Abstract: The present disclosure discloses a method of batch automatic network configuration of WiFi devices, terminal equipment and storage medium. The method comprises: deploying a network configuration AP hotspot for configuration and distribution and releasing a network configuration signal; searching the network configuration signal after the device to be configured enters network configuration state, and calculating whether the AP hotspot currently searched is the network configuration AP hotspot by adopting key conversion algorithm; if yes, the device to be configured connecting to the network configuration AP hotspot; downloading network configuration data in the network configuration AP hotspot through file transfer protocol, decrypting and verifying the network configuration data, updating network configuration settings, and completing the network configuration after the device to be configured successfully connects to the network configuration AP hotspot.
Abstract: Disclosed herein is a method for RNN-based noise reduction in a real-time conference, comprising: performing frame-and-window for a speech signal to obtain a logarithmic spectrum of the speech signal, and placing the logarithmic spectrum into the RNN model to determine a noise reduction suppression coefficient, and then obtaining the denoised speech signal by applying the noise reduction suppression coefficient to the logarithmic spectrum of the original signal, thereby achieving utilization of the RNN noise reduction method in real-time conferences. In the present disclosure, when inputting the RNN model for estimation, only the logarithmic spectrum of the current frame needs to be inputted. The RNN model of the present disclosure has few requirements on inputted information, without performing huge preprocessing on the received speech signal, which in turn reduces computation burden, increases response speed, and enhances real-time performance.
Abstract: The present disclosure discloses a method of batch automatic network configuration of WiFi devices, terminal equipment and storage medium. The method comprises: deploying a network configuration AP hotspot for configuration and distribution and releasing a network configuration signal; searching the network configuration signal after the device to be configured enters network configuration state, and calculating whether the AP hotspot currently searched is the network configuration AP hotspot by adopting key conversion algorithm; if yes, the device to be configured connecting to the network configuration AP hotspot; downloading network configuration data in the network configuration AP hotspot through file transfer protocol, decrypting and verifying the network configuration data, updating network configuration settings, and completing the network configuration after the device to be configured successfully connects to the network configuration AP hotspot.
Abstract: The present disclosure discloses a wireless microphone system, which includes a host, a wireless communication component and multiple wireless microphones. The host includes a wireless signal processing component and an audio signal processing component. Each wireless microphone is configured to acquire a sound signal, convert the sound signal into an audio signal and wirelessly transmit the audio signal to the wireless communication component. The wireless communication component is configured to send the audio signal to the host. The wireless signal processing component is configured to receive the audio signal from the wireless communication component, perform signal processing on the audio signal to obtain speech data and send the speech data to the audio signal processing component. The audio signal processing component is configured to receive the speech data and perform data processing on the speech data to obtain sound data to be played for network transmission.
Abstract: The present invention relates to an auxiliary stream transmission method based on a video conference system. The method integrates an auxiliary stream function into an auxiliary stream peripheral, a computer is connected to a master server of the video conference system through the auxiliary stream peripheral, and the master server and the auxiliary stream peripheral are connected through a network cable. In the present invention, the auxiliary stream peripheral and the master server are connected through a network cable, to improve flexibility of system deployment, and costs of the network cable are low, to correspondingly reduce deployment costs of the system.