WO2016033918A1 - Holographic audio device and control method - Google Patents

Abstract

Provided are a holographic audio device and control method; a microphone unit acquires a three-dimensional sound field signal; an acquired-signal processing module processes the acquired signal and converts same to a digital signal; said digital signal is inputted to a holographic sound field signal processing unit; the holographic sound field signal processing unit processes the sound field signal; the processed signal is source-coded and compressed, then sent to a main machine by means of a network; the main machine sends the signal to the holographic audio device by means of the network; the signal is source-decoded, then inputted to the holographic sound field signal processing unit; the holographic sound field signal processing unit outputs the signal to a playback signal processing module; by means of an audio playback unit, audio is played.

Description

Holographic audio device and control method Technical field

The invention relates to a holographic audio device and a control method.

Background technique

Traditional recording methods include single mic recording, stereo recording (AB, XY, MS, ORTF). Single-microphone recording is the easiest, but the sound field is also the most monotonous. The original intention of stereo recording is to create a richer stereo field. There are various ways to configure the microphone, which are all trying to simulate the perception of the human ear. For example, delay, amplitude difference, phase, etc., but it is difficult to achieve the real human ear perception by simply placing the position of the microphone. The simulated head recording can realize the realistic expression of the immersed three-dimensional sound field, but it is still mainly used in some professional laboratories as a testing tool. For a wide range of audio and video recording, it is extremely inconvenient to use and extremely expensive ( The simulation head, recording equipment, processing equipment, etc. need about 1 million euros. In addition, the current simulation head is mainly used for the test of communication equipment, not for the purpose of human stereo field perception, its texture and structure. There is still a big difference with the real human head, and these differences will ultimately affect the recorded sound field effect.

On the other hand, with the rapid development of mobile broadband, ordinary consumers' mobile phones, tablets and other common tools have audio and video recording capabilities in addition to making calls, as well as many digital products such as voice recorders and camera cameras. In the case of these devices, the sound is recorded based on an internal microphone. On the one hand, the built-in microphones have poor sound quality and the sound field display capability is also very poor.

At present, there are also some interface devices that provide stereo recording for mobile phones and other devices. These device interfaces are far away from the above professional stereo microphones, let alone the immersive three-dimensional sound field. In addition to audio recording and playback, there is no ability to capture, play, and control the sound field in video recording and playback such as a conventional mobile phone, resulting in a poor overall video experience. In the fields of video surveillance, online education, network audio and video communication, etc., there is no audio capability at all, some are simple mono audio, some are ordinary stereo, in short, the auditory experience is far from the immersive needs.

Summary of the invention

It is an object of the present invention to provide a holographic audio device and a control method capable of realizing recording and playback of a holographic sound field signal.

Based on the same inventive concept, the invention has two independent technical solutions:

A holographic audio device comprising a microphone unit capable of collecting a three-dimensional sound field, wherein: the signal output end of the microphone unit is connected to the acquisition signal processing module, and the signal output terminal of the acquisition signal processing module is connected to the holographic sound field signal processing unit; the holographic sound field The signal output end of the signal processing unit is connected to the playback signal processing module, and the signal output end of the playback signal processing module The audio playback unit is connected; the holographic sound field signal processing unit is externally connected with a source coding module and a source decoding module.

The holographic sound field signal processing unit is connected with a storage module.

2. A method of controlling the above device, characterized in that:

The microphone unit collects a three-dimensional sound field signal, and the acquisition signal processing module processes the acquired signal and converts it into a digital signal. The digital signal is input to the holographic sound field signal processing unit, and the holographic sound field signal processing unit processes the sound field signal, and the processed signal is processed. After the source code is compressed, it is sent to the host through the network;

The host sends a signal to the holographic audio device through the network, and the signal is input to the holographic sound field signal processing unit after being decoded by the source, and the holographic sound field signal processing unit outputs the signal to the playback signal processing module to perform audio playback through the audio playback unit.

The network connection between the host and the holographic audio device may be WIFI, wired network, WAPI, Bluetooth.

The host can be a computer or a mobile phone.

An audio processing module is provided on the host for performing background noise cancellation and echo suppression processing on the acoustic signal.

The following sound field-related application operations, recording, storage, and monitoring playback of the sound field can be performed on the host; video recording, monitoring, and playback of the sound field; network communication of the sound field; background noise elimination, hearing diagnosis; and enhanced sound field-based binaural Audio health application.

The invention has the beneficial effects:

The invention can effectively realize the recording and playback of the holographic sound field signal. The microphone unit of the holographic audio device can collect the three-dimensional sound field signal, and the holographic sound field signal processing unit processes the sound field signal, and the processed signal is compressed by the source code and sent to the host through the network; the host can also transmit the holographic audio device through the network. The sound field signal is recorded, and the holographic sound field signal processing unit is connected with a storage module, and can also store the recorded sound field signal. The host can send a signal to the holographic audio device through the network, and the signal is decoded by the source and input into the holographic sound field signal processing unit, and the audio playback unit performs audio playback. The holographic audio device can also be separately monitored for playback.

The host of the present invention may be a computer or a mobile phone, and the network connection between the host and the holographic audio device may be WIFI, wired network, WAPI, Bluetooth, and further facilitates recording and playback of the holographic sound field signal. The host computer of the invention is provided with an audio processing module, which can perform background noise elimination and echo suppression processing on the acoustic signal, and can effectively improve the quality of the sound field signal.

DRAWINGS

1 is a circuit block diagram of a holographic audio device and a host of the present invention.

detailed description

As shown in FIG. 1, the holographic audio device includes a microphone unit that can acquire a three-dimensional sound field, and the microphone unit includes an earphone-based or artificial head-based, but is not limited thereto. Sound field acquisition based on the microphone unit, and can be performed at the same time When listening to the loopback.

The signal output end of the microphone unit is connected to the acquisition signal processing module, and the signal output end of the acquisition signal processing module is connected to the holographic sound field signal processing unit; the signal output end of the holographic sound field signal processing unit is connected to the playback signal processing module, and the signal output end of the playback signal processing module is The audio playback unit is connected; the holographic sound field signal processing unit is externally connected with a source coding module and a source decoding module. The holographic sound field signal processing unit is externally connected with a WIFI module, and the holographic sound field signal processing unit is connected with a storage module.

The microphone unit collects a three-dimensional sound field signal, and the acquisition signal processing module processes the acquired signal and converts it into a digital signal. The digital signal is input to the holographic sound field signal processing unit, and the holographic sound field signal processing unit processes the sound field signal, and the processed signal is processed. After the source code is compressed, it is sent to the host through the network; the host can record the sound field signal transmitted by the holographic audio device through the network, and the holographic sound field signal processing unit is connected with the storage module, and also stores the recorded sound field signal.

The host sends a signal to the holographic audio device through the network, and the signal is input to the holographic sound field signal processing unit after being decoded by the source, and the holographic sound field signal processing unit outputs the signal to the playback signal processing module to perform audio playback through the audio playback unit. The holographic audio device can also be separately monitored for playback.

The host can be a computer or a mobile phone. In this embodiment, the mobile phone is used as a host. The network connection between the host and the holographic audio device may be WIFI, wired network, WAPI, Bluetooth. An audio processing module is provided on the host for performing background noise cancellation and echo suppression processing on the acoustic signal.

The following sound field-related application operations, recording, storage, and monitoring playback of the sound field can be performed on the host; video recording, monitoring, and playback of the sound field; network communication of the sound field; background noise elimination, hearing diagnosis; and enhanced sound field-based binaural Audio health application.

As an application scenario such as sound field communication, monitor playback, etc., the sound field needs to be reconstructed at the user end, and the sound field reconstruction end is not necessarily the same device as the sound field recording end. When the playback end is based on the earphone, it is a personal audio and communication scene. At this time, if it is the same device as the recording end, it is necessary to deal with the acoustic isolation of the microphone and the earphone unit, and the acoustic echo cancellation processing to be performed when the isolation is not complete; When the playback end and the recording end do not coincide with each other and are the speaker system, the corresponding entertainment media system does not need to perform real-time echo cancellation processing; when the playback end is a speaker system and is together with the recording end (such as the sound field based on the speaker system) Real-time communication) requires more complex acoustic echo cancellation processing.

Claims (7)

1. A holographic audio device comprises a microphone unit capable of collecting a three-dimensional sound field, wherein: the signal output end of the microphone unit is connected to the acquisition signal processing module, and the signal output terminal of the acquisition signal processing module is connected to the holographic sound field signal processing unit; the holographic sound field signal processing The signal output end of the unit is connected to the playback signal processing module, and the signal output end of the playback signal processing module is connected to the audio playback unit; the holographic sound field signal processing unit is externally connected with the source coding module and the source decoding module.
2. The holographic audio device according to claim 1, wherein the holographic sound field signal processing unit is connected to the memory module.
3. A method of controlling the apparatus of claim 1 wherein:

   The microphone unit collects a three-dimensional sound field signal, and the acquisition signal processing module processes the acquired signal and converts it into a digital signal. The digital signal is input to the holographic sound field signal processing unit, and the holographic sound field signal processing unit processes the sound field signal, and the processed signal is processed. After the source code is compressed, it is sent to the host through the network;

   The host sends a signal to the holographic audio device through the network, and the signal is input to the holographic sound field signal processing unit after being decoded by the source, and the holographic sound field signal processing unit outputs the signal to the playback signal processing module to perform audio playback through the audio playback unit.
4. The method of claim 3 wherein the network connection between the host and the holographic audio device is WIFI, wired network, WAPI, Bluetooth.
5. The method of claim 4 wherein the host computer is a computer or a mobile phone.
6. The method according to claim 5, wherein the host is provided with an audio processing module for performing background noise cancellation and echo suppression processing on the acoustic signal.
7. The method according to claim 6, wherein the following sound field related application operations are performed on the host.

   Sound field recording, storage, monitor playback; video recording, monitoring, playback of sound field; network communication of sound field; background noise elimination, hearing diagnosis; enhanced sound field-based binaural audio health application.

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