Patents by Inventor Makoto Yamakado
Makoto Yamakado has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
-
Publication number: 20240294185Abstract: In an aspect of a vehicle control device, a vehicle control method, a target trajectory calculation method, and a vehicle according to the present invention, an offset amount of a coordinate value or a curvature is determined for each item of basic trajectory coordinate data on a basis of the basic trajectory coordinate data on at least a part or all of a two-dimensional coordinate value, a trajectory curvature, and a trajectory azimuth angle at coordinates arranged in ascending order of arc length from a certain position serving as an origin point, new target trajectory coordinate data is determined by adding the offset amount to each item of the basic trajectory coordinate data, and a trajectory of a vehicle is controlled on a basis of the new target trajectory coordinate data. Thus, a target trajectory with an out-in-out line can be obtained as in steering by an expert driver.Type: ApplicationFiled: February 25, 2022Publication date: September 5, 2024Inventors: Yu SATO, Makoto YAMAKADO, Masato ABE, Yoshio KANO, Yusuke TANAKA
-
Patent number: 12049216Abstract: A vehicle control method is applied to a vehicle 1 in which a front wheel 2 is driven by an engine 4, and the method includes a basic torque setting step of setting basic torque to be generated by the engine 4, based on an operational state of the vehicle 1; a deceleration torque setting step of setting deceleration torque, based on an increase in steering angle of a steering apparatus 5 mounted on the vehicle 1; a torque generation step of controlling the engine 4 so that torque based on the basic torque and the deceleration torque is generated; and a deceleration torque changing step of changing the deceleration torque, based on a vehicle-width-direction mounting position of a steering wheel 6 and an operation direction of the steering wheel 6 when the steering angle is increased.Type: GrantFiled: September 4, 2019Date of Patent: July 30, 2024Assignees: MAZDA MOTOR CORPORATION, IKUTOKU GAKUENInventors: Takatoshi Tsukano, Shohei Yamada, Daisuke Umetsu, Fuminori Kato, Osamu Sunahara, Masato Abe, Makoto Yamakado, Yoshio Kano, Kazuki Sato
-
Publication number: 20240140399Abstract: In one mode, with a vehicle control apparatus, a vehicle control method, and a vehicle control system according to the present invention, a control command is output for operating an actuator unit mounted in a vehicle, so as to obtain a control moment including at least one of a roll moment, a pitch moment, and a yaw moment that are generated for the vehicle before a curve on a traveling road on which the vehicle runs, based on a physical quantity about a curvature ahead on the traveling road and a physical quantity about a speed of the vehicle. In this way, the passenger's sense of security when the vehicle runs on the curve may be improved.Type: ApplicationFiled: June 2, 2022Publication date: May 2, 2024Inventors: Daisuke NOMA, Kentaro UENO, Makoto YAMAKADO, Yoshio KANO, Masato ABE
-
Patent number: 11772633Abstract: A vehicle control method is applied to a vehicle 1 in which a front wheel 2 is driven by an engine 4, and the method includes a basic torque setting step of setting basic torque to be generated by the engine 4, based on an operational state of the vehicle 1; an acceleration torque setting step of setting acceleration torque, based on a reduction in steering angle of a steering apparatus 5 mounted on the vehicle 1; a torque generation step of controlling the engine 4 so that torque based on the basic torque and the acceleration torque is generated; and an acceleration torque changing step of changing the acceleration torque, based on a vehicle-width-direction mounting position of a steering wheel 6 and an operation direction of the steering wheel 6 when the steering angle is reduced.Type: GrantFiled: September 4, 2019Date of Patent: October 3, 2023Assignees: MAZDA MOTOR CORPORATION, IKUTOKU GAKUENInventors: Takatoshi Tsukano, Shohei Yamada, Daisuke Umetsu, Fuminori Kato, Osamu Sunahara, Masato Abe, Makoto Yamakado, Yoshio Kano, Kazuki Sato
-
Publication number: 20230256957Abstract: Provided is a vehicle posture control device configured to be installed in a vehicle provided with an actuator configured to generate a roll moment. The device includes a roll moment calculator (24) and an actuator controller (25). The roll moment calculator (24) is configured to calculate a roll moment command value to control the actuator such that a roll motion is generated in conjunction with a yaw motion in the vehicle (1) during turning thereof. The roll moment calculator (24) is configured to calculate the roll moment command value for output, on the basis of a sideslip angular velocity and a vehicle velocity of the vehicle. The actuator controller (25) is configured to control the actuator by using the calculated roll moment command value.Type: ApplicationFiled: April 13, 2023Publication date: August 17, 2023Applicants: NTN CORPORATION, SCHOOL JUDICIAL PERSON IKUTOKU GAKUENInventors: Junichi HIRATA, Makoto YAMAKADO
-
Patent number: 11667275Abstract: A control apparatus of a vehicle includes: a steering apparatus (6) including a steering wheel (11) operated in order to turn a vehicle (1) and a steering angle sensor (8) that detects a steering angle of the steering wheel (11), the steering apparatus (6) steering a front wheel (steered wheel) (2) of the vehicle (1) in accordance with operation of the steering wheel (11); and a controller (14) that sets a steering angle acceleration based on the steering angle detected by the steering angle sensor (8) and controls vehicle motion when the steering wheel (11) is operated to be turned. In particular, the controller (14) suppresses a rise of lateral acceleration of the vehicle (1) based on the steering angle acceleration in order to control the vehicle motion.Type: GrantFiled: February 19, 2019Date of Patent: June 6, 2023Assignees: MAZDA MOTOR CORPORATION, IKUTOKU GAKUENInventors: Takatoshi Tsukano, Masato Abe, Makoto Yamakado, Yoshio Kano, Kazuki Sato
-
Patent number: 11459029Abstract: The steering system includes: a first steering device to-steer left and right wheels in a mechanically associated manner by changing an angle of left and right chassis frame components; and a second steering device to drive a supplementary turning actuator to change angles of the wheels relative to the chassis frame components. The second steering device includes a supplementary turning control section to perform a control to cause turning by a steering angle that is a difference between a steering angle determined by a numerical model of vehicle motion on the basis of the steering command angle and the vehicle velocity and an actual steering angle.Type: GrantFiled: September 18, 2020Date of Patent: October 4, 2022Assignee: NTN CORPORATIONInventors: Norio Ishihara, Atsushi Itou, Masato Abe, Yoshio Kano, Makoto Yamakado, Mitsunori Ishibashi
-
Publication number: 20210339735Abstract: A vehicle control method is applied to a vehicle 1 in which a front wheel 2 is driven by an engine 4, and the method includes a basic torque setting step of setting basic torque to be generated by the engine 4, based on an operational state of the vehicle 1; an acceleration torque setting step of setting acceleration torque, based on a reduction in steering angle of a steering apparatus 5 mounted on the vehicle 1; a torque generation step of controlling the engine 4 so that torque based on the basic torque and the acceleration torque is generated; and an acceleration torque changing step of changing the acceleration torque, based on a vehicle-width-direction mounting position of a steering wheel 6 and an operation direction of the steering wheel 6 when the steering angle is reduced.Type: ApplicationFiled: September 4, 2019Publication date: November 4, 2021Applicants: MAZDA MOTOR CORPORATION, IKUTOKU GAKUENInventors: Takatoshi TSUKANO, Shohei YAMADA, Daisuke UMETSU, Fuminori KATO, Osamu SUNAHARA, Masato ABE, Makoto YAMAKADO, Yoshio KANO, Kazuki SATO
-
Publication number: 20210316717Abstract: A vehicle control method is applied to a vehicle 1 in which a front wheel 2 is driven by an engine 4, and the method includes a basic torque setting step of setting basic torque to be generated by the engine 4, based on an operational state of the vehicle 1; a deceleration torque setting step of setting deceleration torque, based on an increase in steering angle of a steering apparatus 5 mounted on the vehicle 1; a torque generation step of controlling the engine 4 so that torque based on the basic torque and the deceleration torque is generated; and a deceleration torque changing step of changing the deceleration torque, based on a vehicle-width-direction mounting position of a steering wheel 6 and an operation direction of the steering wheel 6 when the steering angle is increased.Type: ApplicationFiled: September 4, 2019Publication date: October 14, 2021Applicants: MAZDA MOTOR CORPORATION, IKUTOKU GAKUENInventors: Takatoshi TSUKANO, Shohei YAMADA, Daisuke UMETSU, Fuminori KATO, Osamu SUNAHARA, Masato ABE, Makoto YAMAKADO, Yoshio KANO, Kazuki SATO
-
Publication number: 20210009108Abstract: A control apparatus of a vehicle includes: a steering apparatus (6) including a steering wheel (11) operated in order to turn a vehicle (1) and a steering angle sensor (8) that detects a steering angle of the steering wheel (11), the steering apparatus (6) steering a front wheel (steered wheel) (2) of the vehicle (1) in accordance with operation of the steering wheel (11); and a controller (14) that sets a steering angle acceleration based on the steering angle detected by the steering angle sensor (8) and controls vehicle motion when the steering wheel (11) is operated to be turned. In particular, the controller (14) suppresses a rise of lateral acceleration of the vehicle (1) based on the steering angle acceleration in order to control the vehicle motion.Type: ApplicationFiled: February 19, 2019Publication date: January 14, 2021Applicants: MAZDA MOTOR CORPORATION, IKUTOKU GAKUENInventors: Takatoshi TSUKANO, Masato ABE, Makoto YAMAKADO, Yoshio KANO, Kazuki SATO
-
Publication number: 20210001921Abstract: The steering system includes: a first steering device to-steer left and right wheels in a mechanically associated manner by changing an angle of left and right chassis frame components; and a second steering device to drive a supplementary turning actuator to change angles of the wheels relative to the chassis frame components. The second steering device includes a supplementary turning control section to perform a control to cause turning by a steering angle that is a difference between a steering angle determined by a numerical model of vehicle motion on the basis of the steering command angle and the vehicle velocity and an actual steering angle.Type: ApplicationFiled: September 18, 2020Publication date: January 7, 2021Applicant: NTN CORPORATIONInventors: Norio ISHIHARA, Atsushi ITOU, Masato ABE, Yoshio KANO, Makoto YAMAKADO, Mitsunori ISHIBASHI
-
Patent number: 10384673Abstract: The purpose of the present invention is to provide a device and method for controlling vehicle motion and a vehicle equipped with the device, such that driving force and/or braking force is properly distributed between front wheels and rear wheels so that steering characteristics are made suitable and controllability and stability improve. This device comprises a means for controlling braking and/or driving force distribution between the front wheels and rear wheels of a vehicle such that when the absolute value of lateral acceleration of the vehicle increases, the distribution to the front wheels is made smaller, and when the absolute value of lateral acceleration of the vehicle decreases, the distribution to the front wheels is made larger.Type: GrantFiled: July 27, 2015Date of Patent: August 20, 2019Assignee: Hitachi Automotive Systems, Ltd.Inventors: Makoto Yamakado, Toshiyuki Innami, Keiichiro Nagatsuka
-
Patent number: 10286910Abstract: Provided is a vehicle running control apparatus capable of controlling a vehicle comfortably while inhibiting an uncomfortable feeling of a driver in consideration of dimensions of longitudinal acceleration requirements for the vehicle. This vehicle running control apparatus includes: a first control command value calculation unit configured to calculate a first control command value that controls vehicle longitudinal acceleration; a second control command value calculation unit configured to calculate a second control command value that controls longitudinal acceleration according to a lateral jerk that acts on the vehicle; a correction determination processing unit configured to determine whether to make correction based on the first control command value and the second control command value; and a correction processing unit configured, when the correction determination processing unit determines that correction is needed, to correct the first control command value based on the second control command value.Type: GrantFiled: June 13, 2014Date of Patent: May 14, 2019Assignee: Hitachi Automotive Systems, Ltd.Inventors: Keiichiro Nagatsuka, Makoto Yamakado, Mitsuhide Sasaki, Mikio Ueyama
-
Patent number: 10059344Abstract: A tire load calculation section of a controller calculates tire load factors of the respective wheels. A target tire load-factor calculation section calculates a tire load factor average value (?ave) obtained by averaging the tire load factors (?i) of the respective wheels as a target tire load factor. A target tire vertical-load calculation section calculates target tire vertical loads (Fzrefi) for the respective wheels so that the tire load factors of the respective wheels become equal to the tire load factor average value. A vertical-load control section and a suspension control section control thrusts of electromagnetic dampers for the respective wheels so as to achieve the target tire vertical loads.Type: GrantFiled: August 26, 2014Date of Patent: August 28, 2018Assignee: HITACHI AUTOMOTIVE SYSTEMS, LTD.Inventors: Ryusuke Hirao, Nobuyuki Ichimaru, Yasuhiro Aoki, Makoto Yamakado
-
Patent number: 9990332Abstract: A vehicle motion control device includes curve shape acquisition means for acquiring a shape of a curve present in front of a currently traveling vehicle, vehicle position acquisition means for acquiring a position of the vehicle, and vehicle motion control arithmetic means for computing, on the basis of the shape of the curve and the position of the vehicle, a command value relating to longitudinal acceleration to be caused to the vehicle. During a time interval from before the vehicle reaches a near end of the curve, until the vehicle has approached the curve and traveled to a site having a constant or maximum curvature of the curve, the vehicle motion control arithmetic means computes a plurality of different negative longitudinal acceleration command values. Thus, even when there is no lateral motion, the vehicle motion control device accelerates/decelerates the vehicle while improving a driver's feeling of slowdown.Type: GrantFiled: July 19, 2011Date of Patent: June 5, 2018Assignee: Hitachi Automotive Systems, Ltd.Inventors: Junya Takahashi, Makoto Yamakado, Shinjiro Saito
-
Patent number: 9919603Abstract: The present invention improves emergency evasion performance. An operation control system for a vehicle that is provided with a risk-potential determining unit that determines the risk potential of a vehicle on the basis of external environment information and/or vehicle information, a friction braking unit that applies friction braking force to the vehicle, and a regenerative braking device that applies regenerative braking force to the vehicle, the operation control system being provided with a control value determining unit that determines a first control value that is for determining the size of the friction braking force and determines a second control value that is for determining the size of the regenerative braking force. The control value determining unit determines at least the first control value on the basis of the risk potential determined by the risk-potential determining unit.Type: GrantFiled: January 28, 2015Date of Patent: March 20, 2018Assignee: Hitachi Automotive Systems, Ltd.Inventors: Makoto Yamakado, Keiichiro Nagatsuka, Junya Takahashi, Mitsuhide Sasaki, Toshiyuki Innami, Mikio Ueyama
-
Patent number: 9821800Abstract: A processor for a vehicle includes a vehicle yaw moment instruction calculator, and a mode under which yaw moment of the vehicle is controlled. If the vehicle yaw moment instruction value generates the driving forces or the driving torques, the driving forces or driving torques are different between the left and right wheels. If the vehicle yaw moment instruction value generates the braking forces or the braking torques, the braking forces or the braking torques are different between the left and right wheels. The mode operates at least in transit region between daily region and limit region.Type: GrantFiled: March 10, 2017Date of Patent: November 21, 2017Assignee: Hitachi Automotive Systems, Ltd.Inventors: Makoto Yamakado, Mitsuhide Sasaki, Mikio Ueyama, Keiichiro Nagatsuka
-
Publication number: 20170305416Abstract: The purpose of the present invention is to provide a device and method for controlling vehicle motion and a vehicle equipped with the device, such that driving force and/or braking force is properly distributed between front wheels and rear wheels so that steering characteristics are made suitable and controllability and stability improve. This device comprises a means for controlling braking and/or driving force distribution between the front wheels and rear wheels of a vehicle such that when the absolute value of lateral acceleration of the vehicle increases, the distribution to the front wheels is made smaller, and when the absolute value of lateral acceleration of the vehicle decreases, the distribution to the front wheels is made larger.Type: ApplicationFiled: July 27, 2015Publication date: October 26, 2017Inventors: Makoto YAMAKADO, Toshiyuki INNAMI, Keiichiro NAGATSUKA
-
Publication number: 20170183000Abstract: A processor for a vehicle includes a vehicle yaw moment instruction calculator, and a mode under which yaw moment of the vehicle is controlled. If the vehicle yaw moment instruction value generates the driving forces or the driving torques, the driving forces or driving torques are different between the left and right wheels. If the vehicle yaw moment instruction value generates the braking forces or the braking torques, the braking forces or the braking torques are different between the left and right wheels. The mode operates at least in transit region between daily region and limit region.Type: ApplicationFiled: March 10, 2017Publication date: June 29, 2017Inventors: Makoto YAMAKADO, Mitsuhide SASAKI, Mikio UEYAMA, Keiichiro NAGATSUKA
-
Patent number: 9643607Abstract: Disclosed is a vehicle motion control system that can control a vehicle without making a driver feel uncomfortable.Type: GrantFiled: December 20, 2013Date of Patent: May 9, 2017Assignee: HITACHI AUTOMOTIVE SYSTEMS, LTD.Inventors: Keiichiro Nagatsuka, Makoto Yamakado, Mikio Ueyama, Mitsuhide Sasaki