Abstract: A signal transmitting element is used to solve the problem that an additional surgery is required to remove the conventional vascular monitoring element after completing the detecting task. The signal transmitting element comprises a body made of a specific biodegradable material. The body includes a signal sensing portion including a structure configured to sense a blood flow information of a blood vessel surrounded and contacted by the body, thereby generating a blood vessel signal; and a signal transmitting portion coupled with the signal sensing portion for receiving the blood vessel signal and including a specific structure configured to convert the blood vessel signal into a transmission signal.

Abstract: A method for multi-link operation (MLO) is provided. The method for MLO may be applied to an apparatus. The method for MLO may include the following steps. A multi-chip controller of the apparatus may assign different data to a plurality of chips of the apparatus, wherein each chip corresponds to one link of multi-links. Each chip may determine whether transmission of the assigned data has failed. A first chip of the chips may transmit the assigned data to an access point (AP) in response to the first chip determining that the transmission of the assigned data has not failed.

Abstract: A layout pattern of a magnetoresistive random access memory (MRAM) includes a substrate having a first cell region, a second cell region, a third cell region, and a fourth cell region and a diffusion region on the substrate extending through the first cell region, the second cell region, the third cell region, and the fourth cell region. Preferably, the diffusion region includes a H-shape according to a top view.

Abstract: A method, an electronic device, and a recording medium for compensating an in-ear audio signal are provided. The method is applicable to the electronic device having a processor. In the method, an in-ear audio signal transmitted through an inner ear when a user speaks is captured by using an in-ear microphone, and an outer audio signal transmitted through air when the user speaks is captured by using an outer microphone in a training stage. Then, a machine learning model of audio signals is established for an objective function and is trained by using the in-ear audio signal and the outer audio signal. Finally, the in-ear audio signal captured by the in-ear microphone is converted into a compensated audio signal by using the trained machine learning model in an online stage, and the compensated audio signal is output.

Abstract: A sound processing method includes the following steps: obtaining first audio data of a specific object that corresponds to a first position; when the specific object moves to a second position, calculating movement information of the specific object according to the first position and the second position; searching a space transfer database for a space transfer function that corresponds to the movement information; and applying the space transfer function to the first audio data, so that the specific object generates a sound output that corresponds to the second position.

Abstract: A method, an electronic device, and a recording medium for compensating an in-ear audio signal are provided. The method is applicable to the electronic device having a processor. In the method, an in-ear audio signal transmitted through an inner ear when a user speaks is captured by using an in-ear microphone, and an outer audio signal transmitted through air when the user speaks is captured by using an outer microphone in a training stage. Then, a machine learning model of audio signals is established for an objective function and is trained by using the in-ear audio signal and the outer audio signal. Finally, the in-ear audio signal captured by the in-ear microphone is converted into a compensated audio signal by using the trained machine learning model in an online stage, and the compensated audio signal is output.

Abstract: A method of detecting pressure on a touch sensing element includes providing a first potential difference to two electrodes of a first film, charging a capacitor with a division voltage of the first potential difference, sampling a charged voltage of the capacitor to obtain a plurality of first voltage values and calculating a first voltage variation according to the plurality of first voltage values, comparing the first voltage variation with a threshold value, and post-processing at least one of the first voltage values when the first voltage variation is smaller than the threshold value.

Abstract: A touch panel comprises a substrate and a transparent conductive layer including a plurality of groups of first conductive patterns, second conductive patterns, and third conductive patterns, and a plurality of first wires, second wires, and third wires. Each group of first conductive patterns is arranged along a first direction. Each group of second conductive patterns is arranged along a second direction and located at a first side of the second direction. Each group of third conductive patterns is arranged along the second direction and located at a second side of the second direction. Each group of first conductive patterns, each group of second conductive patterns, and each group of third conductive patterns are electrically insulated to each other. Each second conductive pattern among each group of second conductive patterns has different areas, and each third conductive pattern among each group of third conductive patterns has different areas.

Abstract: A method for detecting pressure on a touch sensing element includes the steps of: providing a first potential difference to two electrodes of a first film; charging a capacitor with a division voltage of the first potential difference; sampling a charged voltage of the capacitor to obtain a plurality of first voltage values and calculating a first voltage variation according to the plurality of first voltage values; comparing the first voltage variation with a threshold value; and post-processing at least one of the first voltage values when the first voltage variation is smaller than the threshold value. The present disclosure further provides an electronic device.

Abstract: A method for detecting pressure on a touch sensing element includes the steps of: providing a first potential difference to two electrodes of a first film; charging a capacitor with a division voltage of the first potential difference; sampling a charged voltage of the capacitor to obtain a plurality of first voltage values and calculating a first voltage variation according to the plurality of first voltage values; comparing the first voltage variation with a threshold value; and post-processing at least one of the first voltage values when the first voltage variation is smaller than the threshold value. The present disclosure further provides an electronic device.

Abstract: A touch panel comprises a substrate and a transparent conductive layer including a plurality of groups of first conductive patterns, second conductive patterns, and third conductive patterns, and a plurality of first wires, second wires, and third wires. Each group of first conductive patterns is arranged along a first direction. Each group of second conductive patterns is arranged along a second direction and located at a first side of the second direction. Each group of third conductive patterns is arranged along the second direction and located at a second side of the second direction. Each group of first conductive patterns, each group of second conductive patterns, and each group of third conductive patterns are electrically insulated to each other. Each second conductive pattern among each group of second conductive patterns has different areas, and each third conductive pattern among each group of third conductive patterns has different areas.

Abstract: A method for detecting pressure on a touch sensing element includes the steps of: providing a first potential difference to two electrodes of a first film; charging a capacitor with a division voltage of the first potential difference; sampling a charged voltage of the capacitor to obtain a plurality of first voltage values and calculating a first voltage variation according to the plurality of first voltage values; comparing the first voltage variation with a threshold value; and post-processing at least one of the first voltage values when the first voltage variation is smaller than the threshold value. The present disclosure further provides an electronic device.

Abstract: A touch panel comprises a substrate and a transparent conductive layer including a plurality of groups of first conductive patterns, second conductive patterns, and third conductive patterns, and a plurality of first wires, second wires, and third wires. Each group of first conductive patterns is arranged along a first direction. Each group of second conductive patterns is arranged along a second direction and located at a first side of the second direction. Each group of third conductive patterns is arranged along the second direction and located at a second side of the second direction. Each group of first conductive patterns, each group of second conductive patterns, and each group of third conductive patterns are electrically insulated to each other. Each second conductive pattern among each group of second conductive patterns has different areas, and each third conductive pattern among each group of third conductive patterns has different areas.

Abstract: A touch-point detecting method is applicable to a resistive touch panel with a touch-point detecting apparatus comprising a plurality of switches. By selectively enabling and disabling those switches, the present method comprises the steps of determining whether an external force is exerted on the touch panel, determining whether the external force is within a predetermined threshold, producing X-coordinate, and producing Y-coordinate.

Abstract: A touch-point detecting method is applicable to a resistive touch panel with a touch-point detecting apparatus comprising a plurality of switches. By selectively enabling and disabling those switches, the present method comprises the steps of determining whether an external force is exerted on the touch panel, determining whether the external force is within a predetermined threshold, producing X-coordinate, and producing Y-coordinate.