公开(公告)号：US20250069265A1

公开(公告)日：2025-02-27

申请号：US18512902

申请日：2023-11-17

Applicant: NATIONAL TSING HUA UNIVERSITY

Inventor： Wei-Lun HUANG ,  Yung-Shin TSENG ,  Wei-Lin CHEN ,  Hui-Yu TSAI

IPC: G06T7/80 ,  G06V20/50 ,  G16H40/67

Abstract: Tag-guided image positioning method includes: defining a three-dimensional space coordinate system based on tag spatial position information obtained by identifying reference image(s) of a patient's body part disposed with reference tag(s), and position/direction data related to a medical device reference point (MDC)/direction (MDD); estimating a target coordinate in system representing a position of a target point based on three-dimensional medical image of patient's body part marked with target point and reference marker(s) corresponding to position(s) of reference tag(s) and reference coordinate(s) in system representing position(s) of reference tag(s); and outputting a positioning result as a basis for whether patient's body part should be adjusted based on a judgment result indicating whether or not in system a distance between target coordinate and a device coordinate representing a position of MDC and a pointing representing MDD are respectively consistent with a predetermined distance/medical device incident direction in radiotherapy plan for patient's body part.

公开(公告)号：US12234569B2

公开(公告)日：2025-02-25

申请号：US17666511

申请日：2022-02-07

Applicant: NATIONAL TSING HUA UNIVERSITY

Inventor： Hsiang-Yu Wang ,  Yi-Yu Chen ,  Shih-Hao Lin ,  Yu-Sheng Lin

IPC: C25D5/48 ,  C25D3/12 ,  C25D5/18 ,  C25D5/54 ,  C25D7/00 ,  G01N27/30 ,  G01N27/327

Abstract: A fabricating method of a non-enzyme sensor element includes a printing step, a coating step and an electroplating step. In the printing step, a conductive material is printed on a surface of a substrate to form a working electrode, a reference electrode and an auxiliary electrode, and a porous carbon material is printed on the working electrode to form a porous carbon layer. In the coating step, a graphene film material is coated on the porous carbon layer of the working electrode to form a graphene layer. In the electroplating step, a metal is electroplated on the graphene layer by a pulse constant current to form a catalyst layer including a metal oxide.

公开(公告)号：US20240421345A1

公开(公告)日：2024-12-19

申请号：US18351503

申请日：2023-07-13

Applicant: National Tsing Hua University

Inventor： Chun-Han Kuo ,  Han-Yi Chen

IPC: H01M10/0562 ,  H01M10/0525

Abstract: A solid electrolyte with high-entropy garnet-type structure includes a high-entropy garnet-type structure oxide represented by following formula (1): LiaLa3ZrbTacM1dM2eM3fO12   (1) In the formula (1), M1, M2, and M3 are respectively W, Sc, Sn, Nb, Y, Si, Sb, Te, Ti, Mo, Mg, or Nd, b+c+d+e+f=2, 5

公开(公告)号：US20240420455A1

公开(公告)日：2024-12-19

申请号：US18451878

申请日：2023-08-18

Applicant: International Business Machines Corporation ,  National Tsing Hua University

Inventor： Pin-Yu Chen ,  I-Hsin Chung ,  Bo Wu ,  Chuang Gan ,  Tsung-Yi Ho ,  Sheng-Yen Chou

IPC: G06V10/774

Abstract: Techniques regarding generating a synthetic dataset of objects are provided. For example, one or more embodiments described herein can comprise a system, which can comprise a memory that can store computer executable components. The system can also comprise a processor, operably coupled to the memory, and that can execute the computer executable components stored in the memory. The computer executable components can include a defining component that can define a tractable forward process associated with a diffusion model, with defining the tractable forward process including inputting noise to compromise training data, resulting in compromised training data. The computer executable components can further include a training component that, using the compromised training data, trains the diffusion model to reverse process the tractable forward process, wherein the training results in a compromised diffusion model.

公开(公告)号：US20240402011A1

公开(公告)日：2024-12-05

申请号：US18205618

申请日：2023-06-05

Applicant: National Tsing Hua University

Inventor： Wei-Chih Wang ,  Fiona Marie Wang

IPC: G01J3/28 ,  G01J3/02 ,  G01J3/453

Abstract: A two-dimensional hyperspectral imaging system for imaging a plurality of light signals of a sample by Fourier spectroscopy includes a first optical element, a second optical element, a phase difference modulator and an image sensor. The light signals pass by the first optical element. The second optical element is spaced away from and parallel to the first optical element, and the light signals pass by the second optical element. The phase difference modulator is closer to the first optical element than the second optical element to the first optical element, and configured for modifying a phase difference of adjacent two of the light signals. The image sensor is configured for receiving the light signals reflected from the first optical element and the second optical element, and operating Fourier transforming on the light signals. The second optical element is between the first optical element and the image sensor.

公开(公告)号：US20240372561A1

公开(公告)日：2024-11-07

申请号：US18311940

申请日：2023-05-04

Applicant: NATIONAL TSING HUA UNIVERSITY

Inventor： Pen-Jui PENG ,  Yen-Po LIN

IPC: H03M7/14

Abstract: A decoder includes a demultiplexer and a number (P) of ADCs, where P≥2. The demultiplexer receives a to-be-decoded data signal that is in a PAM-2M format, and demultiplexes the to-be decoded data signal into a number (P) of demultiplexed data signals, where M≥2. The ADCs respectively receive the demultiplexed data signals. One of the ADCs is an (M+1)-bit ADC, and converts the corresponding demultiplexed data signal into a digital first decoded signal that contains an M-bits wide data portion and a one-bit wide error portion. Each of the other one(s) of the ADCs is an M-bit ADC, and converts the corresponding demultiplexed data signal into a digital second decoded signal that contains an M-bits wide data portion.

公开(公告)号：US20240344773A1

公开(公告)日：2024-10-17

申请号：US18325113

申请日：2023-05-30

Applicant: National Tsing Hua University

Inventor： Shwin-Chung Wong

IPC: F28D15/02 ,  F28D15/04

CPC classification number: F28D15/0233 ,  F28D15/046

Abstract: A vapor chamber device includes a first casing, a first capillary structure, and a second casing. The first casing includes a first plate portion, multiple first protrusions, and a first side wall. The first capillary structure is disposed above an inner surface of the first plate portion and surrounds the first protrusions. The second casing is stacked on the first casing, and the second casing includes a second plate portion, multiple second protrusions, and a second side wall. The first side wall is connected to the second side wall, and multiple steam passages are formed between the second protrusions. The second plate portion includes multiple connecting regions yielded by the second protrusions, and the first protrusions are connected to the connecting regions. The second protrusions rest against the first capillary structure.

公开(公告)号：US20240339563A1

公开(公告)日：2024-10-10

申请号：US18479109

申请日：2023-10-01

Applicant: National Tsing Hua University

Inventor： Chang-Hua Liu

IPC: H01L33/14 ,  H01L33/00

CPC classification number: H01L33/145 ,  H01L33/0016

Abstract: An infrared light emitter includes a substrate, a first light-emitting layer, a blocking layer, and a second light-emitting layer. The second light-emitting layer is disposed on the substrate, the blocking layer is disposed on the second light-emitting layer, and the first light-emitting layer is disposed on the blocking layer. The first light-emitting layer, the blocking, and the second light-emitting layer form a P-N-P junction or an N-P-N junction. The first light-emitting layer and the blocking layer form a first electroluminescent unit, and the blocking layer and the second light-emitting layer form a second electroluminescent unit. The first electroluminescent unit and the second electroluminescent unit build two back-to-back bipolar junctions.

公开(公告)号：US20240332764A1

公开(公告)日：2024-10-03

申请号：US18616374

申请日：2024-03-26

Applicant: National Tsing Hua University ,  National Synchrotron Radiation Research Center

Inventor： Tsun-Hsu Chang ,  Tsung-Chi Yu ,  Cheng-Hsuan Chan

IPC: H01P1/00

CPC classification number: H01P1/00

Abstract: The planar Balun of the present invention can be used in various hundred to and thousand-watt level push-pull power amplifiers, which can greatly reduce the area and the amount of second harmonics of the power amplifier, and improve the flexibility of circuit layout and spectral purity, especially at high frequencies, such as around 915 MHz, and can replace the widely used coaxial Balun to simplify amplifier design.

公开(公告)号：US20240290575A1

公开(公告)日：2024-08-29

申请号：US18655582

申请日：2024-05-06

Applicant: TAIWAN SEMICONDUCTOR MANUFACTURING COMPANY, LTD. ,  NATIONAL TSING HUA UNIVERSITY

Inventor： Ya-Chin KING ,  Chrong-Jung LIN ,  Burn-Jeng LIN ,  Chien-Ping WANG ,  Shao-Hua WANG ,  Chun-Lin CHANG ,  Li-Jui CHEN

IPC: H01J37/304 ,  G03F7/00 ,  H01J37/30 ,  H01L27/144 ,  H01L31/02 ,  H01L31/113 ,  H01L31/18

CPC classification number: H01J37/304 ,  G03F7/70516 ,  G03F7/7055 ,  G03F7/70616 ,  H01J37/3002 ,  H01L27/1446 ,  H01L31/02005 ,  H01L31/1136 ,  H01L31/18

Abstract: A semiconductor structure includes a substrate, a semiconductor detector, a peripheral circuit, and a multilayer interconnection structure. The substrate has a sensing region and a peripheral region. The semiconductor detector is on the sensing region of the substrate. The semiconductor detector includes a first detector unit, a second detector unit, and a third detector unit. Each of the first, second, third detector units includes a first transistor and a second transistor connected in series. A gate of the second transistor is a floating gate. The peripheral circuit is on the peripheral region of the substrate and is coupled to the semiconductor detector. The multilayer interconnection structure is over the substrate. A first number of metallization layers of the multilayer interconnection structure directly above the peripheral circuit is greater than a second number of metallization layers of the multilayer interconnection structure directly above the semiconductor detector.