JP2016020933A - Image processing device, image processing system and terminal device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To improve certainty in which biological information is collected.SOLUTION: An image processing device 10 comprises: an image processing unit such as an image reading unit performing image processing, an image formation unit and the like; and a UI processing unit 12 that accepts a contact operation of a user about the image processing (a copying function, a print function, a scan function, a facsimile function and the like) of the image processing unit, and detects biological information (a pulse, a body temperature, an electrocardiogram, a blood pressure, percent of body fat and the like) on the user implementing the contact operation. The configuration of the image processing device allows the biological information on the user to be detected when the user implements the contat operation for performing the image processing relative to the image processing unit, which in turn enables improvement in certainty in which the biological information is collected.SELECTED DRAWING: Figure 4

Description

  The present invention relates to an image processing device, an image processing system, and a terminal device.

  For example, in Patent Document 1, a biometric authentication device using electrodes at both ends of the operation panel of the image forming apparatus and a fingerprint at the right end, a bioelectrical impedance measuring unit, a control unit, and a clock are provided inside, and personal authentication is completed with the biometric authentication device. When the user brings both hands into contact between the electrodes, the body fat percentage can be measured by measuring the user's bioimpedance at the bioimpedance measuring unit, and the past history is displayed in a table or graph for each user and displayed on paper An image forming apparatus that can be written out is disclosed.

JP 2006-034586 A

By the way, if the detection unit is simply provided in the image processing device for detecting the biological information, the detection of the biological information and the operation of the image processing device are performed independently, so that the collection of the biological information is surely performed. There wasn't.
An object of this invention is to improve the certainty by which biometric information is collected.

According to the first aspect of the present invention, an image processing unit that performs image processing, and an operator's contact operation related to the image processing of the image processing unit are received, and biological information of the operator who performs the contact operation is detected. And an operation unit.
The invention according to claim 2 is characterized in that the operation unit changes the mode of the contact operation requested from the operator depending on whether the detection of the biological information is necessary or not. The image processing apparatus according to claim 1.
The invention according to claim 3 is the image processing apparatus according to claim 1 or 2, wherein the operation unit receives an instruction to start the image processing of the image processing unit.
According to a fourth aspect of the present invention, the operation unit includes a switch that generates an instruction signal related to the image processing, and the operation unit when the operation part of the operator moves to a position where the switch generates the instruction signal. 4. The image processing apparatus according to claim 1, further comprising: a detection sensor that detects the biological information at an operation site. 5.
According to a fifth aspect of the present invention, an image processing device that performs image processing, an acquisition unit that acquires biological information, an operation unit that receives an operation of an operator related to the image processing of the image processing device, and the operation unit A transmission unit that transmits the biological information acquired by the acquisition unit when the operation is received.
The invention according to claim 6 further includes a specifying unit that specifies the operator who performs the operation, and the operation unit and the specifying unit perform the identification of the operator and the detection of the biological information in parallel. The image processing system according to claim 5, wherein the image processing system is performed.
The invention according to claim 7 is characterized in that the operation unit and the acquisition unit are provided outside the image processing apparatus, and the transmission unit transmits the biological information to the image processing apparatus. Item 7. The image processing system according to Item 5 or 6.
The invention according to claim 8 is connected to an image processing apparatus that performs image processing, acquires an acquisition unit that acquires biological information, an operation unit that receives an operation of an operator related to the image processing of the image processing apparatus, and the operation A transmission unit that transmits the biological information acquired by the acquisition unit when the operation is received by the unit.

According to the first and fifth aspects of the invention, it is possible to improve the certainty that biological information is collected.
According to the second aspect of the present invention, it is possible to improve the detection accuracy of the biological information or improve the convenience of the operator depending on whether or not the detection of the biological information is necessary.
According to the third aspect of the present invention, it is possible to detect biological information at locations where operations are performed relatively frequently in the image processing apparatus.
According to the fourth aspect of the invention, it is possible to reliably detect biological information in association with an operator's switch operation.
According to the invention of claim 6, it is possible to ensure the relationship between the biological information and the user.
According to the invention of claim 7, it is possible to increase the certainty that biological information is collected at a terminal outside the image processing apparatus.
According to invention of Claim 8, biometric information can be reliably transmitted in a terminal device.

1 is a diagram illustrating an overall configuration example of an image processing system according to a first embodiment. 2 is a diagram illustrating a hardware configuration example of an image processing apparatus according to Embodiment 1. FIG. (A) And (b) is a figure which shows the start key of Embodiment 1. FIG. FIG. 2 is a block diagram illustrating a functional configuration example of the image processing apparatus according to the first embodiment. (A) And (b) is a figure for demonstrating the image processing system of Embodiment 3. FIG. (A) And (b) is a figure which shows the terminal device with which Embodiment 4 is applied.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.
<Embodiment 1>
FIG. 1 is a diagram illustrating an example of the overall configuration of an image processing system 1 according to the first embodiment.
[Image processing system 1]
As illustrated in FIG. 1, the image processing system 1 includes an image processing device 10, a terminal device 21, and a mobile terminal device 22. The image processing device 10, the terminal device 21, and the mobile terminal device 22 communicate with each other via a network. In the first embodiment, the image processing system 1 is configured with the image processing apparatus 10 as an axis.

[Schematic Configuration of Image Processing Apparatus 10]
The image processing apparatus 10 is an apparatus that forms an image on a recording medium such as paper or reads an image of a document. As the image processing apparatus 10, for example, an apparatus having only a copy function may be used. In the first embodiment, in addition to the print function, an apparatus having other image processing functions such as a scan function, a copy function, and a facsimile function. Is used.

[Schematic Configuration of Terminal Device 21 and Portable Terminal Device 22]
The terminal device 21 is a fixed terminal device that is also used when executing various functions of the image processing apparatus 10, and corresponds to, for example, a PC (Personal Computer).
The portable terminal device 22 is a portable terminal device used when executing various functions of the image processing apparatus 10, and corresponds to, for example, a smartphone, a slate terminal, a mobile PC, or the like.
In the first embodiment, the terminal device 21 and the mobile terminal device 22 are provided outside the image processing apparatus 10. Then, the terminal device 21 and the mobile terminal device 22 transmit a print function execution instruction and a facsimile function execution instruction to the image processing apparatus 10. Moreover, the terminal device 21 and the portable terminal device 22 are configured to receive biometric information management data described later.

  In the first embodiment, the image processing apparatus 10 first accepts information used for authentication (hereinafter referred to as authentication information) and performs user authentication for a user who uses the image processing apparatus 10. The authentication information is, for example, a user ID and password that are identification information for identifying the user. In the first embodiment, the image processing apparatus 10 can be used after user approval.

[Hardware Configuration of Image Processing Apparatus 10]
FIG. 2 is a diagram illustrating a hardware configuration example of the image processing apparatus 10 according to the first embodiment.
A CPU (Central Processing Unit) 101 performs main control of the image processing apparatus 10 by loading various programs stored in a ROM (Read Only Memory) 102 and the like into a RAM (Random Access Memory) 103 and executing them. Each function of the image processing apparatus 10 is realized.
The ROM 102 is a memory that stores various programs executed by the CPU 101, predetermined fixed data, and the like. The RAM 103 is a memory used as a working memory for the CPU 101.

The nonvolatile memory 104 is a memory capable of holding stored information without supplying power, and stores parameters used for image adjustment and various history data.
An HDD (Hard Disk Drive) 105 is, for example, a magnetic disk device, and stores image data read by the image reading unit 119, image data used for image formation in the image forming unit 120, biometric information management data described later, and the like. Remember.

The image data processing unit 106 performs processing on image data such as image data expansion / compression processing.
The authentication control unit 107 controls an IC (Integrated Circuit) card reader 108 and a camera 109. The IC card reader 108 reads an IC card in which an integrated circuit (IC) is incorporated in order to record and calculate information, and acquires information recorded on the IC card. The camera 109 captures an image including a user who operates the UI 110 with the camera.
The CPU 101, the ROM 102, the RAM 103, the non-volatile memory 104, the HDD 105, the image data processing unit 106, and the authentication control unit 107 are connected to one another via a bus.

A UI (User Interface) 110 is connected to a bus via a UI interface (IF) 111. The UI 110 includes an operation unit 112 that receives a user's contact operation and a monitor 113 that displays various images.
For example, as shown in FIG. 1, the UI 110 may be a detachable operation panel 130 that is configured integrally with a monitor and an operation unit and that is detachable from the main body of the image processing apparatus 10. .

  The operation unit 112 includes hardware such as a start key 30 (see FIG. 3) for receiving a start instruction for starting various image processing of the image processing apparatus 10 by a user, a stop key for stopping image processing, and a numeric keypad for receiving numerical information. Configured with a key. Then, the operation unit 112 receives a user operation of an instruction regarding image processing in the image processing apparatus 10. In particular, the start key 30 receives an instruction to start image processing functions such as a print function, a scan function, a copy function, and a facsimile function.

In the first embodiment, the operation unit 112 includes a biological information sensor 35 (see FIG. 3) as an example of a detection sensor that detects biological information for health management of the user (hereinafter referred to as biological information). ing.
The biological information can exemplify information related to health management such as pulse, body temperature, electrocardiogram, blood pressure, and body fat percentage. In the first embodiment, when an instruction related to image processing is given to the image processing apparatus 10, information obtained by measuring a “hand” or the like that touches the image processing apparatus 10 is targeted. The biological information is not limited to the “hand”, and may be any body information obtained by bringing a part of the user's body into contact with the image processing apparatus 10.
In the first embodiment, the biological information sensor 35 is provided on the start key 30. The configuration of the start key 30 will be described in detail later.

  The monitor 113 can be constituted by a liquid crystal monitor, for example. In the first embodiment, the monitor 113 is configured by a touch panel device and also functions as an operation unit that receives a user operation.

A LAN (Local Area Network) port 114 is an interface for inputting / outputting data to / from the outside. In the first embodiment, the LAN port 114 also serves as a wireless communication interface.
The serial port 115 is an interface for connecting an external peripheral device.
A USB (Universal Serial Bus) port 116 is an interface for connecting peripheral devices via a USB cable.
The modem 117 is a control unit that connects to a public line such as a facsimile, and can provide various facsimile functions.
Further, the LAN port 114, the serial port 115, the USB port 116, and the modem 117 are connected to the bus via the communication IF 118.

The image reading unit 119 reads an image recorded on a sheet or the like.
The image forming unit 120 forms an image on a sheet as an example of a recording medium. Here, the image forming unit 120 is, for example, a printer, and an electrophotographic system that forms an image by transferring toner adhered to a photoreceptor onto a sheet, or an ink jet system that forms an image by ejecting ink onto a recording medium. Etc. can be used.
The image reading unit 119 and the image forming unit 120 are connected to a bus via the device IF 121.
In the first embodiment, the image reading unit 119 or the image forming unit 120, the modem 117 that realizes a facsimile function, and the like function as an example of the image processing unit.

  Note that FIG. 2 merely illustrates the hardware configuration of the image processing apparatus 10 suitable for applying the first embodiment, and is not limited to the illustrated configuration.

(Start key 30)
FIG. 3 is a diagram illustrating the start key 30 according to the first embodiment.
3A is a top view of the start key 30, and FIG. 3B is a cross-sectional view taken along the line IIIb-IIIb shown in FIG. 3A.
As shown in FIGS. 3A and 3B, the start key 30 is disposed to face the pressing portion 32 below the pressing portion 32, the cover member 31, the pressing portion 32 attached to the cover member 31, and the pressing member 32. A switch 33, a substrate 34, and a biological information sensor 35 as an example of an acquisition unit. The start key 30 receives a user's contact operation.

  In the first embodiment, the cover member 31 is a member having a rectangular shape. And the cover member 31 has the opening part 31H which the button part 321 mentioned later of the pressing part 32 penetrates, and the hinge 31S which supports the button part 321 mentioned later.

The pressing part 32 includes a button part 321, a connecting part 322, and a switch contact part 323.
The button part 321 is a part formed to protrude toward the user side, and is attached to the opening part 31H of the cover member 31 in the first embodiment. And the button part 321 forms the site | part which receives operation of the user who operates the start key 30. FIG.
Moreover, the button part 321 has the recessed part 321U. As shown in FIG. 3B, the recess 321U is recessed along the user's fingertip. Thus, the button unit 321 of the first embodiment suppresses a decrease in pulse measurement accuracy due to the influence on the blood flow due to the fingertip being compressed when the pulse is measured by infrared rays as described later.

The connecting portion 322 is a portion that forms a connecting portion with the cover member 31. The connecting portion 322 is attached to the hinge 31S of the cover member 31 as shown in FIG. Then, the entire pressing portion 32 is displaced with the connecting portion 322 as a fulcrum.
The switch contact portion 323 forms a portion that contacts the switch 33 when the pressing portion 32 receives a user operation and is displaced with the connecting portion 322 as a fulcrum.

  In the first embodiment, the switch 33 generates an ON signal (start instruction) when the switch contact portion 323 of the pressing portion 32 comes into contact therewith.

  A switch 33 and a biological information sensor 35 are mounted on the substrate 34. The board 34 is provided with a connector (not shown), and power is supplied to and input / output of signals from / to the switch 33 and the biological information sensor 35 via this connector.

In the first embodiment, the biological information sensor 35 includes an infrared light emitting unit 35L and an infrared light receiving unit 35R. In this embodiment, when a user's finger (an example of an operation part) moves to a position where an ON signal (instruction signal) is generated by the switch 33, biometric information is detected by the finger.
In the first embodiment, the infrared light emitting unit 35L irradiates the user's fingertip with infrared light. Specifically, the infrared emission angle of the infrared light emitting unit 35L is determined so that infrared light is emitted toward the fingertip of the user who presses the pressing unit 32 in a state where the pressing unit 32 is pressed. .
The infrared light receiving unit 35R is configured to be able to receive the infrared light irradiated from the infrared light emitting unit 35L and reflected by the fingertip of the user in the first embodiment.

  Then, the biological information sensor 35 according to the first embodiment irradiates the fingertip of the user with the infrared light emitting unit 35L, and receives the infrared light reflected from the fingertip with the infrared light receiving unit 35R. Thereby, the biometric information sensor 35 detects the fluctuation | variation in a fingertip, and measures the pulse of the user.

  Note that the body temperature of the user may be measured by using an element such as a thermistor for the biological information sensor 35. Moreover, you may measure a user's electrocardiogram and a body fat percentage by incorporating an electrode in the biological information sensor 35. Furthermore, the blood pressure of the user may be measured by using a pressure gauge for the biological information sensor 35.

[Functional Configuration of Image Processing Apparatus 10]
FIG. 4 is a block diagram illustrating a functional configuration example of the image processing apparatus 10 according to the first embodiment.
As illustrated in FIG. 4, the image processing apparatus 10 includes a user authentication unit 11 that performs user authentication as an example of a specifying unit, a UI processing unit 12 that receives an operation input from a user, and execution of image processing in the image forming unit. An execution instruction unit 13 for giving an instruction and a biological information management unit 14 for managing biological information as an example of a transmission unit and a management information creation unit are provided.
In the first embodiment, the UI processing unit 12 and the execution instruction unit 13 function as an example of an operation unit.

  The user authentication unit 11 performs user authentication based on the received authentication information. In the first embodiment, the user authentication unit 11 determines whether authentication information received via the IC card reader 108 is registered in the authentication information list. If the authentication information is registered in the authentication information list, the user authentication unit 11 approves the user as having succeeded in user authentication.

The UI processing unit 12 receives an operation input from the user. Here, the UI processing unit 12 accepts an operation input when the user directly operates the image processing apparatus 10 by pressing a hard key of the operation unit 112, for example.
In addition, the UI processing unit 12 transmits an ON signal (start instruction) generated when the start key 30 is touched and the switch 33 is pressed to the execution instruction unit 13. Further, the UI processing unit 12 transmits a light reception signal (biological information) received by the infrared light receiving unit 35 </ b> R at the start key 30 to the biological information management unit 14.

  When the execution instruction unit 13 acquires an ON signal from the UI processing unit 12, the execution instruction unit 13 transmits execution instruction data to a function to be subjected to image processing, and starts image processing. For example, when an ON signal is received in a state where the copy function is selected, each image processing in the image reading unit 119 and the image forming unit 120 is started.

  The biological information management unit 14 acquires biological information from the biological information sensor 35. In addition, the biometric information management unit 14 acquires information related to user authentication from the user authentication unit 11. In the first embodiment, user authentication is performed by the user authentication unit 11, and the biometric information acquired immediately after the authentication operation or within a predetermined time from the timing of the authentication operation is sent to the user who has performed user authentication. Associate and save. When biometric information is obtained after user authentication is performed, there is a high probability that the biometric information belongs to a user who has performed user authentication. Therefore, in the first embodiment, a certain condition regarding time is provided for the timing of user authentication in the user authentication unit 11 and the timing when the biometric information is acquired in the UI processing unit 12.

  Further, the biometric information management unit 14 creates a list of a plurality of users regarding the biometric information associated with the user, or forms a graph showing changes with time for each individual. (Example of management information) is created. Then, the biological information management unit 14 outputs the biological information management data as an image. Specifically, the biometric information management unit 14 prints out biometric information management data in the image forming unit 120 in response to an instruction from the user. The biometric information management unit 14 transmits and outputs digitized biometric information management data in response to a request from the terminal device 21 or the mobile terminal device 22, for example.

Further, in the first embodiment, the biological information management unit 14 displays the biological information on the monitor 113 at the timing when the user's operation is performed with the start key 30 and the biological information is acquired. At that time, the biometric information management data of the user who has been authenticated is displayed on the monitor 113. At this time, in the first embodiment, the biological information management unit 14 monitors a message indicating whether or not the content of the latest biological information is good based on, for example, health maintenance based on the biological information management data. 113.
The biological information management data may be displayed on the attachment / detachment operation panel 130 shown in FIG.

  Note that the user authentication unit 11, the UI processing unit 12, the execution instruction unit 13, and the biometric information management unit 14, for example, are realized by the CPU 101 in the hardware configuration illustrated in FIG. In addition, the user authentication unit 11 is realized by the IC card reader 108 or the like. The UI processing unit 12 is realized by the monitor 113, the operation unit 112, and the like. The storage of the biological information management data by the biological information management unit 14 is realized by the HDD 105, the RAM 103, or the like.

  The program executed by the CPU 101 is stored in a computer-readable recording medium such as a magnetic recording medium (magnetic tape, magnetic disk, etc.), an optical recording medium (optical disk, etc.), a magneto-optical recording medium, or a semiconductor memory. Can be offered at. Alternatively, the image processing apparatus 10 may be downloaded using communication means such as the Internet.

[Operation of Image Processing System 1]
For example, a case where a user measures a pulse as biological information when using a copy function in the image processing apparatus 10 will be described as an example.
The user holds the IC card over the IC card reader 108. The user authentication unit 11 receives user approval. In addition, the user sets a document to be read in the image reading unit 119. Then, the user presses the pressing portion 32 of the start key 30 with a finger in order to start the copy function.

When the user performs an operation of pressing the start key 30, infrared light is emitted from the infrared light emitting unit 35 </ b> L to the fingertip of the user who presses the start key 30. The infrared light is reflected by the user's fingertip and received by the infrared light receiving unit 35R. At this time, in the first embodiment, the user's pulse is measured based on the infrared signal. That is, blood hemoglobin has a strong absorption spectrum for light in a certain wavelength band. For example, the transmitted light and reflected light of a living body when irradiated with light in a wavelength band such as infrared rays change according to the amount of hemoglobin that changes with the change in blood vessel capacity. Therefore, a pulse wave is detected by changing the intensity of transmitted light or reflected light to an electric signal.
On the other hand, when the pressing unit 32 is pressed, the switch 33 is pressed, and the image reading unit 119 reads the original image and the image forming unit 120 forms the copy image.

  The biometric information detected by the biometric information sensor 35 is acquired by the biometric information management unit 14 and stored in association with the user through user authentication. In the first embodiment, the monitor 113 displays a message based on the content of the biological information just measured, for example, based on the health reference value or the content of the user's past biological information. For example, when the measurement result satisfies the health reference value, a message prompting the maintenance of the health state is displayed, such as “Please maintain your health in that condition”. On the other hand, when the measurement result falls below the health reference value, a message prompting health improvement is displayed, such as “Please try physical condition management”. Thus, in the present embodiment, for example, effective use of a processing waiting time until image processing is completed is achieved.

  Here, when displaying the biological information on the monitor 113, for example, the display is performed only while the user operates the start key 30, or the display is performed only for a predetermined time from the operation of the start key 30. Or you can do it. Thus, the user's biometric information displayed on the monitor 113 may not be seen by other users.

  The biometric information management data is printed out by the image forming unit 120, or the biometric information management data is transmitted and output to the external terminal device 21 and the mobile terminal device 22 via the network. Thus, for example, in individual users or companies, it can be used for health management of a plurality of employees.

  As described above, in the image processing apparatus 10 according to the first embodiment, biological information is not intentionally provided to an operation unit of an apparatus that performs a function different from that for measuring a pulse, rather than an apparatus for measuring a pulse. A biological information sensor 35 is provided for detecting. Accordingly, in the first embodiment, when the user performs an operation to execute the function of the image processing apparatus 10, the biological information is automatically acquired so that the biological information can be reliably collected. I made it.

In addition, you may ensure the relationship between the biometric information detected and the user who obtained the biometric information by performing a user's specification and biometric information detection in parallel.
For example, the user authentication may be performed by the camera 109 that captures a user who operates the operation unit 112, for example. In this case, both the operation detection of the user who operates the operation unit 112 by the camera 109 and the image detection for authentication of the user's face and the like can be performed in parallel. The probability that the user 112 is operated is higher than that in the case of user authentication using the IC card reader 108, for example. Note that user authentication using the camera 109 can use the one using the eye glow or the one using the relative positions of the facial parts.

  Further, when performing user authentication, the biological information may be detected by the biological information sensor 35. In this case, for example, when the IC card reader 108 reads the IC card, a part of the user's body of the IC card is brought into contact with the biological information sensor 35, and detection of the biological information and user authentication are performed in parallel. . This increases the relationship between the user and the user's biological information.

  Furthermore, user authentication may be performed using fingerprint authentication or vein authentication. In this case, for example, user authentication and detection of biometric information can be performed on the hand in parallel, so that the relationship between the biometric information and the user can be ensured.

Further, the operation unit 112 is not limited to being fixed to the image processing apparatus 10.
For example, like the attachment / detachment operation panel 130 shown in FIG. 1, it may be provided separately (externally) from the main body of the image processing apparatus 10. In this case, the biological information sensor 35 is provided on the attachment / detachment operation panel 130. Then, the biological information acquired by the biological information sensor 35 of the attachment / detachment operation panel 130 may be transmitted to the image processing apparatus 10.

In particular, in the case of a holding terminal such as the detachable operation panel 130 that is held and used by the user, the user touches the holding terminal at a plurality of locations. Therefore, in the case of the holding terminal, it becomes a configuration that facilitates detection of biological information such as an electrocardiogram and a body fat percentage, which is preferably measured by contact at a plurality of locations.
From the same viewpoint, for example, the biological information sensor 35 may be provided in an operation unit operated by the user in the mobile terminal device 22.

  Furthermore, in the first embodiment, the example in which the biological information sensor 35 is provided in the start key 30 has been described. However, the present invention is not limited to being provided in the start key 30. For example, the biometric information sensor 35 may be provided in various setting units (setting buttons) for setting the size of a document or paper, or a function selection unit (menu button) for selecting various functions of the image forming apparatus.

  Further, the present invention is not limited to providing the biological information sensor 35 in the image processing apparatus 10. In addition to the image processing apparatus 10, the biometric information sensor 35 may be provided in a facsimile machine, a PC, or the like. Furthermore, the present invention is not limited to the PC itself, and may be provided in an operation unit that receives user operations such as an interface connected to the PC. Specifically, the biometric information sensor 35 can be provided as a shortcut key for executing printing by the image processing apparatus 10 on a keyboard connected to the PC.

<Embodiment 2>
Next, the image processing system 1 according to the second embodiment will be described.
In addition, about the structure similar to Embodiment 1 mentioned above, the same code | symbol is attached | subjected and the detailed description is abbreviate | omitted.

  In the second embodiment, information on whether or not the user requests health management is stored in the IC card or stored in the IC card, for example, in the HDD 105 shown in FIG. deep. The UI processing unit 12 is configured to change the mode of operation when accepting an operation of executing the function of image processing with the start key 30 of the operation unit 112 according to the health management necessity information.

In the UI processing unit 12 according to the second embodiment, based on the health management necessity information, when the detection of the biological information is necessary and when the detection of the biological information is not necessary, the mode of the contact operation requested from the user is set. Make it different. In the present embodiment, the time for pressing the start key 30 is varied.
For example, for a user who needs health care, if the time for pressing the start key 30 is set to be long (for example, 3 seconds) and the start key 30 is not pressed for a predetermined time, the image processing function is executed. Do not be. Thereby, for example, biological information such as a pulse can be reliably measured by the biological information sensor 35, and the reliability of the biological information management data is improved.
On the other hand, for users who do not need health care, the time for pressing the start key 30 is set short (for example, 0.1 second) so that the user can start up relatively quickly. As a result, for users who do not need health care, the start of processing is accelerated, and the convenience of the image processing apparatus 10 is maintained.

<Embodiment 3>
FIG. 5 is a diagram for explaining the image processing system 1 according to the third embodiment.
FIG. 5A shows a spectacle-type terminal device 23, and FIG. 5B shows a wristwatch-type terminal device 24.
In addition, about the structure similar to Embodiment 1 mentioned above, the same code | symbol is attached | subjected and the detailed description is abbreviate | omitted.

  In the third embodiment, each of the eyeglass-type terminal device 23 and the wristwatch-type terminal device 24 is configured to be accessible to the image processing apparatus 10 via the network of the image processing system 1 (FIG. 1).

As shown in FIG. 5A, the eyeglass-type terminal device 23 includes a video projection unit 231, a camera unit 232, a lens unit 233 corresponding to a screen, an operation unit 234, and a biological information sensor 35. doing.
The eyeglass-type terminal device 23 projects an image on the lens unit 233 by the image projection unit 231, for example. The camera unit 232 can take a picture.
The operation unit 234 also accepts operation of functions for the video projection unit 231 and the camera unit 232. Furthermore, in Embodiment 3, the biological information sensor 35 contacts the periphery of the ear, which is a part of the user's body, and detects biological information such as the user's pulse.

As shown in FIG. 5B, the wristwatch-type terminal device 24 includes a display unit 241 that displays time, a position information acquisition unit 242 that acquires position information such as GPS (Global Positioning System), and an operation unit 243. And a biological information sensor 35.
The wristwatch-type terminal device 24 associates the user's position with time by using, for example, the position information acquisition unit 242. For example, when the user performs a sport such as running, various information such as a travel distance and a travel time can be obtained. Furthermore, in Embodiment 3, the biological information sensor 35 contacts a wrist or arm that is a part of the user's body, and detects biological information such as a pulse or blood pressure.

In the eyeglass-type terminal device 23 configured as described above, the biometric information acquired by the biometric information sensor 35 is image-processed when an image captured by the camera unit 232 is printed out by the image processing apparatus 10. Transmit to device 10.
Similarly, in the wristwatch-type terminal device 24, for example, when the positional information associated with time is transmitted to the image processing apparatus 10 and printed, the biological information acquired by the biological information sensor 35 is used as the image processing apparatus. 10 to send.
Thus, in the third embodiment, the user can use the eyeglass-type terminal device 23 or the wristwatch-type terminal device 24.
The biometric information acquired by the biometric information sensor 35 can be transmitted to the image processing apparatus 10 when issuing a print instruction to the image processing apparatus 10. Therefore, the biological information of the user is reliably collected.

  Further, as in the first embodiment, for example, in the eyeglass-type terminal device 23 or the wristwatch-type terminal device 24, the biological information sensor 35 is integrally incorporated in an operation button for performing an operation for print output to the image processing apparatus 10 or the like. It doesn't matter.

<Embodiment 4>
FIG. 6 is a diagram illustrating a terminal device 21 to which the fourth embodiment is applied.
In addition, about the structure similar to Embodiment 1 mentioned above, the same code | symbol is attached | subjected and the detailed description is abbreviate | omitted.

  6A and 6B show body composition measurement electrodes (examples of the biological information sensor 35) on the keyboard 210 of the terminal device 21 that transmits print information to the image processing apparatus 10 (see FIG. 1). The form which mounted the 1st electrode 212a and the 2nd electrode 212b) is shown, respectively.

As shown in FIG. 6A, the keyboard 210 has a first electrode 212a and a second electrode 212b for body composition measurement in the armrest portion 211, respectively.
In the terminal device 21 shown in FIG. 6A, the first electrode 212a and the second electrode are in contact with the periphery of the palm or wrist when the user places his / her hand or arm on the armrest portion 211. At 212b, a weak current is applied to measure the body fat percentage and the like. The measured measurement data is stored in a storage unit such as an HDD of the terminal device 21, for example.

In addition, the keyboard 210 of the terminal device 21 shown in FIG. 6B has a first electrode 212a and a second electrode 212b for body composition measurement in specific key portions 213a and 213b among the plurality of key portions, respectively. ing. The specific key part includes, for example, a key part (for example, “Ctrl” key, “Alt” key, “Delete” key part, etc.) that the user always presses when logging in to the terminal device 21, and the first electrode 212 a and It can be exemplified that the second electrode 212b is mounted.
Then, in the terminal device 21 shown in FIG. 6B, at the timing when the user logs in to the terminal device 21, a weak current is passed through the first electrode 212a and the second electrode 212b to measure the body fat percentage and the like. The measured measurement data is stored in a storage unit such as an HDD of the terminal device 21, for example.

In the terminal device 21 according to the fourth embodiment configured as described above, the biometric information acquired by the biometric information sensor 35 is transmitted to the image processing apparatus 10 when an image or the like is printed out by the image processing apparatus 10. .
Thereby, when the user issues a print instruction from the terminal device 21 to the image processing apparatus 10, the biological information acquired by the biological information sensor 35 can be transmitted to the image processing apparatus 10. Therefore, the biological information of the user is reliably collected.

In addition, the apparatus which mounts the biological information sensor 35 is not limited to the thing illustrated in Embodiment 1-Embodiment 4 mentioned above. However, from the viewpoints of sharing biometric information management data and collective management of a plurality of users, a configuration in which the biometric information sensor 35 is provided in a network connection device connectable to a network is preferable.
Further, the biological information management unit 14 may be provided in, for example, an external server or the like that is separate from the image processing apparatus 10, and in that case, the biological information is transmitted from the terminal device 21 to the external server or the like. Configure.

DESCRIPTION OF SYMBOLS 1 ... Image processing system, 10 ... Image processing apparatus, 11 ... User authentication part, 12 ... UI processing part, 13 ... Execution instruction | indication part, 14 ... Biometric information management part, 30 ... Start key, 35 ... Biometric information sensor

Claims (8)

An image processing unit for performing image processing;
An operation unit that receives an operator's contact operation related to the image processing of the image processing unit and detects biological information of the operator who performs the contact operation;
An image processing apparatus comprising:   The image according to claim 1, wherein the operation unit changes a mode of the contact operation requested from the operator depending on whether the detection of the biological information is necessary or not. Processing equipment.   The image processing apparatus according to claim 1, wherein the operation unit receives an instruction to start the image processing of the image processing unit.   The operation unit detects the biological information at the operation part when the operation part of the operator shifts to a position where the operation part of the operator generates the instruction signal by the switch. The image processing apparatus according to claim 1, further comprising: a detection sensor that performs detection. An image processing apparatus for performing image processing;
An acquisition unit for acquiring biological information;
An operation unit that receives an operation of an operator related to the image processing of the image processing apparatus;
A transmission unit that transmits the biological information acquired by the acquisition unit when the operation unit receives the operation;
An image processing system comprising: A specifying unit for specifying the operator performing the operation;
The image processing system according to claim 5, wherein the operation unit and the specifying unit perform the specification of the operator and the detection of the biological information in parallel. The operation unit and the acquisition unit are provided outside the image processing apparatus,
The image processing system according to claim 5, wherein the transmission unit transmits the biological information to the image processing apparatus. Connected to an image processing device for image processing,
An acquisition unit for acquiring biological information;
An operation unit that receives an operation of an operator related to the image processing of the image processing apparatus;
A transmission unit that transmits the biological information acquired by the acquisition unit when the operation unit receives the operation;
A terminal device comprising:

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