HYUNDAI MOTOR COMPANY patent applications on January 23rd, 2025
Patent Applications by HYUNDAI MOTOR COMPANY on January 23rd, 2025
HYUNDAI MOTOR COMPANY: 37 patent applications
HYUNDAI MOTOR COMPANY has applied for patents in the areas of H01M10/48 (3), G01R31/396 (3), B60H1/00 (2), B60N2/02 (2), G01R31/3835 (2) G01N33/0027 (2), B23K9/0956 (1), G10L15/22 (1), G06V20/586 (1), G07C9/00309 (1)
With keywords such as: vehicle, configured, apparatus, battery, control, based, sensor, driving, unit, and information in patent application abstracts.
Patent Applications by HYUNDAI MOTOR COMPANY
Inventor(s): Beomjun Kim of Anyang-si (KR) for hyundai motor company, Seung Ho Lee of Incheon (KR) for hyundai motor company, Yubin Jeon of Incheon (KR) for hyundai motor company, Taehan Heo of Suwon-si (KR) for hyundai motor company, Choongho Nam of Suwon-si (KR) for hyundai motor company, Jungmin Kim of Suwon-si (KR) for hyundai motor company
IPC Code(s): B23K9/095
CPC Code(s): B23K9/0956
Abstract: a welding quality inspection apparatus includes: a welding position calculation part calculating a first virtual welding position based on an actual welding position of a robot welding gun; a comparison and verification part calculating a first error by comparing the first virtual welding position and a reference welding position, and determining that inspection is necessary when a magnitude of the first error is within a reference range; a calibration part, when a ratio of determining that inspection is necessary, by the comparison and verification part, is a preset criterion or more, generating a second virtual welding position based on the first virtual welding position by repeating calibration until the ratio of determining that inspection is necessary becomes less than the preset criterion; and a compensation part extracting a second error between the second virtual welding position and the reference welding position and compensating.
20250026206. METHOD FOR CONTROLLING ELECTRIC VEHICLE_simplified_abstract_(hyundai motor company)
Inventor(s): Gwi Chul KIM of Anyang-Si (KR) for hyundai motor company
IPC Code(s): B60L15/20, B60K23/08
CPC Code(s): B60L15/2045
Abstract: a method for controlling an electric vehicle may include receiving driving information including a requested driving torque, a requested braking torque, and a steering angle of a driver, from a detection unit, distributing a driving torque or a braking torque to a left wheel and a right wheel of the vehicle based on a predetermined reference yaw moment, to follow the requested driving torque or the requested braking torque, determining whether a vehicle state is a braking state, distributing a driving torque to a front wheel and a rear wheel of the vehicle according to an optimal total power loss curve minimizing a power loss of the vehicle, when the vehicle state is a driving state, and distributing a braking torque to the front wheel and the rear wheel by comparing a minimum tire slip curve and an ideal braking force distribution curve, when the vehicle state is the braking state.
20250026247. SEAT CONTROL APPARATUS AND METHOD_simplified_abstract_(hyundai motor company)
Inventor(s): Kug Hun Han of Seoul (KR) for hyundai motor company, Jun Hwan Lee of Seoul (KR) for hyundai motor company, Mun Seung Kang of Suwon-si (KR) for hyundai motor company
IPC Code(s): B60N2/02, B60N2/00
CPC Code(s): B60N2/0256
Abstract: a seat control apparatus includes a first driving part, a second driving part and a controller. the apparatus is configured to receive a user input on a walk-in mode through an input part, and based on the received user input, the apparatus controls a slide location of a seat to a walk-in location area corresponding to the walk-in mode by using the first driving part, and controls a reclining angle of the seat to a walk-in angle area corresponding to the walk-in mode by using the second driving part. in particular, when the user input is received again through the input part, the apparatus restores the reclining angle of the seat from the walk-in angle area to an un-walk-in angle area by using the second driving part.
20250026252. SEAT ADJUSTMENT APPARATUS FOR VEHICLE_simplified_abstract_(hyundai motor company)
Inventor(s): Mu Young Kim of Osan (KR) for hyundai motor company, Chan Ho Jung of Gunpo (KR) for hyundai motor company, Dong Hoon Keum of Busan (KR) for hyundai motor company, Sang Soo Lee of Hwaseong (KR) for hyundai motor company, Ho Suk Jung of Hwaseong (KR) for hyundai motor company, Sang Do Park of Seoul (KR) for hyundai motor company, Jong Su Kim of Hwaseong (KR) for hyundai motor company, In Hoe Jeong of Hwaseong (KR) for hyundai motor company, Soo Yong Kim of Hwaseong (KR) for hyundai motor company, Jung Eun Kwon of Hwaseong (KR) for hyundai motor company, Dong Jin Kim of Hwaseong (KR) for hyundai motor company, Gwon Hwa Bok of Hwaseong (KR) for hyundai motor company, Jun Sik Hwang of Hwaseong (KR) for hyundai motor company, Cheol Hwan Yoon of Hwaseong (KR) for hyundai motor company
IPC Code(s): B60N2/30
CPC Code(s): B60N2/3061
Abstract: a seat adjustment apparatus for a vehicle includes a plurality of connection frames provided along two opposite sides of a seat frame and two opposite sides of a back frame and configured to move forward or rearward depending on a folding direction of the back frame, guide parts provided at middle points of the plurality of connection frames and configured to be moved upward or downward by forward or rearward movements of the connection frames, and a seat cushion pipe provided inside the two connection frames and configured such that front ends of the seat cushion pipe are connected to the guide parts, and a position of a rear end of the seat cushion pipe is adjusted upward or downward by upward or downward movements of the guide parts.
Inventor(s): Hyeong Seon Kim of Anyang-si (KR) for hyundai motor company
IPC Code(s): B60Q1/14, F21S41/663, H04N9/31
CPC Code(s): B60Q1/143
Abstract: a headlamp auto-leveling system and a method thereof are disclosed. the headlamp auto-leveling system and method adjust the radiation direction of light through a headlamp according to the state of a mobility device and the presence of physical objects in the front and rear sides of the mobility device, thereby reducing or minimizing the effect of a projection image on the surrounding mobility device and enhancing the accuracy of identification of messages through the projection image.
Inventor(s): Seung-Kyu Kang of Hwaseong-si (KR) for hyundai motor company, Jong-Hun Choi of Incheon (KR) for hyundai motor company, Dae-Hyun Choi of Ansan-si (KR) for hyundai motor company, Eun-Mook Park of Suwon-si (KR) for hyundai motor company, Han-Jo Jeong of Uiwang-si (KR) for hyundai motor company, Sung-Ung Ryu of Seoul (KR) for hyundai motor company, Seoung-Hyun Lee of Incheon (KR) for hyundai motor company
IPC Code(s): B60R21/0136, G08G1/00
CPC Code(s): B60R21/0136
Abstract: a collision accident response system for a vehicle includes: a transparent glass attached to a front surface of the vehicle; a transparent pressure sensor film attached to a rear surface of the transparent glass; and a control unit embedded in the vehicle. the control unit is configured to determine a height and a collision strength of a collision object by a collision pressure detected by the transparent pressure sensor film. as a result, the collision accident response system for a vehicle enables a rapid and accurate response to collision accidents in vehicles equipped with the front glass.
Inventor(s): Key Chun Park of Yongin-si (KR) for hyundai motor company
IPC Code(s): B60W20/15, B60W10/06
CPC Code(s): B60W20/15
Abstract: an apparatus for controlling a power source of a hybrid vehicle, an operating method thereof, and a system including the same predict engine torque fluctuations in real time based on an engine rpm and a required engine torque. the apparatus includes a storage configured to store one or more algorithms for predicting engine torque fluctuations and one or more look-up tables (lut). the apparatus has a power source controller configured to predict an inertial torque and a pressure torque related to an engine based on engine-related information and predict engine torque fluctuations based on the engine-related information, the inertial torque, and the pressure torque. the power source controller is further configured to output a reverse torque instruction to offset the engine torque fluctuations.
Inventor(s): Sung Woo CHOI of Seoul (KR) for hyundai motor company, Sung Kwan KIM of Incheon (KR) for hyundai motor company
IPC Code(s): B60W60/00, B60W40/10
CPC Code(s): B60W60/001
Abstract: an autonomous driving control apparatus and a method for generating a driving path thereof are provided. the autonomous driving control apparatus includes a processor that receives a driving path from a navigation device. the processor is configured to determine whether there is a turn section on the driving path, determines a turn path, a curvature of which continuously changes in response to determining that there is the turn section on the driving path, and outputs the turn path.
Inventor(s): Chan Jong Jang of Daegu (KR) for hyundai motor company, Young Bin Min of Busan (KR) for hyundai motor company, Jong Sung Park of Hwaseong-si (KR) for hyundai motor company
IPC Code(s): B60W60/00
CPC Code(s): B60W60/0015
Abstract: an autonomous vehicle is provided which includes: at least one sensor configured to detect surrounding environment of the vehicle and to generate surrounding environment information; a processor, during autonomous driving of the vehicle, configured to generate vehicle state information by monitoring a state of the vehicle, and to determine whether a minimum risk maneuver (mrm) is required based on at least one of the surrounding environment information and the vehicle state information; and a controller configured to control operations of the vehicle under the control of the processor, wherein, based on a determination that the mrm is required, the processor is configured to determine an mrm type, and when the determined mrm type is a shoulder stop, the processor is configured to generate at least one stop position candidate group.
Inventor(s): Dong Ho LEE of Suwon-si (KR) for hyundai motor company, Sang Bin HAN of Hwaseong-si (KR) for hyundai motor company, Myung Kyun JEONG of Hwaseong-si (KR) for hyundai motor company, Chang Hoon LEE of Jeju-si (KR) for hyundai motor company, Tae Hwan KWAK of Yongin-si (KR) for hyundai motor company, Cheol Bae PARK of Changwon-si (KR) for hyundai motor company, Jun Young CHOI of Gimhae-si (KR) for hyundai motor company, Dong Han LEE of Changwon-si (KR) for hyundai motor company, Suk Hyun YOON of Changwon-si (KR) for hyundai motor company, Jeong Rak KIM of Daegu (KR) for hyundai motor company
IPC Code(s): B64F5/10, G01B21/22
CPC Code(s): B64F5/10
Abstract: in an assembly system of an aircraft including a fuselage and a wing, the aircraft assembly system may include: a jig unit coupled to the wing to move integrally with the wing; a transfer unit connected to the jig unit and transferring the wing toward the fuselage; a position adjusting unit detachably connected to the jig unit and adjusting a position of the jig unit; and a measuring unit configured for measuring positions of the fuselage and the wing, wherein the fuselage may be relatively fixed to the movement of the wing, wherein the measuring unit may be configured to set a fuselage coordinate system and a wing coordinate system for the fuselage and the wing, respectively, wherein the position adjusting unit may be configured to move the jig unit so that the wing coordinate system coincides with the fuselage coordinate system.
20250027352. DOOR CONNECTION STRUCTURE_simplified_abstract_(hyundai motor company)
Inventor(s): Hyungin YUN of Seoul (KR) for hyundai motor company
IPC Code(s): E05D15/58, B60J5/04, E05D3/02, E05D3/12, E05D11/06
CPC Code(s): E05D15/58
Abstract: a door connection structure includes a door guide for guiding a door in the longitudinal direction of a vehicle body, a door hinge arm mounted on the vehicle body, and including a hinge rotation shaft and a door rotation shaft, the door hinge arm rotating around the hinge rotation shaft when the door is sliding, a door hinge rotatably mounted around the door rotation shaft and connected to the door, a first catcher rotatably mounted on the door hinge arm and of which a center striker guide is formed thereto, and a center striker which is inserted into the center striker guide to rotate the first catcher and limits rotation of the first catcher when the door swings so that the door swings around the door rotation shaft.
Inventor(s): Jung Seok Suh of Yongin-si (KR) for hyundai motor company, Hong Seok Yang of Hwaseong-si (KR) for hyundai motor company, Ja Yoon Goo of Anyang-si (KR) for hyundai motor company, Min Taek Jeon of Seoul (KR) for hyundai motor company
IPC Code(s): E05F15/70, G06Q10/087
CPC Code(s): E05F15/70
Abstract: a method and an apparatus for providing unmanned take-out service of an autonomous vehicle are provided. the apparatus includes an order information receiving unit configured to receive product order information from a user terminal. the apparatus also includes an order information providing unit configured to provide details of an ordered product included in the product order information to a product provider of the ordered product. the apparatus also includes an order processing recognition unit configured to recognize the ordered product provided from the product provider. the apparatus also includes a controller configured to control at least one of a seat, a window, a door, or a trunk of a vehicle according to a position in the vehicle of a loading target space for the ordered product.
20250027627. OPTICAL MODULE FOR MOBILITY VEHICLES_simplified_abstract_(hyundai motor company)
Inventor(s): Hyeong Seon Kim of Anyang-si (KR) for hyundai motor company, Young Geun Jun of Seoul (KR) for hyundai motor company
IPC Code(s): F21S41/265, F21S41/32, F21S41/663
CPC Code(s): F21S41/265
Abstract: an optical module for mobility vehicles reduces an overall size of an optical system and thus facilitates a package configuration. the optical module for mobility vehicles also ensures a sufficient amount of light and high optical efficiency are through efficient operation of light sources and improves quality of illumination images projected onto a light irradiation area.
Inventor(s): Kyuhwan Oh of Ansan-si (KR) for hyundai motor company, Juhyeon Kim of Seoul (KR) for hyundai motor company, Song Jun Lee of Seoul (KR) for hyundai motor company, Hee Sang Kwak of Incheon (KR) for hyundai motor company, Ji Hwan Lee of Ansan-si (KR) for hyundai motor company
IPC Code(s): G01N21/3563, G01N21/359, G01R19/165
CPC Code(s): G01N21/3563
Abstract: an embodiment apparatus for detecting a material of a vehicle body part includes a light source configured to emit an emission light toward the vehicle body part, an optical sensor configured to detect a reflection light generated by reflection of the emission light at the vehicle body part and to generate a detection current according to an intensity of the reflection light, a case enclosing the light source and the optical sensor, and a control circuit configured to convert the detection current to a detection voltage, to determine a material of the vehicle body part as a first material in response to the detection voltage being greater than or equal to a reference voltage, and to determine the material of the vehicle body part as a second material in response to the detection voltage being less than the reference voltage.
20250027923. SENSOR DEVICE FOR A MOBILE ROBOT_simplified_abstract_(hyundai motor company)
Inventor(s): Sungtai Jang of Ulsan (KR) for hyundai motor company, Changmo Yang of Hwaseong-si (KR) for hyundai motor company
IPC Code(s): G01N33/00
CPC Code(s): G01N33/0027
Abstract: a sensor device may include: a sensor housing forming a mounting space and having a first vent and a second vent through which air flows in and out; a plurality of sensor modules provided in the mounting space of the sensor housing; a first door and a second door configured to selectively block the first and second vents of the sensor housing, respectively; an opening/closing device configured to operate the first and the second doors; and a first fan and a second fan configured to introduce air into the sensor housing, or discharge air inside the sensor housing to an outside.
20250027924. APPARATUS FOR MEASURING ODOR_simplified_abstract_(hyundai motor company)
Inventor(s): Tae Hee Lee of Yongin-si (KR) for hyundai motor company, Dae Un Sung of Incheon (KR) for hyundai motor company
IPC Code(s): G01N33/00, G01N1/42, G01N1/44
CPC Code(s): G01N33/0027
Abstract: an apparatus for measuring an odor is capable of accurately presetting a baseline that is utilized as a reference value for an output value of an odor sensor, of computing a delta value that represents a difference between the preset baseline and an output value of the odor sensor that senses odor-measurement-subject gas, and of determining the computed delta value as a changed amount of the odor-measurement-subject gas. with the apparatus, the accuracy of odor measurement can be improved.
Inventor(s): Yoo Hong JANG of Suwon-si (KR) for hyundai motor company, Yoon Sung CHOI of Hwaseong-si (KR) for hyundai motor company, Sang Jin LEE of Goyang-si (KR) for hyundai motor company, Hyo Kyung LEE of Anyang-si (KR) for hyundai motor company, Yo Han BAEK of Anyang-si (KR) for hyundai motor company
IPC Code(s): G01R31/3835, G01R31/371, G01R31/396, G01R31/52, H01M10/48
CPC Code(s): G01R31/3835
Abstract: an apparatus for monitoring a battery of a vehicle includes one or more sensors and a processor, wherein the one or more sensors may obtain a first voltage during a stabilization time of the battery, obtain a minimum voltage measured from a time point when the stabilization time ends to a time point when parking of the vehicle ends as a second voltage of the battery, and detect a temperature of the battery from a time point when the first voltage is obtained to a time point when the second voltage is obtained, and the processor may determine a first discharge amount based on the first voltage and the second voltage, determine a second discharge amount consumed in balancing the battery and operating the one or more sensors, determine a first self-discharge amount and a second self-discharge amount based on the first discharge amount, the second discharge amount, and the temperature, and determine whether a short circuit has occurred in the battery based on the first self-discharge amount and the second self-discharge amount.
Inventor(s): Yoon Sung CHOI of Hwaseong-si (KR) for hyundai motor company, Yo Han BAEK of Anyang-si (KR) for hyundai motor company, Sang Jin LEE of Goyang-si (KR) for hyundai motor company, Hyo Kyung LEE of Anyang-si (KR) for hyundai motor company, Yoo Hong JANG of Suwon-si (KR) for hyundai motor company
IPC Code(s): G01R31/385, G01R31/396, G01R31/52
CPC Code(s): G01R31/385
Abstract: an apparatus for detecting soft shorts of a battery cell and a method for the same are provided. the apparatus includes a sensor to measure voltages of a plurality of battery cells, and a controller to determine a slope of a voltage of each battery cell, the deviation of the slope of the voltage for each battery cell, and detect a battery cell, which has the soft shorts, of the plurality of battery cells, based on the slope and the deviation.
20250028951. DATA ANALYSIS APPARATUS AND METHOD_simplified_abstract_(hyundai motor company)
Inventor(s): Jung Hwan Bang of Seongnam-si (KR) for hyundai motor company, Byeong Wook Jeon of Seoul (KR) for hyundai motor company
IPC Code(s): G06N3/08, G06N5/022
CPC Code(s): G06N3/08
Abstract: a data analysis apparatus and a method thereof are provided. the data analysis apparatus includes a memory that stores a neural network model and a program instruction and a processor that executes the program instruction. the processor inputs at least one of a first dataset, a second dataset, or any combination thereof to the neural network model, in response to identifying the second dataset obtained during a first specified duration before a time point when the first dataset is obtained. the processor obtains a governing equation corresponding to a portion of a plurality of neurons included in the neural network model. the processor changes the portion of the plurality of neurons included in the neural network model to the governing equation. the processor obtains a third dataset for predicting data during a second specified duration after the time point, from the neural network model.
20250029055. METHOD AND SYSTEM FOR MANAGING DELIVERY_simplified_abstract_(hyundai motor company)
Inventor(s): SiWon Kim of Seoul (KR) for hyundai motor company, Bouk Goo Song of Anyang-si (KR) for hyundai motor company, Wonseok Choi of Seoul (KR) for hyundai motor company, Hajoon Park of Seoul (KR) for hyundai motor company
IPC Code(s): G06Q10/0835, G06Q10/0833, G06Q10/087
CPC Code(s): G06Q10/08355
Abstract: a delivery management method includes receiving transaction information that includes a delivery address and delivery type information, receiving a current position of a delivery vehicle from a vehicle terminal mounted on the delivery vehicle, allocating the transaction information having an adjacent delivery address to each of a plurality of delivery vehicles, setting a basic path having a shortest movement path or a shortest movement time among paths passing through delivery destinations in the transaction information allocated to each of the vehicle terminals for each of the plurality of delivery vehicles, determining a target delivery vehicle for allocating real-time transaction information, and changing the basic path to pass through one of the delivery destinations, wherein the target delivery vehicle performs automatic sorting and automatic picking inside while moving to a delivery address based on the real-time transaction information.
20250029279. Camera Calibration Method and Apparatus_simplified_abstract_(hyundai motor company)
Inventor(s): Jung Hyun Lee of Seoul (KR) for hyundai motor company, Min Young Yoon of Seoul (KR) for hyundai motor company, Tae Hun Lim of Seoul (KR) for hyundai motor company
IPC Code(s): G06T7/80, G06T7/13, G06T7/62, G06T7/70, G06V10/44
CPC Code(s): G06T7/80
Abstract: a camera calibration method comprises receiving an image captured by a camera of a vehicle, detecting a vehicle body area of the vehicle from the image, and estimating a posture of the camera based on the vehicle body area.
20250029304. OBJECT SYNCHRONIZATION APPARATUS AND METHOD_simplified_abstract_(hyundai motor company)
Inventor(s): Ju Hee Park of Suwon-si (KR) for hyundai motor company, Soo Min Shim of Yongin-si (KR) for hyundai motor company, Jeong Min Oh of Seoul (KR) for hyundai motor company, Bo Kyung Kim of Daejeon (KR) for hyundai motor company, Seong Wook Hwang of Seoul (KR) for hyundai motor company, Joon Young Kim of Seoul (KR) for hyundai motor company
IPC Code(s): G06T13/20, G05B17/02, G06T7/20, G06T19/00
CPC Code(s): G06T13/20
Abstract: an object synchronization apparatus includes a memory storing computer-executable instructions and at least one processor that accesses the memory and executes the instructions. the at least one processor: creates a virtual object corresponding to a source code of a user in a virtual space, in response to a compiling request based on the source code; performs verification for the created virtual object; performs synchronization between the verified virtual object and a real object, in response to a control request for the verified virtual object; and creates a sub-virtual object corresponding to a detected target object in the virtual space when the synchronized real object detects the target object.
Inventor(s): Deuk Hyeon KIM of Seoul (KR) for hyundai motor company
IPC Code(s): G06V20/58, G06T5/00, G06T7/60, G06T7/73, G06V10/44
CPC Code(s): G06V20/586
Abstract: an apparatus for estimating a parking space gradient includes a parking space detection module that recognizes a type of a parking space based on an image captured by an image capturing device and recognizes a location of the parking space by detecting a plurality of key points corresponding to the parking space and a gradient estimation module that obtains angle information formed by the key points in the type of the parking space, estimates a rotation matrix based on estimation conditions previously set according to the angle information and the type of the parking space, and estimates a gradient of the parking space using the estimated rotation matrix and a predetermined reference rotation matrix.
Inventor(s): NOOKESH NAGUMALLI of Koduru (IN) for hyundai motor company, Rudra Kumar Adapa of Visakhapatnam (IN) for hyundai motor company, Muzibur Rahman Shaik of Andhra Pradesh (IN) for hyundai motor company, Kiran Kumar Srikakulam of Andhra Pradesh (IN) for hyundai motor company
IPC Code(s): G07C9/00, B60H1/00, B60N2/02, B60R25/25, B62D1/181
CPC Code(s): G07C9/00309
Abstract: a vehicle has a remote control key that includes a biometric sensor configured to recognize a user's bio-information, a key communication module configured to perform wireless communication with a vehicle, and at least one function button configured to control an operation of the vehicle through wireless communication with the vehicle. the vehicle also has a vehicle controller configured to compare bio-information transferred from the remote control key with bio-information stored in a server or with bio-information stored in a vehicle memory and determine whether the bio-information transferred from the remote control key is matched with the bio-information stored in the server or with the bio-information stored in the vehicle memory, the vehicle controller being configured to selectively perform a function corresponding to a control signal of the function button transmitted from the remote control key.
20250029521. IMAGE DISPLAY DEVICE_simplified_abstract_(hyundai motor company)
Inventor(s): Joon Bo Shim of Hanam-si (KR) for hyundai motor company, Yong Duk Bae of Gyeongsan-si (KR) for hyundai motor company, Cheol Chun Yang of Gyeongsan-si (KR) for hyundai motor company, Ji Hun Park of Suwon-si (KR) for hyundai motor company, Hee Beom Park of Hwaseong-si (KR) for hyundai motor company, Jung Hee Seo of Gyeongsan-si (KR) for hyundai motor company, Gyun Chae of Yongin-si (KR) for hyundai motor company
IPC Code(s): G09G3/00, H02J50/10
CPC Code(s): G09G3/001
Abstract: an image display device is disclosed in which electrical connection to a rotary body is reliably maintained during rotation of the rotary body and supply of power and transmission and reception of a signal are stabilized. since transmission and reception of a signal between a communication transmitter and a communication receiver are implemented through a cavity formed in a motor, introduction of an external signal is blocked, and thus security and control stability are ensured. even when a rotary module rotates at a high speed, damage thereto due to friction is prevented, and thus the durability thereof is ensured. rotation of the rotary module is stabilized through structural stabilization.
20250029599. METHOD AND APPARATUS FOR TRAINING ENCODER_simplified_abstract_(hyundai motor company)
Inventor(s): Sung Woong HWANG of Seoul (KR) for hyundai motor company
IPC Code(s): G10L15/06, G10L13/08
CPC Code(s): G10L15/063
Abstract: a method and an apparatus for training a speech transformation model are provided. the method and the apparatus are capable of generating a natural speech suitable for context and improving accuracy of pronunciation by training the first encoder (e.g., a encoder of the flow-based model) and the second encoder (e.g., a encoder of the tacotron 2 model) in parallel.
Inventor(s): Sung Soo Park of Seoul (KR) for hyundai motor company
IPC Code(s): G10L15/18
CPC Code(s): G10L15/1815
Abstract: in embodiments, a voice recognition apparatus, and a method thereof, includes a microphone that extracts an utterance of a user, a memory that stores a scenario matching intent extracted from the utterance, and a processor that searches for the scenario based on the utterance and performs a voice recognition function. the processor can extract a first intent from a first utterance and extract a second intent from a second utterance. the processor can separate the first intent and the second intent into partial intent units by using separators, and generate a final intent by combining partial intents of the first intent and the second intent such that duplicate partial intents are deleted depending on definitions of the separators.
20250029604. APPARATUS AND METHOD FOR SPEECH RECOGNITION_simplified_abstract_(hyundai motor company)
Inventor(s): Seong Soo Yae of Hwaseong-si (KR) for hyundai motor company
IPC Code(s): G10L15/22, G10L21/0272, G10L25/78
CPC Code(s): G10L15/22
Abstract: an apparatus for speech recognition includes a user prompt playback unit configured to change a user prompt that induces utterance for speech recognition into a sound source and to play the sound source. the apparatus further includes a microphone detection signal extraction unit configured to extract a microphone detection signal when a user's speech is received as a speech signal through a microphone. the apparatus also includes a user prompt removal unit configured to remove the user prompt from the microphone detection signal. the apparatus further includes a speech recognition unit configured to recognize a speech based on a value from which the user prompt is removed. the apparatus also includes a response output unit configured to output a response related to the speech based on a result of recognizing the speech.
Inventor(s): Ki Yoon BAE of Seoul (KR) for hyundai motor company, Sam Ick SON of Suwon-si (KR) for hyundai motor company, Ji Young KIM of Suwon-si (KR) for hyundai motor company, Yun Jung LEE of Seoul (KR) for hyundai motor company, Da Young JUN of Seoul (KR) for hyundai motor company, Se Hwan PARK of Seoul (KR) for hyundai motor company, Ji Eun JUNG of Seoul (KR) for hyundai motor company
IPC Code(s): H01M4/134, H01M4/02, H01M10/0562
CPC Code(s): H01M4/134
Abstract: disclosed is an all-solid-state battery including an anode layer that expands and accommodates lithium metal during charging, and a method of operation thereof. the all-solid battery includes an anode current collector, an anode layer disposed on the anode current collector, a solid electrolyte layer disposed on the anode layer, a cathode active material layer disposed on the solid electrolyte layer, and a cathode current collector disposed on the cathode active material layer. the anode layer comprises particles comprising a metal capable of allying with lithium and interparticular pores.
Inventor(s): Yo Han BAEK of Anyang-si (KR) for hyundai motor company
IPC Code(s): H01M10/42, G01R31/36, G01R31/3835, G01R31/396, H01M10/48, H01M50/512
CPC Code(s): H01M10/4285
Abstract: an apparatus for diagnosing abnormality of a battery cell group and a method for the same are provided. the apparatus includes a voltage sensor to measure a voltage value with respect to each battery cell group including a plurality of battery cells connected to each other in parallel, and a controller to determine an accumulated voltage value for an effective time with respect to each battery cell group, determine a representative value for each battery cell group by removing an offset from each accumulated voltage value, and detect a battery cell group having abnormality, based on an average value and a standard deviation of representative values.
Inventor(s): Soon Cheol Hwang of Hwaseong (KR) for hyundai motor company
IPC Code(s): H02J7/00, H01M10/052, H01M10/06
CPC Code(s): H02J7/0019
Abstract: provided is a power supply system disclosure comprising: a high-voltage battery; a low-voltage battery configured to supply power to a low-voltage electronic device; a dc-dc converter connected between the high-voltage battery and the low-voltage battery; and a controller configured to control the dc-dc converter so as to charge the low-voltage battery by using the high-voltage battery, wherein the high-voltage battery comprises: a first cell module comprising a plurality of first battery cells; a second cell module which is electrically connected to the first cell module and comprises a plurality of second battery cells; and a switching module configured to switch between a first connection state, in which the first cell module and the second cell module charge the low-voltage battery; and a second connection state in which the second cell module charges the low-voltage battery or supplies power to the low-voltage electronic device.
Inventor(s): Young Ho CHAE of Gwangmyeong-si (KR) for hyundai motor company, Young Kwan KO of Seoul (KR) for hyundai motor company, Hyun Jae LIM of Hwaseong-si (KR) for hyundai motor company, Young Gi LEE of Ansan-si (KR) for hyundai motor company, Joo Young PARK of Yongin-si (KR) for hyundai motor company, Yong Jae LEE of Yongin-si (KR) for hyundai motor company
IPC Code(s): H02P27/08, H02M7/537, H02P25/22
CPC Code(s): H02P27/085
Abstract: a motor driving apparatus includes a motor having a plurality of windings, a dual inverter including a first inverter connected to first ends of the plurality of windings and a second inverter connected to second ends of the plurality of windings and configured to drive the motor through at least one of the first inverter or the second inverter according to a motor driving mode, and a controller configured to determine whether flux weakening control is performed according to an available voltage level of the dual inverter when a switching condition of the motor driving mode is satisfied and to perform the flux weakening control by linearly adjusting an output voltage level of the dual inverter for a preset time interval for which the flux weakening control is performed.
Inventor(s): Byeung Woo Jeon of Seongnam-si (KR) for hyundai motor company, Jee Yoon Park of Seoul (KR) for hyundai motor company, Yu Jin Lee of Suwon-si (KR) for hyundai motor company, Jin Heo of Yongin-si (KR) for hyundai motor company, Seung Wook Park of Yongin-si (KR) for hyundai motor company
IPC Code(s): H04N19/105, H04N19/159, H04N19/174
CPC Code(s): H04N19/105
Abstract: a video decoding device decodes from a bitstream an intra-prediction mode of the current block, derives a reference line group of the current block, and derives a reference line from within the reference line group. further, the video decoding device generates a predictor of the current block by using the reference line according to the intra-prediction mode.
Inventor(s): Dong Gyu SIM of Seoul (KR) for hyundai motor company, Joo Hyung BYEON of Seoul (KR) for hyundai motor company, Min Hun LEE of Uijeongbu-si (KR) for hyundai motor company, Jin HEO of Yongin-si (KR) for hyundai motor company, Seung Wook PARK of Yongin-si (KR) for hyundai motor company
IPC Code(s): H04N19/159, H04N19/176, H04N19/186
CPC Code(s): H04N19/159
Abstract: a method is disclosed for predicting chroma components based on reconstructed luma information. in the disclosed embodiments, to intra-predict the current chroma block, the video decoding device decodes the prediction mode indicator of the current chroma block and checks whether the prediction mode indicator utilizes the direct mode_intra block copy mode (dm_ibc mode) for the current chroma block. if the current chroma block utilizes dm_ibc mode, the video decoding device uses the block vector of the previously reconstructed corresponding luma block to generate the prediction block of the current chroma block.
Inventor(s): Sang Woo Chun of Suwon (KR) for hyundai motor company
IPC Code(s): H04N21/442, H04N21/414, H04N21/433
CPC Code(s): H04N21/442
Abstract: a drive video recording system includes an impact detection sensor; a camera module which monitors the surroundings of a vehicle; a first memory which stores a video transmitted from the camera module; a second memory which stores a computer program for controlling the storage of the video; and a controller which includes a processor executing the computer program, where the processor determines a serious damage situation according to an impact signal of the impact detection sensor through the execution of the computer program, and determines a recording mode as a serious damage recording mode according to the determination result of the serious damage situation.
Inventor(s): Jae Min CHAE of Seoul (KR) for hyundai motor company, Chang Gi Ryu of Seoul (KR) for hyundai motor company, Soo II Lee of Hwaseong-si (KR) for hyundai motor company, Dae Hyun Song of Seoul (KR) for hyundai motor company, Seung Ryeol Lee of Hwseong-si (KR) for hyundai motor company, Jong Dae Gwak of Anyang-si (KR) for hyundai motor company
IPC Code(s): H05K7/20, B60H1/00, B60L58/26, H01M10/48, H01M10/613, H01M10/625, H01M10/635, H01M10/6568, H01M10/663
CPC Code(s): H05K7/20281
Abstract: a coolant system includes a battery coolant line fluidly connected to a battery, a power electronics coolant line fluidly connected to a power electronic component, a radiator coolant line fluidly connected to a radiator, a control valve configured to allow the battery coolant line, the power electronics coolant line, and the radiator coolant line to be fluidly connected to or separated from each other, a temperature sensor disposed in at least one of the battery coolant line, the power electronics coolant line, or the radiator coolant line, and a controller configured to control a switching operation of the control valve under a predetermined condition in a manner that fluidly connects a coolant line without any temperature sensor to a coolant line with the temperature sensor, and determine a temperature of a coolant passing through the coolant line without any temperature sensor based on a temperature sensed by the temperature sensor.
20250031583. HIGH-TEMPERATURE SUPERCONDUCTOR_simplified_abstract_(hyundai motor company)
Inventor(s): Hoo Dam Lee of Seoul (KR) for hyundai motor company, Tae Gyu Lee of Seoul (KR) for hyundai motor company, Kyung Sik Choi of Seoul (KR) for hyundai motor company, Hyung Kwan Jang of Uijeongbu-si (KR) for hyundai motor company, Byung Ho Min of Suwon-si (KR) for hyundai motor company, Jun Hyeok Choi of Suwon-Si (KR) for hyundai motor company, Yeahan Sur of Suwon-Si (KR) for hyundai motor company, Sukho Kim of Hwaseong-si (KR) for hyundai motor company, Kee Hoon Kim of Seoul (KR) for hyundai motor company, Jungwoo Lee of Seoul (KR) for hyundai motor company
IPC Code(s): H10N60/01, H10N60/85
CPC Code(s): H10N60/0268
Abstract: provided is a rebco-based high-temperature superconductor composition and a method of preparing the same comprising substituting a part of gd with ho, wherein the rebco-based high-temperature superconductor is represented by rebacuo, in which re comprises or consists of gd and ho. the superconductor may improve the critical current density without a change in the critical temperature.
HYUNDAI MOTOR COMPANY patent applications on January 23rd, 2025
- HYUNDAI MOTOR COMPANY
- B23K9/095
- CPC B23K9/0956
- Hyundai motor company
- B60L15/20
- B60K23/08
- CPC B60L15/2045
- B60N2/02
- B60N2/00
- CPC B60N2/0256
- B60N2/30
- CPC B60N2/3061
- B60Q1/14
- F21S41/663
- H04N9/31
- CPC B60Q1/143
- B60R21/0136
- G08G1/00
- CPC B60R21/0136
- B60W20/15
- B60W10/06
- CPC B60W20/15
- B60W60/00
- B60W40/10
- CPC B60W60/001
- CPC B60W60/0015
- B64F5/10
- G01B21/22
- CPC B64F5/10
- E05D15/58
- B60J5/04
- E05D3/02
- E05D3/12
- E05D11/06
- CPC E05D15/58
- E05F15/70
- G06Q10/087
- CPC E05F15/70
- F21S41/265
- F21S41/32
- CPC F21S41/265
- G01N21/3563
- G01N21/359
- G01R19/165
- CPC G01N21/3563
- G01N33/00
- CPC G01N33/0027
- G01N1/42
- G01N1/44
- G01R31/3835
- G01R31/371
- G01R31/396
- G01R31/52
- H01M10/48
- CPC G01R31/3835
- G01R31/385
- CPC G01R31/385
- G06N3/08
- G06N5/022
- CPC G06N3/08
- G06Q10/0835
- G06Q10/0833
- CPC G06Q10/08355
- G06T7/80
- G06T7/13
- G06T7/62
- G06T7/70
- G06V10/44
- CPC G06T7/80
- G06T13/20
- G05B17/02
- G06T7/20
- G06T19/00
- CPC G06T13/20
- G06V20/58
- G06T5/00
- G06T7/60
- G06T7/73
- CPC G06V20/586
- G07C9/00
- B60H1/00
- B60R25/25
- B62D1/181
- CPC G07C9/00309
- G09G3/00
- H02J50/10
- CPC G09G3/001
- G10L15/06
- G10L13/08
- CPC G10L15/063
- G10L15/18
- CPC G10L15/1815
- G10L15/22
- G10L21/0272
- G10L25/78
- CPC G10L15/22
- H01M4/134
- H01M4/02
- H01M10/0562
- CPC H01M4/134
- H01M10/42
- G01R31/36
- H01M50/512
- CPC H01M10/4285
- H02J7/00
- H01M10/052
- H01M10/06
- CPC H02J7/0019
- H02P27/08
- H02M7/537
- H02P25/22
- CPC H02P27/085
- H04N19/105
- H04N19/159
- H04N19/174
- CPC H04N19/105
- H04N19/176
- H04N19/186
- CPC H04N19/159
- H04N21/442
- H04N21/414
- H04N21/433
- CPC H04N21/442
- H05K7/20
- B60L58/26
- H01M10/613
- H01M10/625
- H01M10/635
- H01M10/6568
- H01M10/663
- CPC H05K7/20281
- H10N60/01
- H10N60/85
- CPC H10N60/0268
