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公开(公告)号:US20230125421A1
公开(公告)日:2023-04-27
申请号:US17893815
申请日:2022-08-23
Inventor: Tae Wook KANG , Sung Eun KIM , Kyung Jin BYUN , Kwang IL OH , Jae-Jin LEE
Abstract: Disclosed is operation method of an encoder that receives a continuous time-series signal and respectively transmits first to N-th input signals to first to N-th input neuron circuits of spike neural network circuit. The method of operating the encoder includes receiving the continuous time-series signal, generating a plurality of discrete quantum signals by sampling and quantizing the continuous time-series signal, selecting first to N-th discrete quantum signals among the plurality of discrete quantum signals, matching the selected first to N-th discrete quantum signals with the first to N-th input neuron circuits, respectively, identifying discrete quantum signals, each of which has a quantum level different from a quantum level of a previous discrete quantum signal, from among the second to N-th discrete quantum signals, and activating the input signals to be transmitted to the input neuron circuits corresponding to the identified discrete quantum signals and the first discrete quantum signal.
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公开(公告)号:US20220309326A1
公开(公告)日:2022-09-29
申请号:US17550530
申请日:2021-12-14
Inventor: Tae Wook KANG , Sung Eun KIM , Kwang IL OH , Jae-Jin LEE , Hyuk KIM , Hyung-IL PARK , Kyung Jin BYUN
Abstract: Disclosed is a learning method of a neural network which includes a first intermediate neuron layer and a second intermediate neuron layer. The method includes performing first learning, which is based on a first synaptic weight layer, with respect to input subjects and the first intermediate neuron layer, determining intermediate neurons, which will perform second learning, from among intermediate neurons of the first intermediate neuron layer, based on the number of spikes of each of spike output signals of the intermediate neurons of the first intermediate neuron layer, and performing the second learning, which is based on a second synaptic weight layer, with respect to the intermediate neurons determined to perform the second learning.
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公开(公告)号:US20220201611A1
公开(公告)日:2022-06-23
申请号:US17552766
申请日:2021-12-16
Inventor: Hyuk KIM , HYUNG-IL PARK , Tae Wook KANG , Sung Eun KIM , Mi Jeong PARK , Kyung Jin BYUN , KWANG IL OH , Sukho LEE , Jae-Jin LEE , In Gi LIM , Kyuseung HAN
Abstract: Disclosed is an operating method of a user communication device, which includes receiving a wakeup signal from a stationary communication device over a first human body communication channel, the wakeup signal having a frequency in a low frequency band, switching from a standby mode to a wakeup mode in response to the wakeup signal, and receiving a data signal from the stationary communication device over the first human body communication channel during the wakeup mode, and the first human body communication channel is provided by a body of a user of the user communication device.
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14.发明申请公开(公告)号:US20200234635A1
公开(公告)日:2020-07-23
申请号:US16838629
申请日:2020-04-02
Inventor: Woo Joo LEE , Suk Ho LEE , Kyung Jin BYUN , Nak Woong EUM
IPC: G09G3/3208 , H05B45/00 , H05B45/37 , G09G3/20 , G06F3/14 , G06F1/3218
Abstract: Provided is a display device including a display panel, a power delivery network (PDN), an image controller, and a PDN controller. The display panel may include a plurality of sub-panels. The PDN may be controlled by a control signal, respectively deliver voltages determined by the control signal to the plurality of sub-panels, and generate state information for determining the control signal. The image controller may receive to store frame image data, determine a number of frames to be integrated according to a window size, and integrate the frame image data of frames in the determined number into one image to generate integrated image data. The PDN controller may generate the control signal and a size adjusting signal based on the state information and the integrated image data, provide the generated control signal to the PDN, and may provide the generated size adjusting signal to the image controller. The size adjusting signal may adjust the window size.
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公开(公告)号:US20200067516A1
公开(公告)日:2020-02-27
申请号:US16542469
申请日:2019-08-16
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
IPC: H03L7/093
Abstract: The inventive concept includes an oscillating circuit, a phase inverting circuit, and a phase detecting circuit. The oscillating circuit generates a first clock to be used to sample an input signal. The phase inverting circuit outputs a second clock based on the first clock. The phase detecting circuit generates a control signal having a first logic value when a phase difference between a phase of the input signal and a phase of the second clock is less than a reference value for a reference time or more. The phase detecting circuit generates the control signal having a second logic value when the phase difference is equal to or greater than the reference value or when the phase difference is less than the reference value for a time shorter than the reference time. The phase inverting circuit inverts the phase of the second clock when a logic value of the control signal changes from the first logic value to the second logic value or when a logic value of the control signal changes from the second logic value to the first logic value.
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Patent Agency Ranking
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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18.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:US20230068675A1
公开(公告)日:2023-03-02
申请号:US17895532
申请日:2022-08-25
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 an encoder including event layer outputs first and second event signals, weight layer applies first and second weights to the first and second event signals respectively, and provides the first event signal in which the first weight is applied and the second event signal in which the second weight is applied to first node, and first spike generation circuit generates first input spike signal of which firing period is changed based on voltage level of the first node. The voltage level of the first node is reduced continuously, increases for first voltage corresponding to the first weight in response to the first event signal activated, and increases for second voltage corresponding to the second weight in response to the second event signal activated.
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公开(公告)号:US20210384929A1
公开(公告)日:2021-12-09
申请号:US17237848
申请日:2021-04-22
Inventor: Kwang IL OH , Tae Wook KANG , Sung Eun KIM , Hyuk KIM , Hyung-IL PARK , Kyung Jin BYUN , Jae-Jin LEE , In Gi LIM
Abstract: Disclosed are a human body communication receiver and an operating method thereof, which may effectively remove low frequency noise. The human body communication receiver according to the present disclosure includes a receiving electrode, a virtual electrode, a filter circuit that is connected between the receiving electrode and the virtual electrode, and removes low frequency noise from a signal received through the receiving electrode to generate a high frequency signal, a low frequency reconstruction circuit that is connected to a rear end of the filter circuit and reconstructs a low frequency baseband signal by rectifying the high frequency signal, and an amplifying circuit that is connected to a rear end of the low frequency reconstruction circuit, and amplifies the low frequency baseband signal.
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