Difference between revisions of "HUAWEI TECHNOLOGIES CO., LTD. patent applications published on November 2nd, 2023"
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+ | '''Summary of the patent applications from HUAWEI TECHNOLOGIES CO., LTD. on November 2nd, 2023''' | ||
+ | |||
+ | HUAWEI TECHNOLOGIES CO., LTD. has recently filed several patents related to various technologies. These patents cover areas such as organic light-emitting touch display panels, heat sinks, printed circuit boards, wireless communication methods, and uplink coverage improvement in high-frequency band communication systems. | ||
+ | |||
+ | In the field of display technology, HUAWEI has filed a patent for an organic light-emitting touch display panel and apparatus. This design consists of three layers: a display layer, a touch layer, and a packaging layer. The touch layer is placed on top of the packaging layer and includes a touch-sensitive layer and a touch wiring layer. The design aims to reduce the impact of the touch layer on the display layer's voltage signal, minimize touch blind spots, and improve touch accuracy. | ||
+ | |||
+ | Another patent application from HUAWEI focuses on heat sink technology. The patent describes a heat sink with a unique heat dissipation structure that includes a connection part and a fin part. The fin part and the connection part are positioned at an angle, and the heat dissipation structure contains a cooling flow channel. This design aims to improve the heat conduction capability of the heat sink and enhance heat dissipation reliability. | ||
+ | |||
+ | HUAWEI has also filed a patent for a printed circuit board and electronic communication device. The patent describes a substrate with a cavity and two surfaces covered with copper foil. The substrate also has a through hole, and the application aims to effectively reduce the dielectric constant and dielectric loss of the printed circuit board while ensuring cost control in the manufacturing process. | ||
+ | |||
+ | In the field of wireless communication, HUAWEI has filed a patent for a method and apparatus to prevent random access failures and re-access in a next cell. The method involves determining an access condition based on received information and performing random access only when the condition is met. This approach avoids random access failures in the current cell and the need for re-access in the next cell. | ||
+ | |||
+ | Another patent application from HUAWEI focuses on improving uplink coverage in high-frequency band communication systems. The method involves configuring multiple Supplementary Uplink (SUL) channels in a cell and selecting one SUL channel for random access based on configuration information. This approach allows a large number of terminals to access the network and improves the success rate of uplink random access. | ||
+ | |||
+ | Notable applications: | ||
+ | * Organic light-emitting touch display panel and apparatus | ||
+ | * Heat sink with improved heat dissipation structure | ||
+ | * Printed circuit board with reduced dielectric constant and loss | ||
+ | * Wireless communication method to prevent random access failures | ||
+ | * Uplink coverage improvement in high-frequency band communication systems | ||
+ | * Communication method for accurate resource usage estimation | ||
+ | * Scheduling transmission based on data packet importance and size level | ||
+ | * Groupcast feedback method in Wi-Fi networks | ||
+ | * Flexibility of PDCCH monitoring by a terminal device | ||
+ | |||
+ | |||
+ | |||
+ | |||
==Patent applications for HUAWEI TECHNOLOGIES CO., LTD. on November 2nd, 2023== | ==Patent applications for HUAWEI TECHNOLOGIES CO., LTD. on November 2nd, 2023== | ||
Revision as of 23:27, 7 November 2023
Summary of the patent applications from HUAWEI TECHNOLOGIES CO., LTD. on November 2nd, 2023
HUAWEI TECHNOLOGIES CO., LTD. has recently filed several patents related to various technologies. These patents cover areas such as organic light-emitting touch display panels, heat sinks, printed circuit boards, wireless communication methods, and uplink coverage improvement in high-frequency band communication systems.
In the field of display technology, HUAWEI has filed a patent for an organic light-emitting touch display panel and apparatus. This design consists of three layers: a display layer, a touch layer, and a packaging layer. The touch layer is placed on top of the packaging layer and includes a touch-sensitive layer and a touch wiring layer. The design aims to reduce the impact of the touch layer on the display layer's voltage signal, minimize touch blind spots, and improve touch accuracy.
Another patent application from HUAWEI focuses on heat sink technology. The patent describes a heat sink with a unique heat dissipation structure that includes a connection part and a fin part. The fin part and the connection part are positioned at an angle, and the heat dissipation structure contains a cooling flow channel. This design aims to improve the heat conduction capability of the heat sink and enhance heat dissipation reliability.
HUAWEI has also filed a patent for a printed circuit board and electronic communication device. The patent describes a substrate with a cavity and two surfaces covered with copper foil. The substrate also has a through hole, and the application aims to effectively reduce the dielectric constant and dielectric loss of the printed circuit board while ensuring cost control in the manufacturing process.
In the field of wireless communication, HUAWEI has filed a patent for a method and apparatus to prevent random access failures and re-access in a next cell. The method involves determining an access condition based on received information and performing random access only when the condition is met. This approach avoids random access failures in the current cell and the need for re-access in the next cell.
Another patent application from HUAWEI focuses on improving uplink coverage in high-frequency band communication systems. The method involves configuring multiple Supplementary Uplink (SUL) channels in a cell and selecting one SUL channel for random access based on configuration information. This approach allows a large number of terminals to access the network and improves the success rate of uplink random access.
Notable applications:
- Organic light-emitting touch display panel and apparatus
- Heat sink with improved heat dissipation structure
- Printed circuit board with reduced dielectric constant and loss
- Wireless communication method to prevent random access failures
- Uplink coverage improvement in high-frequency band communication systems
- Communication method for accurate resource usage estimation
- Scheduling transmission based on data packet importance and size level
- Groupcast feedback method in Wi-Fi networks
- Flexibility of PDCCH monitoring by a terminal device
Contents
- 1 Patent applications for HUAWEI TECHNOLOGIES CO., LTD. on November 2nd, 2023
- 1.1 Hydraulic Brake System, Exhaust Control Method Thereof, Controller, and Vehicle (18350340)
- 1.2 NAVIGATION METHOD, APPARATUS, AND SYSTEM (18344669)
- 1.3 High-Definition Map Update Method and Apparatus (18344268)
- 1.4 ELECTRONIC MAP CORRECTION METHOD, NAVIGATION INFORMATION SETTING METHOD, NAVIGATION METHOD, AND APPARATUS (18348159)
- 1.5 Low Refractive Power Inner Lens Focusing Unit and Optical System Thereof (18350290)
- 1.6 HUMAN-MACHINE INTERACTION METHOD AND HUMAN-MACHINE INTERACTION APPARATUS (18345631)
- 1.7 DEVICES AND METHODS FOR GESTURE-BASED SELECTION (18345794)
- 1.8 Display Interaction System, and Display Methodod and Device (18006082)
- 1.9 SPLIT SCREEN METHOD AND APPARATUS, AND ELECTRONIC DEVICE (18245688)
- 1.10 Data Migration Method, Host, and Solid State Disk (18313467)
- 1.11 Double-Channel Screen Mirroring Method and Electronic Device (18342398)
- 1.12 PROJECTION DISPLAY METHOD AND ELECTRONIC DEVICE (18340684)
- 1.13 Computational Graph Optimization Method and Apparatus (18348536)
- 1.14 Tensor Processing Method, Apparatus, and Device, and Computer-Readable Storage Medium (18350907)
- 1.15 UI Interface Adaptation Constraint Solving Method and Related Apparatus (18351734)
- 1.16 Method for Reusing Shared Library and Electronic Device (18042980)
- 1.17 DUAL-PORT MEMORY MODULE DESIGN FOR COMPOSABLE COMPUTING (18350042)
- 1.18 Data Prefetch Method and Apparatus, and Device (18344417)
- 1.19 File Application Method and Apparatus (17925257)
- 1.20 Application Permission Management Method and Apparatus, and Electronic Device (18002166)
- 1.21 Data Processing Method and Apparatus, and Computer-Readable Storage Medium (18344552)
- 1.22 METHOD AND DEVICE FOR PROCESSING DATA BASED ON MULTI-LAYER PERCEPTRONS (17733758)
- 1.23 MODEL DATA SENDING METHOD AND APPARATUS (18343879)
- 1.24 IMAGE PROCESSING METHOD AND APPARATUS (18341198)
- 1.25 ESTIMATING DEPTH FOR IMAGE AND RELATIVE CAMERA POSES BETWEEN IMAGES (18331174)
- 1.26 VIDEO INTERACTION METHOD AND DEVICE (18043571)
- 1.27 TIME-DOMAIN STEREO PARAMETER ENCODING METHOD AND RELATED PRODUCT (18339062)
- 1.28 ENCODING AND DECODING METHODS, AND ENCODING AND DECODING APPARATUSES FOR STEREO SIGNAL (18350969)
- 1.29 Method, Apparatus, and System for Processing Audio Data (18344445)
- 1.30 Chip Transfer Method and Electronic Device (18006066)
- 1.31 MULTI-TERMINAL GALLIUM NITRIDE POWER TRANSISTOR (18349267)
- 1.32 Memory, Gate-All-Around Field-Effect Transistor, and Manufacturing Method (18350348)
- 1.33 HIGH ELECTRON MOBILITY TRANSISTOR, PREPARATION METHOD, AND POWER AMPLIFIER/SWITCH (18336060)
- 1.34 Terahertz Carrier Sending Apparatus and Terahertz Carrier Receiving Apparatus (18344251)
- 1.35 REDIRECTING STRUCTURE FOR ELECTROMAGNETIC WAVES (18338979)
- 1.36 ANTENNA GEARBOX TRANSMISSION MECHANISM AND ANTENNA (18344335)
- 1.37 FEED NETWORK, ANTENNA, ANTENNA SYSTEM, BASE STATION AND BEAM FORMING METHOD (18344513)
- 1.38 ANTENNA ELEMENT AND ANTENNA ARRAY COMPRISING SUCH ANTENNA ELEMENTS (18311737)
- 1.39 FEED STRUCTURE OF ANTENNA, ANTENNA, AND COMMUNICATION SYSTEM (18339863)
- 1.40 OPERATIONAL AMPLIFIER, DRIVE CIRCUIT, INTERFACE CHIP, AND ELECTRONIC DEVICE (18345921)
- 1.41 Interface Circuit (18345557)
- 1.42 COMMUNICATION METHOD AND APPARATUS (18347574)
- 1.43 Beam Selection Method and Communication Apparatus (17793311)
- 1.44 WIRELESS COMMUNICATION METHOD AND APPARATUS (18221137)
- 1.45 Method and Apparatus for Transmitting and Receiving Client Signal in Optical Transport Network (18173990)
- 1.46 Status Notification Method, Optical Module, Network Device, and Network System (18349645)
- 1.47 NOMINAL PACKET PADDING VALUE INDICATION METHOD, DETERMINING METHOD, AND COMMUNICATION APPARATUS (18349510)
- 1.48 METHODS, APPARATUSES, AND OPTICAL NETWORK DEVICES FOR UPLINK FEC ENCODING AND DECODING (18347829)
- 1.49 Qualitative Communication Using Adaptive Network Coding with a Sliding Window (18330142)
- 1.50 RELAY COMMUNICATION METHOD AND APPARATUS (18341276)
- 1.51 RESOURCE INDICATION METHOD, TERMINAL DEVICE, AND NETWORK DEVICE (18346163)
- 1.52 DATA TRANSMISSION METHOD AND DEVICE (18305205)
- 1.53 COMMUNICATION METHOD AND APPARATUS (18350810)
- 1.54 CLOCK SYNCHRONIZATION METHOD AND COMMUNICATION APPARATUS (18349229)
- 1.55 METHOD, APPARATUS, AND SYSTEM FOR TRAINING TREE MODEL (18344185)
- 1.56 LOGIN AUTHENTICATION METHOD, APPARATUS, AND SYSTEM (17793322)
- 1.57 Baseband Data Transmission Method and System (18345628)
- 1.58 AMPLITUDE OPTIMIZED REFLECTION CANCELLER IN PARALLEL CHANNEL EQUALIZERS (18349635)
- 1.59 ARTIFICIAL INTELLIGENT ENHANCED DATA SAMPLING (18351244)
- 1.60 OPERATION, ADMINISTRATION AND MAINTENANCE OAM DATA TRANSMISSION METHOD AND APPARATUS (18350206)
- 1.61 METHOD FOR CONFIGURING HOME DEVICES IN BATCHES AND DEVICE (18043725)
- 1.62 METHOD FOR DETERMINING SERVICE EXPERIENCE MODEL AND COMMUNICATION APPARATUS (18344628)
- 1.63 Edge Computing Data and Service Discovery Using an Interior Gateway Protocol (IGP) (18315375)
- 1.64 PCE for BIER-TE Path (18350593)
- 1.65 CALL PROCESSING METHOD, RELATED DEVICE, AND COMMUNICATIONS SYSTEM (18347092)
- 1.66 MALICIOUS TRAFFIC IDENTIFICATION METHOD AND RELATED APPARATUS (18345853)
- 1.67 CALL PROCESSING SYSTEM AND CALL PROCESSING METHOD (18347437)
- 1.68 CALL PROCESSING METHOD, CALL PROCESSING APPARATUS, AND RELATED DEVICE (18346962)
- 1.69 INTRA-PREDICTION APPARATUS FOR REMOVING A DIRECTIONAL INTRA-PREDICTION MODE FROM A SET OF PREDETERMINED DIRECTIONAL INTRA-PREDICTION MODES (18330178)
- 1.70 THE METHOD OF EFFICIENT SIGNALLING OF CBF FLAGS (18206770)
- 1.71 METHOD AND APPARATUS FOR DECODING WITH SIGNALING OF FEATURE MAP DATA (18340704)
- 1.72 METHOD AND APPARATUS FOR ENCODING A PICTURE AND DECODING A BITSTREAM USING A NEURAL NETWORK (18338143)
- 1.73 MOTION VECTOR REFINEMENT FOR MULTI-REFERENCE PREDICTION (18313202)
- 1.74 SCHEDULING TRANSMISSION METHOD AND APPARATUS (18349921)
- 1.75 PHOTOGRAPHING METHOD AND APPARATUS FOR INTELLIGENT FRAMING RECOMMENDATION (18343942)
- 1.76 WIRELESS HEADSET AND AUDIO DEVICE (18344206)
- 1.77 SECURE COMMUNICATION METHOD AND DEVICE (18348473)
- 1.78 DL MEASUREMENT INFORMATION SIGNALING FOR IMPROVED DL TRANSMISSIONS (18338951)
- 1.79 PRIVATE NETWORK CONGESTION CONTROL DURING ONBOARDING AND PROVISIONING (18351092)
- 1.80 NETWORK RESOURCE REQUEST METHOD AND RELATED DEVICE THEREOF (18338976)
- 1.81 CELL HANDOVER METHOD AND APPARATUS (18338941)
- 1.82 HANDOVER CONTROL METHOD, ADMISSION CONTROL METHOD, AND COMMUNICATION APPARATUS (18221105)
- 1.83 COMMUNICATION METHOD BETWEEN MULTI-LINK DEVICES AND APPARATUS (18340018)
- 1.84 TRANSMIT POWER CONTROL METHOD, TERMINAL, CHIP SYSTEM, AND SYSTEM (17913839)
- 1.85 POWER CONTROL METHOD FOR UPLINK CONTROL CHANNEL, AND APPARATUS (18350449)
- 1.86 TRANSMIT POWER DETERMINING METHOD AND APPARATUS (18347301)
- 1.87 COMMUNICATION METHOD AND APPARATUS (18350932)
- 1.88 BLUETOOTH COMMUNICATION METHOD AND APPARATUS (18344168)
- 1.89 POSITIONING INFORMATION TRANSMISSION METHOD AND APPARATUS (18348935)
- 1.90 DATA PROCESSING METHOD AND APPARATUS (18342077)
- 1.91 COMMUNICATION METHOD AND APPARATUS (18351111)
- 1.92 TIME RESOURCE ALLOCATION AND RECEIVING METHOD AND RELATED APPARATUS (18346169)
- 1.93 COMMUNICATION METHOD AND APPARATUS (18349495)
- 1.94 PPDU UPLINK BANDWIDTH INDICATION METHOD AND RELATED APPARATUS (18308454)
- 1.95 COMMUNICATION METHOD, ACCESS NETWORK DEVICE, AND TERMINAL (18344607)
- 1.96 COMMUNICATION METHOD AND APPARATUS (18347950)
- 1.97 COMMUNICATION METHOD, COMMUNICATION DEVICE, AND COMMUNICATION SYSTEM (18350226)
- 1.98 Method for Downlink Control Channel Design (18351194)
- 1.99 RESOURCE DETERMINING METHOD AND APPARATUS (18246002)
- 1.100 DATA RECEIVING METHOD AND APPARATUS AND DATA SENDING METHOD AND APPARATUS (18350050)
- 1.101 COMMUNICATION METHOD AND APPARATUS (18351013)
- 1.102 GROUPCAST FEEDBACK METHOD, APPARATUS, AND SYSTEM (18348423)
- 1.103 DATA TRANSMISSION METHOD AND APPARATUS (18343186)
- 1.104 SCHEDULING TRANSMISSION METHOD AND APPARATUS (18349934)
- 1.105 COMMUNICATION METHOD AND APPARATUS (18327907)
- 1.106 RANDOM ACCESS METHOD AND TERMINAL (18009589)
- 1.107 WIRELESS COMMUNICATION METHOD AND APPARATUS (18331950)
- 1.108 PRINTED CIRCUIT BOARD AND PREPARATION METHOD THEREOF, AND ELECTRONIC COMMUNICATION DEVICE (18350812)
- 1.109 HEAT SINK AND COMMUNICATION DEVICE (18348396)
- 1.110 ORGANIC LIGHT-EMITTING TOUCH DISPLAY PANEL AND DISPLAY APPARATUS (17907260)
Patent applications for HUAWEI TECHNOLOGIES CO., LTD. on November 2nd, 2023
Hydraulic Brake System, Exhaust Control Method Thereof, Controller, and Vehicle (18350340)
Main Inventor
Wentao Ma
NAVIGATION METHOD, APPARATUS, AND SYSTEM (18344669)
Main Inventor
Qi Qi
High-Definition Map Update Method and Apparatus (18344268)
Main Inventor
Wenkai Fei
ELECTRONIC MAP CORRECTION METHOD, NAVIGATION INFORMATION SETTING METHOD, NAVIGATION METHOD, AND APPARATUS (18348159)
Main Inventor
Jing Zhang
Low Refractive Power Inner Lens Focusing Unit and Optical System Thereof (18350290)
Main Inventor
Yasuhide Nihei
HUMAN-MACHINE INTERACTION METHOD AND HUMAN-MACHINE INTERACTION APPARATUS (18345631)
Main Inventor
Shuaihua PENG
DEVICES AND METHODS FOR GESTURE-BASED SELECTION (18345794)
Main Inventor
Juwei LU
Display Interaction System, and Display Methodod and Device (18006082)
Main Inventor
Guohui Han
SPLIT SCREEN METHOD AND APPARATUS, AND ELECTRONIC DEVICE (18245688)
Main Inventor
Meng DENG
Data Migration Method, Host, and Solid State Disk (18313467)
Main Inventor
Ge Du
Double-Channel Screen Mirroring Method and Electronic Device (18342398)
Main Inventor
Shanshi Wang
PROJECTION DISPLAY METHOD AND ELECTRONIC DEVICE (18340684)
Main Inventor
Decai Huang
Computational Graph Optimization Method and Apparatus (18348536)
Main Inventor
Baicheng Yan
Tensor Processing Method, Apparatus, and Device, and Computer-Readable Storage Medium (18350907)
Main Inventor
Jian Yuan
UI Interface Adaptation Constraint Solving Method and Related Apparatus (18351734)
Main Inventor
Tao Wen
Main Inventor
Jiwei Xiao
DUAL-PORT MEMORY MODULE DESIGN FOR COMPOSABLE COMPUTING (18350042)
Main Inventor
Jinshui LIU
Data Prefetch Method and Apparatus, and Device (18344417)
Main Inventor
Haixin Wang
File Application Method and Apparatus (17925257)
Main Inventor
Mingming Shao
Application Permission Management Method and Apparatus, and Electronic Device (18002166)
Main Inventor
Jianfei Zhong
Data Processing Method and Apparatus, and Computer-Readable Storage Medium (18344552)
Main Inventor
Jianqin Liu
METHOD AND DEVICE FOR PROCESSING DATA BASED ON MULTI-LAYER PERCEPTRONS (17733758)
Main Inventor
Yehui TANG
MODEL DATA SENDING METHOD AND APPARATUS (18343879)
Main Inventor
Wen YAN
IMAGE PROCESSING METHOD AND APPARATUS (18341198)
Main Inventor
Takimoto YUSUKE
ESTIMATING DEPTH FOR IMAGE AND RELATIVE CAMERA POSES BETWEEN IMAGES (18331174)
Main Inventor
Patrick RUHKAMP
VIDEO INTERACTION METHOD AND DEVICE (18043571)
Main Inventor
Dongang Wu
TIME-DOMAIN STEREO PARAMETER ENCODING METHOD AND RELATED PRODUCT (18339062)
Main Inventor
Haiting LI
ENCODING AND DECODING METHODS, AND ENCODING AND DECODING APPARATUSES FOR STEREO SIGNAL (18350969)
Main Inventor
Eyal SHLOMOT
Method, Apparatus, and System for Processing Audio Data (18344445)
Main Inventor
Zhe Wang
Chip Transfer Method and Electronic Device (18006066)
Main Inventor
Haohui Long
MULTI-TERMINAL GALLIUM NITRIDE POWER TRANSISTOR (18349267)
Main Inventor
Gilberto CURATOLA
Memory, Gate-All-Around Field-Effect Transistor, and Manufacturing Method (18350348)
Main Inventor
Luming Fan
HIGH ELECTRON MOBILITY TRANSISTOR, PREPARATION METHOD, AND POWER AMPLIFIER/SWITCH (18336060)
Main Inventor
Teng Jiang
Terahertz Carrier Sending Apparatus and Terahertz Carrier Receiving Apparatus (18344251)
Main Inventor
Luqi Zhang
REDIRECTING STRUCTURE FOR ELECTROMAGNETIC WAVES (18338979)
Main Inventor
Janne Ilvonen
ANTENNA GEARBOX TRANSMISSION MECHANISM AND ANTENNA (18344335)
Main Inventor
Jinye HE
FEED NETWORK, ANTENNA, ANTENNA SYSTEM, BASE STATION AND BEAM FORMING METHOD (18344513)
Main Inventor
Zhiqiang LIAO
ANTENNA ELEMENT AND ANTENNA ARRAY COMPRISING SUCH ANTENNA ELEMENTS (18311737)
Main Inventor
Ruiyuan Tian
FEED STRUCTURE OF ANTENNA, ANTENNA, AND COMMUNICATION SYSTEM (18339863)
Main Inventor
Junfeng LU
OPERATIONAL AMPLIFIER, DRIVE CIRCUIT, INTERFACE CHIP, AND ELECTRONIC DEVICE (18345921)
Main Inventor
Jingjing Wang
Interface Circuit (18345557)
Main Inventor
Yuzhen Zhou
COMMUNICATION METHOD AND APPARATUS (18347574)
Main Inventor
Xin Xia
Beam Selection Method and Communication Apparatus (17793311)
Main Inventor
Xiaoyong Yu
WIRELESS COMMUNICATION METHOD AND APPARATUS (18221137)
Main Inventor
Ying CHEN
Method and Apparatus for Transmitting and Receiving Client Signal in Optical Transport Network (18173990)
Main Inventor
Wei SU
Status Notification Method, Optical Module, Network Device, and Network System (18349645)
Main Inventor
Li Ding
NOMINAL PACKET PADDING VALUE INDICATION METHOD, DETERMINING METHOD, AND COMMUNICATION APPARATUS (18349510)
Main Inventor
Mengshi HU
METHODS, APPARATUSES, AND OPTICAL NETWORK DEVICES FOR UPLINK FEC ENCODING AND DECODING (18347829)
Main Inventor
Xuming WU
Qualitative Communication Using Adaptive Network Coding with a Sliding Window (18330142)
Main Inventor
Lijun Dong
RELAY COMMUNICATION METHOD AND APPARATUS (18341276)
Main Inventor
Fengwei LIU
RESOURCE INDICATION METHOD, TERMINAL DEVICE, AND NETWORK DEVICE (18346163)
Main Inventor
Xiang REN
DATA TRANSMISSION METHOD AND DEVICE (18305205)
Main Inventor
Zhongfeng Li
COMMUNICATION METHOD AND APPARATUS (18350810)
Main Inventor
Mao YANG
CLOCK SYNCHRONIZATION METHOD AND COMMUNICATION APPARATUS (18349229)
Main Inventor
Zhaoyu HU
METHOD, APPARATUS, AND SYSTEM FOR TRAINING TREE MODEL (18344185)
Main Inventor
Yunfeng Shao
LOGIN AUTHENTICATION METHOD, APPARATUS, AND SYSTEM (17793322)
Main Inventor
Long LIN
Baseband Data Transmission Method and System (18345628)
Main Inventor
Feng Wu
AMPLITUDE OPTIMIZED REFLECTION CANCELLER IN PARALLEL CHANNEL EQUALIZERS (18349635)
Main Inventor
Ehud NIR
ARTIFICIAL INTELLIGENT ENHANCED DATA SAMPLING (18351244)
Main Inventor
Ming Li
OPERATION, ADMINISTRATION AND MAINTENANCE OAM DATA TRANSMISSION METHOD AND APPARATUS (18350206)
Main Inventor
Jing HUANG
METHOD FOR CONFIGURING HOME DEVICES IN BATCHES AND DEVICE (18043725)
Main Inventor
Ying Wang
METHOD FOR DETERMINING SERVICE EXPERIENCE MODEL AND COMMUNICATION APPARATUS (18344628)
Main Inventor
Yang XIN
Edge Computing Data and Service Discovery Using an Interior Gateway Protocol (IGP) (18315375)
Main Inventor
Yingzhen Qu
PCE for BIER-TE Path (18350593)
Main Inventor
Huaimo Chen
CALL PROCESSING METHOD, RELATED DEVICE, AND COMMUNICATIONS SYSTEM (18347092)
Main Inventor
Jun Zuo
MALICIOUS TRAFFIC IDENTIFICATION METHOD AND RELATED APPARATUS (18345853)
Main Inventor
Rongfei Wan
CALL PROCESSING SYSTEM AND CALL PROCESSING METHOD (18347437)
Main Inventor
Guangjie Shen
CALL PROCESSING METHOD, CALL PROCESSING APPARATUS, AND RELATED DEVICE (18346962)
Main Inventor
Guangjie SHEN
INTRA-PREDICTION APPARATUS FOR REMOVING A DIRECTIONAL INTRA-PREDICTION MODE FROM A SET OF PREDETERMINED DIRECTIONAL INTRA-PREDICTION MODES (18330178)
Main Inventor
Alexey Konstantinovich FILIPPOV
THE METHOD OF EFFICIENT SIGNALLING OF CBF FLAGS (18206770)
Main Inventor
Roman Igorevich CHERNYAK
METHOD AND APPARATUS FOR DECODING WITH SIGNALING OF FEATURE MAP DATA (18340704)
Main Inventor
Sergey Yurievich Ikonin
METHOD AND APPARATUS FOR ENCODING A PICTURE AND DECODING A BITSTREAM USING A NEURAL NETWORK (18338143)
Main Inventor
Elena Alexandrovna Alshina
MOTION VECTOR REFINEMENT FOR MULTI-REFERENCE PREDICTION (18313202)
Main Inventor
Semih Esenlik
SCHEDULING TRANSMISSION METHOD AND APPARATUS (18349921)
Main Inventor
Youlong Cao
PHOTOGRAPHING METHOD AND APPARATUS FOR INTELLIGENT FRAMING RECOMMENDATION (18343942)
Main Inventor
Yinting WANG
WIRELESS HEADSET AND AUDIO DEVICE (18344206)
Main Inventor
Zichen Xie
SECURE COMMUNICATION METHOD AND DEVICE (18348473)
Main Inventor
He Li
DL MEASUREMENT INFORMATION SIGNALING FOR IMPROVED DL TRANSMISSIONS (18338951)
Main Inventor
Majid NASIRI KHORMUJI
PRIVATE NETWORK CONGESTION CONTROL DURING ONBOARDING AND PROVISIONING (18351092)
Main Inventor
Zhixian Xiang
NETWORK RESOURCE REQUEST METHOD AND RELATED DEVICE THEREOF (18338976)
Main Inventor
Fengbao WANG
CELL HANDOVER METHOD AND APPARATUS (18338941)
Main Inventor
Shitong YUAN
HANDOVER CONTROL METHOD, ADMISSION CONTROL METHOD, AND COMMUNICATION APPARATUS (18221105)
Main Inventor
Fei SUN
COMMUNICATION METHOD BETWEEN MULTI-LINK DEVICES AND APPARATUS (18340018)
Main Inventor
Ming Gan
TRANSMIT POWER CONTROL METHOD, TERMINAL, CHIP SYSTEM, AND SYSTEM (17913839)
Main Inventor
Rentian Ding
POWER CONTROL METHOD FOR UPLINK CONTROL CHANNEL, AND APPARATUS (18350449)
Main Inventor
Ruijie Li
TRANSMIT POWER DETERMINING METHOD AND APPARATUS (18347301)
Main Inventor
Mao YAN
COMMUNICATION METHOD AND APPARATUS (18350932)
Main Inventor
Jing HAN
BLUETOOTH COMMUNICATION METHOD AND APPARATUS (18344168)
Main Inventor
Kai FU
POSITIONING INFORMATION TRANSMISSION METHOD AND APPARATUS (18348935)
Main Inventor
Cheng LI
DATA PROCESSING METHOD AND APPARATUS (18342077)
Main Inventor
Caifa ZHOU
COMMUNICATION METHOD AND APPARATUS (18351111)
Main Inventor
Hongyu Xiang
TIME RESOURCE ALLOCATION AND RECEIVING METHOD AND RELATED APPARATUS (18346169)
Main Inventor
Yunbo LI
COMMUNICATION METHOD AND APPARATUS (18349495)
Main Inventor
Weilin QU
PPDU UPLINK BANDWIDTH INDICATION METHOD AND RELATED APPARATUS (18308454)
Main Inventor
Ming Gan
COMMUNICATION METHOD, ACCESS NETWORK DEVICE, AND TERMINAL (18344607)
Main Inventor
Wei Sun
COMMUNICATION METHOD AND APPARATUS (18347950)
Main Inventor
Lei Chen
COMMUNICATION METHOD, COMMUNICATION DEVICE, AND COMMUNICATION SYSTEM (18350226)
Main Inventor
Ruijie LI
Method for Downlink Control Channel Design (18351194)
Main Inventor
Zhengwei Gong
RESOURCE DETERMINING METHOD AND APPARATUS (18246002)
Main Inventor
Yifan XUE
DATA RECEIVING METHOD AND APPARATUS AND DATA SENDING METHOD AND APPARATUS (18350050)
Main Inventor
Hongjian YANG
COMMUNICATION METHOD AND APPARATUS (18351013)
Main Inventor
Wenwen HUANG
GROUPCAST FEEDBACK METHOD, APPARATUS, AND SYSTEM (18348423)
Main Inventor
Guangji CHEN
DATA TRANSMISSION METHOD AND APPARATUS (18343186)
Main Inventor
Nijun LI
SCHEDULING TRANSMISSION METHOD AND APPARATUS (18349934)
Main Inventor
Youlong Cao
COMMUNICATION METHOD AND APPARATUS (18327907)
Main Inventor
Yedan WU
RANDOM ACCESS METHOD AND TERMINAL (18009589)
Main Inventor
Yifan Xue
Brief explanation
- The patent application describes a method and terminal for improving uplink coverage in high frequency band communication systems such as 5G and 6G.
- The method involves configuring multiple Supplementary Uplink (SUL) channels in a cell to supplement uplink coverage. - The network device sends configuration information of the SUL channels to the terminal device. - The terminal device selects one SUL channel for random access based on the configuration information. - The use of multiple SUL channels allows a large number of terminals in the cell to access the network and improves the success rate of uplink random access. - The terminal is specifically designed to select a first SUL channel for random access from the available SUL channels.
Abstract
Embodiments of this application disclose a random access method and a terminal, applied to the communication field, to improve uplink coverage in high frequency band communication systems such as 5G and 6G communication systems. The method in embodiments of this application includes: A network device configures a plurality of SULs in one cell, where the plurality of SULs are used to supplement uplink coverage of the cell; the network device sends configuration information of the plurality of SULs to a terminal device; and after receiving the configuration information, the terminal device may select one SUL used for random access from the plurality of SULs based on the configuration information. In embodiments of this application, because the cell includes the plurality of SULs, a requirement that a large quantity of terminals in the cell can access a network can be met, and a success rate of uplink random access by the plurality of terminals is improved. Embodiments of this application further provide a terminal. The terminal is configured to select a first SUL used for random access from a plurality of SULs.
WIRELESS COMMUNICATION METHOD AND APPARATUS (18331950)
Main Inventor
Xiaolu Wang
Brief explanation
This patent application describes a wireless communication method and apparatus that aim to prevent random access failures in a current cell and re-access in a next cell.
- The method involves a first communication apparatus receiving first information that indicates a determining threshold of a parameter in a first parameter set.
- The first parameter set includes various parameters such as location information, delay information, timing advance rate, rate of the timing advance rate, Doppler value, Doppler rate, and remaining coverage time.
- Based on the received first information, the first communication apparatus determines whether an access condition is met.
- If the access condition is met, the first communication apparatus performs random access.
- By ensuring that the access condition is met before performing random access, the method avoids random access failures in the current cell and the need for re-access in the next cell.
Abstract
Embodiments of this application provide a wireless communication method and an apparatus. The method includes: A first communication apparatus receives first information, where the first information indicates a determining threshold of a parameter in a first parameter set, and the first parameter set includes at least one of the following parameters: location information, delay information, a timing advance rate, a rate of the timing advance rate, a Doppler value, a Doppler rate, and remaining coverage time. The first communication apparatus determines, based on the first information, whether an access condition is met, and performs random access when the access condition is met. This avoids a random access failure in a current cell and re-access in a next cell due to random access performed when the condition is not met.
PRINTED CIRCUIT BOARD AND PREPARATION METHOD THEREOF, AND ELECTRONIC COMMUNICATION DEVICE (18350812)
Main Inventor
Feng GAO
Brief explanation
- The patent application describes an application that provides a printed circuit board and an electronic communication device.
- The printed circuit board includes a substrate, a bonding layer, a copper foil, and a filler. - The substrate has a cavity that penetrates through it, and two surfaces of the substrate are covered with copper foil. - The copper foil is bonded to the substrate using the bonding layer, and an outer surface of the copper foil is plated with a conductive metal layer. - The filler is located inside the cavity of the substrate. - The substrate also has a through hole that penetrates through it and the bonding layer. - The hole wall of the through hole is plated with a conductive metal layer. - The application aims to effectively reduce the dielectric constant and dielectric loss of the printed circuit board. - The innovation also ensures cost control in the manufacturing process.
Abstract
This application provides a printed circuit board and an electronic communication device. The printed circuit board includes a substrate, a bonding layer, a copper foil, and a filler. The substrate is provided with a cavity, and the cavity penetrates through the substrate. Two surfaces of the substrate are covered with the copper foil. The copper foil is bonded to the substrate by using the bonding layer. An outer surface of the copper foil is plated with a conductive metal layer. The filler is located inside the cavity. The substrate is provided with a through hole, and the through hole penetrates through the substrate and the bonding layer. A hole wall of the through hole is plated with a conductive metal layer. In this application, a dielectric constant Dk and a dielectric loss Df of the printed circuit board can be effectively reduced, and cost control is ensured.
HEAT SINK AND COMMUNICATION DEVICE (18348396)
Main Inventor
Yu ZHANG
Brief explanation
- The patent application describes a heat sink that includes a substrate, a heat dissipation structure, and a refrigerating medium.
- The heat dissipation structure consists of a connection part and a fin part, which are integrated together. - The connection part is connected to the substrate, while the fin part and the connection part are positioned at an angle. - The fin root of the fin part is connected to the connection part, and the fin top is located away from the connection part. - The heat dissipation structure contains a cooling flow channel, with at least a portion of it located in the fin part. - The refrigerating medium flows through the cooling flow channel to dissipate heat from the substrate. - This solution aims to improve the heat conduction capability of the heat sink and enhance heat dissipation reliability.
Abstract
A heat sink is provided, and it includes a substrate, a heat dissipation structure, and a refrigerating medium. The heat dissipation structure includes a connection part and a fin part that are of an integrated structure, the connection part is connected to the substrate, the fin part and the connection part are disposed at an included angle, a fin root of the fin part is connected to the connection part, and a fin top of the fin part is far away from the connection part, a cooling flow channel is disposed in the heat dissipation structure, and at least a part of the cooling flow channel is located in the fin part. The refrigerating medium flows in the cooling flow channel to dissipate heat for the substrate. According to the above solution, a heat conduction capability of the heat sink can be improved, and heat dissipation reliability is good.
ORGANIC LIGHT-EMITTING TOUCH DISPLAY PANEL AND DISPLAY APPARATUS (17907260)
Main Inventor
Junyong ZHANG
Brief explanation
- The patent application describes an organic light-emitting touch display panel and apparatus.
- The display panel consists of three layers: a display layer, a touch layer, and a packaging layer. - The touch layer is placed on top of the packaging layer. - The display layer contains multiple display units, each consisting of a first electrode, a second electrode, and an organic light-emitting layer. - The touch layer includes a touch-sensitive layer, a first insulation layer, and a touch wiring layer. - The touch-sensitive layer has multiple insulated touch electrodes. - The touch wiring layer contains touch sensor traces that are connected to the touch-sensitive electrodes. - The design reduces the impact of the touch layer on the display layer's voltage signal. - It also minimizes touch blind spots and improves touch accuracy.
Abstract
This application provides an organic light-emitting touch display panel and an organic light-emitting touch display apparatus, including a display layer (), a touch layer (), and a packaging layer () disposed between the display layer () and the touch layer (), where the three layers are disposed along a thickness direction of the organic light-emitting touch display panel, and the touch layer () is disposed on the packaging layer (). The display layer () includes a plurality of display units (), and the display unit () includes a first electrode (), a second electrode (), and an organic light-emitting layer () disposed between the first electrode () and the second electrode (). The touch layer () includes a touch-sensitive layer, a first insulation layer (), and a touch wiring layer that are disposed in the thickness direction of the organic light-emitting touch display panel, and the first insulation layer () is disposed between the touch-sensitive sensitive layer and the touch wiring layer. The touch-sensitive layer includes a plurality of touch- electrodes () that are insulated from each other, the touch wiring layer includes a plurality of touch sensor traces (), and the touch-sensitive electrodes () are electrically connected to at least one touch sensor trace (). The organic light-emitting touch display panel reduces impact of the touch layer on a voltage signal of the display layer, reduces touch blind spots, and improves touch accuracy.