RU2783628C1 - Binaural surround sound recording device "sphere-10" - Google Patents

Abstract

FIELD: acoustics.

SUBSTANCE: invention relates to the field of acoustics. The binaural surround sound recording device includes two microphone units fixed on the same horizontal line on the holder. Each microphone unit is a cubic-shaped body, one wall of which is intended for mounting on a holder, and in all other walls, in the center, there are conical recesses with mounting sockets, each of which houses a microphone. The software and hardware part includes an amplification unit for each microphone, a unit with a ten-channel analog-to-digital converter, with synchronous sampling, made with the possibility of performing multi-channel parallel recording from all microphones simultaneously, a software mixer, made with the ability to mix digitized recordings from all channels into a single file, and a recording unit configured to record the resulting single file onto an electronic medium.

EFFECT: providing the ability to create high-quality surround binaural recording with circular positioning, as well as providing the ability to record surround sound from a single point.

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Description

The present invention relates to the field of sound recording, more specifically, to recording sound sources close to human perception and their direction, both static and moving objects, from any point in space (sphere).

разницу и акустическую разницу громкости). Если говорить о современных методах записи объёмного звука, как правило используется запись с моно- либо стерео-микрофонов, с различных направлений от объекта. Затем, полученный материал в виде фонограмм спереди, сзади и т.п. звукорежиссёр сводит в одну многоканальную звуковую дорожку, используя программный либо аппаратный микшер. В итоге мы слышим объёмный звук в многоканальном формате 5.1, 7.1, 9.1 через системы кинотеатров. Но такой метод очень трудоёмкий, требующий больших финансовых затрат и времени и к бинауральному восприятию звуков человеком его сложно отнести.As you know, ordinary stereo recording does not take into account the distance between the ears, the "sound shadow" and the reflection of sound from the head and ears, although they make their own changes to the sound propagation (acoustic

difference and acoustic loudness difference). If we talk about modern methods of recording surround sound, as a rule, recording from mono or stereo microphones is used, from different directions from the object. Then, the received material in the form of phonograms in front, behind, etc. the sound engineer mixes into one multi-channel audio track using a software or hardware mixer. As a result, we hear surround sound in a multi-channel format 5.1, 7.1, 9.1 through cinema systems. But this method is very time-consuming, requiring large financial costs and time, and it is difficult to attribute it to binaural perception of sounds by a person.

When performing binaural sound recording, one of the most important criteria is the location of the microphones. Typically, this recording method is carried out using a model of a human head, which repeats the ear canal with anatomical accuracy, where the microphone and auricles are installed. First of all, it is worth noting that with this method we get a recording with an “ear effect”. The fundamental mistake of this method is that the microphone membrane is equated with the organ of hearing, and here the point is not in sensitivity, but in the way of perception. The microphone membrane is capable of transmitting the direction of the sound wave only in one plane, and it is impossible, having only two microphones, to record sound with circular positioning (not to be confused with sound coverage).

Also known from the prior art is a method of binaural sound recording using a Jacklin disc. In this case, the distance between the membranes of the microphones is 35 cm, which gives a "wide" base. The angle of deviation of the microphone axes relative to the plane of the Jacklin disk is 30°, which is equal to 60° in total. This recording method shows a good stereo base, good plans and objective localization of sound sources (when listening with headphones). To achieve a good recording result, you need the right acoustic balance and the ability to choose the most optimal point in space for the location of the Jacklin disk itself, which is not always possible to provide.

One of the closest technical solutions can be considered a method for generating binaural signals and a device for its implementation, disclosed in RU 2 505 941 dated 01/27/2014. Based on a multi-channel signal representing a plurality of channels, the device generates a binaural signal intended for playback through a speaker system, with the position of each virtual sound source associated with an individual channel. The apparatus includes a correlation minimizer differentially transforming and thereby attenuating the correlation between at least one left and right, one front and rear, and one center and non-center channel from a plurality of channels to form a combination of channels with minimized mutual similarity; many directional filters; a first mixer mixing the outputs of the directional filters simulating the transmission of sound to the first ear canal of the listener; and a second mixer mixing the outputs of the directional filters simulating the transmission of sound to the second ear canal of the listener.

The main disadvantages of the prototype include the lack of the possibility of circular positioning when recording surround sound with the effect of presence, as well as a rather complex design of the binaural surround sound recording device.

The technical problem to be solved by the present invention is to create a simple, manufacturable in production and use design of a binaural surround sound recording device.

The technical result achieved in this case is to provide the possibility of creating a high-quality volumetric binaural recording with circular positioning, i.e. close to human perception recording of sound sources and their direction, both static and moving objects, from any point in space (sphere), as well as providing the ability to record surround sound from one point.

The technical result is achieved due to the fact that the proposed device for recording binaural surround sound includes a microphone system, a microphone unit holder fixed on a microphone stand, and software and hardware. New, according to the proposed invention, is that the microphone system is divided into two microphone units, made with the possibility of mounting on the holder of the microphone units in such a way that both microphone units are on the same horizontal line, each microphone unit is a cubic body, one wall which is designed for mounting on the holder of microphone units, and in all other walls, in the center, there are conical recesses with mounting sockets, each of which contains a microphone, while the software and hardware includes:

- amplification unit for each microphone;

- a block with a ten-channel analog-to-digital converter, with synchronous sampling, made with the possibility of performing multi-channel parallel recording from all microphones simultaneously;

- software mixer, made with the ability to combine digitized records from all channels into a single file;

- and a recording unit configured to record the resulting single file on an electronic medium.

The proposed software and hardware in conjunction with microphone units located on the same horizontal line and having ten audio channels broadcast from each microphone (five per unit) allows positioning sounds from six directions, while the direction of sound sources is formed mainly , due to the difference in the amplitude of the incident sound wave (loudness) perceived by the microphone membranes from different planes, which allows you to create the depth and volume of sound recording, convert the received signal into digital and then record it on electronic media.

Thus, the proposed set of essential features is necessary and sufficient for the claimed device to realize its purpose (binaural surround sound recording) and achieve the claimed technical result - providing the ability to create high-quality binaural surround recording with circular positioning, as well as providing the ability to record surround sound from one point .

It may be appropriate if the microphone sockets are made at the lower points of the conical recesses and have a cylindrical shape with a hole for the wires to exit.

It may be useful if each microphone is a capsule electret unidirectional microphone with a cardioid or supercardioid pickup pattern and is placed in a conical recess so that its membrane is turned outward, parallel to the plane of the wall in the recess of which this microphone is located.

It may be appropriate if the housing of each microphone unit is made of a polymer material with a density that provides an obstacle to the passage of a sound wave, and a cavity is provided inside the housing of each microphone unit for accommodating the wires coming from the microphones, with an outer hole for the output, in the center of the side wall, designed to be mounted on the holder of the microphone units, while the microphone units will be separated from each other by a distance of 13 cm, which corresponds to the average distance between the ears of an adult.

It may be appropriate if the conical recesses are made with a wall angle of 45 ^○ , and the outer face of the conical recesses, passing to the body, will be rounded.

Further, the invention will be disclosed in more detail, with reference to the graphic materials, on which:

- figure 1 - schematic diagram of the device;

- figure 2 - 3D model of the device;

- figure 3 - microphone unit, front view;

- figure 4 - microphone unit, side view;

- figure 5 - microphone unit, top view;

- figure 6 - microphone unit, isometry;

- Fig.7 - 3D model of the microphone unit.

General view of the proposed binaural surround sound recording device is shown in Fig.1 and Fig.2. The device has a microphone stand 1, a holder for microphone units 2 and a microphone system divided into a left microphone unit 3 and a right microphone unit 4.

The microphone stand 1 is intended for fixing the holder of the microphone blocks 2 on it and, depending on the operating conditions, can be made telescopic (not shown). The holder of the microphone blocks 2 can be fixed on the microphone stand 1 movably (with the possibility of rotation) or fixed, removable or non-separable, which also depends on the operating conditions. The microphone stand 1 and the holder of the microphone units 2 can be made of a tubular shape from any suitable material - metal or alloys, various types of plastic, etc.

For binaural sound recording, a system of microphones is provided that has its own separate recording channel: front right 5, front left 6, side right 7, side left 8, rear right 9, rear left 10, top right 11, top left 12, bottom right 13 and bottom left 14, total 10 channels. It is preferable (but not the only possible) use of unidirectional electret microphones (not shown) having a cardioid or supercardioid pickup pattern for operation in a particular sound field. Such a microphone is a cylindrical capsule, installed in the landing slot.

Each microphone is housed in a horn to focus on the perception of sound waves in the target spatial sound field, namely front, side left, side right, rear, top and bottom. Microphones are installed in such a way that the membrane of each microphone is turned outward, parallel to the plane of the wall, in the recess of which this microphone is placed.

To provide a binaural effect, the microphones are placed in two microphone blocks 3 and 4 with the creation of stereo pairs of microphones of the upper, front, rear, lower and side fields.

The microphone units 3 and 4 are placed on the microphone unit holder 2 in the same horizontal line, preferably at a distance of 13 cm from each other, which corresponds to the average distance between the auricles of an adult.

The microphone units 3 and 4 are made identical to each other. Each microphone block is a cubic body with rounded edges, in the walls of which, in the center, conical recesses (horns) 15 are made, with rounded edges. For the left microphone unit 3, these are the front, side left (side right is not involved), rear, top and bottom planes. For the right microphone unit 4 - front, side right, rear, top and bottom plane.

Preferably (but not the only possible) the housing of the microphone unit is made of a high-density polymeric material (for example, low-pressure polyethylene (HDPE), polyvinyl chloride (PVC), etc.), with a wall thickness of the housing of at least 10 mm, to prevent the passage sound wave.

Inside the housing of the microphone unit there is a cavity (not shown) for placing the wires coming from the microphones, with an outer hole 16 for output, in the center of the side, intended for mounting on the holder of the microphone units 2.

In the center of each of the five sides of the cube, frontal, lateral left (right), rear, upper and lower, recesses 15 of a conical shape are made, with a wall angle of 45 ^○ . The outer edge of the recesses, passing to the body, has a rounding. At the lower points of the conical recesses 15, cylindrical sockets 17 are made with a hole for the output of wires, for installing microphones.

The microphone unit is fixed with the lateral right (left) side to the microphone unit holder 2, attached to the microphone stand 1. The microphone unit holder 2 has two seats for the left 3 and right 4 microphone units with a distance of 15 cm between them. The seats are inserted into holes 16 microphone units 3 and 4 so that both microphone units 3 and 4 are on the same horizontal line, in a fixed position, at a distance of 13 cm from each other.

Thus, it becomes possible to make a record of sound sources and their directions, both static and moving objects, close to human perception, from any point in space (sphere) limited by the effective range of the proposed device.

For efficient operation of the device, a software and hardware part (not shown) is provided, which includes an amplification unit for each microphone, a unit with a ten-channel analog-to-digital converter, with synchronous sampling, for multi-channel parallel recording from all microphones simultaneously, a software mixer, for information of digitized channels into a file, in the required sound format from stereo to surround sound, and a block for recording the resulting file to electronic media.

Since the hardware and software part, as such, is not the subject of this application for a patent for an invention, any known and suitable devices for these purposes can be used for its implementation, communication and interaction between which are implemented according to known rules.

Thus, a simple sound recording device, technologically advanced in production and use, is proposed, which allows creating a high-quality surround binaural recording with circular positioning from one point, in contrast to cinematic sound recording, where microphones are located around the object. This model will allow playback of recordings on already common multi-channel audio systems, such as DTS, Dolby Digital 5.1, 7.1 Dolby Atmos, and also involves the creation of an audio format using the lower sound plane.

Claims (13)

1. A binaural surround sound recording device, including a microphone system, a microphone unit holder mounted on a microphone stand, and a software and hardware part, characterized in that the microphone system is divided into two microphone units, configured to be mounted on the microphone unit holder in such a way that that both microphone units are on the same horizontal line, each microphone unit is a cubic-shaped body, one wall of which is intended for mounting on the holder of the microphone units, and in all other walls, in the center, there are conical recesses with mounting sockets, in each of which a microphone is placed, while the software and hardware includes: - amplification unit for each microphone; - a block with a ten-channel analog-to-digital converter, with synchronous sampling, made with the possibility of performing multi-channel parallel recording from all microphones simultaneously; - software mixer, made with the ability to combine digitized records from all channels into a single file; and - a recording unit configured to record the resulting single file on an electronic medium. 2. The device according to claim 1, characterized in that the mounting sockets for installing microphones are made at the lower points of the conical recesses and have a cylindrical shape with a hole for the output of wires. 3. The device according to claim 1, characterized in that each microphone is a capsule electret unidirectional microphone with a cardioid or supercardioid polar pattern. 4. The device according to claim 2, characterized in that each microphone is placed in a conical recess in such a way that its membrane is turned outward, parallel to the plane of the wall, in the recess of which this microphone is placed. 5. The device according to claim 1, characterized in that the housing of each microphone unit is made of a polymer material with a density that provides an obstacle to the passage of a sound wave. 6. The device according to claim 1, characterized in that inside the body of each microphone unit there is a cavity for accommodating wires coming from the microphones, with an external output hole in the center of the side wall intended for mounting on the holder of the microphone units. 7. The device according to claim 1, characterized in that the microphone units are separated from each other by a distance of 13 cm, which corresponds to the average distance between the ears of an adult. 8. The device according to claim 1, characterized in that the conical recesses are made with a wall angle of 45°. 9. The device according to claim 1, characterized in that the outer edge of the conical recesses, passing to the body, has a rounding.

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