TR201619239A2 - HOLOGRAPHIC VOICE RECORDING SCHEME - Google Patents

Abstract

It is a sound recording device (10) for holographic sound recording. Accordingly, it comprises a 3D head model (100) comprising a first ear (111) and a second ear (112), said voice recording device (10) located in the neighborhood of the first ear (111) and the second ear (112) including at least one microphone (200) converting sounds into electrical signals, comprising a control unit (400) connected to receive signals with said microphones (200), said head model (100) extending from the first ear (111) into the head model (100). the first ear canal (113) and a second ear canal (114) extending from the second ear (112) into the head model (100), said head model (100) also includes a nose, the head model (100) also includes a nose (120) it comprises two nasal channels (121) that extend into the head model (100). Figure 1

Description

TECHNICAL FIELD The invention includes a head model and ears of the head model for recording holographic sound. It relates to a sound recording device comprising microphones positioned around it.

PRIOR ART 3D sound recording is made and the listener is in the environment where the sound is recorded. Various audio recordings allow near-detection of incoming sound directions, such as systems are available. With standard speakers in conventional two-microphone stereo recording systems in listening, with interferences between the left and right channels, only in a certain and narrow area, the most Up to 180 degrees of environmental depth sense and direction information can be detected. However There is no up or down information and it is not possible for the sound to pass to the back. While listening with headphones Although it is ensured that the sound passes backwards to some extent, up information is not formed.

There are phase problems in microphone movements that make it difficult to understand the sound. Head and in ear-like binaural recording systems, Eustachian tube and sinus resonance Since there are no gaps, the sounds are opened towards the back when listening with headphones, the front sound information does not exist. Size and direction information is lost when listening to the sound recording with a speaker.

What is superior; claimed to be holographic, giving full-size and directional effect with earphones only similar features of head, ear Eustachian tube, mouth and sinus resonance cavities holographic for listening with standard speakers in two-microphone recording systems containing sound effect disappears. In systems with multiple microphones; two-eared human sense As people move away from their systems, the naturalness and fusion of the sounds are lost, corrections are made by recording, merging and/or software. In these systems, the predominantly radial properties rather than molecular vibrational properties. used, they do not give accurate acoustic information about the place where the sound is recorded.

As a result, all the above-mentioned problems require an innovation in the relevant technical field. not made mandatory.

BRIEF DESCRIPTION OF THE INVENTION The present invention is aimed at eliminating the above mentioned disadvantages and providing the relevant technical field. relates to a sound recorder, to bring 'new advantages'.

One purpose of the invention is to determine the direction from which the sound is coming when listened to by the listener as holographic, 360 It is to present a sound recording device that can be perceived globally.

Another purpose of the invention is not only listening with headphones, but even when listening on a loudspeaker. It is to provide a holographic sound listening experience that can be perceived 360 degrees spherically.

Another purpose of the invention is; enriching the tones, making the sounds more lively real. is the perception.

All the above-mentioned purposes that will emerge from the detailed description below. The present invention is a sound recording apparatus for holographic sound recording. is Accordingly, the innovation is a 3D head model that includes a first ear and a second ear. that the sound recording device in question is in the neighborhood of the first and second ear. includes two microphones that are positioned and convert the sounds they perceive into electrical signals, includes a control unit that is signaled with said microphones, a first extending from the first ear of said head pattern into the head pattern ear canal and a second ear canal that extends from the second ear into the head model. that the head model includes a nose, also that the head model from the nose the two nasal canals that pass through the first ear canal and the second ear canal. it contains. Thus, the resonance that the sound waves are exposed to in the way they take inside the head. changes are also modeled, resulting in a more realistic holographic sound.

A preferred embodiment of the invention is characterized in that one end is fixed to the head model and the other consists of at least two handles, the end of which is fixed to one of the microphones.

Another preferred embodiment of the invention is characterized by the microphone of said handle. It contains a rubberized holding clamp that grips and absorbs unwanted impact sounds.

Another preferred embodiment of the invention is characterized in that said microphone is cardioid It is a directional condenser microphone.

Another preferred embodiment of the invention is characterized by said microphone; sound contains at least one diaphragm whose form changes with the impact of the waves, a capsule for generating electrical signals according to changes in the shape of the diaphragm. it contains.

In another preferred embodiment of the invention, said microphone capsule is in prism form.

Another preferred embodiment of the invention is characterized in that said microphone capsule There is also an outer layer covering the cylindrical body and added in the length of the microphone membrane diameter. it contains. Thus, rear and front sound information, direction perception is increased.

Another preferred embodiment of the invention is characterized by microphones; diaphragm of each an imaginary first normal line and an imaginary second normal line emerging from its center It is positioned to intersect at an angle of 90 degrees in the front of the nose.

Thus, a microphone orientation suitable for the behavior of the human brain in detecting sound. is provided.

Another preferred embodiment of the invention is characterized by microphones; the first mentioned positioned so that the normal line and the second normal line are parallel to the ground is that.

Another preferred embodiment of the invention is characterized by microphones; the first mentioned normal line and second normal line, first ear canal opening and second ear canal With a first line passing through the opening, 45°" light will make the angle a and b. it is positioned.

Another preferred embodiment of the invention is that the head model is combined with the filling material. it is full.

Another preferred embodiment of the invention is characterized in that said material is glass or it is stone wool.

Another preferred embodiment of the invention is characterized by positioning on the head model surface. BRIEF DESCRIPTION OF THE FIGURE In Figure 1, a general view of the sound recording device is given.

In Figure 2, a representative view of the microphone and the elements inside the microphone is given.

In Figure 3, the two side and top views of the head model are given as a representation.

In Figure 4f, a representative top view of the head model with microphones given.

In Figure 57 a representative view of an alternative embodiment of the sound recorder is given.

DETAILED DESCRIPTION OF THE INVENTION In this detailed description, the inventive sound recording device (10) is only better suited to the subject. It is explained with examples that will not have any limiting effect on understanding.

Referring to Figure 1 , said sound recording device (10) consists of a head pattern (100) and a head pattern (100). (100) two microphones (200) placed in the vicinity of the ears (110), said A device that processes the electrical signals produced by the microphones (200) according to the sound waves they receive. includes the control unit (400). Thus, from the source of the sound to the entrance of the human ear. The changes it undergoes on the way it came are modeled. Thus, the audio recorded in this way It also creates a holographic sound experience when listened to through the speaker.

Referring to Figure Sie, the head model (100) mentioned is the human head in this exemplary embodiment. is in the form. In alternative embodiments, the head model (100) is the one whose sense is desired to be imitated. It can also be in the form of a living creature's skull or a human skull. head model contains. Said ears are in the form of a human auricle and have the shape of the head (100) extends outward from their suitable regions. Ears (110) soft silicone is made of material. A first ear from the first ear (111) into the head pattern 100 channel (113) extends. A second ear from the second ear into the head pattern 100 channel (114) extends. The head model 100 also includes a nose. Said a nasal canal (121) extends inward from the nose (120). In this example build nasal canal 121 to be a first nasal canal 121a and a second nasal canal 121b as two. The first nasal canal (121a) opens to the first ear canal (113), the second the nasal canal (121b) also opens into the second ear canal (114). Thus, the external ear canal, The mouth, sinus cavities, and eustachian tube are modeled provided with a soft tube the nose and auricle of the listener and the sound passes through these gaps bilaterally. being modeled. First ear canal (113), second ear canal (114) and nasal canals head model (100) can be provided by passing a pipe through it. Channels head model (100) may include pipes inserted into it. These pipes, ear canal, sinus soft, with an inner diameter of up to 1 cm and an outer diameter of 1.4 cm, representing the cavities and the Eustachian tube are pipes. Pipe length; the distance between the two ears (110).

The head model (100) is hollow and made of a hard material, and the top It is covered with leather, silicone or a similar soft material to prevent it from happening.

The head model (100) can be hollow or filled with filler. resonances are prevented. In this exemplary embodiment, the filler is glass or sparse stone wool.

Referring to Figure 2, the microphone (200) mentioned preferably includes a bass part (210) where the sound is perceived. and a body portion (220) holding the bass portion (210). Microphone (200) this example In the embodiment, it is a condenser microphone (200). To this in the bass part (210), the sound a microphone capsule with a diaphragm (212) which can change its form when the waves hit it. (211) contains. Changes in the diaphragm (212) in the microphone capsule (211) also depend on the type. It serves to convert it into an electrical signal. Microphone capsule (211) this example In the configuration, the front is covered with a diaphragm (212), and the sound wave passes from the back to the front. It is in the form of a cylindrical prism with holes. with control unit 400) on the back There are electrical connection terminals to be connected. Microphone capsule (211) its cylindrical surface is covered by an outer layer (213). Said outer layer (213) 2mm thickness and the length (L) of this outer layer (213) covers the microphone. cylindrical diameter (R) is approximately equal to its diameter. The cylindrical diameter (R) in question is the cylindrical is the diameter of the diaphragm. In an alternative embodiment, the cylindrical diameter (R) microphone capsule (211) and It is the diameter of the cylindrical shape formed by the outer layer (213) dressed on it. The outer layer is the diameter of the outer layer (213). (213) is preferably 2mm thick cork based. The outer layer added to the microphone afterwards (213) on the directional separation of the sounds coming from the front and the rear of the head model (100). It helps to increase knowledge.

In the head model (100), the length from the forehead to the chin is approximately is 1/2 of its circumference. Thus, the size of the head diameter determines the sound reception and listening sphere. is expanding.

Two handles (300) extend outward from the head model (100). The mentioned hold its arms hold the microphones (200). The handle (300) also allows the microphones (200) to be attached. a handle that enables its removal and grips the microphones (200) from the body (220) the clamp (310).

The microphones 200 are associated with a control unit 400, and the controller 400 is one of the microphones. (200) is configured to process incoming signals. and an imaginary first line (X) passing through the second ear (112).

Microphones (200) from the first ear canal (113) and second ear canal (114) inlets, head according to their dimensions, proportions, and angular positions is located. Microphones (200), central nose (120) of the diaphragm (212) in them It is positioned in such a way that it is directed towards the end. More specifically, microphones 200; coming perpendicularly from the center of the diaphragm (212) of the first microphone (200a) and to the cheekbone. A first normal line (N1) passing tangentially and the diaphragm (212) of the second microphone 200b a second normal line emerging perpendicularly from its center and tangent to the cheekbone (N2) is positioned to intersect around the `front of the nose (120). first normal microphones so that the line (N1) and the second normal line (N2) intersect at a 90° angle (200) is positioned. In other words, first normal line (N1) first line (X) with a 45°, an angle of a and the second normal line (N2) a b angle of 45° with the first line (X) it is directed towards the nose (120). Also, the first normal line (N1) and the second normal line (N2) approximately (nose, cheekbone, ear hole in a straight line microphones (200) are positioned so that they are parallel with the ground. Sound vibrations do not add up with each other as loudness after 90°, after this angle From phase differences, severe phase interferences are experienced. Head shape. both horizontal and vertical between the right and left channel microphones (200) the outer layer (213) dressed in the capsule (211) and the loss of directional capabilities, especially This results in amplification of the background audio data. External ear canal, sinus cavities and with the first ear canal (121a) and the second ear canal (121b) representing the Eustachian tube The sounds transmitted from the ears (110) to the microphones (200) represent the preliminary sound information. Thus, the air molecules vibrating not radially but with combined sounds. The real “sound field” that it creates can be recorded. Hearing the mind in a quiet time It focuses the system in the nose (120) region. Microphones (200) to nose (120) The reason why the mind is directed is to make the mind evaluate hearing in this way. is to provide a realistic recording.

In an alternative embodiment as in Figure 5 , the head model 100 includes a carrying handle 500. may contain. The carrying handle is configured to be associated with the camera. can happen. Thus, the device is suitable for both stationary use and mobile use. is happening.

The work of the invention is generally as follows; sounds from sound sources to the head model (100) is transmitted, making interference with the sounds dispersed from the pits and bumps on its surface and by the microphones (200) through said channels in the head model (100). It is converted into an electrical signal, processed by the control unit (400). is recorded. Thus, where a sound stops on the way to the ear of a person. changes are imitated. This imitated voice has been a human being since birth. Hearing is compared to the sounds in his memory that he experiences, learns, and accumulates memories. It stimulates the cortex so that the mind decides where the sound is coming from.

The more the modeling is made in accordance with the real heating system, the higher the effect. is happening. When listened to with the speaker, this imitated sound is heard in the ear of the listener. comes, the person experiences the sound as if it were in the medium in which the sound was recorded. Records, while informing the hearing system that you are listening in a 360-degree spherical environment, as in reality, when the listener changes place, the angle at which he watches the sound also remains 'fixed'. is changing. Standard speaker placements across the standard listening system and Between the listener, there is an equilateral 'triangle' overlay. These speakers are placed in the middle of the room. placed, the speakers work like sonic hologram generators, spherical sound movements, even from the back of the speakers, at the right angles at which sounds are recorded. can be heard.

The scope of protection of the invention is stated in the attached claims and this detailed for exemplification purposes, it cannot be limited to what is told. Because a technical expert similar in the light of what has been explained above without departing from the main theme of the invention. It is clear that structuring can occur.

Claims (1)

REQUESTS . It is a sound recording device (10) for holographic sound recording and its feature is; a 3D head model (100) comprising a first ear and a second ear (112), said sound recording device (10) has two microphones (200) located in the neighborhood of the first and second ear (112) and converting the sounds they perceive into electrical signals. ), comprising a control unit (400) that is signaled with said microphones (200), said head model (100) a first ear canal (113) extending from the first ear (111) into the head model (100) and a second ear ( 112) the head model (100) includes a second ear canal (114) extending into it, said head model (100) also includes a nose, the head model (100) also includes two noses extending from the nose (120) into the head model (100). It contains the channel (121). . It is a sound recording device (10) according to claim 1, and its feature is; it comprises at least two handles (300) with one end fixed to the head model (100) and the other end fixed to one of the microphones (200). . It is a sound recording device (10) according to claim 17, and its feature is; said holding arm (300) includes a holding clamp (310) that grips the microphone (200). . It is a sound recording device (10) according to claim 1 or 4, and its feature is; said microphone (200); it contains a diaphragm (212) whose form changes with the impact of sound waves, and a capsule that is used to generate electrical signals according to the changes in the form of said diaphragm (212). . It is a sound recording device (10) according to claim 4, wherein; said microphone capsule (211) is in the form of a cylindrical prism. . It is a sound recording device (10) according to claim 5.9 and its feature is; said microphone capsule (211) includes an outer layer (213) covering the cylindrical surface. . It is a sound recording device (10) according to claim 6, and its feature is; the length (L) of said outer layer (211) is sufficiently equal to the cylindrical diameter (R) of the diaphragm. It is a sound recording device (10) according to claim 4, and its feature is; microphones (200); an imaginary first normal line (N1) and an imaginary second normal line (N2) each originating from the diaphragm (212) are positioned to intersect in the anterior L of the nose. It is a sound recording device (10) according to claim 8.9 and its feature is; microphones (200); said first normal line (N1) and second normal line (N2) are positioned to be sufficiently parallel to the ground. It is a sound recording device (10) according to claim 8, and its feature is; microphones (200); said first normal line (N1) and second normal line (N2) are positioned to make an angle of 45°" light a and b with a first line (X) passing through the first ear canal (113) opening and the second ear canal (114) opening. It is a sound recording device (10) according to claim 1, and its feature is as follows; the head model (100) is filled with filling material. It is a sound recording device (10) according to claim 1, and its feature is that said filling material is glass or rock wool. It is a sound recording device (10) according to claim 17, and its feature is as follows: It contains a carrying handle (500) positioned on the head model (100) surface.