Patents by Inventor Tatsuya Namikiri
Tatsuya Namikiri 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).
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Patent number: 11731647Abstract: A road shape recognizer includes a peripheral information recognizer that recognizes at least two items of peripheral information based on an output of a periphery detector. A reliability assigner assigns a reliability level to each of the peripheral information. A point sequence generator generates and places a point sequence representing a shape of a road on which the own vehicle travels, based on at least two items of peripheral information and the reliability level. The point sequence generator generates and places a point sequence by generating and placing points one by one toward a distant place from a point located at a prescribed relative position to the own vehicle. The point sequence generator generates and places the next point corresponding to an amount of change in shape and a position of a point generated and placed at the end of the point sequence. The amount of change in shape is represented by the peripheral information and determined per section having a prescribed distance.Type: GrantFiled: June 21, 2021Date of Patent: August 22, 2023Assignee: DENSO CORPORATIONInventors: Masaya Okada, Takumi Uematsu, Tatsuya Namikiri, Naru Sugimoto
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Publication number: 20230014570Abstract: A route generation device includes: an autonomous route generator configured to generate, based on surrounding information around an own vehicle detected by a vehicle-mounted detector, an expected autonomous route along which the own vehicle is to travel; a map route acquirer configured to acquire an expected map route along which the own vehicle is to travel based on map data; and an integrated route generator configured to generate an integrated route using the autonomous route and the map route.Type: ApplicationFiled: September 28, 2022Publication date: January 19, 2023Inventors: Naohiro FUJIWARA, Makoto OHKADO, Tatsuya NAMIKIRI
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Publication number: 20210394779Abstract: A road shape recognizer includes a peripheral information recognizer that recognizes at least two items of peripheral information based on an output of a periphery detector. A reliability assigner assigns a reliability level to each of the peripheral information. A point sequence generator generates and places a point sequence representing a shape of a road on which the own vehicle travels, based on at least two items of peripheral information and the reliability level. The point sequence generator generates and places a point sequence by generating and placing points one by one toward a distant place from a point located at a prescribed relative position to the own vehicle. The point sequence generator generates and places the next point corresponding to an amount of change in shape and a position of a point generated and placed at the end of the point sequence. The amount of change in shape is represented by the peripheral information and determined per section having a prescribed distance.Type: ApplicationFiled: June 21, 2021Publication date: December 23, 2021Inventors: Masaya OKADA, Takumi UEMATSU, Tatsuya NAMIKIRI, Naru SUGIMOTO
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Patent number: 10239522Abstract: In an inter-vehicle control apparatus, a controller performs acceleration control of an own vehicle, based on an actual inter-vehicle physical quantity and a target inter-vehicle physical quantity. A limiter sets a limit value for a target jerk during the acceleration control. A detector detects an occurrence of at least one of: an event in which the inter-vehicle distance becomes discontinuously shorter; and an event in which a target inter-vehicle distance corresponding to the target inter-vehicle physical quantity becomes discontinuously longer. A determiner determines a risk of collision with the preceding vehicle, based on an operation state of the preceding vehicle in relation to the own vehicle. When at least one of the events is detected, the limiter sets the limit value to a value based on the risk of collision such that change in deceleration of the own vehicle is kept lower as the risk of collision decreases.Type: GrantFiled: November 1, 2016Date of Patent: March 26, 2019Assignee: DENSO CORPORATIONInventors: Takuma Sudou, Jin Kurumisawa, Toyohito Nozawa, Tatsuya Namikiri
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Patent number: 9694815Abstract: A vehicle driving control apparatus is provided for controlling an own vehicle to track a target vehicle. The vehicle driving control apparatus includes: (1) means for acquiring an actual relative speed of the target vehicle to the own vehicle; (2) means for setting a target acceleration of the own vehicle based on the product of a relative speed gain and the actual relative speed acquired by the acquiring means, the relative speed gain being normally set to a reference gain; (3) means for detecting occurrence of an event which causes the target acceleration set by the setting means to discontinuously change; and (4) means for correcting, upon detection of occurrence of the event by the detecting means, the relative speed gain so as to gradually increase the relative speed gain from a value that is less than the reference gain.Type: GrantFiled: February 19, 2015Date of Patent: July 4, 2017Assignee: DENSO CORPORATIONInventors: Takuma Sudou, Jin Kurumisawa, Tatsuya Namikiri
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Patent number: 9638788Abstract: An apparatus that detects creeping of radar waves includes: a transmitter transmitting radar waves; a receiver receiving incoming waves from a target; a distance detecting unit detecting a first distance which is a distance up to the target; a speed derivation unit deriving a relative speed relative to the target; a distance estimating unit estimating, based on the relative speed, a second distance which is a distance up to the target; and a creeping detecting unit determining whether or not a creeping has occurred in accordance with whether or not the differential distance representing a deviation quantity between the first distance and the second distance is larger than or equal to a predetermined threshold.Type: GrantFiled: September 19, 2014Date of Patent: May 2, 2017Assignee: DENSO CORPORATIONInventors: Toyohito Nozawa, Tatsuya Namikiri
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Patent number: 9588222Abstract: A preceding vehicle selection apparatus estimates a curvature of a road on which an own vehicle is traveling, detects an object ahead of the own vehicle, and determines a relative position in relation to the own vehicle. Based on the curvature and the relative position, an own vehicle lane probability instantaneous value is determined. This instantaneous value is a probability of the object ahead being present in the same vehicle lane as the own vehicle. By a filter calculation on the instantaneous value, an own vehicle lane probability is determined. Based on the own vehicle lane probability, a preceding vehicle is selected. An inter-vehicle time required for the own vehicle to reach a detection position of the object ahead is calculated. Based on the inter-vehicle time, characteristics of the filter calculation are changed such that an effect of the own vehicle lane instantaneous value increases as the inter-vehicle time decreases.Type: GrantFiled: September 29, 2014Date of Patent: March 7, 2017Assignee: DENSO CORPORATIONInventors: Takuma Sudou, Jin Kurumisawa, Toyohito Nozawa, Tatsuya Namikiri
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Patent number: 9580072Abstract: A preceding vehicle selection apparatus estimates a curvature of a traveling road on which an own vehicle is traveling, detects an object ahead of the own vehicle, and determines a relative position in relation to the own vehicle, for each object ahead. Based on the estimated curvature and the determined relative position, an own vehicle lane probability instantaneous value for each object ahead is repeatedly determined. An own vehicle lane probability is determined by performing a filter calculation on the calculated own vehicle lane probability instantaneous value. Based on the determined own vehicle lane probability, a preceding vehicle is selected. Characteristics of the filter calculation are set such that an object ahead associated with a preceding vehicle selected in a previous processing cycle is relatively less affected by the own vehicle lane probability instantaneous value than an object ahead associated with an object other than the preceding vehicle.Type: GrantFiled: October 2, 2014Date of Patent: February 28, 2017Assignee: DENSO CORPORATIONInventors: Takuma Sudou, Jin Kurumisawa, Toyohito Nozawa, Tatsuya Namikiri
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Publication number: 20170043770Abstract: In an inter-vehicle control apparatus, a controller performs acceleration control of an own vehicle, based on an actual inter-vehicle physical quantity and a target inter-vehicle physical quantity. A limiter sets a limit value for a target jerk during the acceleration control. A detector detects an occurrence of at least one of: an event in which the inter-vehicle distance becomes discontinuously shorter; and an event in which a target inter-vehicle distance corresponding to the target inter-vehicle physical quantity becomes discontinuously longer. A determiner determines a risk of collision with the preceding vehicle, based on an operation state of the preceding vehicle in relation to the own vehicle. When at least one of the events is detected, the limiter sets the limit value to a value based on the risk of collision such that change in deceleration of the own vehicle is kept lower as the risk of collision decreases.Type: ApplicationFiled: November 1, 2016Publication date: February 16, 2017Inventors: Takuma SUDOU, Jin KURUMISAWA, Toyohito NOZAWA, Tatsuya NAMIKIRI
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Patent number: 9511766Abstract: In an inter-vehicle control apparatus, a controller performs acceleration control of an own vehicle, based on an actual inter-vehicle physical quantity and a target inter-vehicle physical quantity. A limiter sets a limit value for a target jerk during the acceleration control. A detector detects an occurrence of at least one of: an event in which the inter-vehicle distance becomes discontinuously shorter; and an event in which a target inter-vehicle distance corresponding to the target inter-vehicle physical quantity becomes discontinuously longer. A determiner determines a risk of collision with the preceding vehicle, based on an operation state of the preceding vehicle in relation to the own vehicle. When at least one of the events is detected, the limiter sets the limit value to a value based on the risk of collision such that change in deceleration of the own vehicle is kept lower as the risk of collision decreases.Type: GrantFiled: December 18, 2014Date of Patent: December 6, 2016Assignee: DENSO CORPORATIONInventors: Takuma Sudou, Jin Kurumisawa, Toyohito Nozawa, Tatsuya Namikiri
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Patent number: 9507016Abstract: In a preceding vehicle selection apparatus, for each object ahead, a relative position, a relative speed, and width information indicating a lateral width are determined. A lateral position of the object ahead with reference to a traveling direction of the own vehicle is corrected by using the width information of the object ahead. Based on the relative position of the object ahead of, which the lateral position has been corrected, an own vehicle lane probability is calculated for each object ahead. A preceding vehicle is selected from the objects ahead based on the calculated own vehicle lane probability. Based on a value of a correlated parameter that has correlation with error in the lateral position or error in the width information, a correction amount of the lateral position is reduced as error in the lateral position or error in the width information becomes large.Type: GrantFiled: October 9, 2014Date of Patent: November 29, 2016Assignee: DENSO CORPORATIONInventors: Takuma Sudou, Jin Kurumisawa, Toyohito Nozawa, Tatsuya Namikiri
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Patent number: 9434363Abstract: When a vehicle runs along a curved path, successive values of a speed limit are calculated based on the yaw rate of the vehicle, and values of acceleration demand are calculated and applied to control the actual vehicle speed based on the speed limit. If commencement of oscillation of the yaw rate and acceleration demand is detected, due to running along the curved path, guard processing is applied to the values of speed limit used to calculate the acceleration demand or is applied to the acceleration demand, such as to prevent the acceleration demand from varying in a direction that would increase the speed limit. Instability of deceleration control due to the oscillation is thereby substantially suppressed.Type: GrantFiled: October 24, 2013Date of Patent: September 6, 2016Assignee: DENSO CORPORATIONInventors: Jin Kurumisawa, Toyohito Nozawa, Tatsuya Namikiri
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Patent number: 9327727Abstract: A vehicle driving control apparatus is provided for controlling an own vehicle to track a target vehicle. The vehicle driving control apparatus includes: (1) means for acquiring an actual relative speed of the target vehicle to the own vehicle; (2) means for detecting occurrence of an event which causes the actual relative speed to discontinuously change; (3) means for setting a target acceleration of the own vehicle based on the product of a relative speed gain and a tracking relative speed when the own vehicle tracks the target vehicle, the tracking relative speed being normally set to the actual relative speed; and (4) means for correcting, upon detection of occurrence of the event by the detecting means, the tracking relative speed so as to gradually increase the absolute value of the tracking relative speed from a value that is less than the absolute value of the actual relative speed.Type: GrantFiled: February 10, 2015Date of Patent: May 3, 2016Assignee: DENSO CORPORATIONInventors: Takuma Sudou, Jin Kurumisawa, Takaomi Kinugawa, Toyohito Nozawa, Tatsuya Namikiri
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Patent number: 9114810Abstract: A preceding vehicle selection apparatus detects an object ahead of the own vehicle, and determines a relative position and a relative speed in relation to the own vehicle for each object ahead. Based on detection results of the object ahead, a lateral movement speed of the object ahead is determined. Based on the calculated lateral movement speed, the lateral position of the object ahead with reference to a traveling direction of the own vehicle is corrected. Based on the relative position of the object ahead of which the lateral position has been corrected, an own vehicle lane probability for each object ahead is calculated. Based on the calculated probability, a preceding vehicle from the objects ahead is selected. Based on a distance to the object ahead, the lateral position of the object ahead is corrected such that an amount of correction in the lateral position decreases as the distance increases.Type: GrantFiled: October 2, 2014Date of Patent: August 25, 2015Assignee: DENSO CORPORATIONInventors: Takuma Sudou, Jin Kurumisawa, Toyohito Nozawa, Tatsuya Namikiri
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Publication number: 20150232094Abstract: A vehicle driving control apparatus is provided for controlling an own vehicle to track a target vehicle. The vehicle driving control apparatus includes: (1) means for acquiring an actual relative speed of the target vehicle to the own vehicle; (2) means for setting a target acceleration of the own vehicle based on the product of a relative speed gain and the actual relative speed acquired by the acquiring means, the relative speed gain being normally set to a reference gain; (3) means for detecting occurrence of an event which causes the target acceleration set by the setting means to discontinuously change; and (4) means for correcting, upon detection of occurrence of the event by the detecting means, the relative speed gain so as to gradually increase the relative speed gain from a value that is less than the reference gain.Type: ApplicationFiled: February 19, 2015Publication date: August 20, 2015Inventors: TAKUMA SUDOU, JIN KURUMISAWA, TATSUYA NAMIKIRI
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Publication number: 20150224991Abstract: A vehicle driving control apparatus is provided for controlling an own vehicle to track a target vehicle. The vehicle driving control apparatus includes: (1) means for acquiring an actual relative speed of the target vehicle to the own vehicle; (2) means for detecting occurrence of an event which causes the actual relative speed to discontinuously change; (3) means for setting a target acceleration of the own vehicle based on the product of a relative speed gain and a tracking relative speed when the own vehicle tracks the target vehicle, the tracking relative speed being normally set to the actual relative speed; and (4) means for correcting, upon detection of occurrence of the event by the detecting means, the tracking relative speed so as to gradually increase the absolute value of the tracking relative speed from a value that is less than the absolute value of the actual relative speed.Type: ApplicationFiled: February 10, 2015Publication date: August 13, 2015Inventors: TAKUMA SUDOU, JIN KURUMISAWA, TAKAOMI KINUGAWA, TOYOHITO NOZAWA, TATSUYA NAMIKIRI
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Publication number: 20150175160Abstract: In an inter-vehicle control apparatus, a controller performs acceleration control of an own vehicle, based on an actual inter-vehicle physical quantity and a target inter-vehicle physical quantity. A limiter sets a limit value for a target jerk during the acceleration control. A detector detects an occurrence of at least one of: an event in which the inter-vehicle distance becomes discontinuously shorter; and an event in which a target inter-vehicle distance corresponding to the target inter-vehicle physical quantity becomes discontinuously longer. A determiner determines a risk of collision with the preceding vehicle, based on an operation state of the preceding vehicle in relation to the own vehicle. When at least one of the events is detected, the limiter sets the limit value to a value based on the risk of collision such that change in deceleration of the own vehicle is kept lower as the risk of collision decreases.Type: ApplicationFiled: December 18, 2014Publication date: June 25, 2015Inventors: TAKUMA SUDOU, JIN KURUMISAWA, TOYOHITO NOZAWA, TATSUYA NAMIKIRI
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Patent number: 9061590Abstract: A leading vehicle detecting apparatus judges whether or not a first vehicle is following a second vehicle. The apparatus includes a signal acquiring section, a storage section, and calculating section. The signal acquiring section acquires position signals outputted from a position detecting section that detects the position of the second vehicle, and detection signals outputted from a state detecting section that detects a state of a first vehicle cruising line. The storage section stores in advance a probability map showing the probability of the first vehicle following the second vehicle, based on a distance between an expected cruising line of the first vehicle and the position of the second vehicle. The calculating section calculates the expected cruising line based on the detection signals, and judges whether the first vehicle is following the second vehicle based on the expected cruising line, position signals, and probability map.Type: GrantFiled: December 13, 2012Date of Patent: June 23, 2015Assignee: DENSO CORPORATIONInventors: Jin Kurumisawa, Tatsuya Namikiri
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Publication number: 20150112580Abstract: In a preceding vehicle selection apparatus, for each object ahead, a relative position, a relative speed, and width information indicating a lateral width are determined. A lateral position of the object ahead with reference to a traveling direction of the own vehicle is corrected by using the width information of the object ahead. Based on the relative position of the object ahead of, which the lateral position has been corrected, an own vehicle lane probability is calculated for each object ahead. A preceding vehicle is selected from the objects ahead based on the calculated own vehicle lane probability. Based on a value of a correlated parameter that has correlation with error in the lateral position or error in the width information, a correction amount of the lateral position is reduced as error in the lateral position or error in the width information becomes large.Type: ApplicationFiled: October 9, 2014Publication date: April 23, 2015Inventors: Takuma SUDOU, Jin KURUMISAWA, Toyohito NOZAWA, Tatsuya NAMIKIRI
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Patent number: 9015100Abstract: The preceding vehicle identifying apparatus calculates an integrated probability of existence of a curved road ahead of an own vehicle based on at least two of the curvature of the curved road, the track of a vehicle running ahead of the own vehicle and the own vehicle' having entered the curved road. The preceding vehicle identifying apparatus further calculates an own-vehicle lane probability which is a probability that the vehicle is running in the same lane as an own-vehicle lane in which the own vehicle is running based on the distance between a predicted running line of the own vehicle and the track of the vehicle running ahead of the own vehicle, and compensates the calculated own-vehicle lane probability based on the integrated probability.Type: GrantFiled: November 14, 2012Date of Patent: April 21, 2015Assignee: Denso CorporationInventors: Jin Kurumisawa, Tatsuya Namikiri