JP4439756B2 - Two-dimensional code speech apparatus and two-dimensional code speech method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a two-dimensional code speech apparatus and a two-dimensional code speech method, and in particular, two-dimensional code that processes information symbolized in a dot matrix type two-dimensional code and outputs it in various modes including voice output. The present invention relates to a code voice conversion apparatus, a two-dimensional code voice conversion method, a program, and a computer-readable recording medium.
[0002]
[Prior art]
Conventionally, as a symbol information device, for example, as described in Japanese Patent Application Laid-Open No. 7-214939, stored information is recorded in advance in a host device, and a one-dimensional barcode is given a role of a recording call function. A system for outputting stored information by voice and a portable terminal device for transmitting data read from a barcode by voice as described in JP-A-7-182379 have been known.
[0003]
Further, as described in Japanese Patent Laid-Open No. 7-175883, an apparatus and a method for reading a matrix type two-dimensional code and converting symbol data into text document data have been known.
[0004]
[Problems to be solved by the invention]
However, until a single device body reads and decodes a dot matrix type two-dimensional code, outputs voice from the built-in speaker via the regular voice synthesis processing unit, and outputs data for the Braille printer together. could not.
[0005]
The present invention has been made in view of the above circumstances, and its purpose is to read a dot matrix type two-dimensional code, process the read code information, and output it in a form usable from any of visual, auditory, and tactile senses. An object of the present invention is to provide a two-dimensional code sounding device, a two-dimensional code sounding method, a program, and a computer-readable recording medium.
[0006]
[Means for Solving the Problems]
The present invention aims to solve the above problems by the following means.
[0007]
That is, according to the first aspect of the present invention,
Storage means for storing a phoneme piece and a braille code conversion table;
A first two-dimensional symbolized and recorded first information including a text document and voice conversion control data for designating a sound quality element for reading out the text document for each one or a plurality of sentences Imaging means for imaging a code and outputting image data;
Decoding means for decoding the image data and outputting decoded data;
The intermediate data interposed between the decoded data processed from the text document and the speech waveform signal for reading the text document out of the decoded processed data after receiving the decoded processed data Phoneme code string data generating means for generating phoneme code string data as data;
In accordance with an audio switching control signal obtained by decoding audio conversion control data among the decoded data, a phoneme piece corresponding to the sound quality element designated in advance is extracted from the storage means and combined. A regular speech synthesis processing means for generating and outputting speech waveform data by performing speech synthesis processing on the phoneme code string data;
Braille translation means for processing the phoneme code string data by referring to a Braille code conversion table stored in the storage means to directly create Braille data;
Braille input instruction confirmation means for confirming whether Braille data output instruction data is input,
Voice output means for receiving the input of the voice waveform data and outputting the text document as voice;
When the braille data output instruction data is not input, the regular speech synthesis processing unit is caused to generate the speech waveform data and output the voice output unit, and the braille data output instruction data is input Output control means for causing the braille means to directly generate and output the braille data ;
Is provided.
[0009]
According to the second aspect of the present invention,
A process of preparing phonemes and a braille code conversion table in advance;
First information including a text document and first information including the voice conversion control data for designating the sound quality element for reading one or a plurality of sentences when the text document is read out is symbolized and recorded. A two-dimensional code imaging process of imaging a dimensional code and outputting first image data;
A decoding process for decoding the first image data and outputting decoded data;
Generate phoneme code string data that is intermediate data between the decoded data processed from the text document and the speech waveform signal for reading the text document out of the decoded data. Phoneme code string data generation process,
By processing a phoneme piece corresponding to the sound quality element designated in advance according to a control signal for voice switching obtained by decoding the control data for voice conversion among the data to be decoded, the phoneme A regular speech synthesis process for creating speech waveform data by speech synthesis of code string data;
By referring to the braille code conversion table, a braille translation process for directly processing the phoneme code string data and creating braille data;
Braille input instruction confirmation process for confirming whether Braille data output instruction data is input,
A voice output process of processing the voice waveform data and outputting the text document as voice;
When no braille data output instruction data is input, the speech waveform data is generated by the regular speech synthesis process, and when braille data output instruction data is input, the braille data is directly input by the braille process. Output control process to create and output ;
A two-dimensional code speech method comprising:
[0021]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, some embodiments of the present invention will be described with reference to the drawings.
[0022]
(1) One Embodiment of Two-dimensional Code Sound Generator FIG. 1 is a block diagram showing one embodiment of a two-dimensional code sound device according to the present invention. The feature of the two-dimensional code speech conversion apparatus of this embodiment is that it can output text data and Braille data in addition to decoding binary data encoded in a two-dimensional code and outputting it as a symbol. Information is made available in a variety of visual, auditory and tactile forms.
[0023]
The two-dimensional code sound converting apparatus 20 shown in FIG. 1 includes an operation unit 62, a microcontroller 30, an imaging unit 70, an image memory 80, a memory 28, a D / A converter and amplifier 82, a speaker 58, And an output port 84. The operation unit 62 is connected to the microcontroller 30, and the imaging unit 70 is connected to the microcontroller 30 and the image memory 80. The speaker 58 is connected to the D / A converter and amplifier 82. The microcontroller 30, the image memory 80, the memory 28, the D / A converter / amplifier 82, and the output port 84 are commonly connected to the bus BUS.
[0024]
The memory 28 stores various data such as a program for operating the two-dimensional code speech apparatus 20 and decoded two-dimensional code information, and also a work area for the microcontroller 30 to execute various data processing. Also provide. The memory 28 has a plurality of storage areas, and is configured to be capable of batch processing by storing a plurality of decoded two-dimensional code information. Further, the program includes a program for causing the microcontroller 30 to execute the two-dimensional code speech method according to the present invention. In addition, various types of data include a plurality of sound quality element data when a text document encoded in a two-dimensional code is output as voice, and a braille code conversion table that associates phoneme code string data with braille codes. It is. Here, the sound quality elements include, for example, the type of voice (male or female), the pitch (high, medium, and low), the volume (large, medium, and small).
[0025]
The operation unit 62 includes various switches (not shown) for operating the two-dimensional code sound generating device 20, so that the user can select various settings. These settings include two-dimensional code reading start, voice output interruption, restart, fast forward, etc., text data output request, Braille data output request, or a combination of these. The state of the switch of the operation unit 62 is read by the microcontroller 30.
[0026]
The microcontroller 30 operates the entire apparatus according to the program stored in the memory 28 and the operation of the operation unit 62 by the user. A more specific configuration of the microcontroller 30 will be described in detail later.
[0027]
The imaging unit 70 reads an image of a two-dimensional code according to a command from the microcontroller 30. A specific configuration of the imaging unit 70 will be described with reference to FIGS. 2 and 3. 2 is a side view of the imaging unit 70, and FIG. 3 is a top view when the imaging unit 70 is cut along the line AA in FIG. As shown in FIGS. 2 and 3, the imaging unit 70 includes an imaging device 72 such as a CCD camera and an illumination mechanism. The illumination mechanism of the imaging unit 70 includes a cylinder 74 having a diffuser plate 75 attached to the inner peripheral surface, a document insertion part 78 provided on the bottom surface of the cylinder 74, and a document insertion part 78 on each side surface of the cylinder 74. It includes a light source LS such as an LED that is attached to the vicinity region and illuminates the inside of the cylinder, and a light-bulb lens L2 that covers the light emitting portion of the light source LS. The document insertion portion 78 is provided with a slit 76. In this embodiment, the position where the two-dimensional code is printed on the document D is determined in advance, and when the document D is inserted into the slit 76 in a specific method, the portion of the two-dimensional code is the field of view of the image sensor 72. Designed to fit in. The surface of the kamaboko type lens L2 is subjected to frosted glass treatment, thereby preventing the image of the light source from being transferred directly to the document. Further, the illumination light is diffused by the diffusion plate 75 attached to the inner peripheral surface of the cylinder, so that the entire original is illuminated uniformly. Since the focus of the lens L1 of the image sensor 72 is adjusted in advance, the user can read the two-dimensional code without having to perform complicated focusing by simply inserting the document D into the slit 76.
[0028]
Returning to FIG. 1, the image memory 80 stores the image data of the two-dimensional code imaged by the imaging unit 70.
[0029]
The D / A converter and amplifier 82 receives digital voice waveform data generated by the regular voice synthesis processing of the microcontroller 30, converts it into an analog signal, amplifies it, and outputs it to the speaker 58. The speaker 58 receives this analog voice waveform signal and outputs voice. The D / A converter / amplifier 82 and the speaker 58 constitute an audio output means in this embodiment.
[0030]
The output port 84 is a port for connecting an external output device such as an image display display, a braille printer, or a character string display device.
[0031]
Here, a more specific configuration of the microcontroller 30 will be described with reference to FIG. As shown in the figure, the microcontroller 30 includes a CPU 34, an imaging control unit 36, a decoding unit 54, a phoneme code string data conversion unit 32, a regular speech synthesis processing unit 56, a Braille data creation unit 10, Output control unit 38. The imaging control unit 36, the decoding unit 54, the phoneme code string data conversion unit 32, the regular speech synthesis processing unit 56, the Braille data creation unit 10, and the output control unit 38 are commonly connected to the CPU 34 via the bus BUS.
[0032]
The imaging control unit 36 generates a signal for controlling the imaging unit 70 and supplies the signal to the imaging unit 70. The decoding unit 54 extracts the image data of the two-dimensional code imaged by the imaging unit 70 from the image memory 80 (see FIG. 1), restores the binary data symbolized into the two-dimensional code by a predetermined decoding process, and converts the text Data and various control signals described above are output. The phoneme code string data conversion unit 32 receives the text data output from the decoding unit 54 and generates and outputs phoneme code string data that is an intermediate language for speech synthesis. The regular speech synthesis processing unit 56 receives input of the phoneme code string data and the sound quality element attribute switching control signal, and selects a phoneme segment corresponding to the sound quality element selected in advance when creating the two-dimensional code according to the sound quality element attribute switching control signal. It is extracted from the memory 28 (see FIG. 1) and combined to generate and output digital speech waveform data. The Braille data creation unit 10 forms braille translation means in this embodiment, receives phoneme code string data and converts the phoneme code string data into Braille data while referring to the Braille code conversion table stored in the memory 28. Output. The output control unit 38 supplies the speech waveform data supplied from the regular speech synthesis processing unit 56 to the D / A converter and amplifier 82 and decodes it according to the output control signal read from a dedicated two-dimensional code card described later. The text data supplied from the unit 54 and the Braille data supplied from the Braille data creation unit 10 are output to the output port 84 (see FIG. 1) after being adapted to the data format of the external connected device. As data other than the speech waveform data, the output control unit 38 outputs only text data, only Braille data, or both text data and Braille data according to the setting selected by the user through the operation unit 62.
[0033]
Next, the operation of the two-dimensional code speech conversion apparatus 20 shown in FIG. 1 will be described with reference to the drawings as an embodiment of the two-dimensional code speech conversion method according to the present invention.
[0034]
(2) One Embodiment of Two-Dimensional Code Voice Conversion Method FIGS. 5 and 6 are flowcharts showing a schematic procedure of the two-dimensional code voice conversion method according to this embodiment. The feature of this embodiment is that a text document encoded in a two-dimensional code can be selectively output in three modes: visual, auditory, and tactile, and connection conditions for connecting an external device to the output port 84 The settings such as the data format to be output are pre-coded into a two-dimensional code in a dedicated card format, the dedicated two-dimensional code is decoded, and these settings are executed prior to processing such as speech synthesis.
[0035]
The two-dimensional code voice converting apparatus 20 shown in FIG. 1 is set to output only voice in an initial state immediately after power-on. First, the user selects a two-dimensional code (corresponding to a second two-dimensional code, hereinafter referred to as a setting two-dimensional code) of a dedicated card corresponding to a desired external device to be connected. In this two-dimensional code, the connection conditions for connecting the external device selected by the user to the output port 84 and the various output data of the two-dimensional code audio device 20 are converted into a data format according to the specifications of the external device. Output control data to be adapted is coded. Examples of external devices that can be connected include image display devices such as CRT (Cathode Ray Tube) and LCD (Liquid Crystal Display), character string display devices such as Braille printers and Braille displays. When the user inserts the setting two-dimensional code into the document insertion section 78 of the imaging section 70 (see FIG. 2) and presses a read start switch (not shown) of the operation section 62, the imaging section 70 captures the image of the microcontroller 30. In accordance with a control signal sent from the control unit 36, the LED light source LS is turned on, the image of the two-dimensional code of the dedicated card is read (step S1 in FIG. 5), and the image data is transferred and stored in the image memory 80. Next, the decoding unit 54 of the memory microcontroller 30 extracts the image data from the image memory 80 and performs a decoding process (step S2). More specifically, processing such as cutting out and positioning of a two-dimensional code is performed, and each data cell on the code is read and extracted as bit string data. As a result, the output control data is restored and supplied to the output control unit 38 and the output port 84 as an output control signal. As a result, the output control unit 38 is set so that the format of the data output from the two-dimensional code speech apparatus 20 is adapted to the specifications of the connected external device, and is adapted to the connection conditions of the selected external device. Connection conditions for the output port 84 are set (step S3). When the setting of the output control unit 38 and the output port 84 is completed, the two-dimensional code speech converting apparatus 20 performs speech synthesis processing on the phoneme code string data stored in the memory 28 in advance, and the speaker 58 informs that the setting is completed. Tell the user.
[0036]
Next, a procedure for converting the information of the two-dimensional code (first two-dimensional code) obtained by encoding the text document to be processed into voice and outputting it as Braille data and text data will be described with reference to FIG. To do.
[0037]
First, when the user sets a two-dimensional code of a text document in the imaging unit 70 and presses a read switch (not shown), the imaging unit 70 reads the image of the two-dimensional code and stores it in the image memory 80 (step). S4). The two-dimensional code to be read may be a conventionally used two-dimensional code, but in the present embodiment, a two-dimensional code created using dedicated software is used. This two-dimensional code is symbolized together with text document data and error correction codes, as well as various control data for voice conversion. In particular, the sound quality varies depending on one or more sentences in the text document. The sound quality element attribute switching control data is added to the text data of each sentence and symbolized so as to be voiced by the element. The decoding unit 54 of the microcontroller 30 extracts the read image data of the two-dimensional code from the image memory 80, reads out the data cells on the code after processing such as cutout and positioning, and extracts them as bit string data. Is restored (step S5), and error correction processing is performed using an error correction code (step S6).
[0038]
Next, the microcontroller 30 confirms whether or not there is a request for text data output during the user request read from the operation unit 62 (step S7). After removing the conversion control signal, the text data is output from the output port 84 (step S8). As a result, the text document is displayed on the external image display device connected to the output port 84, and the information encoded in the two-dimensional code is acquired through vision. If there is no request for text data output, the process proceeds to the next step S9.
[0039]
Next, the phoneme code string data conversion unit 32 of the microcontroller 30 converts the text data into phoneme code string data as a pre-process of the speech synthesis process (step S9). At this time, the sound quality element attribute switching control data symbolized in the two-dimensional code is added to the phoneme code string data in units of sentences. Next, the microcontroller 30 confirms whether or not there is a request for braille data output during the user's request (step S10). When there is no output request for braille data, the regular speech synthesis processing unit 56 performs speech synthesis processing on the phoneme code string data in accordance with the regular speech synthesis procedure (step S13), and converts it into speech waveform data for D / D. Supplied to A converter and amplifier 82. At this time, the regular speech synthesis processing unit 56 extracts from the memory 28 the sound quality element that matches the sound quality element selected at the time of creating the two-dimensional code, based on the sound quality element attribute switching control data added in document units. A speech synthesis process is performed by combining phonemes that conform to. The D / A converter and amplifier 82 D / A converts the supplied voice waveform data, amplifies it, and outputs the voice from the speaker 58 (step S14). As a result, the text document coded into the two-dimensional code is voiced with the sound quality element selected at the time of creating the two-dimensional code, so that the document is read out with a different kind of voice for each sentence.
[0040]
When there is a request to output Braille data (Step S10), the braille data creation unit 20 converts the phoneme code string data generated in Step S9 into Braille data (Step S11). This processing focuses on the fact that Braille is represented by phonetic characters corresponding to Kana characters in the case of Japanese or the like, and can be easily converted by referring to the Braille code conversion table. Also, by using the phoneme code string data, it is possible to ensure the consistency between the voice output and how to read kanji. It should be noted that for phonetic characters such as alphabetic characters that can directly correspond to Braille, it is not necessary to interpose phoneme string code data, and the text data is directly converted to Braille. The generated braille data is output from the output port 84 by the output control unit 38 in a data format suitable for the connected external device (step SS12).
[0041]
As described above, according to the present embodiment, a text document encoded in a two-dimensional code can be voiced and text data or braille data, or both can be selectively output. As a result, the data symbolized in the two-dimensional code can be obtained by hearing as sound information from the sound output speaker, and can be visually confirmed as character information by outputting text data to an external image display device. By outputting the data as Braille data to an external Braille printer or Braille display, tactile confirmation is possible. As described above, the above-described two-dimensional code voice converting apparatus is provided as multimedia that can be used in various ways across visual, auditory, and tactile sensations.
[0042]
(3) Program and Recording Medium A series of procedures of the above-described two-dimensional code speech method may be incorporated into a program and read by a computer for execution. As a result, the two-dimensional code speech method according to the present invention can be realized using a general-purpose computer capable of image processing. Further, the above-described two-dimensional code voice conversion method may be stored in a recording medium such as a flexible disk or a CD-ROM as a program for causing a computer to execute the program, and may be read and executed by a computer capable of image processing. The recording medium is not limited to a portable medium such as a magnetic disk or an optical disk, but may be a fixed recording medium such as a hard disk device or a memory. Further, a program incorporating a series of procedures of the above-described two-dimensional code speech method may be distributed via a communication line (including wireless communication) such as the Internet. Further, a program incorporating a series of procedures of the above-described two-dimensional code sounding method is encrypted, modulated, or compressed, and is transmitted to a recording medium via a wired line or a wireless line such as the Internet. It can be stored and distributed.
[0043]
Although the embodiments of the present invention have been described above, the present invention is not limited to the above-described embodiments, and can be applied with various modifications within the technical scope. In the above-described embodiment, the image pickup unit 70 including the image pickup device 72 that acquires the image data of the two-dimensional code and the illumination mechanism, the regular speech synthesis processing unit 56, the speaker 58, the text document data use, and the braille printer use. Although a mode in which all the data output ports 84 are built in has been described, for example, a mode in which image data acquired by an external two-dimensional code reader is taken into the image memory may be used. Further, although the two-dimensional code voice converting apparatus capable of outputting text data and braille data in addition to voice output has been described, the present invention is not limited to this, and only voice output and braille data may be output. Further, although the image display device, the Braille printer, and the Braille display are illustrated as external devices connected to the output port 84, the present invention is not limited thereto. For example, a communication device such as a mobile phone by a wired line or a wireless line via a modem or the like. You may connect to.
[0044]
【The invention's effect】
As described above in detail, the present invention has the following effects.
[0045]
That is, according to the first aspect of the present invention, there is provided a two-dimensional code voice converting apparatus that makes it possible to use information encoded in a two-dimensional code in a variety of visual, auditory, and tactile modes.
[0046]
Further, according to the second aspect of the present invention, there is provided a two-dimensional code voice conversion method that makes it possible to use information of a two-dimensional code in various forms of visual, auditory, and tactile sensations.
[0047]
Moreover, according to the 3rd and 4th aspect of this invention, the two-dimensional code speech-production method which has the effect mentioned above is realizable using a general purpose computer.
[Brief description of the drawings]
FIG. 1 is a block diagram showing an embodiment of a two-dimensional code speech converting apparatus according to the present invention.
FIG. 2 is a side view of an imaging unit provided in the two-dimensional code sound converting apparatus shown in FIG.
3 is a top view of the imaging unit shown in FIG. 2 when cut along the line AA in FIG. 2;
4 is a block diagram showing a specific configuration of a microcontroller included in the two-dimensional code speech converting apparatus shown in FIG.
FIG. 5 is a flowchart showing a schematic procedure of an embodiment of the two-dimensional code speech method according to the present invention.
FIG. 6 is a flowchart showing a schematic procedure of an embodiment of the two-dimensional code speech method according to the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 Braille data creation part 20 Two-dimensional code speech apparatus 28 Memory 30 Microcontroller 32 Phoneme code string data conversion part 34 CPU
36 imaging control unit 38 output control unit 54 decoding unit 56 regular speech synthesis processing unit 58 speaker 62 operation unit 70 imaging unit 72 imaging element 74 cylinder 75 diffusion plate 76 slit 80 image memory 82 D / A converter and amplifier 84 output port D second Document L1 lens L2 Kamaboko type lens LS on which dimension code is printed

Claims (8)

Storage means for storing a phoneme piece and a braille code conversion table;
A first two-dimensional symbolized and recorded first information including a text document and voice conversion control data for designating a sound quality element for reading out the text document for each one or a plurality of sentences Imaging means for imaging a code and outputting image data;
Decoding means for decoding the image data and outputting decoded data;
The intermediate data interposed between the decoded data processed from the text document and the speech waveform signal for reading the text document out of the decoded processed data after receiving the decoded processed data Phoneme code string data generating means for generating phoneme code string data as data;
In accordance with an audio switching control signal obtained by decoding audio conversion control data among the decoded data, a phoneme piece corresponding to the sound quality element designated in advance is extracted from the storage means and combined. A regular speech synthesis processing means for generating and outputting speech waveform data by performing speech synthesis processing on the phoneme code string data;
Braille translation means for processing the phoneme code string data by referring to a Braille code conversion table stored in the storage means to directly create Braille data;
Braille input instruction confirmation means for confirming whether Braille data output instruction data is input,
Voice output means for receiving the input of the voice waveform data and outputting the text document as voice;
When the braille data output instruction data is not input, the regular speech synthesis processing unit is caused to generate the speech waveform data and output the voice output unit, and the braille data output instruction data is input Output control means for causing the braille means to directly generate and output the braille data ;
A two-dimensional code speech apparatus comprising: The imaging means includes
A document insertion section provided with a slit into which a document on which a two-dimensional code is formed can be inserted;
An illumination mechanism having a light source disposed at a position close to the document insertion portion and a light diffusion lens disposed to cover the light source;
2. The two-dimensional code sound producing apparatus according to claim 1, further comprising: an image pickup device that is provided at a position facing the document insertion portion of the illumination mechanism and picks up the two-dimensional code. The text data creation means for creating text data for displaying the text document on an external image display device from the data to be decoded is further provided. two-dimensional code voice device of. An output port for outputting data to an external device is further provided.
The imaging means includes a connection condition for connecting an external device selected by a user to the output port, and output control for adapting data output from the output port to a data format according to specifications of the external device. Image data of the second two-dimensional code obtained by capturing an image of the second two-dimensional code in which the second information including the connection control data in which the data is encoded is encoded, and outputting the image data of the second two-dimensional code,
The decoding means decodes the image data of the second two-dimensional code and outputs an output control signal;
The output control means receives the output control signal and changes the data format of the speech waveform data, the braille data, or the text data based on the output control signal. The two-dimensional code voice converting apparatus according to any one of the above. 5. The two-dimensional code speech conversion apparatus according to claim 1 , wherein the storage unit includes a plurality of storage areas for storing the data to be decoded . The surface of the light diffusing lens is processed so as to form polished glass, and the illumination mechanism is provided to extend from at least the light source to the mounting position of the image sensor, and transmits light from the light source. The two-dimensional code according to any one of claims 1 to 5, further comprising a cylindrical irregular reflection member provided on the inner peripheral surface with an irregular reflection material for uniformly irradiating the opening. An audio device. A process of preparing phonemes and a braille code conversion table in advance;
First information including a text document and first information including the voice conversion control data for designating the sound quality element for reading one or a plurality of sentences when the text document is read out is symbolized and recorded. A two-dimensional code imaging process of imaging a dimensional code and outputting first image data;
A decoding process for decoding the first image data and outputting decoded data;
Generate phoneme code string data that is intermediate data between the decoded data processed from the text document and the speech waveform signal for reading the text document out of the decoded data. Phoneme code string data generation process,
By processing a phoneme piece corresponding to the sound quality element designated in advance according to a control signal for voice switching obtained by decoding the control data for voice conversion among the data to be decoded, the phoneme A regular speech synthesis process for creating speech waveform data by speech synthesis of code string data;
By referring to the braille code conversion table, a braille translation process for directly processing the phoneme code string data and creating braille data;
Braille input instruction confirmation process for confirming whether Braille data output instruction data is input,
A voice output process of processing the voice waveform data and outputting the text document as voice;
When no braille data output instruction data is input, the speech waveform data is generated by the regular speech synthesis process, and when braille data output instruction data is input, the braille data is directly input by the braille process. Output control process to create and output;
A two-dimensional code speech method comprising: 8. The two-dimensional code speech method according to claim 7, further comprising a text data creation step of creating text data for displaying the text document on the image display device from the decoded data .

Images