130085650 | VEHICLE BRAKE CONTROL SYSTEM - A vehicle brake control system includes a regenerative braking control component, a frictional braking control component, a calculating component and a controlling component. The regenerative braking control component controls a regenerative braking device to provide a regenerative braking torque. The frictional braking control component controls a frictional braking device to provide a frictional braking torque. The calculating component calculates a regenerative braking torque filter processing value based on a fluctuation frequency of the regenerative braking torque. The controlling component, during a first condition, operates a motorized power assist control device based on the regenerative braking torque filter processing value, instead of the regenerative braking torque, to moderate the frictional braking torque, such that the regenerative braking torque and the moderated frictional braking torque provide a target braking torque based on a braking operation. | 04-04-2013 |
20130166166 | TIRE LOCALIZATION SYSTEMS AND METHODS IN TIRE PRESSURE MONITORING SYSTEMS - Embodiments relate to tire localization in tire pressure monitoring systems (TPMS). In embodiments, a TPMS includes a wheel unit and a control unit. Each wheel unit collects acceleration data and transmits that data to the control unit for processing. The control unit processes the data and, using additional data received from another vehicle system, for example an antilock braking system (ABS) or electronic stability control (ESC) system, correlates the data in order to localize each wheel unit to a particular wheel of the vehicle. Advantages include increased processing power at the control unit as compared to the wheel unit. | 06-27-2013 |
20130245907 | Antilock Braking System With Directional Control - A system and method for adjusting a yaw of an aircraft having an antilock braking system is disclosed. The antilock braking system includes a controller configured to receive a directional input from a rudder. The controller is further configured to deliver a braking output to at least one of a left wheel brake and a right wheel brake. A position of the rudder indicates a pilot's desired steering response, and to allow for braking optimization by the antilock braking system, the pilot depresses fully the left wheel brake pedal and the right wheel brake pedal. The controller receives the directional input after both the right wheel brake pedal and the left wheel brake pedal have been fully depressed. The controller then delivers the braking output and a pressure on one of the left wheel brake and the right wheel brake is reduced in accordance with the directional input. | 09-19-2013 |
20140136071 | SYSTEM WITH BLENDED ANTI-LOCK AND STABILITY CONTROL - A brake system for a mobile machine is disclosed. The brake system may have an anti-lock braking subsystem configured to calculate a maximum allowable brake command. The brake system may have a stability control subsystem configured to generate a desired differential brake command. The brake system may have a brake command adjustment subsystem. The brake command adjustment subsystem may be configured to calculate an ideal solution of a left brake command and a right brake command to satisfy a combination of the desired differential brake command and a desired total brake command. When the ideal solution is valid, the brake command adjustment subsystem may output the ideal solution as an actual brake command. When the ideal solution is invalid, the brake command adjustment subsystem may calculate a non-ideal solution of the left brake command and the right brake command. | 05-15-2014 |
20140172262 | INVERTED VEHICLE CONTROL APPARATUS, AND METHOD AND PROGRAM THEREFOR - An inverted vehicle control apparatus includes a plurality of driving wheels, a plurality of drive means each of which drives a respective one of the plurality of driving wheels, skid detection means for detecting a skid state between the driving wheels and a road surface, operation information acquisition means for acquiring operation information of a rider, and control means for controlling the drive means to control the driving wheels. The control means controls, based on the operation information acquired by the operation information acquisition means, the driving wheel for which no skid is detected by the skid detection means, and the control means controls the driving wheel for which a skid is detected by the skid detection means so that a friction reaction force exerted from the road surface to the driving wheel is exerted in such a direction that the inverted vehicle is raised by the friction reaction force. | 06-19-2014 |
20140200785 | TIRE LOCALIZATION SYSTEMS AND METHODS IN TIRE PRESSURE MONITORING SYSTEMS - Embodiments relate to a control unit comprising a data input to receive wheel rotation data from each of a plurality of fixed wheel rotation sensors associated with a wheel of a vehicle and acceleration samples from a plurality of wheel units. The control unit includes a processor to localize each of the plurality of wheel units to a particular wheel of the vehicle from a joint processing of the wheel rotation data and the acceleration samples. | 07-17-2014 |
20140207355 | BRAKING FORCE CONTROL APPARATUS FOR VEHICLE - An electronic control unit of a braking force control apparatus for a vehicle activates, as a first state, in-wheel motors in a regeneration state, thereby generating motor braking torques, and causes friction brake mechanisms to generate friction braking forces. Moreover, the unit activates, as a second state, the motors in a power running state, thereby generating motor driving torques, and causes the mechanisms to generate friction braking forces. Then, when the state is caused to transition between the first state and the second state, the unit changes magnitudes of the braking torques or the driving torques generated by the motors to one of increase and decrease, and changes magnitudes of the friction braking forces generated by the mechanisms to one of increase and decrease. | 07-24-2014 |
20140257664 | SLIP-CONTROLLED BRAKING SYSTEM FOR ELECTRICALLY DRIVEN MOTOR VEHICLES - A braking system for a motor vehicle, including friction brakes on the wheels of at least one axle, the brakes controlled by a friction brake control device; at least one electric machine connected to at least one wheel and controlled by an electric drive control device; a brake pedal for detecting a deceleration request; a wheel-slip controlling device; and a torque distributing device. The devices for detecting a deceleration request are connected to the wheel-slip controlling device, the wheel-slip controlling device specifying target braking torques for each wheel according to the parameters of the deceleration request. The wheel-slip controlling device connected to a torque distributing device which is connected to the friction brake control device and the electric drive control device and which specifies friction brake requests to the friction brake control device and generator brake requests to the electric drive control device according to the target braking torques. | 09-11-2014 |
20140277983 | VEHICLE AND METHOD FOR CONTROLLING REGENERATIVE BRAKING - A vehicle includes a control system configured to implement a method for regenerative braking control. The control system has at least one controller and is configured to control regenerative braking torque to be no greater than a regenerative braking torque limit when a wheel slip of a wheel of the vehicle is above a threshold value. The regenerative braking torque limit is non-zero for at least some values of the wheel slip above the threshold value. | 09-18-2014 |
20140372006 | INDIRECT TIRE PRESSURE MONITORING SYSTEMS AND METHODS USING MULTIDIMENSIONAL RESONANCE FREQUENCY ANALYSIS - Embodiments relate to an indirect tire pressure monitoring systems (TPMS) and methods that utilize anti-lock braking system (ABS) sensed signals coupled to circuitry and/or controllers to process the sensed signals using a multidimensional resonance frequency analysis (MRFA) technique. In some embodiments, additional information from other sensed signals or stored data settings for non-tire variables and parameters can be incorporated into the MRFA. Thus, in an embodiment an indirect TPMS comprises at least one signal from an ABS, such as a wheel speed signal, and an electronic control unit (ECU) that processes the at least one signal from the ABS using at least one MRFA technique. Unlike conventional MRFA approaches that look for a single resonance frequency, the MRFA of embodiments uses a spectral analysis of tire vibrations as determined from the sensed ABS signals over different points in the spectrum that can reflect different vibration modes and different corresponding resonance frequencies. | 12-18-2014 |
20150019101 | Method for Ensuring a Braking Effect - A method for ensuring a braking effect utilizes a service brake system and a parking brake system of a vehicle. The service brake system is configured to be actuated irrespective of a driver input, and the parking brake system is activated by an extraneous force, for example in an electromechanical arrangement. When a deceleration request is received, the service brake system is initially actuated. If a deceleration variable remains below a target value and the measured slip is smaller than a slip threshold value, the parking brake system is actuated in order to bring the vehicle to a standstill. | 01-15-2015 |
20150073677 | DEVICE AND METHOD FOR DETERMINING AN ABSOLUTE ANGULAR POSITION OF A WHEEL OF A VEHICLE - A device and a method for determining an absolute angular position of a wheel of a vehicle. A wheel unit is mounted on the wheel side and configured to determine data which permit a reference limb of the wheel, and to wirelessly transmit the acquired data. A receiver unit is mounted on the vehicle side and receives the data of the wheel unit. A reference limb-determining device determines the reference limb of the wheel on the basis of the received data. A measuring device generates, in each case, one signal when the wheel rotates by a previously determined angle, and a counting device counts the signals generated by the measuring device. An angle-determining device determines an absolute angular position of the wheel on the basis of the signals counted by the counting device, and on the basis of the specific reference limb. | 03-12-2015 |
20150105990 | PREDICTIVE VEHICLE STABILITY CONTROL METHOD - A method of controlling vehicle stability includes the steps of obtaining a measured yaw rate from the vehicle, generating a predicted yaw rate based on the measured yaw rate, calculating a first error signal based on a difference between the measured yaw rate and a desired yaw rate, calculating a second error signal based on a difference between the predicted yaw rate and the desired yaw rate, and sending a selected one of the first and second error signals to a yaw controller to conduct stability control. The predicted yaw rate can be generated by sending the measured yaw rate through a lead filter. | 04-16-2015 |
20150149056 | Vehicle Brake System and Method of Control - A vehicle brake system and a method of control. The vehicle brake system may include a friction brake and a secondary brake that may be applied to slow rotation of a vehicle wheel when a wheel slip condition is detected. | 05-28-2015 |
20150298553 | Method For Operating A Recuperation Brake Of A Motor Vehicle And Recuperation Brake - A method for operating a recuperation brake of a motor vehicle is disclosed. First, a future operating intensity of the recuperation brake is estimated for a section of route to be travelled on by the motor vehicle based on an input which characterizes the driving style of the section of route to be travelled on. In addition, a maximum slip-free vehicle braking power for the section of route is estimated as a function of the input. In addition, the braking power of the recuperation brake is set to a setpoint braking power which is not greater than the maximum vehicle braking power for the section of route, and finally the recuperation brake is activated on the section of route to be travelled on with the setpoint braking power. In addition, a recuperation brake for carrying out the method is described. | 10-22-2015 |
20150309784 | METHODS AND APPARATUS FOR UPDATING SOFTWARE COMPONENTS IN COORDINATION WITH OPERATIONAL MODES OF A MOTOR VEHICLE - Methods and apparatus are provided for updating at least one software component of a motor vehicle in coordination with predetermined safe operational modes of the vehicle permitting the updating without danger to a driver operating the motor vehicle. The method operates such that a receiver circuit of a hub controller of the motor vehicle receives and stores a software update module in a memory of the hub controller. A processor of the hub controller determines an operational condition of the motor vehicle and selectively updates at least one software component of the motor vehicle with the software update module responsive to the operational condition of the motor vehicle being in a predetermined safe operational mode permitting the updating without danger to a driver operating the motor vehicle. Preferably, the updating of the at least one software component with the software update module takes place only during DPF regeneration. | 10-29-2015 |
20150314781 | Method for stabilizing a two wheeled vehicle - In a method for stabilizing a two-wheeled vehicle, the current attitude angle is compared to an associated boundary value which is determined as a function of at least one current driving state variable. | 11-05-2015 |
20150344055 | WHEEL SKID DETECTION DURING MECHANIZED CART RETRIEVAL - A vehicle tracking system includes a wheel containing sensor circuitry capable of sensing various types of conditions, such as wheel rotation, wheel vibration caused by skidding, and specific electromagnetic and/or magnetic signals indicative of particular wheel locations. The sensor circuitry is coupled to an RF transceiver, which may but need not be included within the wheel. The wheel may also include a brake mechanism. In one embodiment, the wheels are placed on shopping carts and are used to collect and monitor shopping cart status and location data via a wireless network. The collected data may be used for various purposes, such as locking the wheel of an exiting cart if the customer has not paid, estimating numbers of queued carts, stopping wheel skid events that occur during mechanized cart retrieval, store planning, and providing location-based messaging to customers. | 12-03-2015 |
20150360685 | DRIVE ASSIST SYSTEM, DRIVE ASSIST METHOD, AND DRIVE ASSIST DEVICE - A drive assist system includes: a movable body ( | 12-17-2015 |
20150375753 | METHOD AND BEAM SENSOR MODULE FOR PREDICTIVELY DETERMINING THE CONDITION OF THE ROAD IN A VEHICLE - A method for determining the condition of the road ahead in a vehicle, according to which method the road surface is illuminated with sensor beams the sensor beams being reflected and absorbed in accordance with the condition of the road surface and the condition of the road being determined on the basis of the reflected sensor beams. The method is characterized in that the road surface in front of the vehicle in the direction of travel is illuminated. The invention also relates to a corresponding beam sensor module. | 12-31-2015 |
20160009385 | Vehicle Braking System Having Braking Control and Skid Reduction Functions | 01-14-2016 |
20160016565 | SYSTEM AND METHOD FOR APPLYING REGENERATIVE BRAKING DURING HIGH FRICTION COEFFICIENT BRAKING - A system for applying regenerative braking during high friction coefficient braking of a vehicle includes at least one controller; at least one braking sensor interfacing with the at least one controller; a vehicle powertrain interfacing with the at least one controller; a brake pedal interfacing with the at least one controller; vehicle friction brakes interfacing with the at least one controller; and the at least one controller applies anti-lock braking torque to the vehicle brakes and simultaneously applies regenerative braking torque to the vehicle powertrain responsive to input from the at least one braking sensor. A method for applying regenerative braking during high friction coefficient braking of a vehicle is also disclosed. | 01-21-2016 |
20160114773 | SLIP CONTROL SYSTEM FOR VEHICLES AND A VEHICLE PROVIDED WITH A SLIP CONTROL SYSTEM - A slip control system for vehicles having at least one wheel provided with a brake. The slip control system includes at least one sensor and a control device configured to determine a wheel slip of the wheel based on the signals of said sensor. The sensor can be a load sensor provided in a bearing of the wheel. | 04-28-2016 |
20160121870 | Method, Controller and System for Monitoring Brake Operation - Various embodiments of an apparatus and method for monitoring a brake operation are disclosed. In accordance with one aspect, the brake operation monitoring system comprises a plurality of wheel speed sensors, a brake demand sensor; a plurality of stability sensors and a controller. The controller comprises wheel speed ports; a brake demand port; stability sensor ports; a communication port for receiving a plurality of messages; and a processing unit comprising control logic. The control logic receives a brake demand signal, at least one stability signal indicative of the cornering of the vehicle, and individual wheel speeds. The control logic calculates a master value to compare to individual wheel speed signals if the brake demand signal indicates no braking. | 05-05-2016 |
20160137179 | METHOD AND SYSTEM FOR CONTROL OF AUXILIARY BRAKES - A method and a system to control an auxiliary brake system in a vehicle | 05-19-2016 |
20160159225 | BRAKING FORCE CONTROL APPARATUS FOR A VEHICLE - In order to enable satisfactory vehicle motion control to be carried out while wheels ( | 06-09-2016 |