JP6565378B2 - Electronic information processing system and electronic information processing method - Google Patents

Description

  The present invention relates to an electronic information processing system and an electronic information processing method.

  If the display screen of a liquid crystal display or the like is reduced or deleted for downsizing and cost reduction, the amount of information that can be expressed decreases and it becomes difficult for the user to grasp the information. However, a technique for expressing a message by blinking a plurality of operation buttons is already known (see, for example, Patent Document 1).

  Patent Document 1 discloses a technique in which a character is written by blinking a plurality of operation buttons, and a user grasps information for characters and symbols that are normally used by humans for the purpose of expressing various information. .

  However, the conventional technology has a problem that various information cannot be expressed if there is no operation button on the electronic device or if there is not a sufficient number to display a message.

  Accordingly, an object of the present invention is to convey various information about an electronic device without operation buttons to a user.

In order to solve the above-mentioned problem, the invention described in claim 1 is an electronic device having a plurality of light emitting means that are turned on or blinking when an error occurs, and a determining means that determines a combination of lighting of the light emitting means according to error contents; emitting detection means for detecting the lighting or blinking of the light emitting means, display means for displaying the error contents, the application means for controlling said light emitting detection means and said display means, and an information processing apparatus having the saw including a said information The processing unit divides the screen of the display unit in order to increase the number of errors that can be expressed by the application unit, displays the guideline after dividing the screen, and determines the position of the guideline according to the inclination of the information processing device. It is characterized by changing .

  ADVANTAGE OF THE INVENTION According to this invention, various information of the electronic device without an operation button can be conveyed to a user.

1 is an overall configuration diagram according to an embodiment of the present invention. It is an example of the hardware block diagram of MFP shown in FIG. It is an example of the hardware constitutions of the smart device shown in FIG. It is an example of a functional block diagram of the MFP shown in FIG. It is an example of the functional block diagram of the smart device shown in FIG. 1 shown in FIG. It is explanatory drawing about the operation part of MFP shown in FIG. It is explanatory drawing about the reading screen of the smart device shown in FIG. It is explanatory drawing about the reading result screen of a smart device application. It is explanatory drawing about the error pattern of LED lighting. It is explanatory drawing about the flowchart in the electronic information processing system shown in FIG. (A), (b) is explanatory drawing about the case where a screen is divided | segmented. It is explanatory drawing about the case where the smart device as an information processing apparatus is inclined (rotated). It is explanatory drawing about the function which displays a guideline on the reading screen of a smart device. It is explanatory drawing at the time of dividing the screen of a smart device and displaying a guideline. It is explanatory drawing at the time of adding the guideline display function on the function which determines a reading function with the inclination of a smart device. It is explanatory drawing about the case where the error content of the function read is changed by using a gesture. It is an example of the flowchart in the case of detecting the surrounding brightness before performing the detection of a light emission means. It is an example of the flowchart in the case of making all the light emission means light and measuring the brightness | luminance used as a reference | standard when the reading error of a light emission means generate | occur | produces. It is explanatory drawing about the operation part of MFP. It is explanatory drawing about the reading screen of a smart device application. It is explanatory drawing about the reading result screen of a smart device application. FIG. 10 is an explanatory diagram for a flowchart of the second embodiment. It is explanatory drawing about an infrared LED lighting pattern. It is explanatory drawing about the operation part of MFP. It is explanatory drawing about the lighting pattern of infrared LED. It is an example of the blink pattern of error occurrence notification LED. It is an example of the blink pattern of two-color LED error occurrence notification LED.

<Overview>
An embodiment of the present invention will be described. The present invention has the following characteristics when expressing information such as errors in electronic devices.
In short, it is characterized by reading the blinking LED of an electronic device using a smart device and expressing information in a message that can be understood by humans.

<Embodiment 1>
The features of the present invention described above will be described in detail with reference to the following drawings.
[Constitution]
FIG. 1 is an overall configuration diagram according to an embodiment of the present invention.
The electronic information processing system 10 includes an MFP (Multifunction Peripheral) 11, PCs (Personal Computers) 13 and 14, a smart device 12 as an information processing apparatus, and a network 15.
The electronic devices connected to the PCs 13 and 14 and the smart device 12 as the information processing apparatus may be electronic devices having a plurality of lamps as light emitting means instead of the MFP 11 in FIG. Further, as a communication means between the devices, in addition to wireless connection such as wireless LAN (Local Area Network), Bluetooth (registered trademark), and NFC, connection may be made by means such as wired LAN or USB.

FIG. 2 is an example of a hardware configuration diagram of the MFP shown in FIG.
The MFP 11 includes an input / output buffer 101, a program ROM 102, a RAM 103, an NVRAM 104, an HDD 105, a CPU 106, a USB I / F 110, a network I / F 111, an NFC I / F 112, and a memory I / F 113 as external I / Fs. Have. These I / O buffer 101, program ROM 102, RAM 103, NVRAM 104, HDD 105, CPU 106, USB I / F 110, network I / F 111, NFC I / F 112, and memory I / F 113 are connected by a bus 114 and can exchange data. It is. Further, a print control unit 108 and a scan control unit 109 for scanning an image are provided as modules for controlling the print function and the scan function.
Note that ROM is an abbreviation for Read Only Memory, RAM is an abbreviation for Random Access Memory, and CPU is an abbreviation for Central Processing Unit.

External I / F units (USB I / F 111, Network I / F 112) exchange data with other devices via communication media such as USB and network.
The external I / F unit (memory I / F 113) detects connection of the external memory 116 (removable media such as an SD card) and exchanges data. The external memory 116 is used as a storage memory for storing print data, setting data for main body electronic device information of the MFP 100, update data, data of the MFP 100, and data input from the outside.
The input / output buffer 101 transmits and receives control codes and various data related to printing, control codes related to communication media, and each data of the MFP 100 input from other devices.
The CPU 106 controls the entire MFP 11 such as arithmetic processing of various data.
The program ROM 102 stores a program for performing operation control of the CPU 106 and data management and control of each module.
The program stored in the program ROM 10 is read into the RAM 103 and executed by the CPU 205.

The RAM 103 is used as a work memory for the CPU 106, a buffer for storing image data, and a bitmap memory for storing print conversion data.
The NVRAM 104 is a storage memory for storing data that the user wants to retain even when the main power supply is shut off. The HDD 105 is a storage memory for storing data having a capacity larger than that of a document such as image data.
Panel I / F unit 107 exchanges data between controller control unit and operation panel 116.
Reference numeral 120 denotes a host computer (host in the figure), and 121 denotes an external memory.

FIG. 3 is an example of a hardware configuration of the smart device shown in FIG.
Here, the smart device refers to a portable information terminal such as a smartphone or a tablet PC.
The smart device 12 includes a CPU 205, a program ROM 201, a RAM 202, a wireless communication module 203, a sensor 204, an RF (Radio Frequency) unit 207, an antenna 211, an LCD (Liquid Crystal Display) 208, a battery 209, and an external memory 210. These are connected by a bus 114 and can exchange data.
The CPU 205 controls the entire smart device 200 such as arithmetic processing of various data.

The program ROM 201 stores a program for performing operation control of the CPU 205 and data management and control of each module. The RAM 103 is used as a work memory for the CPU 205. The program stored in the program ROM 201 is read into the RAM 202 and executed by the CPU 205.
The external memory 210 is used to hold nonvolatile information. (It may be configured with HDD instead of external memory)

  The RF unit 207 transmits a high frequency signal from the antenna 211 to another wireless communication device. Further, the high frequency signal received from the antenna 211 is converted and output to the CPU 205.

  An external power supply or battery 209 supplies power to a power supply circuit held inside the smart device, and supplies power to each hardware of the smart device 12 therefrom.

The LCD 208 is a startup screen for each application and a display unit for image data, and includes a touch pad (position input function) for performing user operations in the present embodiment.
The sensor 204 acquires information related to the internal state of the smart device 200 (information from an acceleration sensor, a temperature sensor, a gravity sensor, a gyro sensor, an illuminance sensor, a proximity sensor, etc.).

FIG. 4 is an example of a functional block diagram of the MFP shown in FIG.
The MFP 11 shown in FIG. 4 includes a light emitting unit 21, a display unit 22, a reading unit 23, a control unit 24, an operation unit 25, a storage unit 26, a determination unit 27, and a printing unit 28.
A plurality of (not limited to three) light emitting means 21 that are turned on or blinking when an error occurs are realized by error type notification LEDs 130a to 130c (FIG. 2) as light type notification light emitting means. The display means 22 as a display means for displaying error contents is realized by the operation panel 116 (FIG. 2). The reading means 23 for reading a document is realized by the scan control unit 109 (FIG. 2). The control means 24 that performs overall control of the MFP 11 is realized by the CPU 106 (FIG. 2). The operation means 25 is realized by a panel I / F 107, various buttons on the operation panel 116, or a touch panel (touch pad). The storage means 26 is realized by the program ROM 102, the RAM 103, the NVRAM 104, and the HDD 105 (FIG. 2). The determining means 27 for determining the combination of lighting of the light emitting means based on the error content is realized by the CPU 106 and the program ROM 102 (FIG. 2). The printing means 28 is realized by the print control unit 108 (FIG. 2).

FIG. 5 is an example of a functional block diagram of the smart device shown in FIG. 1 shown in FIG.
The inclination detecting means 31 for detecting the inclination of the smart device as the information processing apparatus is realized by the sensor 204 (FIG. 3). The application unit 32 controls the light emission detection unit 33 and the display unit 36. The application unit 32 has a function of changing the type of error based on the detection result from the tilt detection unit. The application means 32 has a function of forming a guideline on the screen of the display means when detecting lighting or flashing of the light emitting means, and a function of displaying the guideline after dividing the screen. The application means 32 is realized by the CPU 205, the program ROM 201, and the RAM 202 (FIG. 3). The light emission detection means 33 is realized by the sensor 204 (FIG. 3). The control means 34 is realized by the CPU 205. The photographing means 35 is realized by the camera 213. The display means 36 is realized by the LCD 208 (FIG. 3). The operation means 37 is realized by a touch panel (touch pad) of the LCD 208. The storage means 38 is realized by a program ROM 201 and a RAM 202. The communication means 39 is realized by the wireless communication module 203, the RF unit 207, and the antenna 211 (FIG. 3).

FIG. 6 is an explanatory diagram of the operation unit of the MFP shown in FIG.
The operation unit as the operation means 25 includes a power button, a start button, a clear / stop button, an update button, an error occurrence notification LED, and an error type notification LED (three as an example in the figure).
When an error occurs in the electronic device, an error occurrence notification is lit, and there is a pattern (see Table 1) in which each of the error type notification LEDs 130a to 130c is lit (flashes) according to the error content.

FIG. 7 is an explanatory diagram of a reading screen of the smart device shown in FIG.
The reading screen uses a camera 213 normally used in the smart device 12. On the reading screen, a message indicating that “LED is being read” is displayed. On the reading screen, if a certain amount of time has passed without the LED being detected, a reading error occurs and the reading error screen is displayed.

FIG. 8 is an explanatory diagram of a smart device application reading result screen.
The error result of MFP is displayed on the reading result screen. Although FIG. 8 shows a case where “Please replenish paper in tray 1” is displayed as the error content, it is not limited.

FIG. 9 is an explanatory diagram of an LED lighting error pattern.
FIG. 9 shows a pattern when there are three error type notification LEDs as a representative example. The number of error patterns is determined by the number of error type notification LEDs 130a to 130c. The number of patterns is 2 ^ (number of LEDs). FIG. 9 shows pattern 6 LED lighting.

[Operation]
FIG. 10 is an explanatory diagram of a flowchart in the electronic information processing system shown in FIG.
S1: An error occurred in the electronic device.
S2: The error occurrence notification LED 130d and the error type notification LEDs 130a to 130c as light emitting means for error occurrence notification light up (flash).
S3: Read the error contents on the smart device.
S4: A certain time elapses in a state where reading is impossible.
S5: Display the reading error screen.
S6: Display error details on the Sumadeva screen.

11A and 11B are explanatory diagrams for the case where the screen is divided.
The LED reading screen is divided and the reading area is determined by the MFP function.
FIG. 11B shows an example of reading when an error occurs while using a fax.
By dividing the screen into four, the error display number becomes 32 (= 8 × 4) patterns.

FIG. 12 is an explanatory diagram of a case where the smart device as the information processing apparatus is tilted (rotated).
As an example, it is shown that copying is performed in the normal state, printing is performed in the upside down direction, scanning is performed in the case of 90 ° left rotation, and an error in the fax function is read in the case of 90 ° rotation.

FIG. 13 is an explanatory diagram of a function for displaying guidelines on the reading screen of the smart device.
The position of the error type notification LEDs 130a to 130c is aligned with the guideline displayed on the reading screen. By limiting the reading position, a reading error prevention effect can be expected.

FIG. 14 is an explanatory diagram when the screen of the smart device is divided and a guideline is displayed.
By displaying the guideline, the user can read the error type notification LEDs 130a to 130c without hesitation.

FIG. 15 is an explanatory diagram when a guideline display function is added to the function of determining the reading function based on the tilt of the smart device.
By displaying the guideline, the user can read the error type notification LEDs 130a to 130c without hesitation.

FIG. 16 is an explanatory diagram for a case where the error content of the reading function is changed by using a gesture.
Flick left (before transition → after transition)
-Copy screen-> Print screen-Print screen-> Scan screen-Scan screen-> Fax screen-Fax screen-> Copy screen

Flick right (before transition → after transition)
-Copy screen-> Fax screen-Fax screen-> Scan screen-Scan screen-> Print screen-Print screen-> Copy screen

FIG. 17 is an example of a flowchart for detecting the ambient brightness before detecting the light emitting means.
S11: An error occurred in the electronic device.
S12: The error occurrence notification LED 130d and the error type notification LEDs 130a to 130c are turned on.
S13: When the Sumadeva app starts, the app measures the ambient brightness.
S14: Read the error contents on the smart device.
S15: A certain amount of time has passed without being read.
S16: Display the reading error screen.
S17: Display the error details on the smart device screen.

FIG. 18 is an example of a flowchart in a case where when the reading error of the light emitting means occurs, all the light emitting means are turned on and the reference brightness is measured.
S21: An error occurred in the electronic device.
S22: The error occurrence notification LED 130d and the error type notification LEDs 130a to 130c are turned on.
S23: Read the error contents on the smart device.
S24: A certain period of time elapses when reading is not possible.
S25: Display the reading error screen.
S26: Press the MFP error update button.
S27: The MFP lights all the error type notification LEDs 130a to 130c.
S28: Read the error type notification LEDs 130a to 130c of the smart device and measure the reference brightness.
S29: Display the error details on the smart device screen.

<Effect>
As described above, according to the present embodiment, when an error occurs in an electronic device without an operation button, the lighting pattern is determined based on the error type, and the LED is turned on and off. The flashing LED is read by the smart device, the type of error is determined according to the read content, and the error content is expressed by a message that can be understood by the user, so even if there is no operation button on the electronic device, the user can grasp a variety of information can do.

  Moreover, according to this embodiment, the effect which prevents a measurement error is acquired by measuring the brightness used as a reference | standard beforehand. Moreover, according to this embodiment, the effect which prevents a measurement error is acquired by measuring the brightness used as a reference | standard. In addition, according to the present embodiment, the number of errors that can be expressed by the MFP increases as blinking increases.

  The above-described embodiment shows an example of a preferred embodiment of the present invention, and the present invention is not limited thereto, and various modifications can be made without departing from the scope of the invention. is there.

For example, the electronic information processing system may be the following system. That is, the electronic device includes a plurality of light emitting units, a storage unit that stores identification information that identifies an error for each combination of lighting and extinguishing of each light emitting unit, and an error occurs. A control unit that causes the light emitting unit to be lit among the plurality of light emitting units to emit light based on the combination stored in the storage unit in association with the identification information that identifies the error that has occurred. In addition, the information processing apparatus includes a camera, a display, a specific unit that identifies a combination of lighting and extinction of a plurality of light emitting units from an image captured by the camera, and an error content corresponding to the combination identified by the specific unit It may be an electronic information processing system having display means for displaying on a display.
The light emitting unit corresponds to the light emitting unit 21, the storage unit corresponds to the storage unit 26, the control unit corresponds to the control unit 24, and the specifying unit corresponds to the determination unit 27.

<Embodiment 2>
By the way, when replacing the flashing signal of the LED on a mobile terminal, the amount of information that can be transmitted depends on the speed of the flashing, but it is too much due to the “limitation of the flashing speed so as not to cause discomfort to the user” There was a problem that the amount of information could not be sent.
On the other hand, in Japanese Patent No. 5509158, in order to make it easy for the user to understand the error notification due to the blinking of the lamp, the blinking of the lamp is read by the portable terminal and converted by the application on the terminal side. A technique for displaying information is disclosed.
However, the problem of improving the amount of data to be transmitted has not been solved.

  Therefore, the inventor of the present application proposes an electronic information processing system in which the amount of information to be transmitted is improved without being restricted by the “LED blinking speed limit”.

  In short, the use of infrared LEDs on the electronic device side makes it possible to eliminate the “restriction of blinking speed so as not to make the user uncomfortable”.

Note that the hardware configuration diagram of the MFP, the hardware configuration diagram of the smart device, and the functional block diagram are the same as those in the first embodiment, and are omitted.
FIG. 19 is an explanatory diagram of the operation unit of the MFP.
The operation unit includes a power button, a start button, a clear / stop button, an update button, an error occurrence notification LED 230d, and error type notification LEDs 230a to 230c (three are shown as an example in FIG. 19).
At least one of the error type notification LEDs 230a to 230c is an LED capable of emitting infrared rays (for example, the LED 230a is an infrared LED).
When an error occurs in the electronic device, the error occurrence notification LED 230d is turned on, and the error type notification LEDs 230a to 230c are turned on, blinking, and turned off according to the error contents.
The error type notification LED 230a, which is an infrared LED, repeats blinking of a pattern according to the error notification content at a constant cycle.

FIG. 20 is an explanatory diagram of a smart device application reading screen.
The reading screen uses a camera function instead of the light emission detection means 33 that is normally used in smart devices (can detect infrared rays with a normal camera).
・ A message indicating that “Reading LED” is displayed on the reading screen.
-If the infrared LED cannot be detected on the reading screen, or if the blinking pattern does not match the pattern assumed on the mobile terminal side, a reading error occurs and a reading error screen is displayed.

FIG. 21 is an explanatory diagram of a smart device application reading result screen.
-The error result of MFP is displayed on the reading result screen.

FIG. 22 is an explanatory diagram of a flowchart according to the second embodiment.
When an error occurs (S31), the error type notification LED (infrared ray) blinks instead of being lit (S32), and the content of the error is read by the portable terminal (S33).
When an error is read (S34 / YES), a “reading error” is displayed on the mobile terminal (S35), and another attempt is made (S35, S36).
If no error is read (S34 / NO), the content of “apparatus error” is displayed on the portable terminal (S36).
Here, the difference between the second embodiment and the first embodiment is that the LEDs 230a to 230c blink. That is, the blinking pattern and the error are associated with each other.

FIG. 23 is an explanatory diagram of an infrared LED lighting pattern.
Since the LED of the electronic device and the application of the mobile terminal are asynchronous, information transmission is performed, and thus it is necessary to repeat a blinking pattern at a constant cycle.
For example, when the cycle is 1 second and blinking 10 times per second, 10-bit information can be transferred. In addition, it is necessary to determine the starting point of data on the application side, and when the data for indicating the starting point is 6 bits, the amount of information that can be substantially transmitted from the electronic device to the application side is 4 bits (16 types).
This is because a cooperative operation is performed so that the blinking of the error occurrence notification LED 330d as the notification light emitting means for notifying the user becomes the starting point of the infrared blinking pattern.

FIG. 24 is an explanatory diagram of the operation unit of the MFP.
At least one of the error type notification LEDs 330a to 330c is an LED capable of emitting infrared rays (for example, the LED 330a is an infrared LED).
When an error occurs in the electronic device, the error occurrence notification LED 330d is turned on, and the error type notification LEDs 330a to 330c are turned on, blinking, and turned off according to the error contents.
The error type notification LED 330a as an infrared LED repeats blinking of a pattern corresponding to the error notification content at a constant cycle at a constant cycle.
-The blink interval of the error type notification LEDs D330a to 330c (for example, green and blue) blinks in accordance with the cycle of the error occurrence notification LED 330a that is an infrared LED.

FIG. 25 is an explanatory diagram of the lighting pattern of the infrared LED.
When information is transmitted only by blinking the infrared LED, the amount of information that can be transmitted from the electronic device to the application side is 4 bits (16 types).
The amount of information to be transmitted can be increased by synchronizing the blinking of the error occurrence notification LED (visible light) with the blinking pattern of the infrared LED and using it as the starting point of the data transmission timing. In this case, the amount of information that can be transmitted from the electronic device to the application side is 10 bits (1024 types).

FIG. 26 shows an example of a blinking pattern of the error occurrence notification LED.
Among the blinking patterns, the lighting time is the starting point of data transmission.

FIG. 27 is an example of a blinking pattern of the two-color LED error occurrence notification LED.
By using a two-color LED (visible light / infrared light) that can be switched between two-color light emission, and blinking with a blinking pattern of the infrared LED when the "error occurrence notification LED" to notify the user is off, Information can be transmitted. In other words, space saving and cost reduction can be achieved by consolidating them into one LED.
That is, by notifying the user by turning off the infrared light and turning on the visible light, and sending error notification data by turning on and off the infrared light with the visible light turned off, Space saving and cost reduction can be achieved.

  As the blinking interval (frequency) of the infrared LED for transmitting information increases, the amount of information that can be transmitted increases. However, the resolution with respect to the extra time is not high for moving image shooting of a camera mounted on a general-purpose portable terminal (smartphone). Further, the resolution depends on the device of the mobile terminal.

  The portable terminal performs calibration for changing the information transmission amount in accordance with the processing capability of the camera as the photographing means. By performing calibration, it is possible to optimize the amount of information transmitted according to the capability of the mobile terminal.

Table 2 is a table for explaining patterns switched by calibration.
When the resolution is “low” for the blinking pattern, only three types of errors can be notified as notification information: paper jam, cover open, and ink out (toner out). On the other hand, when the resolution is “medium”, the notification information can be notified of seven types of errors including main scanning jam, sub scanning jam, upper cover open, front cover open, ink end, ink near end, and ink presence. . Further, when the resolution is “high”, the notification information includes the following 12 types. Notification information includes main scanning jam No. 1, No. 2, sub scanning jam No. 1, No. 2, upper cover open, right front cover open, left front cover open, ink end, ink near end, ink remaining amount 30%, 50% and 100%.

<Effect>
As described above, according to the present embodiment, using the infrared LED on the electronic device side by utilizing the fact that the camera mounted on the mobile terminal can capture infrared light, particularly lighting of infrared light, it is possible to No more discomfort or flashing speed limitations to prevent health. As a result, the amount of information transmission can be improved without being affected by the “limitation of LED blinking speed”.

Further, according to the present embodiment, the amount of information that can be transmitted can be increased by using an external LED as the starting point of the blinking pattern.
In addition, according to the present embodiment, it is possible to save space and reduce costs by collecting LEDs that notify information to a mobile terminal, and to optimize the amount of information transmitted according to the capabilities of the mobile terminal. .

Electronic Information Processing System 11 МFP
12 Smart devices 13, 14 PC
15 Network 101 Input / output buffer 102, 201 Program ROM
103, 202 RAM
104 NVRAM
105 HDD
106, 205 CPU
107 Panel I / F
108 Print Control Unit 109 Scan Control Unit 110 USB I / F
111 Network I / F
112 NFC I / F
113, 206 Memory I / F
114, 212 Bus line 120 Host 121, 210 External memory 130a, 130b, 130c, 230a, 230b, 230c, 330a, 330b, 330c Error type notification LED
130d, 230d, 330d Error occurrence notification LED
203 Wireless communication module 204 Sensor 207 RF unit 208 LCD
209 Battery 211 Antenna 213 Camera

JP 2005-018147 A

Claims (14)

An electronic device having a plurality of light emitting means that are turned on or blinking when an error occurs, and a determination means that determines a combination of lighting of the light emitting means according to the error content;
An information processing apparatus comprising: a light emission detection means for detecting lighting or flashing of the light emission means; a display means for displaying the error content; an application means for controlling the light emission detection means and the display means;
Only including,
The information processing apparatus includes:
The application means divides the screen of the display means in order to increase the number of errors that can be expressed, displays the guideline after dividing the screen, and changes the position of the guideline according to the inclination of the information processing apparatus. A featured electronic information processing system. An electronic device having a plurality of light emitting means that are turned on or blinking when an error occurs, and a determination means that determines a combination of lighting of the light emitting means according to the error content;
An information processing apparatus comprising: a light emission detection means for detecting lighting or flashing of the light emission means; a display means for displaying the error content; an application means for controlling the light emission detection means and the display means;
Only including,
The information processing apparatus includes:
An electronic information processing system , wherein the application means changes an error content of a reading function by using a flick . An electronic device having a plurality of light emitting means that are turned on or blinking when an error occurs, and a determination means that determines a combination of lighting of the light emitting means according to the error content;
An information processing apparatus comprising: a light emission detection means for detecting lighting or flashing of the light emission means; a display means for displaying the error content; an application means for controlling the light emission detection means and the display means;
Only including,
The light emitting means of the electronic device includes an error occurrence notifying light emitting means and an error type notifying light emitting means, and at least one of the error type notifying light emitting means emits infrared rays,
Performing a cooperative operation so that the flashing of the error occurrence notification light emitting means that does not emit infrared light becomes the starting point of the infrared flashing pattern,
The information processing apparatus includes a photographing unit capable of detecting the infrared ray in addition to the light emission detecting unit,
An electronic information processing system comprising: conversion means for converting the blinking pattern into error contents . An electronic device having a plurality of light emitting means that are turned on or blinking when an error occurs, and a determination means that determines a combination of lighting of the light emitting means according to the error content;
An information processing apparatus comprising: a light emission detection means for detecting lighting or flashing of the light emission means; a display means for displaying the error content; an application means for controlling the light emission detection means and the display means;
Only including,
The information processing apparatus includes:
Inclination detecting means for detecting the inclination of the information processing apparatus,
The electronic information processing system characterized in that the application means changes the type of error read by the information processing apparatus based on a detection result from the inclination detection means . An electronic device having a plurality of light emitting means that are turned on or blinking when an error occurs, and a determination means that determines a combination of lighting of the light emitting means according to the error content;
An information processing apparatus comprising: a light emission detection means for detecting lighting or flashing of the light emission means; a display means for displaying the error content; an application means for controlling the light emission detection means and the display means;
Only including,
The light emitting means of the electronic device includes an error occurrence notifying light emitting means and an error type notifying light emitting means, and at least one of the error type notifying light emitting means can be switched between two colors of visible light / infrared,
The information processing apparatus includes a photographing unit capable of detecting the infrared ray in addition to the light emission detecting unit,
An electronic information processing system comprising: conversion means for converting the infrared blinking pattern into error contents . The information processing apparatus includes:
6. The electronic information processing system according to claim 2, wherein the screen of the display unit is divided in order to increase the number of errors that can be expressed by the application unit. The information processing apparatus includes:
6. The electronic information processing system according to claim 2 , wherein a guideline is formed on a screen of the display unit when the application unit detects lighting or blinking of the light emitting unit. The information processing apparatus includes:
Electronic data processing system of claim 1, wherein 5 any one characterized by having an illuminance detecting means for detecting the ambient brightness before performing detection of said light emitting means. The information processing apparatus includes:
If a read error of the light emitting means is generated, the application means, said light emitting means all is lit, either the brightness to be the reference of claim 1, characterized in that to measure the emission detecting means 5 one Electronic information processing system according to item . Illumination or blinking from a plurality of light emitting means that are provided in the electronic device and are turned on or blinking depending on the error content when an error occurs is detected by the light emission detecting means of the information processing device, and the error content is displayed by the display means of the information processing device. An electronic information processing method for displaying ,
In order to increase the number of errors that can be expressed by the application means of the information processing apparatus, the screen of the display means is divided, and the guideline is displayed after the screen is divided, and the position of the guideline is changed according to the inclination of the information processing apparatus. An electronic information processing method characterized by changing. Illumination or blinking from a plurality of light emitting means that are provided in the electronic device and are turned on or blinking depending on the error content when an error occurs is detected by the light emission detecting means of the information processing device, and the error content is displayed by the display means of the information processing device. An electronic information processing method for displaying ,
An electronic information processing method, wherein an error content of a reading function is changed by using a flick by application means of the information processing apparatus. Illumination or blinking from a plurality of light emitting means that are provided in the electronic device and are turned on or blinking depending on the error content when an error occurs is detected by the light emission detecting means of the information processing device, and the error content is displayed by the display means of the information processing device. An electronic information processing method for displaying ,
The light emitting means of the electronic device includes an error occurrence notifying light emitting means and an error type notifying light emitting means, and at least one of the error type notifying light emitting means emits infrared rays,
Performing a cooperative operation so that the flashing of the error occurrence notification light emitting means that does not emit infrared light becomes the starting point of the infrared flashing pattern,
The information processing apparatus includes a photographing unit capable of detecting the infrared ray in addition to the light emission detecting unit,
An electronic information processing method, wherein the conversion means of the information processing apparatus converts the blinking pattern into an error content. Illumination or blinking from a plurality of light emitting means that are provided in the electronic device and are turned on or blinking depending on the error content when an error occurs is detected by the light emission detecting means of the information processing device, and the error content is displayed by the display means of the information processing device. An electronic information processing method for displaying ,
Detecting the inclination of the information processing apparatus by the inclination detecting means of the information processing apparatus;
An electronic information processing method, wherein an application means of the information processing apparatus changes a type of error read by the information processing apparatus based on a detection result of the tilt detection means. Illumination or blinking from a plurality of light emitting means that are provided in the electronic device and are turned on or blinking depending on the error content when an error occurs is detected by the light emission detecting means of the information processing device, and the error content is displayed by the display means of the information processing device. An electronic information processing method for displaying ,
The light emitting means includes an error occurrence notifying light emitting means and an error type notifying light emitting means, and at least one of the error type notifying light emitting means can be switched between two colors of visible light / infrared light,
The information processing apparatus includes a photographing unit capable of detecting the infrared ray in addition to the light emission detecting unit,
An electronic information processing method, wherein the conversion means of the information processing apparatus converts the infrared blinking pattern into error contents.

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