Class / Patent application number | Description | Number of patent applications / Date published |
701059000 | Model or learning means (e.g., neural network) | 36 |
20080306665 | VEHICLE TRANSMISSION SHIFT QUALITY - A vehicle powertrain modelling system includes a powertrain model ( | 12-11-2008 |
20090018736 | Gear shift system for vehicle, control device and control method for automatic transmission - A parameter having an accelerator pedal position and a drive force as components is set according to information representing driver's operations such as the accelerator pedal position and a stroke amount of a brake pedal. Similarly to the information representing the driver's operation, a parameter having the accelerator pedal position and the drive force as the components is set according to information representing running environment of a vehicle such as a gradient of a road surface, a curvature of the road surface, a friction coefficient μ of the road surface, a type of a road and a length of traffic jam. One parameter α(OUT) is set by mediating a parameter α( | 01-15-2009 |
20090048748 | PREDICTIVE VEHICLE CONTROLLER - Due to time delays, vehicle speed may become difficult to control. A predictive speed controller is configured to receive a desired speed request for a vehicle and simulate vehicle responses according to the desired speed request. A compensation value is derived from the simulated vehicle responses that compensates for the time delays of the vehicle. The actual speed of the vehicle is then controlled according to the compensation value. | 02-19-2009 |
20090112421 | METHOD AND APPARATUS TO CONTROL HYDRAULIC LINE PRESSURE IN AN ELECTRO-MECHANICAL TRANSMISSION - A method for controlling hydraulic line pressure of a hydraulic control system in transmission includes determining an available flow from a plurality of hydraulic pumps, determining a flow consumption of functions served by the hydraulic control system, determining an estimated hydraulic line pressure based upon the flow from the pumps and the flow consumption, determining a desired hydraulic line pressure, and controlling the hydraulic pumps based upon the desired hydraulic line pressure and the estimated hydraulic line pressure. | 04-30-2009 |
20090222180 | METHOD FOR REAL-TIME LEARNING OF ACTUATOR TRANSFER CHARACTERISTICS - In a pressure control system having a solenoid-operated fluid valve that has an output hydraulic pressure which varies in accordance with a solenoid input signal, a dynamic learning block is configured to adjust the initial, default values for control points stored in a pressure-current (P-I) data table based on observed (measured) operating points that reflect the solenoid's actual transfer characteristic. A feed forward control block is configured to generate the solenoid input signal having a level based on the adjusted control points in the data table, which improves the accuracy of the solenoid input signal. An adjustment method uses a plurality of circular buffers each configured to store observed operating points falling within a respective range, and provides a mechanism to allow adjustment of the control points based on only partial data. | 09-03-2009 |
20090240410 | CONTROL DEVICE FOR CONTINUOUSLY VARIABLE TRANSMISSION AND CONTROL METHOD THEREOF - When a shift lever is shifted from an N range to a D range and a predetermined learning condition is established, a learning timer tm_pulse up to a point at which a pulse signal is detected by a primary pulley rotation speed sensor is calculated, and when a deviation between the learning timer tm_pulse and a reference correction amount ΔP_offset is larger than a predetermined threshold Δt_pulse_dif, a learned correction amount P_offset is updated. | 09-24-2009 |
20090248265 | VEHICLE DRIVE DEVICE CONTROLLER - A control device for a vehicle drive apparatus that includes a differential mechanism and an electric motor provided in the differential mechanism, which can be miniaturized in structure with improved fuel economy and enabling suppression of occurrence in switching shocks. With a provision of a switching clutch or a switching brake, a shifting mechanism is placed in either a continuously variable shifting state or a step variable shifting state. During a shifting of an automatic shifting portion, an engaging control variable control alters a method of learning an engaging pressure. This allows a rotation speed of a transmitting member to achieve a given variation during the shifting, depending on a continuously variable shifting state and a non-continuously variable shifting state, for thereby providing a balance between an improvement in a feeling and a suppressing of shifting shocks. | 10-01-2009 |
20090259375 | System and Method for Detecting Lockup Clutch On-Coming Capacity - A dynamic model is stored in memory that defines torque transmitted by a lockup clutch in a torque converter as a function of a plurality of torque converter operating parameters. A lockup clutch command to control engagement the lockup clutch is asserted, and thereafter a number of the plurality of torque converter operating parameters are monitored. The model is continually solved using the monitored operating parameters to determine torque transmitted by the lockup clutch over time, and a lockup clutch on-coming capacity signal is produced if the torque transmitted by the lockup clutch exceeds a torque threshold. | 10-15-2009 |
20090259376 | System and Method for Managing Accumulator Effects During Engagement of a Lockup Clutch in a Torque Converter - A dynamic model that is configured to produce a lockup clutch command as a function of a plurality of torque converter operating parameters is continually solved and the lockup clutch command is asserted to control engagement of the lockup clutch. A profile of one of the plurality of torque converter operating parameters is selected and is configured, when inserted into the model in place of an actual value thereof, to result in an intersection of rotational speeds of the pump and the turbine over time. Deceleration of the pump is monitored after asserting the lockup clutch command and a maximum deceleration of the pump is determined therefrom. The selected profile is temporarily held constant if the monitored deceleration of the pump rises at least a threshold value above the maximum deceleration of the pump. | 10-15-2009 |
20090306866 | Method, control apparatus and powertrain system controller for real-time, self-learning control based on individual operating style - Method, control apparatus and powertrain system controller are provided for real-time, self-learning control based on individual operating style. The method calibrates powertrain system performance in a passenger vehicle in real-time based on individual operating style. The method includes powering the vehicle with the system and generating a sequence of system operating point transitions based on an operating style of an operator of the vehicle during the step of powering. The method further includes learning a set of optimum values of controllable system variables in real-time during the steps of powering and generating based on the sequence of system operating point transitions and predetermined performance criteria for the system. The method still further includes generating control signals based on the set of optimum values to control operation of the system. | 12-10-2009 |
20090306867 | AUTOMATIC TRANSMISSION AND CONTROL METHOD THEREOF - An automatic transmission control unit determines whether or not a constantly open failure, in which a switch valve cannot switch a pressure regulating valve and a second hydraulic chamber to a non-communicative state, has occurred on the basis of a parameter (an inertia phase time, for example) representing a dynamic characteristic during a shift from a first gear position to a second gear position. The determination of the constantly open failure is begun after initial variation in the parameter representing the dynamic characteristic during the shift has been eliminated through learning control in which the dynamic characteristic during the shift is caused to approach a target dynamic characteristic. | 12-10-2009 |
20090312926 | Using Driving Behavior to Determine Gear Changes of an Automatic Transmission - A method for changing the timing of gear changes of an automatic transmission for a motor vehicle including repetitively updating a current value of a count whose value is a measure of driving behavior, performing an evaluation of driving behavior and updating the current value by a value determined from the evaluation, determining shift schedules that define the occurrence of a gear change to be produced by the transmission, and using the updated current value to establish from among the shift schedules a shift schedule that defines a gear change to be produced by the transmission. | 12-17-2009 |
20100004834 | GEAR SHIFTING CONTROL DEVICE FOR WORK MACHINE - A work machine gear shifting control device is capable of readily identifying the cause of failure in learning the clutch hydraulic pressure for operating a transmission clutch. A transmission gear shifting control section | 01-07-2010 |
20100004835 | OUTPUT TORQUE CALCULATING APPARATUS AND CALCULATING METHOD - First target torque of an engine is set based on a driver's operation, a vehicle behavior, and a request for shifting gears of an automatic transmission. The engine is controlled such that the difference between the first target torque and the actual output torque of the engine is reduced. Detection torque is calculated from an operation state of the engine. In consideration of dead time in control of the engine, calculation torque is calculated from the first target torque. In addition, first lookahead torque with the dead time in the engine being removed is calculated by feedback-correcting the first target torque according to an error e between the detection torque and the calculation torque. | 01-07-2010 |
20100049412 | CONTROL APPARATUS AND CONTROL METHOD FOR TRANSMISSION - When there is a shift command for the transmission ( | 02-25-2010 |
20100063696 | System and Method for Controlling Engagement of a Lockup Clutch in a Torque Converter - A dynamic model is stored in memory that defines torque transmitted by the lockup clutch as a function of a plurality of torque converter operating parameters. A lockup clutch command is asserted to control engagement the lockup clutch, and thereafter a number of the plurality of torque converter operating parameters are monitored. A profile is selected of one of the plurality of torque converter operating parameters, and the profile is configured to result in an intersection of rotational speeds of the pump and the turbine over time when inserted into the model along with the monitored values of the number of torque converter operating parameters. The model is continually solved over time using the selected profile and the monitored operating parameters to produce transmitted torque values, and the lockup clutch command is modified based on the transmitted torque values. | 03-11-2010 |
20100063697 | METHOD FOR ADAPTING AN AUTOMATIC MECHANICAL TRANSMISSION ON A HEAVY VEHICLE - System and method for adapting an automatic mechanical transmission (AMT) on a heavy vehicle. The method includes assessing at least one driving characteristic of an operator of the vehicle. Specific examples are detailed below, but in general these will be driving traits that demonstrate the driver's proficiency at executing certain driving tasks. This is taken as a predictor of his or her ability to handle and properly use advanced vehicle features that are beneficial when used properly, but that typically also have a capacity for misuse. Based on the assessment, the operator is classified as being either entitled to enhanced transmission features or not entitled to enhanced transmission features. If the classification is positive, that is the driver is classified as being entitled to enhanced transmission features; at least one enhanced transmission feature is enabled for the operator. | 03-11-2010 |
20110118947 | CONTROL SYSTEM OF AUTOMATIC TRANSMISSION - A control system for controlling an automatic transmission that is capable of establishing a given speed stage by engaging a given frictional element. The control system comprises an actual time lag measuring section that measures an actual time lag from the time when a speed change instruction for the given speed stage is issued to the time when a gear ratio of the automatic transmission starts to change for the purpose of establishing the given speed stage, a torque detecting section that detects a torque from an engine, a time lag map that provides a suitable time lag in accordance with the detected torque from the engine, a learning correction section that corrects, by learning control, an instruction value for the hydraulic pressure led to the frictional element in a manner to cause the actual time lag to have the same value as the suitable time lag; and a time lag map correcting section that corrects the suitable time lag in accordance with an operation condition of an associated motor vehicle. | 05-19-2011 |
20110276240 | CONTROL DEVICE FOR AUTOMATIC TRANSMISSION - The driving output of the electric oil pump during an engine automatic stop is learnt by gradually increasing the driving output of the electric oil pump after an engine automatic stop and discriminating a state immediately before engagement on the basis of the behavior of an input shaft rotation number and a turbine rotation number. Thereby, the working oil pressure supplied by the electric oil pump during an engine automatic stop immediately after an engine automatic stop can be made suitable even if a vehicle is in a stopped state without adding an oil pressure sensor and an oil pressure switch, and a vain increase in power consumption, a deterioration of acceleration responsiveness at the time of an engine restart, generation of shock, or a soaring of the number of engine rotations can be prevented. | 11-10-2011 |
20120303230 | ENGINE FRICTION BASED OIL VISCOSITY MONITOR - A powertrain control module determines engine oil properties based on friction in an engine. The powertrain control module includes an engine combustion module that models engine torque based on engine speed and engine pumping losses due to intake and exhaust gasses. A transmission module models transmission torque applied to the engine based on transmission speed and gear. An accessory loads module models torque applied to the engine by accessory loads including at least one of a power steering pump, an air conditioning compressor, a water pump, and an alternator. An oil viscosity module determines engine oil viscosity based on a friction torque and predetermined engine data that coincides with reference oils. The friction torque is based on the engine torque, transmission torque, and accessory loads torque. | 11-29-2012 |
20120323457 | CONTROL DEVICE FOR AUTOMATIC TRANSMISSION AND CONTROL METHOD THEREFOR - A control device for automatic transmission includes a flow control mechanism for introducing a part of hydraulic oil discharged from a mechanical oil pump into the mechanical oil pump when a differential pressure between an upstream side and a downstream side of a narrow part provided in a discharge passage in which hydraulic oil discharged from the mechanical oil pump flows becomes larger than a predetermined value. Air mixed into the hydraulic oil is compressed by increasing a line pressure as a differential rotation speed increases when oil temperature of the hydraulic oil is equal to or higher than a predetermined oil temperature and an engine torque is equal to or lower than a predetermined engine torque. | 12-20-2012 |
20130151093 | METHODS AND SYSTEM FOR USING VEHICLE LONGITUDINAL ACCELERATION FOR TRANSMISSION CONTROL - A method and system of improving shift event performance in a vehicle with an automatic transmission. One or more accelerometers in the vehicle are used to sense one or more longitudinal acceleration values. The longitudinal acceleration values or values derived therefrom are compared with predetermined stored values. Shift event behavior is changed in response to differences between the one or more longitudinal acceleration values or values derived therefrom and the predetermined stored values. | 06-13-2013 |
20130226417 | Methods and systems for end of line full vehicle automatic transmission quick bed-in procedure - Featured is are methods and systems for bedding-in an automatic transmission of a vehicle prior to delivery of the vehicle to an end customer. Such a bedding-in method is performed so as to reduce the occurrence of shifting problems or concerns occurring during the initial stages of ownership of the vehicle. More particularly, such a bedding-in method includes providing an automatic transmission having a controller that is configured to measure and learn about powertrain variation(s) and configured to adapt one or more operational parameters associated with shifting of the automatic transmission. Such a method also includes operating the vehicle according to a predetermined protocol before the vehicle reaches an end customer. Such a protocol being established so the transmission controller can learn about powertrain variations and adapt operation of the transmission to minimize effects on shifting of the transmission. | 08-29-2013 |
20130226418 | MULTI-CVT DRIVE SYSTEM HAVING DIFFERENTIAL EPICYCLE GEAR SET - The present invention utilizes the rotary kinetic power of a rotary kinetic power source to directly drive the epicyclic gear set, or to drive the epicyclic gear set through a transmission device, then a continuous variable transmission (CVT) is individually installed between two output shafts of the epicyclic gear set and the load driven thereby, so the wheel set of the driven load is enabled to randomly perform variation of the driving speed ratio and the driving torque, so as to drive the combined common load; between the output ends of the mentioned two continuous variable transmissions, a limited slip differential or a stabilize device composed of a dual shaft connecting device having slip coupling torque can be further installed according to actual needs. | 08-29-2013 |
20130231832 | DIFFERENTIAL DRIVE SYSTEM HAVING INDIVIDUAL CLUTCH CONTROL AND MUTUAL FLEXIBILITY TRANSMISSION - The present invention utilizes the rotary kinetic power to drive the first transmission device (T | 09-05-2013 |
20130332038 | REAL TIME COMPENSATION OF CHANGING FRICTION CHARACTERISTICS OF A CLUTCH IN A TRANSMISSION - A method of controlling a transmission includes estimating an expected coefficient of friction of the clutch, estimating a value of an expected torque required to maintain a constant slip of the clutch for a current input torque applied to the transmission, and determining a value of an actual torque applied to the clutch to maintain the constant slip of the clutch at the current input torque. An actual coefficient of friction of the clutch is calculated by dividing the actual torque applied to the clutch by the expected torque applied to the clutch, and multiplying that quotient by the expected coefficient of friction of the clutch. A feed forward torque command is then adjusted based upon the actual coefficient of friction of the clutch to define a revised value of the feed forward torque command, which may then be used to control the clutch for various control operations. | 12-12-2013 |
20140088843 | METHOD FOR ADAPTING SHIFTS IN A MOTOR VEHICLE TRANSMISSION - A method provides for adapting shifts to be carried out in a transmission of a motor vehicle. The shifts are triggered by a transmission control unit and are is controlled and/or governed by the transmission control unit. An actual value corresponding to an acceleration of the motor vehicle is recorded by measuring instruments and is compared to a corresponding target value. On the basis of a deviation between the actual value and the target value, the carrying out of the subsequent shifts of the transmission control unit is adapted. The actual value corresponding to an acceleration of the motor vehicle is individually recorded for several consecutive shift stages of each shift, whereas the actual value in the individual shift stages is compared to the target value in the individual shift stages of the transmission control unit. On the basis of a deviation in the individual shift stages between the actual value and the target value, the carrying out of the subsequent shifts of the transmission control unit is individually adapted for each shift stage. | 03-27-2014 |
20140088844 | Method for Determining a Shift Sequence of a Change of Transmission Ratio of a Gear Mechanism Device of a Vehicle Drive Train - A method for determining a shift sequence of a change of transmission ratio of a transmission device of a vehicle drive train is described. The shift sequence is determined depending on an operating state of the vehicle drive train existing upon the actual transmission ratio inserted in the transmission device. The operating state is characterized by various operating state quantities of the vehicle drive train, which represent input quantities of a model representing the vehicle drive train (B | 03-27-2014 |
20140324307 | AUTOMATIC TRANSMISSION AND STARTING TIME CONTROL METHOD - A transmission controller increases an indicated hydraulic pressure to a starting frictional engagement element to a normal hydraulic pressure, causes a hydraulic piston to stroke and executes a learning control of the indicated hydraulic pressure so that a time until the starting frictional engagement element starts generating a transmission capacity after the range is switched from the neutral range to the drive range becomes a target time when a range is switched from a neutral range to a drive range. The transmission controller further detects a driver's starting intention and increases the indicated hydraulic pressure to the starting frictional engagement element to a starting time hydraulic pressure higher than the normal hydraulic pressure and prohibits the learning control if the starting intention is detected before the starting frictional engagement element starts generating the transmission capacity. | 10-30-2014 |
20150105988 | AUTOMATIC TRANSMISSION AND METHOD FOR CONTROLLING SAME - The automatic transmission includes a first friction engagement element which is engaged when a first gear position is realized and disengaged when a second gear position is realized, a second friction engagement element which is engaged when the second gear position is realized and disengaged when the first gear position is realized, and a controller. The controller causes the second friction engagement element to slip by decreasing an instructional pressure for the second friction engagement element while running in the second gear position, and learns an engagement start pressure of the first friction engagement element based on a change in a differential rotation of the second friction engagement element, or in a parameter that changes in accordance with the differential rotation, at a time when an instructional pressure for the first friction engagement element is increased during the slip. | 04-16-2015 |
20150120156 | METHOD FOR CONTROLLING A DUAL CLUTCH TRANSMISSION - A method of controlling a dual-clutch transmission having two partial transmissions that can be connected to a drive engine such that a target gear, in a respective load-free partial transmission to be engaged following the currently active gear, can be preselected. To reduce the energy consumption caused by transmission losses, the method includes the steps of: determining a possible target gear, determining overall transmission losses for both when a target gear is preselected, and when a target gear is not preselected, determining whether the overall transmission loss is greater when a target gear is preselected or when no gear is preselected, deciding whether a target gear should or should not be preselected using the overall transmission loss determined as a criterion, and implementing measures that correspond to the decision reached. | 04-30-2015 |
20160039425 | METHOD OF DETERMINING DRIVING TENDENCY AND SYSTEM OF CONTROLLING SHIFT USING THE SAME - A method of determining a driving tendency and a system of controlling shift using the same are disclosed. A system of controlling shift for a vehicle may include: a data detector detecting data for a shift control; and a controller determining a short term driving tendency index and a long term driving tendency index, and controlling an engine or a transmission according to the long term driving tendency index, wherein the controller determines the short term driving tendency when an accelerator pedal position reaches a predetermined position value while the vehicle is coasting. | 02-11-2016 |
20160084373 | SYSTEM AND METHOD FOR DETERMINING STARTING TENDENCY OF DRIVER - A system of determining starting tendency of a driver may include: a vehicle speed sensor detecting a vehicle speed an accelerator pedal position sensor detecting an accelerator pedal position, and a controller receiving information on input variables including the accelerator pedal position, the vehicle speed from the accelerator pedal position sensor or the vehicle speed sensor, determining a short term driving tendency, a long term driving tendency, and a starting tendency of the driver based on the information, and controlling an engine or a transmission according to the short term driving tendency, the long term driving tendency, and the starting tendency, in which the controller continuously determines the short term driving tendency of the driver for a predetermined time and determines the starting tendency of the driver from a predetermined number (n) of the short term driving tendencies of the driver. | 03-24-2016 |
20170234423 | SHIFT POSITION SWITCH CONTROLLER | 08-17-2017 |
20170234424 | MOTOR CONTROLLER | 08-17-2017 |
20220137634 | VEHICLE NEURAL NETWORK ENHANCEMENT - A computer, including a processor and a memory, the memory including instructions to be executed by the processor to train a neural network included in a memory augmented neural network based on one or more images and corresponding ground truth in a training dataset by transforming the one or more images to generate a plurality of one-hundred or more variations of the one or more images including variations in the ground truth and process the variations of the one or more images and store feature points corresponding to each variation of the one or more images in memory associated with the memory augmented neural network. The instructions can include further instructions to process an image acquired by a vehicle sensor with the memory augmented neural network, including comparing a feature variance set for the image acquired by the vehicle sensor to the stored processing parameters for each variation of the one or more images, to obtain an output result. | 05-05-2022 |