KR100388561B1 - The sound recognition machine by skin for hearing handicapped - Google Patents

Abstract

The present invention relates to a skin tactile sound recognizer for hearing impaired persons, which collects and processes sound in all directions and delivers the same to the human skin tactile senses.

Six microphones 11, 12, 13, 14, 15, and 16 collect negative signals in all directions to amplify and rectify the signals input from the amplification circuits 31, 32, and 33 to level devices 51. 52 and 53 are input to the arithmetic processing unit 60 by converting the input analog signal of the same microphone into a level signal by receiving an input signal in a cycle of 10 hz according to the order of the microphones in the arithmetic processing unit 60. Input signals are sent to the output stage of the skin tactile vibration element at the same position as the microphone direction of the largest level value to recognize the direction of the sound, and also output the largest level value to recognize the amplitude of the sound. Comparing the 30 kinds of the input sound and the same sound, when there is the same operation output device 60 outputs the output signal to the output terminal of the skin tactile vibration device 140 and the output signal in the frequency converter 70 1- Skin tactile vibration by converting to a frequency of 500 Hz The digital signal input to the skin tactile vibrator 100 composed of 19 elements inserts the cylindrical permanent magnet 151 into the coil 155 fixed to the body and the inner core 152 of the coil holder 154, and digitally inserts the coil into the coil. When a signal is applied, vibration occurs, and the sound direction, sound amplitude, and ringing sound are transmitted to the human skin's tactile sense.

Therefore, the device can immediately respond to any sound by the deaf person can reduce the deaf as much as possible.

Description

The sound recognition machine by skin for hearing handicapped}

The present invention relates to a device for recognizing the direction of sound generation for the hearing impaired. To date, the present invention can be found in Japanese Patent Application Laid-open No. Hei 10-118110. It consists of one and moves the microphone in the direction of sound generation to recognize the correct direction of sound generation. The hearing function in our body plays a crucial role in preventing and preventing safety accidents in the nervous system. In the point that the reflex action appears and moved to the action requires very little instant time, the problem of giving the time required to track the direction of sound generation in the device through accurate information. Bone conduction oscillators for both bone and airway hearing use microphones or other The sound signal of the input audible frequency band is transmitted through the vibration device to the skin or bone at the same audible frequency. In this case, the sound is vibrated in the part of the human body where the nervous system of the skin's tactile sense and bone is not well developed. In particular, the hearing impaired by the bones is not possible in the case of a person with a hearing loss that is severely deaf, and in the case of a second or third deaf person who has completely lost the hearing nerve. There is a problem such as inability to discriminate whether or not to call themselves when calling themselves at home or at work.

The hearing impaired person provides the person with the present invention a sound direction recognition device for the hearing impaired by supplementing the problems indicated by the above problems, minimizes the disability, looks like a normal person, and has a conversation (person who can speak speech) and feels the sound. To develop a device that can respond promptly to traffic accident preparedness and emergencies, and to respond promptly to any name or corresponding call during any action or task. Then, a volume recognizer was invented. As a complementary method, the microphones 11, 12, 13, 14, 15, and 16 left in FIG. 5 collecting sound to accurately recognize the direction of sound generation. Ooh. Skin tactile oscillator (111-), which is located up, down, up and down, and collects sound in all azimuth directions and finds the direction in which sound is generated through an amplifying circuit, a level circuit, a computing device, and a frequency conversion circuit. 124) It consists of 12 pieces, consisting of 8 pieces in the horizontal direction (111-118) in the left and right directions, and 4 skin tactile vibrators in the vertical direction (121-124) in the top and bottom directions. When the object that is the source of sound is moved even when the direction of sound generation is not visually confirmed, the movement of the sound is sensed. The second problem is that the disabled prevents the device from being exposed to the outside. Various types of vibrators, such as belts or hats, are required to provide the system, and especially those with disabilities combined with other delays caused by traffic accidents or other accidents. In the present invention, there is a problem that a suitable vibrator must be configured. In the present invention, the digital signal output from the arithmetic processing unit 60 is output from the frequency conversion circuit 70 at a frequency of 1-500 hz and the existing voice is increased to increase the vibration of the skin tactile vibrator. 5 Ｖ digital signal that magnet is caught on coil by inserting circular bar magnet φ1-5 mm in the center of coil by fixing coil, deviating from vibration method of audible frequency band used in coil vibration method. By virtue of the magnet reciprocating, the vibration is transmitted to the skin, and powerful vibration is transmitted than the existing vibration, so that the discriminating power can be increased. To store 30 voices and human voices Separate skin tactile vibrator 140 is operated will be recognized that a call with a call to his direction.

1 is an overall configuration diagram of a skin tactile sound recognizer

2 is a block diagram of a volume vibrator

3 is a configuration diagram of the front and back and the negative direction oscillator of the left and right

Figure 4 is a configuration of the negative direction of the upper and lower vibrator Figure 5 is a mounting position of the microphone. Figure 6 is a front shear view of the skin tactile vibration device.

Before explaining the terminology below, note means sound and volume means high and low sound, or amplitude.

Skin tactile sound recognition device is a skin tactile vibrator (100) and the skin tactile vibrator (100) to transmit the six input microphone and the input signal of the microphone to the skin tactile of the human body through the skin tactile vibrator (100) And amplifying devices (31.32, 33), level devices (51, 52, 53), arithmetic processing device (60), memory device (frequency conversion device) 70, and the like.

The configuration of the microphone for collecting the sound is shown in the left side of FIG. 5, the top side of the place where the microphone is located, and the right side of the front side of the front side of the six micro left microphones 11, the right microphone 12, the front microphone 13, and the rear microphone ( 14), the upper microphone 15, the lower microphone (16).

The microphone is intended for sound collection, and the six microphone positions play an important role in determining the direction and amplitude of the sound.

The amplification circuits 31, 32, and 33 of Fig. 1 amplify and rectify the output signals of six microphones, respectively, and input DC components to the level circuits 51, 52, and 53. The level circuits 51, 52, and 53 It is the same function as the level circuit of the audio set, but the level level is developed in a variable type so that the level level can be changed by the number of components of the skin tactile vibration device, and the function of the level circuit is to select six selection signals from the processing unit 60. In response to the order of the microphones, the amplitude of the sound at the moment is classified into six grades and sent to the processing unit 60 as a digital signal.

The arithmetic processing unit 60 receives the input signal of each microphone from the level circuit, and its configuration is composed of the arithmetic processing unit, oscillation circuit and memory, and its function is to determine the first sound amplitude. Identifying the memorized ring tone of the sound When the three processing methods are explained in this order, the first sound amplitude discrimination method receives the digital signal of the sound sequentially input from six microphones from the level circuit and the highest level among the level signals. The level signal is output and input to the negative amplitude frequency conversion circuit 70. The second negative direction calculation method selects the microphone signal having the largest amplitude among the six microphone signals input from the level circuit and selects the microphone signal. Generates an output at the output of the vibrator corresponding to and outputs it to the negative direction frequency conversion circuit 70. In the present invention, six microphones and twelve sound direction oscillators are configured. In the case where the level values are the same as before, an output signal is generated on the oscillator in the middle of the two microphones, so that the discrimination force of the sound generation direction is high. How to find the sound of 30 kinds of memorized call This device memorizes 30 kinds of voices to call itself and generates an output signal when the sound is generated. When the voice is input and converted into a digital signal, stored in the memory device and the same voice is stored, an output signal is generated and an output is generated in the frequency conversion circuit 70 at the output stage of the cally tactile vibrator 140. .

The frequency converting circuit 70 receives an input from the arithmetic processing unit 60. The input signal is classified into three types. The first negative amplitude signal is the second negative direction signal and the third ring tone is a high frequency signal. This signal is outputted by frequency converting all three types of input signals at a frequency of 1-500HZ, which is easily recognized by the skin through the tactile vibrator in the frequency conversion circuit.

Skin tactile vibrator 100 is operated by each signal output from the frequency conversion circuit 70 and its function is a device that uses the human body's hearing function as the tactile function of the skin, the degree of disability of the hearing impaired for example due to traffic accident In the present invention, since the degree and type of the disorder, such as the disorder inherent in the workplace, vary in the type and type of the skin tactile vibrator 100 attached to the human body, and the number of vibration elements mounted therein. Various designs such as the number of vibrating elements can be designed in a desired form according to the environment of the handicapped and will be described as a circular skin tactile vibrator 100 of FIG. 2 for the description of the apparatus. Has a circular shape, and the vibrating element is composed of 18 vibrating elements vertically and horizontally in the center, and 8 of them (111, 112, 113, 114, 115, 116, 117, 118) have a circular shape. The vibration element of FIG. 3 and the negative direction vibration element including four vibration elements 121, 122, 123, and 124 vertically configured as shown in FIG. 4 in the center of the circle are composed of a total of 12 vibration elements. The unique microphones in each direction are designated so that the specified vibration element is operated by the previous processing unit so as to recognize the direction of sound generation. The six vibration elements 131, 132, 133, 134, 135, and 136 are negative amplitude vibration elements, and the output is generated at the maximum value of the vibration element output terminal formed with the highest level signal in the processing unit, and the skin tactile oscillator ( The vibration of the vibration device of 100) is to discriminate the strength and weakness. When the same sound as the call sound input to the call vibration device 140 is input, an output is generated at the output terminal of the processing unit 60, and the call vibration device operates through the frequency conversion circuit 70 to recognize the call. The vibrator 100 is composed of 19 vibrating elements, and the internal structure of the vibrating element has a cylindrical magnet 151 having a diameter of 1-1 in the inner hollow core 152 of the fixed cylindrical coil 155 as shown in FIG. When 5mm is stopped and the safety cover 156 and the coil holder 154 are fixed to one, and a pulse signal is supplied to the coil 154 at a frequency of 1-500hz, the magnet 151 reciprocates. In order to apply a stronger vibration to the 170, a frequency characteristic control bolt 152, which is built with silicon to which the repulsive force is applied, is adjusted to a point where the strongest vibration is transmitted to the skin. Pinned to And a cylindrical permanent magnet 151 containing the internal hollow core 152 of the coil holder 154 is electrically supplied to the coil 155 by a digital signal having a frequency characteristic within a frequency range of 1 to 500 hz input to the coil 155. The magnetic induction causes the permanent magnet 151 to vibrate through the reciprocation of repulsion and suction, and has the same frequency characteristics that can vibrate most strongly by the size of the permanent magnet and the magnetic field generated by the coil. Has a frequency characteristic within 1-500hz, which is easily recognized by the skin's sense of touch.

Then, if the description of the signal processing method until the skin tactile vibrator 100 is operated, the microphone device 10 collects the sound, converts the sound into an amplification and level signal, and the present invention requires the arithmetic processing device. By finding the three sound characteristics and outputting the output signal to the output stage of each characteristic to convert the frequency so that the vibrator 100 can be operated by the method to find the sound characteristics in order to the process transmitted to the vibrator 100 When the first sound amplitude oscillation element 130 is described the operation of the second description The second sound oscillation element 110 is described the order of operation The third call sound vibration element 140 will be described in the order in which the operation.

First, the operation method of the sound amplitude oscillation element 130, as shown in Figure 5, the sound collecting microphones are left (11), right (12), front (13), rear (14), top (15), The lower end 16 is composed of six microphones and collects sound in all directions, and independent amplifiers 31, 32, and 33 of each microphone amplify and rectify the input sound to level circuits 51, 52, and 53. The signals input to the level circuits 51, 52, and 53 are input from the signals transmitted from the processing unit 60, that is, the front microphones 11, 12, 13, 14, 15, and 16. In the same order, all six signals are inputted to the level circuit at a speed capable of reading 10 times a second, and the same input signal of the microphone as the input signal is converted into six levels of signal to be output. And outputs the largest level signal among the signals input to the processing unit to the output stage specified in the level signal. The frequency conversion circuit 70 converts the frequency and inputs it to a vibration device of a specified level level, and transmits vibration to the skin by the operation of the vibration device to identify the sound amplitude, that is, the high and low sound. And as shown in Figure 4 is composed of 12 vibration elements in a circular and vertical direction, each of the vibration elements are separated by the direction of sound generation in the same direction as the position of the microphone shown in Figure 5 left (117) , Right side 113, front 115. It is composed of the vibration elements of the rear 111, the upper part 122, the lower part 124, and is the same as the position of the direction of the microphones 11, 12, 13, 14, 15, and 16 shown in FIG. The vibrating element added in the middle of each direction is configured to increase the discrimination force in the direction, and the vibrating elements 121 and 123 play a role at the center point in the vertical direction, that is, the direction of the upper and lower ends. The searching method is to output the frequency of the vibrating element output terminal having the highest level value among the level signals of the microphones input to the processing unit 60 to convert the frequency to operate the designated oscillator and input to the processing unit 60 When the same level signal is input among the level signals, the output signal is output to the vibrating element in the middle of the same level value to convert the frequency and input to the designated skin tactile vibrating element to accurately identify the direction of sound generation. It will cool down.

Third call sound oscillation element 140 is located in the very center of the skin tactile vibrator 100 and its function can be recognized in the direction of the volume and sound in the front, but where there is a lot of noise, the input volume of the skin contact sound recognition device You can use this device to recognize your call when you need to lower it.The operation of this device allows you to input 30 kinds of voices that can be called by others. You can find the location of the call immediately by looking at the direction of the direction element. For example, the input method of the call sign remembers 30 kinds of voices that can call itself in our lives, such as Mr. Choon-hyang, Mr. Choon-hyang, Miss Sung-m's aunt, etc. Just do it. As described above, the present invention is designed to be portable and attachable at any time where there is a hearing impaired person, and the number of microphones is large, but it is small and is minimized to external exposure by attaching to accessories and buttons of clothes and clothes. It can be attached to pockets or belts in clothes, and it can protect skin tactile vibrator with clothing even if it is attached to the skin of the human body, thereby reducing the psychological burden of the disabled and being free in appearance. It is a big help.

In particular, the most recognizable form in the configuration and form of the skin tactile vibrator is the belt type. The best recognition is that the skin tactile vibration elements are attached to the direction of the human body.

The development of the skin tactile sound recognizer enables the world's hearing-impaired people to live life and activities closer to normal people, to have better conditions and environments in their choice, efficiency, and in all aspects of their careers, and to be confident that they are not disabled. Participate in all social activities and family life with the help of self-development, fostering harmony among families, pioneering themselves, and becoming independent. Early education is possible in the early stages of hearing impairment or innate disability. In addition, it is believed that the education effect will be improved in the shorter time than the present, so that it can quickly escape the protection of parents and relatives, save the family, and greatly contribute to the development and education of oneself.

Claims (2)

Six microphones 11, 12, 13, 14, 15, and 16 collecting sound generated in all directions and amplifying circuits 31, 32, and 33 for amplifying and rectifying the sound signal input from each microphone. The amplified and rectified signals are inputted by the level circuits 51, 52, and 53, and the total processing frequency of the 10 hz signal is calculated in the order of the six microphones 11, 12, 13, 14, 15, and 16 in the processing unit 60. Vibration located in the direction of the microphone having the largest level value by comparing the level signals 51, 52, and 53 that output negative level signals with the period and the level signals received from the level circuits 51, 52, and 53 The output signal is output to the output terminal of the device to recognize the direction of sound, and the highest level value is output to the vibrating element of the specified level value. A signal equal to the stored negative signal by comparing and analyzing the negative signal received from the amplifying circuits 31, 32, and 33 In this case, by sending an output signal to the output terminal of the skin tactile vibration device 140, the arithmetic processing device 60 and each signal received from the arithmetic processing device are output from the skin tactile vibration device. In order to easily recognize the vibration with the highest frequency, the frequency conversion circuit 70 converts the frequency into a digital signal in the 1-500hz frequency band and the sound direction generated by contacting the skin with the digital signal. A skin tactile sound recognizer for a hearing impaired person, including a skin tactile vibrator (100) composed of 19 vibration elements capable of transmitting three kinds of signals by vibration at a position where sound amplitude and a ring tone are purified. The method of claim 1, wherein the main vibration source enters into the cylindrical coil 155 and the inner core 152 to generate an electric magnetic field and vibrates the skin tactile 170 of the human body by reciprocating action of repulsion and suction by the electric magnetic field. Cylindrical magnet 151 consisting of 1-5 mm to be applied, and coil holder 154 winding the coil to create an electric magnetic field are also fixed to the coil holder 154 to protect the entire vibrating element 156 and cylindrical magnet 151 In order to increase the repulsive force of the inside is treated with a silicone rubber and screwed to form a characteristic control bolt ((152) to adjust to obtain the strongest vibration according to the frequency characteristics constitute a single vibration element and also An auditory field comprising 19 vibrating elements to transmit the sound direction, the amplitude of the sound, and the call sound by vibration to the skin tactile 170. Citing skin tactile acoustic recognizers.