Patent Applications by DENSO CORPORATION on July 18th, 2024

DENSO CORPORATION: 23 patent applications

DENSO CORPORATION has applied for patents in the areas of B60H1/32 (2), H04W56/00 (2), G01B7/30 (2), B60W30/18 (2), H04W76/20 (2) G01B7/30 (2), B60H1/3228 (1), G01N27/4141 (1), H04W72/232 (1), H04W60/04 (1)

With keywords such as: information, control, vehicle, detection, unit, apparatus, sensor, block, pbch, and braking in patent application abstracts.

Patent Applications by DENSO CORPORATION

20240239208. MOVING BODY, CONTROL DEVICE, AND PROGRAM_simplified_abstract_(denso corporation)

Inventor(s): Shigeru KAMIO of Kariya-city (JP) for denso corporation, Haibo LIU of Kariya-city (JP) for denso corporation, Keisuke KAWAI of Kariya-city (JP) for denso corporation, Tatsuya TAKAGI of Kariya-city (JP) for denso corporation, Sadahiro AKAMA of Kariya-city (JP) for denso corporation, Harumi HORIHATA of Kariya-city (JP) for denso corporation, Masaru KUBOTA of Kariya-city (JP) for denso corporation, Youichi KUROYANAGI of Kariya-city (JP) for denso corporation

IPC Code(s): B60L15/20, B60K1/02

CPC Code(s): B60L15/2036

Abstract: this vehicle comprises a first dynamo-electric machine that imparts torque to a first drive wheel, a second dynamo-electric machine that applies torque to a second drive wheel, a rotation speed sensor that acquires a first rotation speed of the first drive wheel, a rotation speed sensor that acquires a second rotation speed of the second drive wheel, and a control device. the control device includes a basic setting unit that sets a basic rotation speed, a differential setting unit that sets a differential rotation speed, and an action control unit that controls the operation of the first dynamo-electric machine and the second dynamo-electric machine so that an average value of the first rotation speed and the second rotation speed becomes the basic rotation speed, and a difference between the first rotation speed and the second rotation speed reaches the differential rotation speed.

20240239279. TILT DETECTION DEVICE, TILT DETECTION SYSTEM, TILT DETECTION METHOD, AND STORAGE MEDIUM FOR STORING TILT DETECTION PROGRAM_simplified_abstract_(denso corporation)

Inventor(s): NOBUHIKO UDA of Kariya-city (JP) for denso corporation

IPC Code(s): B60R16/023, B60R1/27, G01S17/931

CPC Code(s): B60R16/0233

Abstract: a tilt detection device for a moving object includes the first acquisition portion that acquires first tilt information detected by a first tilt sensor disposed in a sensor package housing mounted in the moving object and a peripheral monitoring sensor. the second acquisition portion acquires second tilt information detected by a second tilt sensor disposed in a portion of the moving object other than the sensor package housing. the first difference identification portion identifies a first difference between a tilt of the moving object relative to a common reference state and a tilt of the sensor package housing relative to the common reference state based on the first tilt information and the second tilt information. the tilt detection portion determines that the sensor package housing is tilted from an initial position when the first difference does not fall within a first allowable range.

20240239314. VEHICLE CONTROL APPARATUS_simplified_abstract_(denso corporation)

Inventor(s): Tomohiko INOUE of Tokyo (JP) for denso corporation, Youhei MASUI of Tokyo (JP) for denso corporation, Takeshi INOGUCHI of Chiryu-shi (JP) for denso corporation, Naoki KUSUMOTO of Okazaki-shi (JP) for denso corporation

IPC Code(s): B60T7/22, B60T17/22, B60W30/16, G07C5/08

CPC Code(s): B60T7/22

Abstract: a vehicle control apparatus performs automatic braking control of a braking apparatus of a vehicle. the vehicle control apparatus determines durability of the braking apparatus and sets a control mode of automatic braking control to a restricted mode in which operation of the braking apparatus is restricted in response to determining that the durability of the braking apparatus has decreased. the restricted mode restricts execution of operation of the braking apparatus based on a generating factor for a deceleration request of the vehicle. the vehicle control apparatus determines whether to perform braking of the vehicle based on the deceleration request, based on the restricted mode and the generating factor for the deceleration request, in response to the deceleration request of the vehicle being generated.

20240239331. MOBILE OBJECT AND PROGRAM_simplified_abstract_(denso corporation)

Inventor(s): Shigeru KAMIO of Kariya-city (JP) for denso corporation, Haibo LIU of Kariya-city (JP) for denso corporation, Keisuke KAWAI of Kariya-city (JP) for denso corporation, Tatsuya TAKAGI of Kariya-city (JP) for denso corporation, Sadahiro AKAMA of Kariya-city (JP) for denso corporation, Harumi HORIHATA of Kariya-city (JP) for denso corporation, Masaru KUBOTA of Kariya-city (JP) for denso corporation, Youichi KUROYANAGI of Kariya-city (JP) for denso corporation

IPC Code(s): B60W30/045, B60W10/08, B60W10/18, B60W30/18, B60W30/188

CPC Code(s): B60W30/045

Abstract: a mobile object includes: a first braking/driving torque application unit that applies first braking/driving torque to a right driving wheel; a second braking/driving torque application unit that applies second braking/driving torque to a left driving wheel; a right driven wheel and a left driven wheel each of which is constituted of a caster wheel; and a control unit that controls the first braking/driving torque application unit and the second braking/driving torque application unit. moreover, the control unit is configured to perform turning, advancing/reversing and braking of the mobile object by controlling the first braking/driving torque and the second braking/driving torque or by controlling rotational speed of the right driving wheel and rotational speed of the left driving wheel.

20240239343. VEHICLE CONTROL APPARATUS AND VEHICLE CONTROL PROGRAM PRODUCT_simplified_abstract_(denso corporation)

Inventor(s): Ryotaro ARAKI of Tokyo (JP) for denso corporation, Yohei MASUI of Tokyo (JP) for denso corporation, Yuji KOSAKA of Tokyo (JP) for denso corporation, Naoki KUSUMOTO of Okazaki-shi (JP) for denso corporation

IPC Code(s): B60W30/16, B60W30/14, B60W30/18

CPC Code(s): B60W30/162

Abstract: in a vehicle control apparatus, an acquiring unit acquires factor information that causes acceleration or deceleration of the own vehicle while the own vehicle is subjected to the acceleration/deceleration control. a setting unit sets, based on the factor information, a maximum level of deceleration and/or a maximum level of acceleration. the maximum level of deceleration represents a maximum rate of reduction in a speed of the own vehicle during deceleration of the own vehicle. the maximum level of acceleration represents a maximum rate of increase in the speed of the own vehicle during acceleration of the own vehicle. a control unit is operative to perform (i) deceleration control of the own vehicle using the maximum level of deceleration as an upper limit for the deceleration control, and/or (ii) acceleration control of the own vehicle using the maximum level of acceleration as an upper limit for the acceleration control.

20240239344. VEHICLE CONTROL APPARATUS_simplified_abstract_(denso corporation)

Inventor(s): Ryotaro ARAKI of Tokyo (JP) for denso corporation, Yohei MASUI of Tokyo (JP) for denso corporation, Tomohiko INOUE of Tokyo (JP) for denso corporation, Yuki YAMAGUCHI of Toyota-shi, Aichi-ken (JP) for denso corporation, Naoki KUSUMOTO of Okazaki-shi, Aichi-ken (JP) for denso corporation

IPC Code(s): B60W30/165

CPC Code(s): B60W30/165

Abstract: when determining that, with an adjacent preceding vehicle selected as a tracking-control target, (i) an operated acceleration request for an own vehicle has been inputted to a vehicle control apparatus and (ii) the adjacent preceding vehicle is likely to be changed as an own-lane preceding vehicle, the vehicle control apparatus performs tracking control of the own vehicle with respect to the adjacent preceding vehicle. when determining that, with the adjacent preceding vehicle selected as the tracking-control target, (i) the operated acceleration request for the own vehicle has been inputted to the vehicle control apparatus and (ii) the adjacent preceding vehicle is unlikely to be changed as an own-lane preceding vehicle, the vehicle control apparatus terminates the tracking control of the own vehicle.

20240240579. EXHAUST GAS PURIFICATION CONTROL DEVICE_simplified_abstract_(denso corporation)

Inventor(s): Tomohiro UENO of Kariya-City (JP) for denso corporation, Eiji TAKEMOTO of Kariya-City (JP) for denso corporation

IPC Code(s): F01N3/20, F01N11/00

CPC Code(s): F01N3/2066

Abstract: the exhaust gas purification controller is applied to a system with a catalyst and a supply valve for urea water. the exhaust gas purification controller performs an abnormality diagnosis of the supply valve, and includes a urea water filling portion, a valve opening command portion and an abnormality determiner. the urea water filling portion drives the pump at a start of operation of the exhaust gas purification system to start filling the supply passage with the urea water. the valve opening command portion outputs a valve opening command when a urea water pressure in the supply passage exceeds a predetermined valve opening pressure after filling the supply passage is started. the abnormality determiner determines presence or absence of a sticking abnormality of the supply valve based on the urea water pressure after the output of the valve opening command.

20240240929. DETECTION DEVICE_simplified_abstract_(denso corporation)

Inventor(s): NAO UEMATSU of Kariya-city (JP) for denso corporation, TOSHIHIRO FUJITA of Kariya-city (JP) for denso corporation

IPC Code(s): G01B7/30

CPC Code(s): G01B7/30

Abstract: a detection device includes a sensor and a control unit. the sensor includes at least one main detection element configured to detect a change in a physical quantity of a detection target, at least one sub detection element configured to detect a change in a physical quantity of the detection target, and a signal processing section configured to process a detection signal of the main detection element. the control unit acquires a signal from the sensor according to a change in the physical quantity of the detection target. the sensor outputs to the control unit a digital signal containing information corresponds to a detection value of the main detection element and an analog signal that corresponds to a detection value of the sub detection element.

20240240930. DETECTION DEVICE_simplified_abstract_(denso corporation)

Inventor(s): TOSHIHIRO FUJITA of Kariya-city (JP) for denso corporation, NAO UEMATSU of Kariya-city (JP) for denso corporation

IPC Code(s): G01B7/30

CPC Code(s): G01B7/30

Abstract: a sensor of a detection device includes at least one main detection element, at least one sub detection element, a main digital conversion part that digitally converts a detection signal of the main detection element, and a calculation unit that calculates a state information using the digitally converted detection signal of the main detection element. the sensor outputs a digital signal having a state information and an analog signal according to the detection signal of the sub detection elements. a control unit includes a sub digital conversion part that converts an analog signal into digital, and an abnormality detection part that performs an abnormality detection using a main information and a sub information. the abnormality detection part performs an abnormality detection using a value obtained by converting an analog signal into state information as sub information, or a value obtained by converting state information into analog output as main information.

20240240963. PARKING ASSISTANCE DEVICE AND PARKING ASSISTANCE METHOD_simplified_abstract_(denso corporation)

Inventor(s): SHINJI KITAURA of Tokyo (JP) for denso corporation, YU HIEI of Nagoya-shi (JP) for denso corporation, YUKI MINASE of Toyota-shi (JP) for denso corporation, MOTONARI OBAYASHI of Nagakute-shi (JP) for denso corporation

IPC Code(s): G01C21/36, B60W30/06, G08G1/14

CPC Code(s): G01C21/3685

Abstract: a parking assistance device is configured to search for a parking space for parking a vehicle in a parking lot based on surrounding information of the vehicle, provide a user with information for prompting a selection of a target parking space for parking the vehicle from the parking space, and set a target parking position of the vehicle based on the target parking space. the parking assistance device provides the user with area information having a range including a plurality of parking spots in the parking space as a designated range.

20240241078. ION SENSOR AND METHOD FOR DETECTING SUBSTANCE BEING DETECTED_simplified_abstract_(denso corporation)

Inventor(s): Kazuhisa NAKAGAWA of Kariya-city (JP) for denso corporation, Yuhei Shimizu of Kariya-city (JP) for denso corporation, Daisuke Kobayashi of Kariya-city (JP) for denso corporation, Masashi Suzuki of Kariya-city (JP) for denso corporation, Akira Nukazuka of Kariya-city (JP) for denso corporation, Teppei Sakai of Kariya-city (JP) for denso corporation, Kei Hayakawa of Kariya-city (JP) for denso corporation, Kazuhiko Kano of Kariya-city (JP) for denso corporation, Mana Asano of Kariya-city (JP) for denso corporation

IPC Code(s): G01N27/414, G01N27/30

CPC Code(s): G01N27/4141

Abstract: an ion sensor includes an ion detection element, a reference electrode that provides a reference point of a potential, and a solution in which an ion concentration can be changed in a sensing area of the ion detection element. the sensing area of the ion detection element is disposed in the solution. a method for detecting a target substance employs an ion sensor. the target substance bound to a label having a function of changing the amount of ions detectable by the ion sensor is introduced into the solution, and a change in the amount of ions is detected using the ion sensor.

20240243199. SEMICONDUCTOR DEVICE_simplified_abstract_(denso corporation)

Inventor(s): MASATO NOBORIO of Nisshin-shi (JP) for denso corporation

IPC Code(s): H01L29/78, H01L29/423, H01L29/739

CPC Code(s): H01L29/7813

Abstract: a first impurity region and a second impurity region are alternately formed along a longitudinal direction of a first trench. the second impurity region has: a first contact side in contact with the first trench; and a second contact side in contact with a second trench adjacent to the first trench. a first linear portion is defined to extend from a boundary of the first contact side toward the second trench, and a second linear portion is defined to extend from a boundary of the second contact side toward the first trench. a first angle between the first trench and the first linear portion connected to the first contact side is less than 90� and a second angle between the second trench and the second linear portion connected to the second contact side is less than 90� .

20240243743. DETERIORATION INHIBITING CIRCUIT_simplified_abstract_(denso corporation)

Inventor(s): Takasuke ITO of Nisshin-shi (JP) for denso corporation, Shigeki OTSUKA of Nisshin-shi (JP) for denso corporation, Yoshikazu FURUTA of Nisshin-shi (JP) for denso corporation, Tomohiro NEZUKA of Nisshin-shi (JP) for denso corporation

IPC Code(s): H03K17/687, H03K19/20

CPC Code(s): H03K17/6871

Abstract: a deterioration inhibiting circuit includes a switchover circuit that inhibits characteristic deterioration of first and second transistors included in a differential pair circuit having first and second input terminals. a gate of the first transistor is connected to the first input terminal, and a gate of the second transistor is connected to the second input terminal. the switchover circuit executes switchover between a first state and a second state. in the first state, a first voltage is applied to the gate of the first transistor and a second voltage is applied to the gate of the second transistor. in the second state, the second voltage is applied to the gate of the first transistor and the first voltage is applied to the gate of the second transistor. the first voltage is higher than an intermediate voltage, and the second voltage is lower than the intermediate voltage.

20240244047. ELECTRONIC CONTROL UNIT, MAC TRANSMISSION METHOD, STORAGE MEDIUM, AND ELECTRONIC CONTROL SYSTEM_simplified_abstract_(denso corporation)

Inventor(s): Atsuhiro ITO of Kariya-city (JP) for denso corporation

IPC Code(s): H04L9/40, H04L12/40

CPC Code(s): H04L63/083

Abstract: an electronic control unit is configured to generate a mac on a basis of transmission data, divide the mac into a plurality of partial macs, generate individual identification information items which are information items indicating respective portions of the mac occupied by the individual partial macs, store the transmission data in at least one of a plurality of frames and store the individual partial macs and the individual identification information items corresponding thereto in the plurality of respective fames, and transmit the plurality of frames.

20240244331. BRIGHTNESS MEASUREMENT APPARATUS, BRIGHTNESS MEASUREMENT METHOD, BRIGHTNESS MEASUREMENT PROGRAM, AND CAMERA SYSTEM_simplified_abstract_(denso corporation)

Inventor(s): Ikuko Komura of Kariya-city (JP) for denso corporation

IPC Code(s): H04N23/71

CPC Code(s): H04N23/71

Abstract: a processor of a brightness measurement apparatus sets, on an imaging region of a camera, a brightness measurement region that has a center part and peripheral parts that surround the center part. the brightness measurement region includes subregions. the subregions include central subregions located in the center part of the brightness measurement region, and peripheral subregions located in the peripheral parts of the brightness measurement region. a size of at least one of the central subregions is different from a size of at least one of the peripheral subregions. the processor measures, for each subregion, a brightness of the corresponding subregion in accordance with a pixel value of at least one pixel of a frame image captured by the camera through the imaging region. the pixel value of the at least one pixel of the frame image is included in the corresponding subregion.

20240244505. COMMUNICATION APPARATUS, BASE STATION AND METHOD_simplified_abstract_(denso corporation)

Inventor(s): Tomoyuki YAMAMOTO of Kariya-city (JP) for denso corporation, Hideaki TAKAHASHI of Kariya-city (JP) for denso corporation

IPC Code(s): H04W40/24, H04W76/19, H04W76/20

CPC Code(s): H04W40/248

Abstract: a communication apparatus includes: a memory storing a program; and one or more processors configured to execute the program to: obtain information indicating that the communication apparatus has path information available; transmit, to a base station, a ueassistanceinformation message including the information indicating that the communication apparatus has the path information available; receive, from the base station, a ueinformationrequest message; and transmit in response to reception of the ueinformationrequest message, to the base station, a ueinformationresponse message including the path information in a case where the communication apparatus has the path information available.

20240244552. TERMINAL, BASE STATION, AND WIRELESS COMMUNICATION METHOD_simplified_abstract_(denso corporation)

Inventor(s): Tatsuki NAGANO of Kariya-city (JP) for denso corporation, Hideaki TAKAHASHI of Kariya-city (JP) for denso corporation

IPC Code(s): H04W56/00, H04W8/22, H04W76/20

CPC Code(s): H04W56/0015

Abstract: a terminal that receives a radio resource control message, receives a first ss/pbch block based on information related to a periodicity of a first synchronization signal and physical broadcast channel (ss/pbch) block included in the radio resource control message, determines whether information related to a periodicity of a second ss/pbch block is included in the radio resource control message, receives the second ss/pbch block based on information related to a frequency of the second ss/pbch block and on the information related to the periodicity of the second ss/pbch block in a case where the information related to the periodicity of the second ss/pbch block is included in the radio resource control message, and receives the second ss/pbch block based on the information related to the periodicity of the first ss/pbch block in a case where the information related to the periodicity of the second ss/pbch block is not included in the radio resource control message.

20240244561. COMMUNICATION APPARATUS, NETWORK NODE AND METHOD_simplified_abstract_(denso corporation)

Inventor(s): Tomoyuki YAMAMOTO of Kariya-city (JP) for denso corporation

IPC Code(s): H04W60/04, H04W64/00, H04W76/27

CPC Code(s): H04W60/04

Abstract: a communication apparatus includes: a memory storing a program; and one or more processors configured to execute the program to: obtain information used for configuring a tracking area, ta, list; and transmit, to a network, a message including the information used for configuring the ta list based on setting or update of path information in the communication apparatus in a case where the communication apparatus is in a radio resource control, rrc, connected state.

20240244637. TERMINAL, BASE STATION, AND WIRELESS COMMUNICATION METHOD_simplified_abstract_(denso corporation)

Inventor(s): Tatsuki NAGANO of Kariya-city (JP) for denso corporation, Hideaki TAKAHASHI of Kariya-city (JP) for denso corporation

IPC Code(s): H04W72/232, H04W56/00, H04W68/02, H04W72/0457, H04W72/51

CPC Code(s): H04W72/232

Abstract: a terminal that includes a reception unit that receives system information including information used for configuring a first initial downlink bandwidth part, cell-specific information related to configuration of a physical downlink control channel in the first initial downlink bandwidth part, information used for configuring a second initial downlink bandwidth part, and cell-specific information related to configuration of a physical downlink control channel in the second initial downlink bandwidth part, and a control unit that determines a monitoring occasion of a physical downlink control channel for paging based on information related to a synchronization signal and physical broadcast channel block transmitted in the second initial downlink bandwidth part and on an identifier of a search space.

20240244672. TERMINAL, BASE STATION, AND WIRELESS COMMUNICATION METHOD_simplified_abstract_(denso corporation)

Inventor(s): Tatsuki NAGANO of Kariya-city (JP) for denso corporation, Hideaki Takahashi of Kariya-city (JP) for denso corporation

IPC Code(s): H04W74/0838, H04W72/23

CPC Code(s): H04W74/0838

Abstract: a terminal that includes a reception unit that receives a first ss/pbch block based on information related to transmission of a first synchronization signal and physical broadcast channel (ss/pbch) block included in a radio resource control message, and receives a second ss/pbch block based on information related to transmission of the second ss/pbch block in a case where the information related to transmission of the second ss/pbch block is included in the radio resource control message, and a control unit that, in a case where the second ss/pbch block is received by the reception unit, selects a random access occasion in a contention free random access procedure based on the second ss/pbch block.

DENSO CORPORATION patent applications on July 18th, 2024