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公开(公告)号:US20240104962A1
公开(公告)日:2024-03-28
申请号:US18340686
申请日:2023-06-23
Inventor: Tae Wook KANG , Sung Eun KIM , Kyung Jin BYUN , Kwang IL OH , Jae-Jin LEE
CPC classification number: G06V40/40 , G06V10/70 , G06V40/1306
Abstract: Disclosed are a fingerprint forgery detection device and a method of operating the same. The fingerprint forgery detection device includes a memory that stores a first feature signal including biological channel feature information of a user, a transmitter including at least one transmission electrode for transmitting a pulse signal to the user, a receiver including at least one reception electrode for receiving a biological channel response signal in response to the transmitted pulse signal, and a signal processor for processing the biological channel response signal to detect whether a fingerprint is forged, and at least one processor that controls the memory, the transmitter, and the receiver.
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公开(公告)号:US20230289582A1
公开(公告)日:2023-09-14
申请号:US18084234
申请日:2022-12-19
Inventor: Young Hwan BAE , Jae-Jin LEE , Tae Wook KANG , Sung Eun KIM , Kyung Jin BYUN , Kwang IL OH , In San JEON
Abstract: A neuron circuit including a first internal circuit that receives a plurality of spike input signals, generates a first sum value by summing a plurality of synaptic weights corresponding to the plurality of spike input signals, and outputs a second sum value by adding a membrane potential value to the first sum value, a spike generating circuit that generates a spike output signal, a membrane potential generating circuit that generates the membrane potential value, a second internal circuit that counts a last spike time based on the spike output signal, and an online learning circuit that receives a last input time from the first internal circuit and performs LTP learning based on the last input time or receives the last spike time from the second internal circuit and performs LTD learning based on the last spike time.
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3.发明申请公开(公告)号:US20220382842A1
公开(公告)日:2022-12-01
申请号:US17825453
申请日:2022-05-26
Inventor: Tae Wook KANG , Seong-Eun KIM , Kwang IL OH , Jae-Jin LEE
Abstract: Disclosed are a biometric template-based authentication electronic device and an operating method thereof. The electronic device includes a memory, a transmitter that transmits a chirp signal, of which a frequency is changed, to a user, a receiver that obtains a biometric channel response signal, which responds to the transmitted chirp signal, from the user, and at least one processor that executes a biometric template authentication module based on machine learning. When executing the biometric template authentication module, the processor obtains a feature signal from the obtained biometric channel response signal, generates a biometric template from the obtained feature signal, performs the machine learning such that identification information of the user is inferred from the generated biometric template, and authenticates the user based on the result of the machine learning.
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公开(公告)号:US20200315438A1
公开(公告)日:2020-10-08
申请号:US16842497
申请日:2020-04-07
Inventor: Kwang IL OH , Tae Wook KANG , Sung Eun KIM , Hyuk KIM , Mi Jeong PARK , Hyung-IL PARK , Kyung Jin BYUN , Jae-Jin LEE , In Gi LIM
Abstract: A capsule endoscope image receiver includes a receiving electrode unit that receives first and second differential signals from a capsule endoscope image transmitter through a human body communication channel, an analog amplifying unit that receives the first and second differential signals and outputs first and second amplified differential signals, and a signal restoring unit that receives the first and second amplified differential signals and restores image information. The analog amplifying unit includes a first amplifier that outputs the first amplified differential signal, a second amplifier that outputs the second amplified differential signal, and an input impedance that is connected between a first inverting input terminal of the first amplifier and a second inverting input terminal of the second amplifier and obtains a gain of differential signal amplification in which a high frequency component of the first and second amplified differential signals is greater than a low frequency component.
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公开(公告)号:US20190307318A1
公开(公告)日:2019-10-10
申请号:US16378472
申请日:2019-04-08
Inventor: Kwang IL OH , Hyung-IL PARK , Tae Wook KANG , Sung Eun KIM , Mi Jeong PARK , Jae-Jin LEE , In Gi LIM
Abstract: Provided are a capsule endoscopic receiving device, a capsule endoscope system including the same, and an operating method of the capsule endoscopic receiving device, the capsule endoscopic receiving device including an analog front end configured to receive a preamble from one receiving electrode pair from among a plurality of receiving electrodes, a valid signal detection circuit configured to compare a reference voltage with input data generated on a basis of a voltage level of the preamble, and a preamble processor configured to select a final electrode pair configured to receive the image data on a basis of a correlation value of the preamble and a comparison result of the input data and the reference voltage. According to the inventive concept, stability of receiving image data may be secured by selecting an optimal receiving electrode pair.
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Patent Agency Ranking
公开(公告)号:US20180145671A1
公开(公告)日:2018-05-24
申请号:US15725905
申请日:2017-10-05
Inventor: Woojoo LEE , Jae-Jin LEE , Sukho LEE , Kyuseung HAN , Sang Pil KIM , Young Hwan BAE
IPC: H03K5/134
CPC classification number: H03K5/134 , H03K2005/00143
Abstract: Provided is a semiconductor device including a target circuit, a monitoring circuit, and a voltage controller. The target circuit includes a transistor. The monitoring circuit is configured to measure a temperature of the target circuit or measure a delay time between an input and an output of the target circuit. The voltage controller is configured to adjust a driving voltage for driving the target circuit or a back-bias voltage for adjusting a threshold voltage of the transistor by referring to at least one of the temperature and the delay time. As the temperature increases, the delay time decreases.
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公开(公告)号:US20250070808A1
公开(公告)日:2025-02-27
申请号:US18663409
申请日:2024-05-14
Inventor: Sung Eun KIM , Tae Wook KANG , Hyuk KIM , Young Hwan BAE , Kyung Jin BYUN , Kwang IL OH , Jae-Jin LEE , In San JEON
Abstract: Disclosed is a wake-up circuit including a preprocessing unit that generates a first signal by removing noise from an input signal, a comparison unit that generates a second signal based on the first signal and weight data, an output circuit that generates a power signal based on the second signal and an initialization signal, and a micro control unit (MCU) that generates the initialization signal based on a state signal received from the output circuit. The comparison unit includes a spike neuron network structure that generates the second signal by applying the weight data to the first signal. The output circuit supplies power to an external sensor node in response to the power signal.
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公开(公告)号:US20240265245A1
公开(公告)日:2024-08-08
申请号:US18235919
申请日:2023-08-21
Inventor: Tae Wook KANG , Sung Eun KIM , Kyung Jin BYUN , Kwang Il OH , Jae-Jin LEE
Abstract: Disclosed is an anomaly data detection device, which includes a sampler that generates session data including first to m-th sample data based on input data input during a first time interval, a spike signal generator that generates first to m-th spike signals respectively corresponding to the first to m-th sample data based on the session data, a spike neural network that detects whether an output spike fires in at least one output neuron from among output neurons based on the first to m-th spike signals and synaptic weights of each of the output neurons, and a detection circuit that generates a detection signal based on the number of output neurons firing the output spike, and each of the first to m-th spike signals is generated by converting feature information of the corresponding first to m-th sample data into a spike rate code.
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9.发明公开公开(公告)号:US20240097799A1
公开(公告)日:2024-03-21
申请号:US18341507
申请日:2023-06-26
Inventor: Sung Eun KIM , Tae Wook KANG , Hyuk KIM , Kyung Hwan PARK , Mi Jeong PARK , Hyung-IL PARK , Kyung Jin BYUN , Kwang IL OH , Jae-Jin LEE , In Gi LIM
CPC classification number: H04B13/005 , H03F3/19 , H03F2200/165 , H03F2200/171 , H03F2200/451
Abstract: Disclosed is an amplification circuit, which includes a first amplifier that receives an external signal and performs first band pass filtering on the external signal to output a first filter signal, and a second amplifier that receives the first filter signal and performs second band pass filtering on the first filter signal to output a second filter signal, and a frequency pass bandwidth of the second band pass filtering is narrower than a frequency pass bandwidth of the first band pass filtering.
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公开(公告)号:US20230385620A1
公开(公告)日:2023-11-30
申请号:US18125553
申请日:2023-03-23
Inventor: Kwang IL OH , Byung-Do YANG , Dongwon LEE , Jae-Jin LEE
Abstract: Disclosed is a spike neural network circuit which includes a pulse generator that receives an input spike signal and generates a first modulation pulse and a second modulation pulse based on the input spike signal, first and second current source arrays controlled based on a weight memory, a membrane capacitor, a first switch that delivers a first calculation signal generated from the first current source array to the membrane capacitor, in response to the first modulation pulse, and a second switch that delivers a second calculation signal generated from the second current source array to the membrane capacitor, in response to the second modulation pulse.
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