Abstract: The invention discloses an imaging device using feature compensation, such a device comprises a vision detecting module, a voice detecting module, a partial-feature database and a three-dimensional (3D) imaging module. The vision detecting module may be configured to 3D mesh information of at least one object based on an imaging signal of the object. The voice detecting module may be configured to detect at least one specific voice of the object and generates a corresponding identification (ID) information. The partial-feature database may be configured to store compensating mesh information of the partial-features of the object. The 3D imaging module may be configured to combine the 3D mesh information of the object with the compensating mesh information, and thereby forms an 3D image. Furthermore, correspondingly, the invention also discloses an imaging method using feature compensation.

Abstract: A network information transmission method, comprising the following steps: receiving a first media information by a first terminal device; processing the first media information to obtain a processed first media information; integrating the processed first media information into a second media information to generate an integrated second media information; outputting the integrated second media information to a second terminal device through the network; decompressing the integrated second media information through the second terminal device; capturing the integrated second media information through the second terminal device; obtaining the first media information based on the integrated second media information; and playing the first media information by the second terminal device.

Abstract: An audio mixing method for network streaming includes the steps of establishing a network streaming connection between the first end and the second end, generating a text voiced audio signal based on a trigger signal by the first end, mixing a play signal and the text voiced audio signal into a play signal with the text voiced audio signal, in the state of the network streaming connection, transmitting the play signal with text voiced audio signal to the second end, and the play signal with text voiced audio signal is played by the second end.

Abstract: A video signal conversion method includes: receiving an input signal from a video source; extracting an image metadata from the input signal; determining whether the input signal corresponds to a high dynamic range (HDR) imaging format according to at least one format information of the image metadata and determining whether a video receiver supports the high dynamic range imaging format; in response to the input signal corresponding to the high dynamic range imaging format and the video receiver being not support the high dynamic range imaging format, generating a conversion command; receiving, by a video processor, the conversion command; converting, by the video processor, the input signal into an output signal corresponding to a standard dynamic range (SDR) imaging format according to the conversion command; sending, by the video processor, the output signal to the video receiver; and receiving by the video receiver, the output signal in SDR imaging format.

Abstract: A multi-dimensional microphone stand includes a first rotational module, a first rotational arm, a second rotational module, a second rotational arm, and a third rotational module. The first rotational arm is connected to the first rotational module, and the second rotational module is connected to the first rotational arm, and the first rotational module is rotatable relative to the second rotational module. The second rotational arm is connected to the second rotational module, the third rotational module is connected to the second rotational arm, and the second rotational module is rotatable relative to the third rotational module. In addition, in a folded state, the first rotational arm and the second rotational arm are arranged side by side and connected to the second rotational module in parallel.

Abstract: A judgment method for hardware compatibility is disclosed. The judgment method is operated with a first electrical device and a second electrical device having a plurality of transmission interfaces. The judgment method is started after the first electrical device electrically connected to one of the transmission interfaces of the second electrical device. The judgment method includes an interface information capturing process, a compatibility comparison process, a compatibility determination process and a recommendation execution process. In the interface information capturing process, the interface information of the transmission interface of the second electrical device connected to the first electrical device is captured. In the compatibility comparison process, the interface information is compared with a compatibility database to obtain a comparison result.

Abstract: A video signal conversion device includes a frontend interface circuit, a FPGA video processor and a backend interface circuit. The frontend interface circuit receives a HDR video input signal from a video transmitting device. The FPGA video processor outputs a SDR first video output signal. A video receiving device receives the first video output signal and a HDR second video output signal from the FPGA video processor through the video bridge controller of the backend interface circuit by PCI-E.

Abstract: A heat dissipation device includes a heat conducting plate and a heat sink. The heat conducting plate has a first surface and a second surface opposite to each other. The heat sink is coupled to the first surface of the heat conducting plate. The heat sink includes a first peak portion, a second peak portion, a valley portion and a first curved surface. The first peak portion and the second peak portion are adjacent to each other. The valley portion is located between the first peak portion and the second peak portion. The first curved surface is coupled between the first peak portion and the valley portion. An extension line perpendicular to a corresponding tangent line of the first curved surface passes between the first peak portion and the second peak portion.

Abstract: A video signal conversion device includes a front end interface, a rear end interface, a video detector and a video processor. The front end interface is coupled to a video source to receive an input signal. The rear end interface is coupled to a video receiver. The video detector determines whether the input signal corresponds to HDR imaging format. The video detector generates a conversion command in response to the input signal corresponding to HDR imaging format. The video processor is coupled to the front end interface, the rear end interface and the video detector. When the video processor receives the conversion command, the video processor converts the input signal into an output signal with SDR imaging format. The video processor sends the output signal to the video receiver via the rear end interface.

Abstract: An image processing method includes receiving an image source, and detecting whether the image source is a high dynamic range (HDR) image. If the image source is the HDR image, reading a first image adjustment value, and performing color adjustment to the image source according to the first image adjustment value.

Abstract: A video signal conversion device includes a frontend interface circuit, a FPGA video processor and a backend interface circuit. The frontend interface circuit receives a HDR video input signal from a video transmitting device. The FPGA video processor outputs a SDR first video output signal. A video receiving device receives the first video output signal and a HDR second video output signal from the FPGA video processor through the video bridge controller of the backend interface circuit by PCI-E.

Abstract: A headphone, which adjusts its decorative light by rotation, includes a headgear, earmuffs, light-emitting components and light covers. Each earmuff includes a translucent housing or a transparent housing. The light-emitting components are located in the earmuff, corresponds to the translucent housing. Light covers cover the earmuffs. First connecting members of the light covers are pivotally connected to the headgear so that the light covers can be easily rotated and the earmuffs can be adjusted to suit the user's head. The rotation of the light covers, which is relative to the translucent housing, changes the light-transmitting area of the translucent housings, so the headphone provides a variety of light effects and gorgeous visual experience.

Abstract: A method for configuring image-recording settings includes receiving an image source, determining whether the image source is the high dynamic range (HDR) image. If a HDR image source is received, a step is performed for determining whether a recording device supports recording an image with a HDR format, and a step is performed for adding a HDR recording option if the recording device supports recording the image with the HDR format.

Abstract: An echo-cancelling device includes an audio input/output (I/O) terminal, an audio-receiving module, an analog-to-digital (A/D) converter, and a processor is provided. The A/D converter is electrically connected to the audio-receiving module. The processor is electrically connected to the A/D converter and the audio I/O terminal. The audio I/O terminal receives an external reference signal from an electronic device. The audio-receiving module receives an input audio and an output audio from the electronic device, and generates an analog input signal having the input audio and the output audio. The A/D converter generates a digital input signal according to the analog input signal. The processor cancels the output audio to generate a second (digital) sound signal according to the digital input signal and the external reference signal. Finally, the processor transmits the second (digital) sound signal to the electronic device via the audio I/O terminal.

Abstract: An anti-noise headset device and a sound processing method thereof are provided. The anti-noise headset device includes an audio receiving module and a control module. The audio receiving module is configured to receive several audio signals in several periods. The control module is electrically coupled to the audio receiving module. The control module is configured to store the audio signals received from a first period to an Nth period as sound data. The control module compares the audio signal received in an (N+1)th period with the sound data so as to generate a relevance value, N is an integer larger than zero. When the relevance value is smaller than a threshold value, the control module filters out a portion of the audio signal received in the (N+1)th period, in which the portion of the audio signal received in the (N+1)th period is relevant to the sound data.

Abstract: An electronic device includes a substrate, a first device, a second device, and a shielding wall. The first device and the second device are disposed on the substrate respectively. The shielding wall is disposed independently between the first device and the second device. The shielding wall is configured for suppressing the electromagnetic interference from the second device to the first device.

Abstract: A high definition multimedia interface (HDMI) socket for fastening on a metallic chassis includes a main body, a connecting member and a plastic piece. The connecting member includes a slot portion and a bent portion. The slot portion has a first and a second ends. The first end is connected with the main body. The bent portion is connected with the second end and has a first abutting surface abutting against the inner surface. The plastic piece is connected with the main body and has two second abutting surfaces. When the first abutting surface abuts against the inner surface before the plastic piece is fastened on the metallic chassis, a gap exists between the second abutting surfaces and the inner surface. When the plastic piece is fastened on the metallic chassis, the plastic piece is deformed and the second abutting surfaces abut against the inner surface.