Patent application number | Description | Published |
20080281502 | CONTROL APPARATUS FOR A SOURCE OF ROTATIONAL DRIVE FORCE - A control apparatus for controlling a source of rotational drive force based on a target rotational speed. The control apparatus includes a target model rotational speed calculation section, an actual rotational speed detection section, and a target rotational speed adjustment section. The target model rotational speed calculation section calculates a rotational speed corresponding to a target drive force of the source as a target model rotational speed. The actual rotational speed detection section detects an actual of the source. The target rotational speed adjustment section sets the target rotational speed by correcting a value of the target model rotational speed calculated by the target model rotational speed calculation section to gradually approach the actual rotational speed detected by the actual rotational speed detection section. Accordingly, hunting of the engine during control is prevented and the deviation between the actual rotational speed and the target rotational speed is reduced or prevented. | 11-13-2008 |
20080294301 | Vehicle Integrated-Control Apparatus and Vehicle Integrated-Control Method - One of the manager control units among multiple control units includes a first coordination portion that coordinates a control target value derived based on an instruction from a driver or a first control unit and expressed by a first unit of physical quantity, with an instruction value from a second control unit and expressed by the first unit of physical quantity; a conversion portion that converts the control value expressed by the first unit of physical quantity into a control target value expressed by a second unit of physical quantity; a second coordination portion that coordinates the control target value derived by the conversion portion and expressed by the second unit of physical quantity, with an instruction value transmitted from a T/M control unit and expressed by the second unit of physical quantity; and an output portion that outputs the control target value to an engine control unit. | 11-27-2008 |
20080312802 | Driving Force Control Device and Driving Force Control Method - In a driving force control device and driving force control method according to the invention, a first target driving force is calculated based on an operation amount of an accelerator pedal by a driver, a second target driving force, which is necessary for a vehicle to maintain a constant vehicle speed or maintain a predetermined relative distance or relative speed relationship with a target object near the vehicle, is calculated, an intention of a driver to increase or reduce the vehicle speed is determined, the first target driving force and the second target driving force are coordinated with each other, using a unit of driving force, in consideration of the intention of the driver, and driving force is controlled based on a target driving force derived through a coordination process. | 12-18-2008 |
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 |
20090018738 | Gear shift system for vehicle, control method and control device for automatic transmission - A parameter α(OUT) having an accelerator pedal position, a vehicle speed and a drive force as components is set according to information representing a driver's operation and information representing running environment of a vehicle. A gear is set according to the parameter α(OUT) and a map determining the gear based on the accelerator pedal position, the vehicle speed and the drive force. A gear shift line is defined such that a rate of increase of the drive force with respect to the vehicle speed is zero or more. A down-shift line is defined such that the drive force decreases with increase in accelerator pedal position. Down-shift after up-shift as well as the up-shift after the down-shift are inhibited when both a condition that an amount of change of the accelerator pedal position after last gear shift is larger than a threshold and a condition that an amount of change of the drive force after the last gear shift is larger than the threshold are satisfied. | 01-15-2009 |
20090024288 | Driving source controller and control method - An ECU executes a program including the steps of: detecting engine speed NE based on a signal transmitted from an engine speed sensor; calculating engine speed NE with dead time of the engine with respect to a target output torque removed; calculating engine speed NE reflecting the dead time of the engine with respect to the target output torque; correcting the actual engine speed NE in accordance with a difference between the engine speed with dead time removed and the engine speed reflecting the dead time; and setting the target value of output torque in accordance with the corrected engine speed NE. | 01-22-2009 |
20090024292 | Vehicle controller and control method - An ECU executes a program including the steps of: detecting an accelerator position based on a signal transmitted from an accelerator position sensor | 01-22-2009 |
20090037066 | CONTROL DEVICE FOR INTERNAL COMBUSTION ENGINE - A driving force control system includes an internal combustion engine model ( | 02-05-2009 |
20090248261 | ASSUMPTION TORQUE SETTING DEVICE, AUTOMATIC TRANSMISSION CONTROLLER, AND METHOD FOR LEARNING INTERNAL COMBUSTION ENGINE DELAY MODEL - An assumption torque setting device for an engine that executes a torque reduction process during gear shifting. The device sets a torque assumed to be output by the engine and based on a target torque from which an amount corresponding to the torque reduction process is excluded as an assumption torque during the gear shifting. The device includes an assumption model torque calculation unit which calculates an assumption model torque from the target torque from which an amount corresponding to the torque reduction process is excluded based on an internal combustion engine delay model. An assumption torque calculation unit calculates before torque reduction is performed an assumption torque based on an engine operation state and calculates when the torque reduction is being performed an assumption torque based on the assumption model torque and an assumption torque calculated from the engine operation state. | 10-01-2009 |
20090259370 | Vehicle Integrated-Control Apparatus and Vehicle Integrated-Control Method - The invention relates to a vehicle integrated-control apparatus and method that controls at least a drive control system, a brake control system, and a dynamic behavior control system in an integrated manner. A temporary control target (F | 10-15-2009 |
20100004094 | CONTROL DEVICE FOR AUTOMATIC TRANSMISSION - A controller ( | 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 |
20100030398 | CONTROL APPARATUS AND CONTROL METHOD FOR DRIVE SOURCE - Static demand engine torque set in a static torque setter is converted into dynamic demand engine torque in a converter using an engine model C (s) represented by a first-order lag function. A time constant T of engine model C (s) is calculated by a time constant calculator. The time constant calculator calculates time constant T in accordance with the static demand engine torque set in the static torque setter and dynamic demand engine torque set in a dynamic torque setter. The dynamic demand engine torque set in the dynamic torque setter is added to the dynamic demand engine torque converted from the static demand engine torque in the converter. | 02-04-2010 |
20100095931 | CONTROL APPARATUS FOR DRIVING SOURCE - A first arbitration unit determines one demand engine torque of static demand engine torques set in a power train driver model and an ECT torque control system. The demand engine torque determined by the first arbitration unit is converted into dynamic demand engine torque by a conversion unit. A second arbitration unit determines demand engine torque for use in control of an engine from among the dynamic demand engine torque converted from the static demand engine torque by the conversion unit, dynamic demand engine torque set by a VDIM system, and dynamic demand engine torque set by a vibration suppression control system. An engine control system controls the engine according to the demand engine torque determined by the second arbitration unit. | 04-22-2010 |
20100137103 | SHIFT CONTROL DEVICE AND SHIFT CONTROL METHOD FOR AUTOMATIC TRANSMISSION - An electronic control unit is provided with two types of gear change maps: a first gear change map based on the vehicle speed and the accelerator pedal operation amount; and a second gear change map based on the vehicle speed and the required drive force of the vehicle. The electronic control unit determines whether the automatic transmission should downshift with reference to the first gear change map, and determines whether the automatic transmission should upshift with reference to the second gear change map. | 06-03-2010 |
20100191429 | CONTROL DEVICE OF A CONTINUOUSLY VARIABLE TRANSMISSION - A low-side target gear ratio “alpha” and a high-side target gear ratio “beta” are calculated using an up-use map Ma and a down-use map Mb based on a vehicle speed and an accelerator opening amount, and with regard to a region wherein the target gear ratio “alpha” is not more “high” than an actual gear ratio and the target gear ratio “beta” is not more “low” than the actual gear ratio, a gear ratio of a continuously variable transmission is held. | 07-29-2010 |
20100197457 | VEHICLE DRIVING FORCE CONTROL DEVICE - A shift output torque control unit executes a shift output torque control to control an engine torque so as to reduce a driving force difference, which is a variation width of a driving force due to downshift of an automatic transmission. Thus, in comparison with the case in which the shift output torque control is not executed, it is possible to smooth a variation in driving force associated with the downshift. As a result, occupants' comfort and controllability to driving operation may be improved. | 08-05-2010 |
20100262352 | CONTROLLER FOR ENGINE - An ECU includes: an engine control unit that controls devices provided for an engine on the basis of a target engine rotational speed; and an engine model that calculates the target engine rotational speed such that the target engine rotational speed varies in accordance with a target engine torque and an actual engine rotational speed in a steady state, and that calculates the target engine rotational speed such that the target engine rotational speed varies in accordance with the target engine torque independently of the actual engine rotational speed in a transient state in which the engine is unstable as compared with the steady state. When the engine is controlled by the thus configured ECU, the control accuracy is improved. | 10-14-2010 |
20100274460 | CONTROL APPARATUS AND CONTROL METHOD FOR POWER SOURCE - Static demand engine torque is converted into dynamic demand engine torque. The dynamic demand engine torque converted from the static demand engine torque is accommodated in relation to the dynamic demand engine torque set in another system. Static demand drive force is converted into dynamic demand drive force. The dynamic demand drive force converted from the static demand drive force is accommodated in relation to the dynamic demand drive force set in another system. | 10-28-2010 |
20100305823 | AUTOMATIC TRANSMISSION CONTROL APPARATUS, CONTROL METHOD, PROGRAM FOR REALIZING THAT METHOD, AND RECORDING MEDIUM ON WHICH THAT PROGRAM IS RECORDED - An ECU controls an automatic transmission that can be manually shifted. The ECU executes a program that includes i) the step of, when there are a plurality of allowed gears that are allowed at the time of a downshift operation (i.e., YES in S | 12-02-2010 |
20110208394 | CONTROL DEVICE AND CONTROL METHOD FOR VEHICLE - A target gear ratio calculation unit calculates a target gear ratio TGR of a transmission. A setting unit sets a target gear TG according to target gear ratio TGR. A multi-speed transmission control unit controls the transmission according to target gear TG. A target driving force calculation unit calculates target driving force TF of a vehicle. A correction unit corrects target driving force TF according to a gear ratio of the transmission. A conversion unit converts target driving force TF into target engine torque TTE. An engine control unit controls an engine according to target engine torque TTE. Modules used for the engine control unit, the target driving force calculation unit, the conversion unit, and the target gear ratio calculation unit are used in common in a case where the transmission is a multi-speed transmission and in a case where the transmission is a continuously variable transmission. The setting unit and the correction unit are implemented when the transmission is a multi-speed transmission. | 08-25-2011 |
20110288732 | CONTROL APPARATUS AND CONTROL METHOD FOR VEHICLE - A dynamic threshold value when an engine, an automatic transmission and the like are in a transition state is calculated in accordance with a static threshold value determined based on a state where the engine, the automatic transmission and the like are stabilized. The engine and the automatic transmission are controlled in accordance with a result of comparison between target drive force or target engine torque and the dynamic threshold value. | 11-24-2011 |
20140148985 | CONTROL SYSTEM AND CONTROL METHOD FOR HYBRID VEHICLE - A control system for a hybrid vehicle includes a controller. When a downshift of a transmission and an increase in an amount of regeneration are carried out during regenerative coast traveling in which regeneration is carried out by an electric motor, and when a state of charge of a battery is lower than a predetermined value, the controller increases the amount of regeneration before completion of the downshift. When the state of charge of the battery is higher than or equal to the predetermined value, the controller increases the amount of regeneration after completion of the downshift. | 05-29-2014 |
20140221152 | CONTROL APPARATUS FOR HYBRID VEHICLE - Embodiments of control apparatus for hybrid vehicles are described which reduce the heat generated by a clutch and improve the response of the hybrid vehicle when an operator requests a high degree of acceleration while starting the engine and the transmission is required to perform a shift-down. In one embodiment, when the engine is required to start while the transmission is required to perform a shift-down action, the control apparatus holds a hydraulic pressure of a releasing side clutch of the transmission at a predetermined lowest stand-by value preventing a slipping action of the releasing side clutch, while a clutch K | 08-07-2014 |
20140221156 | CONTROL DEVICE AND CONTROL METHOD FOR VEHICLE - A control device for a vehicle that includes an engine, a motor, and a clutch provided in a power transmission path between the engine and the motor. The control device includes an ECU. The ECU is configured to switch travel states of the vehicle from a first to a second travel state. In the first travel state, the vehicle travels by using driving force generated by at least the engine while the clutch is engaged. In the second travel state, the vehicle travels by using driving force generated by the motor while the engine is stopped and the clutch is disengaged. The ECU is configured to maintain an operation of the engine and keep the clutch engaged after target driving force of the engine changes to a negative value when disengagement of the clutch is prohibited in switching from the first travel state to the second travel state. | 08-07-2014 |
20140222269 | CONTROL APPARATUS FOR HYBRID VEHICLE - Embodiments described herein relate to control apparatuses for hybrid vehicles which permit starting the engine and a shift-down action of the transmission while assuring not only a reduction of the heat generated by a clutch, but also an improvement in the response of the vehicle to an operator's desire for high drivability. In one embodiment, the control apparatus controls the hybrid vehicle such that when the transmission is required to be shifted down while the hybrid vehicle is switched from a motor drive mode to an engine drive mode, a time of initiation of the shift-down action of the transmission is delayed by a longer length of time when a temperature of the clutch upon initiation of an engine starting control to start the engine is relatively high than when the temperature is relatively low. Various other embodiments of control apparatuses for hybrid vehicles are also described. | 08-07-2014 |
20140222270 | CONTROL APPARATUS FOR HYBRID VEHICLE - The embodiments described herein relate to control apparatuses for hybrid vehicles which permit starting of an engine and a shift-down action of a transmission, while assuring a reduction of heat generated by a clutch and an improvement of a response of the hybrid vehicle to a vehicle operator's desire for high drivability. In one embodiment, the control apparatus controls the hybrid vehicle such that, when the transmission is required to be shifted down while the hybrid vehicle is switched from the motor drive mode to the engine drive mode, a rate of change of the input speed of said transmission is lower than when only the shift-down action is required to be performed, such that the rate of change of the input speed is relatively low when the input speed of the transmission to be established upon completion of the shift-down action is relatively high. | 08-07-2014 |