JP4269499B2 - Portable information transmission terminal device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a portable information transmission terminal device for transmitting digitized image and audio information to an information device at a remote location.
[0002]
[Prior art]
At present, mobile communication is gorgeous due to the popularization of mobile phones (PDC: Portable Digital Cellular: registered trademark) and PHS (Personal Handy-Phone System: registered trademark). Under such circumstances, using these communication media, image data and audio data are compressed and transmitted to information processing equipment (such as a personal computer) at a remote location, and portable information transmission is used to report on-site conditions. A terminal device is known.
[0003]
The main transmission information of this portable information transmission terminal device is image data and audio data, and it is common to perform a function of image processing and transmission of on-site video and information exchange between the site and voice. FIG. 7 shows how the portable information transmission terminal device is used.
[0004]
In FIG. 7, the main body of the portable information transmission terminal device for compressing and transmitting the input image information and audio information 100, and the management station side for receiving and processing the transmitted image information 200 This is the main body of the information processing device (such as a personal computer).
[0005]
In the figure, 301 is a camera device (video camera, digital still camera, etc.) for inputting image information, 302 is a microphone for inputting audio information, and 303 is sent from the management station side. This is a speaker for outputting the received voice information as voice. Here, the microphone 302 and the speaker 303 are taken as an example of a headset that can be attached to the head.
[0006]
In the figure, reference numeral 400 denotes a communication network (PDC, PHS, analog telephone, LAN, etc.) which is an information transmission medium. Reference numeral 501 denotes an image output device (CRT, LCD, video monitor, etc.) for displaying received image information, 502 denotes a microphone for inputting sound on the management station side, and 503 is sent from the terminal side. It is a speaker for reproducing sound. Also in this case, the microphone 502 and the speaker 503 are taken as an example of a headset that can be attached to the head as a unit.
[0007]
In FIG. 7, an operator who has come to a remote location inputs image information from 301 cameras in a posture as shown in the figure, and transmits the compressed image information to 100 portable remote information transmission terminals. Since this information is sent to a remote location by 400 transmission media (communication network), the management station receives this information via the communication network, decompresses it by the information processing apparatus 200, and restores the original image information. And this information is displayed on the display device 501.
[0008]
Furthermore, in such an apparatus, voice information can be exchanged between the site and the management station. In this case, this function is realized by performing bidirectional audio compression and decompression processing between 100 portable information transmission terminals and 200 information processing apparatuses.
[0009]
Now, examples of such a portable information transmission terminal device (100) include those shown in FIG. 8 and FIG.
[0010]
In both figures, 100a is an operation panel unit for collecting switches and displays for operating the apparatus, 100b is an external interface panel unit for collecting electrical connections (connectors) between the apparatus and external devices, and 100c is an external unit. Protective cover for protecting the interface when the interface is not used, 100d is a belt hook for mounting the apparatus on a belt, and 100e is a strap hook for holding the strap when the apparatus is used on a shoulder. It is.
[0011]
As described above, this device is a terminal device for transmitting information from a remote location via a radio, etc., and particularly needs to be used for maintenance inspection of facilities and equipment, situation monitoring of construction and disaster sites, etc. Are normally used outdoors.
[0012]
[Problems to be solved by the invention]
There are various types of products for the portable information transmission terminal as described above. In general, when a general-purpose mobile personal computer is used as it is as a terminal, a dedicated terminal such as the apparatus of FIG. There is a case to do.
[0013]
In the former case, the LCD panel and keyboard for input etc. are originally attached to the device, so the screen for setting input is displayed by the software of the device, and keyboard operation etc. while watching this screen in setting mode, The target information can be given to the device. Further, since this LCD panel can be used for displaying the status of the apparatus, it can be used for notifying abnormal contents when an abnormality occurs and for monitoring the execution status of the apparatus even during normal operation.
[0014]
However, a general-purpose mobile personal computer has to repeatedly perform various operation processes in order to perform a specific process, and is not suitable for a dedicated process that requires quickness in the field. That is, the operation is complicated and the terminal is not suitable for the site.
[0015]
On the other hand, in the case of the latter dedicated terminal device, it is ideal that only the minimum operation buttons necessary for normal operation and the LED display function are provided. The problem with dedicated terminal devices is that they are small, low in price, and low in power consumption (long-time operation with batteries). In addition to this, the ease of operation, The point called robustness is required.
[0016]
Therefore, it is common not to equip the LCD panel like the former. As a result, in this type of device having only a small number of LED displays, it is necessary to greatly simplify the function of displaying the status of the device, which can be simplified by using an LCD panel.
[0017]
Now, in view of such needs, the applicant of the present application uses a method for displaying a state of these buttons and a state for setting a destination in a dedicated terminal device in which buttons and display functions are reduced to the minimum necessary (a voice message is displayed). Have already been proposed (Japanese Patent Application No. 2000-118893). As another method, a method of stably turning on / off the apparatus with one power button (operating when pressed for n seconds or more) has already been proposed (Japanese Patent Application No. 2000-159723).
[0018]
Here, consider an example of a portable information transmission terminal that realizes the above-mentioned proposal. FIG. 10 shows an implementation example of the operation panel 100a of the current portable information transmission terminal (FIG. 8), and FIG. 11 shows an implementation circuit example thereof. FIG. 12 shows an example of a general operation processing flow of this apparatus.
[0019]
In FIG. 10, 100a is the entire operation panel, 101 is a power button, 102 is a shutter button, and 103 is a call button. The normal usage is to turn the power button on / off, the shutter button to capture and transmit a still image, and the call button to be pressed during the call period. Further, 105a to 105c are LEDs for operation display (power supply, still image, call), and 106 and 107 are LEDs for status display such as error display and charging display. As can be seen from the figure, there are no dedicated buttons for setting destinations, dedicated LEDs for setting display, or the like on this operation panel.
[0020]
A circuit for realizing the operation panel unit is as shown in FIG. 11. 110 is a CPU for controlling the entire information transmission terminal device, 111 is a local bus of the CPU, and 110a is a read command. A signal (RD signal) and 110b are a write command signal (WR signal). Reference numeral 112 denotes a DI circuit for reading the switch state, and 113 denotes a DO circuit for turning on / off the display LED. Furthermore, 101 is a power button on the operation panel in FIG. 10, 102 is a shutter button, 103 is a call button, and 105a to 105c are operation display LEDs.
[0021]
Here, the flow of processing will be described with reference to FIG. In the figure, an ellipse indicates a processing phase, and a thick arrow indicates a state transition.
[0022]
(1) Start from here with the power off. In this example, only the function of scanning the power button is operating even in this state. When the power button is pressed for n seconds or more, the apparatus is turned on and the process proceeds to initialization processing.
[0023]
(2) Perform device initialization processing.
[0024]
(3) When the initialization process is completed, a connection destination designation process is performed. Here, a connection destination is selected from a plurality of destination telephone numbers stored in advance.
[0025]
(4) A connection process (network line connection process) with the destination specified in (3) above is performed.
[0026]
(5) After the connection process with the destination is completed, the apparatus automatically enters the moving picture transmission state. The moving image data is compressed and continuously transferred to the destination management station. In this state, the power button, the shutter button, and the call button are scanned.
[0027]
(6) When the shutter button is clicked in the moving picture transmission state of (5) above, the apparatus reads the image information of the still image, performs compression processing, and transfers the still image data to the destination management station side. After the transfer of the still image data, the moving image transmission state (5) is automatically restored. Note that the moving image or still image to be transferred is distinguished by the still image / moving image setting bit provided in the header portion of the image transmission format.
[0028]
(7) When the call button is pressed in the moving picture transmission state of (5) above, the apparatus enters the call state. In this state, the apparatus captures audio information, performs compression processing, and transfers the audio data to the destination management station. When the call button is released, the voice transmission state is terminated and the state (5) is restored.
[0029]
(8) In the moving picture transmission state of (5) above, when the power button is pressed for n seconds or longer, the apparatus disconnects the connected network (line), turns off the power, and returns to the initial state.
[0030]
With such a function, it is possible to realize basic operations necessary as a device that satisfies the problems of small size, low price, low power consumption, simple operability, and robustness. However, as described above, since this apparatus does not have a character display function such as an LCD display, the display by the LED display is the limit of the state notification.
[0031]
However, considering the fact that the device has higher maintainability, there are many situations that require actual status display in addition to device settings, such as when an abnormality occurs or during normal operation. .
[0032]
For example, when an abnormality occurs, it is possible to know an approximate abnormality occurrence status from the blinking states of a plurality of LEDs, but it is required to inform the operator of more detailed status and information on a recovery method.
[0033]
In addition, even during normal operation, it is required to convey the state of the device in detail and accurately, but it is difficult to achieve this with only a simple blinking LED, and the operator can grasp the state intuitively. I could not.
[0034]
An object of the present invention is to provide a portable information transmission terminal device and information communication that allow an operator to accurately know the operation status of the device and the operation / recovery processing method at the time of normal operation or when an abnormality occurs while having a dedicated transmission terminal device configuration. To provide a system.
[0035]
[Means for Solving the Problems]
The present invention utilizes a dedicated transmission terminal device, and can output the occurrence of an abnormality of the device and a normal operation state as a voice message. The normal operation state voice message output is a low power consumption type by one power button. The apparatus power on / off switch circuit is used to notify the operator of the operation status of the apparatus in detail and accurately, and has the following configuration.
[0036]
  Image / audio information processing means for transmitting input image information / audio information to a remote information processing apparatus via a communication medium, and audio for outputting audio information received from the information processing apparatus via the communication medium Information processing means;Information transmission processing meansFor device on / offPower button switchAnd for the input / output operation of the informationShutter button switch or call button switchAnd an on / off indicator for displaying the operating state of the device,
  The information transmission processing means includes
  In a state in which the power of the device is turned off, the power is turned on by pressing the power button switch, and the device is initialized.
  After the initialization process is completed, when the shutter button switch or call button switch is clicked, the line connection process is performed to the connection destination, or when a predetermined connection destination is designated, the line connection to the designated destination is made. The processing phase,
  After the connection process with the destination is completed, a phase in which moving image data is subjected to compression processing and continuously transferred to the destination management station side;
  In the moving image transmission state, the image information of the still image is read by clicking the shutter button switch, the compression processing is performed, the still image data is transferred to the destination management station side, and the moving image transmission state is restored. Phase,
In the video transmission state, when the call button switch is pressed, the audio information is captured, compression processing is performed, the audio data is transferred to the destination management station side, and the voice transmission state is terminated when the call button switch is released. Phase to return to the moving image transmission state,
  In the moving image transmission state, when the power button switch is pressed, the network (line) being connected is disconnected, the power is turned off and the phase is returned to the initial state, and information transmission processing is performed.In a portable information transmission terminal device,
  The apparatus main body is
  The state of occurrence of an abnormality in the device or a recovery method for the occurrence of the abnormalitySaid phaseA message storage memory circuit for storing voice message data corresponding to
  Voice message notification processing means for extracting corresponding voice message data from the memory circuit based on the phase in which the abnormality has occurred when detecting the occurrence of an abnormality in the apparatus, and obtaining a voice output through the voice information processing means It is characterized by comprising.
[0037]
  The memory circuit stores voice message data corresponding to the normal operation state of the apparatus, and the voice message notification processing means is operated by an operator.By operating the switch for each phaseThe voice message data is extracted from the memory circuit based on the operation state of the apparatus at the time when the status notification request is issued, and a voice output is obtained through the voice information processing means.
[0038]
  In addition, the apparatus main body isThe power button switchAnd a means for switching between the power on / off operation and the state notification request according to the difference in operation time.
[0040]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 is a circuit configuration diagram of a portable information transmission terminal device showing an embodiment of the present invention. In the figure, reference numeral 100 denotes an entire portable information transmission terminal device for compressing and transmitting input image information and audio information, and reference numeral 400 denotes a communication network (PDC, PHS, analog telephone) as an information transmission medium. , LAN, etc.), 301 is a camera device for inputting image information (video camera, digital still camera, etc.), 302 is a microphone for inputting audio information, and 303 is sent from the management station side. This is a speaker for outputting the sound information as sound.
[0041]
Further, in the figure, reference numeral 130 denotes the information device side when the image / sound information from this apparatus is sent to the management station side via the communication network, and the information sent from the management station side is received from the communication network. It is a communication interface circuit used when importing into the network. In addition, 110 performs management control of the entire apparatus, and compresses image and audio information that has been captured and digitized by the apparatus, and controls to expand audio information received from the communication unit. The CPU is a program memory (ROM) 120 that stores a program therefor, and 121 is a work memory (RAM) for program processing.
[0042]
In the figure, reference numeral 140 denotes an image input digitization processing circuit for digitizing and inputting an image signal (video signal or the like) given from an image input device such as a CCD camera. In the digitization process, the synchronization signal, which is a synchronization signal for the display device, is removed from the image signal, separated into a luminance signal and a color signal, which are signals related to the image, and each signal is converted into a digital value.
[0043]
Reference numeral 141 denotes an image data input buffer / memory circuit for temporarily storing the input raw image data.
[0044]
On the other hand, in the figure, reference numeral 150 denotes an audio input digitization processing circuit for digitizing and acquiring an audio signal received from the 302 microphone, and 151 denotes an audio data input buffer for temporarily storing the input audio data. It is a memory circuit. Further, 160 is an audio data output buffer function for temporarily storing the decompressed and restored audio in order to reproduce and output, and 161 is an audio output for outputting the audio from an actual speaker or the like. It is an analog conversion processing circuit.
[0045]
In the above apparatus configuration, image information fetched from the 301 image input apparatus is digitized by the 140 image input digitizing circuit, stored in the 141 image data input buffer memory, and compressed by the 110 control CPU. Then, the data is transmitted to 400 communication networks via 130 communication interfaces.
[0046]
The voice information taken from the 302 microphone is digitized by the 150 voice input digitizing circuit, stored in the voice data input buffer memory 151, compressed by the control CPU 110, and communicated 130. The data is transmitted to 400 communication networks via the interface.
[0047]
Furthermore, the audio information received from the communication network of 400 through the communication interface of 130 is decompressed by the control CPU of 110, temporarily stored in the audio data output buffer memory of 160, and sequentially output of audio of 161. The signal is supplied to the analog conversion circuit and output to the speaker 303 to be converted into sound.
[0048]
The configuration described above is a general portable information transmission terminal portion that does not have a voice message playback function. Further, in the case of the present embodiment, there are 122 message storage memory circuits (FlashROM, etc.), and a plurality of compressed voice message information is stored in this memory. A device having such a circuit configuration is used, and when an abnormality occurs, a message is reproduced to notify the operator of the status and recovery processing method as a voice message. This example will be described in detail below.
[0049]
(1) Notification process by voice message when an abnormality occurs
In the notification process, when an abnormality that can be determined by the processor of the main circuit occurs, the state of the abnormality occurrence and a recovery method are notified to the operator using a voice message. This notification process is shown in FIG.
[0050]
In this figure, the basic processing flow in the normal state is the same as the operation processing diagram (flow diagram) of FIG. In FIG. 2, the flow of processing when an error occurs is added to the processing phase in which the occurrence of an abnormality is considered. Processing performed by branching from each phase according to an error is an “error announcement” processing (process). At the time of transition to this processing, an argument indicating the phase in which the error has occurred is held.
[0051]
In the error announcement process, the corresponding voice message data is read from the message storage memory circuit 122 in FIG. 1 in which various voice messages are previously stored in a table format based on the argument indicating the phase in which the error has occurred. To extract.
[0052]
It is assumed that the voice message data is compressed by the same algorithm as the data exchanged between the information transmission terminal and the remote host computer (200 parts in FIG. 7) as voice data. In this error / announcement process, the data string of the voice message is poured into a normal voice data decompression / output processing routine. That is, the error announcement sound generated at the time of the error may use the sound data decompression / output process used in the normal operation, and does not require an independent dedicated process.
[0053]
FIG. 3 shows an example of a voice message table stored in advance in the message storage memory circuit 122 in FIG.
[0054]
For example, it is assumed that an abnormality has occurred during phase 2 (initialization process) in FIG. In this case, the argument corresponding to the message number 1 is held and the process proceeds to the “error announcement” process. In the error announcement process, the message table on the message storage memory circuit shown in FIG. The message data of message number 1 is extracted and handed over to the "sound data decompression / output" process. "An error occurred during initialization. Restart the power and restart the process from the beginning." Please play "voice message. The same applies when an abnormality occurs in other phases.
[0055]
(2) Device status (phase) notification processing during normal operation
First, FIG. 4 shows an example of a main power on / off circuit using a single power button that has been proposed.
[0056]
In the figure, reference numeral 1000 denotes a circuit that is a main circuit of the apparatus and includes a processor that performs main control. Reference numeral 1001 denotes a DC / DC converter circuit for converting a primary DC power source “DCIN” supplied from a battery to a voltage “Vcc” of a secondary DC power source required by the main circuit. Can be done with a “SHUT” signal. Reference numeral 1002 denotes a power supply monitoring circuit which monitors the main power supply Vcc, and gives a “DCLOW” signal to the main circuit when the voltage is lower than a predetermined potential. The main circuit uses this as a reset signal for initialization. Further, in the figure, reference numeral 1100 denotes a battery portion that serves as a power source for the entire apparatus. Reference numeral 1101 denotes a power button (switch), which is a tact switch (two poles).
[0057]
Further, in the figure, reference numeral 1300 denotes a CMOS standard logic IC having a high power supply voltage, and here, only two NAND circuits are used. Reference numerals 1301 to 1305 denote resistance elements (R1 to R5), 1401 and 1402 denote capacitors (C1 and C2), and 1501 and 1502 denote transistors or FETs (TR1 and TR2).
[0058]
In the figure, A to D, S, DCIN, Vcc, T1, and T2 are signal names given to respective signals in the circuit for easy explanation.
[0059]
Here, the integration circuit by R5 and C2 selects the time constant (R1 + R5) · C2 with R1 added to be smaller than the time constant R2 · C1 by R2 and C1.
[0060]
A main power on / off circuit with such a circuit is provided. When the power is turned off, the power button operation is notified to the processor of the main circuit by interruption, and appropriate noise removal is performed, so that a short time power button operation (incorrect operation) Incorrect ON / OFF operation of the power supply circuit due to noisy ON operation due to contact or incorrect contact) can be prevented.
[0061]
In the present invention, the signal assertion time due to H / W-like noise removed by this circuit is set to m seconds (m is a numerical value), and the power switch misoperation prevention time due to S / W processing is set to n seconds (n is a numerical value). Shall be set. When such a circuit is provided, it is possible to give another operation mode to the power button.
[0062]
That is, when the power button pressing time is longer than the assertion time m seconds due to noise and less than n seconds, and when such power button pressing operation is performed during the operation of the apparatus, at that time The operator can be notified of the operating state of the apparatus using a voice message. This example will be described below.
[0063]
In normal operation, the voice playback function is basically used for a downlink voice call from the host, and the apparatus automatically generates voice except for the “error announcement” when the above-mentioned abnormality occurs. There are pros and cons for voice guidance. In other words, if careful guidance is given, operation guidance to the operator is possible without any manual. However, there are cases where an operator who has used the device has a sense of “persistent”, “annoyed”, and “noisy” in the guidance uttered every time. In other words, it can be concluded that “guidance and status display are not required except when necessary”.
[0064]
In the present embodiment, the apparatus does not continuously perform the state notification voice message “state announcement” in each phase, but only when the operator wants to know the state during normal operation.
[0065]
Here, an operation that triggers a voice message operation is performed by an operator. However, if a dedicated status notification command button (switch) is provided, an interrupt can be physically generated and a “status announcement” process can be performed. However, providing a new button (switch) is contrary to the original device goals (small size, low price, low power consumption, simple operation, and robustness).
[0066]
Therefore, here, among the three operation buttons provided on this device, the “power button (switch)” used only for the power on / off operation is also used as a button (switch) for status notification command. To do.
[0067]
The power button (switch) uses the circuit shown in FIG. 4, and a normal power on / off operation is performed for a short time by performing H / W and S / W processing so as to be performed by continuous pressing for n seconds or more. Different operating modes can be provided for presses longer than the typical assertion time of m seconds and less than n seconds. This may be used for the status notification command. The pressing time of the normal button (switch) is m << n. m does not need to be a large value for noise removal. That is, if n is relatively large, this operation can be realized by a general click (continuous press / release operation).
[0068]
In other words, while the device is turned on and in the normal operation (service) state, the CPU of the main circuit is interrupted by pressing the power button, and continuous pressing (clicking) for more than m seconds and less than n seconds. If it is performed, this may be regarded as a state notification command from the operator and the “state announcement” process may be executed.
[0069]
An example of operation processing when this function is applied to this apparatus is shown in FIG. In the drawing, an operation written as “Power SW click” means “Pressing the power button for m seconds or more and less than n seconds”.
[0070]
As shown in the figure, by clicking a power button (switch) in each phase, a message number corresponding to that phase is held as an argument, and a “state announcement” process is executed. After execution, the original processing operation is restored. The message information used for the “state announcement” process is also stored in the message storage memory circuit 122 in FIG. 1 in the same manner as the error announcement process. FIG. 6 shows an example of a message table for status announcement placed on this memory circuit.
[0071]
For example, when the power button is clicked in phase 3, the message number 12 is held as an argument, the “state announcement” process is performed, and the message “waiting for connection destination selection” is reproduced and output. The The same applies to the occurrence of a status notification command in other phases. However, when a press talk in phase 7 occurs, the operator actively presses the call button, so that the state notification command is not operated redundantly and is not shown in the figure.
[0072]
【The invention's effect】
As described above, according to the present invention, it is possible to provide means for the operator to accurately know the operation status of the apparatus and the operation / recovery processing method at the time of normal operation or when an abnormality occurs in the dedicated transmission terminal apparatus.
[0073]
For example, when an abnormality occurs, the operator can know only the approximate abnormality occurrence state by the conventional status notification of only the LED, but it is possible to know the detailed occurrence state and the recovery method by a voice message. become.
[0074]
Further, even during normal operation, it was difficult to convey the state of the apparatus in detail and accurately only by the blinking state of a simple LED, but in the present invention, the operator can easily know the state in detail. become. In particular, in the present invention, a dedicated button (switch) is not newly provided in response to the request for the status notification, and a power button (switch) that has been used only for power on / off operation in a normal operation state. This state announcement function can be realized by adding another operation mode to.
[Brief description of the drawings]
FIG. 1 is a circuit configuration of a portable information transmission terminal device showing an embodiment of the present invention.
FIG. 2 is a voice message notification processing procedure when an abnormal state occurs in the embodiment.
FIG. 3 shows an example of an error announcement message table in the embodiment.
FIG. 4 shows an example of a low power consumption type main power on / off control circuit.
FIG. 5 is a voice message notification processing procedure at the time of status notification in the embodiment.
FIG. 6 shows an example of a status announcement message table in the embodiment.
FIG. 7 is a usage diagram of a conventional remote information transmission system.
FIG. 8 is an overview and a control panel unit of a conventional portable information transmission terminal device.
FIG. 9 shows an external interface panel unit of a conventional portable information transmission terminal device.
FIG. 10 shows an example of an operation panel of a conventional portable information transmission terminal device.
FIG. 11 is a circuit example of a conventional operation panel unit.
FIG. 12 shows a processing procedure of a conventional portable information transmission terminal device.
[Explanation of symbols]
100 ... Main unit
100a ... Operation panel
101 ... Power button
102 ... Shutter button
103 ... Call button
105 ... Status display LED
106: Error display LED
107 ... Charging indicator LED
110 ... Control CPU
122 ... Message storage memory

Claims (3)

Image / audio information processing means for transmitting input image information / audio information to a remote information processing apparatus via a communication medium, and audio for outputting audio information received from the information processing apparatus via the communication medium Information processing means , apparatus main body having information transmission processing means , power button switch for turning on / off the apparatus power, shutter button switch or call button switch for input / output operation of the information, and operation of the apparatus With an on / off indicator for status display,
The information transmission processing means includes
In a state in which the power of the device is turned off, the power is turned on by pressing the power button switch, and the device is initialized.
After the initialization process is completed, when the shutter button switch or call button switch is clicked, the line connection process is performed to the connection destination, or when a predetermined connection destination is designated, the line connection to the designated destination is made. The processing phase,
After the connection process with the destination is completed, a phase in which moving image data is subjected to compression processing and continuously transferred to the destination management station side;
In the moving image transmission state, the image information of the still image is read by clicking the shutter button switch, the compression processing is performed, the still image data is transferred to the destination management station side, and the moving image transmission state is restored. Phase,
In the video transmission state, when the call button switch is pressed, the audio information is captured, compression processing is performed, the audio data is transferred to the destination management station side, and the voice transmission state is terminated when the call button switch is released. Phase to return to the moving image transmission state,
In the moving image transmission state, when the power button switch is pressed, the portable information transmission terminal device performs the information transmission processing by disconnecting the connected network (line) and turning off the power to return to the initial state. In
The device body is
A message storage memory circuit for storing voice message data in which a state of occurrence of an abnormality of a device or a recovery method for the occurrence of abnormality is associated with the phase of occurrence of the abnormality;
Voice message notification processing means for extracting corresponding voice message data from the memory circuit based on the phase in which the abnormality has occurred when detecting the occurrence of an abnormality in the apparatus, and obtaining a voice output through the voice information processing means And a portable information transmission terminal device. The memory circuit stores voice message data corresponding to a normal operation state of the apparatus, and the voice message notification processing means is a point in time when an operator issues a status notification request by operating the switch for each phase. 2. The portable information according to claim 1, wherein voice message data corresponding to said memory circuit is extracted from said memory circuit operation state, and a voice output is obtained through said voice information processing means. Transmission terminal device. The portable information transmission terminal device according to claim 2, wherein the device main body includes means for switching between a power on / off operation and the state notification request according to a difference in operation time of the power button switch .

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