JP6897820B2 - Information processing equipment, information processing system and image forming equipment - Google Patents

Description

The present invention relates to an information processing device, an information processing system, and an image forming device.

Information such as a list of destinations may be displayed as an image on the display unit of the information processing device. When the image of the information does not fit in the display unit, a method of displaying a part of the image on the display unit and the user scrolling the displayed image to browse the information is generally used. ..

In Patent Document 1, a movement instruction operation is performed in which a part of a plurality of operation input items whose order is defined in advance is displayed on a display unit and a part of the position (display position) is moved according to the direction of the order. When received, an operation display device that performs the movement so that the display time of the operation input item having a prohibition relationship with the set operation input item is shorter than the display time of other operation input items is disclosed.

Japanese Unexamined Patent Publication No. 2015-69273

When the user searches for a target item by scrolling from the image displayed on the display unit of the information processing device, the user must scroll many times if the number of pages is large. Also, while repeating the scroll operation, the current page may scroll to the next page even though there is a target item.
An object of the present invention is to provide an information processing device or the like that controls scrolling according to a user's line of sight and makes it easy for a user to search for a target item from an image of information.

The invention according to claim 1 displays a part of information including a plurality of items as an image, and displays the items in a predetermined order by moving the image by scrolling at a first speed. The display unit, the operation unit that receives a movement instruction operation from the user to move the image, and the movement speed of the image when the user's line of sight to the image changes while the image is being moved. If the movement is controlled at a third speed slower than the first speed and the user's line of sight to the image does not change while moving the image, the moving speed is faster than the first speed. It is an information processing apparatus including a movement control unit that controls movement at a speed of 4.
The invention according to claim 2 comprises a detection unit that detects a user's line of sight, a part of information including a plurality of items is displayed as an image, and the image is moved by scrolling at a first speed. A display unit that displays items in a predetermined order, an operation unit that receives a movement instruction operation from the user to move the image, and a detection unit that causes the user's line of sight while moving the image. When it is detected that the image has changed in the display unit that displays the image, the movement speed is moved to a third speed slower than the first speed, and when the user inputs a stop instruction operation, the movement speed is changed. , An information processing system including a movement control unit that controls movement to stop movement by scrolling.
The invention according to claim 3 comprises a detection unit that detects a user's line of sight, displaying a part of information including a plurality of items as an image, and moving the image by scrolling at a first speed. A display unit that displays items in a predetermined order, an operation unit that receives a movement instruction operation from the user to move the image, and a detection unit that causes the user's line of sight while moving the image. When it is detected that the image has changed in the display unit that displays the image, the movement speed is controlled to move at a third speed slower than the first speed, and when the image is moved. An information processing system including a movement control unit that moves the movement speed at a fourth speed higher than the first speed when the user's line of sight with respect to the image does not change.
The invention according to claim 4 displays an image forming unit that forms an image on a recording material and a part of information about the own device including a plurality of items as an image, and scrolls the image at a first speed. A display unit that displays the items in a predetermined order by moving, an operation unit that accepts a movement instruction operation from the user to move the image, and a user's line of sight when moving the image. Is changed in the display unit for displaying the image, the moving speed is moved to a third speed slower than the first speed, and when the user inputs a stop instruction operation, scrolling is performed. It is an image forming apparatus including a movement control unit that controls movement to stop movement.
The invention according to claim 5 displays an image forming unit that forms an image on a recording material and a part of information about the own device including a plurality of items as an image, and scrolls the image at a first speed. A display unit that displays the items in a predetermined order by moving the image, an operation unit that receives a movement instruction operation from the user to move the image, and a line of sight of the user when the image is moved. Is changed in the display unit that displays the image, the movement speed is controlled to move at a third speed slower than the first speed, and when the image is moved, the image is moved. An image forming apparatus including a movement control unit that moves the movement speed at a fourth speed higher than the first speed when the user's line of sight does not change.

According to the invention of claim 1, the speed of movement can be increased in a place where the user is less interested, and the time for the user to search for a target item can be shortened.
According to the inventions of claims 2 and 3 , it is possible to provide an information processing system that controls scrolling according to the line of sight of the user and makes it easy for the user to search for a target item from an image of information.
According to the inventions of claims 4 and 5 , it is possible to provide an image forming apparatus that controls scrolling according to the line of sight of the user and makes it easy for the user to search for a target item from images of information about the own device.

It is a figure which showed the information processing system of this embodiment. It is an external view of the image forming apparatus which concerns on this embodiment. It is a figure which shows the internal structure of the image forming apparatus which concerns on this embodiment. It is a figure which showed an example of the image displayed on the user interface. It is a block diagram which showed the functional configuration example of a control device. It is a flowchart explaining the 1st Embodiment of the operation of a control device. (A) to (d) are diagrams showing an example of an image displayed on the user interface. It is a flowchart explaining the 2nd Embodiment of the operation of a control device. (A) to (b) are diagrams showing an example of an image displayed on the user interface.

Hereinafter, embodiments will be described in detail with reference to the accompanying drawings.

<Explanation of the overall configuration of the information processing system>
FIG. 1 is a diagram showing the information processing system of the present embodiment.
As shown in the figure, the information processing system S is composed of a detection device 500 as an example of a detection unit that detects a user's line of sight, and an image forming device (information processing device) 1 that forms an image on a recording material.

<Explanation of detection device 500>
The detection device 500 includes a camera 510 that captures the user, and a processing device 520 that obtains the user's line of sight based on the image captured by the camera 510.

The camera 510 includes, for example, an optical system that converges incident light and an image sensor that is an imaging means that detects the light converged by the optical system.
The optical system is composed of a single lens or a combination of a plurality of lenses. Various aberrations are removed by the combination of lenses and the coating applied to the lens surface. The image sensor is configured by arranging image pickup elements such as CCD (Charge Coupled Device) and CMOS (Complementary Metal Oxide Semiconductor).

The processing device 520 analyzes the image taken by the camera 510 and detects the user's line of sight based on the image. Here, the line of sight of the user is, for example, information on which part the user is looking at, but also includes, for example, information on the size of the pupil, information on whether or not the user is staring, and the like.
For example, the processing device 520 extracts the user's face and eye portion from the image taken by the camera 510, and detects the user's line of sight from the direction of the face, the position of the pupil in the eye, and the like.

<Explanation of the overall configuration of the image forming apparatus 1>
FIG. 2 is an external view of the image forming apparatus 1 according to the present embodiment. FIG. 3 is a diagram showing an internal structure of the image forming apparatus 1 according to the present embodiment.
The image forming apparatus 1 includes an image reading apparatus 100 that reads an image of a document, and an image recording apparatus 200 that records an image on a recording material (hereinafter, may be collectively referred to as “paper”). There is. Further, the image forming apparatus 1 includes a user interface (UI) 300 that accepts operation input from the user and displays various information to the user. Further, the image forming apparatus 1 includes a control device 400 that controls the operation of the entire image forming apparatus 1.

The image reading device 100 is arranged above the image forming device 1, the image recording device 200 is arranged below the image reading device 100, and the control device 400 is built in. The user interface 300 is arranged on the front side of the upper part of the image forming apparatus 1, that is, on the front side of the image reading unit 110 described later of the image reading device 100.

First, the image reading device 100 will be described.
The image reading device 100 includes an image reading unit 110 that reads an image of a document, and a document transporting unit 120 that transports the document to the image reading unit 110. The document transport unit 120 is arranged above the image reading device 100, and the image reading unit 110 is arranged below the image reading device 100.
The document transport unit 120 has a document accommodating unit 121 for accommodating documents and a document ejection unit 122 for ejecting documents transported from the document accommodating unit 121, and the document is transmitted from the document accommodating unit 121 to the document ejection unit 122. To transport. The document transport unit 120 is also called an automatic document feeder (ADF: Auto Document Feeder).

The image reading unit 110 includes a platen glass 111, a light irradiation unit 112 that irradiates the surface to be read (image surface) of the document with light, and the light irradiation unit 112 that irradiates the surface to be read of the document with light L to irradiate the surface of the document to be read. It includes a light guide unit 113 that guides the light L reflected by the surface to be read, and an imaging lens 114 that forms an optical image of the light L guided by the light guide unit 113. Further, the image reading unit 110 is composed of a photoelectric conversion element such as a CCD (Charge Coupled Device) image sensor that photoelectrically converts the light L imaged by the imaging lens 114, and detects an imaged optical image. The unit 115 includes an image processing unit 116 that is electrically connected to the detection unit 115 and transmits an electric signal as image information obtained by the detection unit 115.
The image reading unit 110 reads an image of the original document conveyed by the document conveying unit 120 and an image of the original document placed on the platen glass 111.

Next, the image recording device 200 will be described.
The image recording device 200 includes an image forming unit 20 that forms an image on the paper P, a paper supply unit 60 that supplies the paper P to the image forming unit 20, and a paper P on which an image is formed by the image forming unit 20. A paper ejection unit 70 for ejecting an image, and an inverted conveying unit 80 for inverting the front and back of the paper P on which an image is formed on one side of the image forming unit 20 and conveying the paper P toward the image forming unit 20 again. ing.

The image forming unit 20 has four image forming units 21Y, 21M, 21C, and 21K, which are arranged in parallel at regular intervals: yellow (Y), magenta (M), cyan (C), and black (K). It has. Each image forming unit 21 defines in advance an electrostatic latent image formed by laser irradiation by a photoconductor drum 22, a charger 23 that uniformly charges the surface of the photoconductor drum 22, and an optical system unit 50 described later. It is provided with a developer 24 that develops and visualizes with the obtained color component toner. Further, the image forming unit 20 is provided with toner cartridges 29Y, 29M, 29C and 29K for supplying toner of each color to the developing units 24 of the image forming units 21Y, 21M, 21C and 21K.

The image forming unit 20 includes an optical system unit 50 that irradiates the photoconductor drum 22 of the image forming units 21Y, 21M, 21C, 21K with a laser beam below the image forming units 21Y, 21M, 21C, 21K. There is. The optical system unit 50 includes a semiconductor laser and a modulator (not shown), a polygon mirror (not shown) that deflects and scans the laser beam emitted from the semiconductor laser, and a glass window (not shown) that passes the laser beam. , A frame (not shown) for sealing each component is provided.

Further, the image forming unit 20 includes an intermediate transfer unit 30 for multiplex transfer of toner images of each color formed on the photoconductor drums 22 of the image forming units 21Y, 21M, 21C, and 21K onto the intermediate transfer belt 31, and an intermediate transfer unit. It is provided with a secondary transfer unit 40 that transfers a toner image formed on the paper P by superimposing the toner image on the paper P, and a fixing device 45 that heats and pressurizes the toner image formed on the paper P to fix the toner image. ..

The intermediate transfer unit 30 includes an intermediate transfer belt 31, a drive roller 32 for driving the intermediate transfer belt 31, and a tension roller 33 for applying a constant tension to the intermediate transfer belt 31. Further, the intermediate transfer unit 30 is a plurality of intermediate transfer units 30 for transferring the toner image formed on the photoconductor drum 22 so as to face each other with the intermediate transfer belt 31 sandwiched between the photoconductor drums 22 and the intermediate transfer belt 31 (this implementation). In this form, the primary transfer roller 34) and the backup roller 35 facing the secondary transfer roller 41 described later via the intermediate transfer belt 31 are provided.

The intermediate transfer belt 31 is attached to a plurality of rotating members such as a drive roller 32, a tension roller 33, a plurality of primary transfer rollers 34, a backup roller 35, and a driven roller 36. Then, the intermediate transfer belt 31 is circulated and driven at a predetermined speed in the arrow direction by a drive roller 32 that is rotationally driven by a drive motor (not shown). As the intermediate transfer belt 31, for example, one molded from rubber or resin is used.
Further, the intermediate transfer unit 30 includes a cleaning device 37 for removing residual toner and the like existing on the intermediate transfer belt 31. The cleaning device 37 removes residual toner, paper dust, and the like from the surface of the intermediate transfer belt 31 after the toner image transfer step is completed.

The secondary transfer unit 40 includes a secondary transfer roller 41 that is provided at the secondary transfer position and presses the backup roller 35 via the intermediate transfer belt 31 to secondary transfer the image onto the paper P. The secondary transfer position where the toner image transferred to the intermediate transfer belt 31 is transferred to the paper P by the secondary transfer roller 41 and the backup roller 35 facing the secondary transfer roller 41 via the intermediate transfer belt 31 is determined. It is composed.
The fixing device 45 fixes the image (toner image) on the paper P secondarily transferred by the intermediate transfer unit 30 to the paper P using heat and pressure by the heat fixing roller 46 and the pressure roller 47.

The paper supply unit 60 includes a paper storage unit 61 that stores the paper on which an image is formed, a delivery roll 62 that feeds out the paper P stored in each of the paper storage units 61, and the paper P that is sent out by the delivery roll 62. The paper P is provided with a transport path 63 for transporting the paper P, and transport rolls 64, 65, 66 for transporting the paper P arranged along the transport path 63 and fed by the delivery roll 62 to the secondary transfer position. Further, the paper supply unit 60 further includes a manual feed tray 67 capable of manually feeding paper. The bypass tray 67 is foldable, can be folded when not in use, and can be opened to load paper P when in use. In FIG. 3, the manual feed tray 67 is shown in a folded state.

The paper ejection unit 70 is provided above the image forming unit 20, and has a first loading tray 71 for loading the paper P on which the image is formed by the image forming unit 20, and the first loading tray 71 and an image. A second loading tray 72, which is provided between the reading device 100 and loads the paper on which the image is formed by the image forming unit 20, is provided.
The paper ejection unit 70 is provided on the downstream side in the transport direction with respect to the fixing device 45, and is provided on the transport roll 75 for transporting the paper P on which the toner image is fixed and on the downstream side in the transport direction of the transport roll 75. It is provided with a switching gate 76 for switching the conveying direction of the paper P. Further, the paper ejection unit 70 transfers the paper P to be conveyed to the first loading tray 71 on the downstream side of the switching gate 76 in the conveying direction and to one side of the conveying direction (right side in FIG. 3) switched by the switching gate 76. A first discharge roll 77 for discharging is provided. Further, the paper ejection unit 70 includes a transport roll 78 for transporting the paper P transported to the downstream side of the switching gate 76 in the transport direction to the other side (upper side in FIG. 3) of the transport direction switched by the switching gate 76. A second discharge roll 79 for discharging the paper P conveyed by the transfer roll 78 to the second loading tray 72 is provided.

The reversing transport unit 80 transports the inverted paper P to the side of the fixing device 45 by rotating the transport roll 78 in the direction opposite to the direction in which the paper P is discharged to the second loading tray 72. The reverse transport path 81 is provided. A plurality of transport rolls 82 are provided in the reverse transport path 81 along the reverse transport path 81. The paper P conveyed by these transfer rolls 82 is again fed to the secondary transfer position by the transfer roll 82.

Further, the image recording device 200 includes a device main frame 11 that directly or indirectly supports the image forming section 20, the paper supply section 60, the paper ejection section 70, the reverse transfer section 80, and the control device 400, and the device main body. It includes a device housing 12 that is attached to the frame 11 to form the outer surface of the image forming device 1.
The apparatus main body frame 11 is provided with a switching gate 76, a first discharge roll 77, a transfer roll 78, a second discharge roll 79, and the like on the one end side in the lateral direction of the image forming apparatus 1, and is vertically and vertically provided. It includes a reader support unit 13 that extends in the direction and supports the image reader 100. The reading device support portion 13 supports the image reading device 100 in cooperation with a portion on the back side of the device main body frame 11.

Further, the image recording device 200 is provided as a part of the device housing 12 on the front side of the image forming unit 20, and also includes a front cover 15 that is openably and closably attached to the device main body frame 11.
By opening the front cover 15, the user can replace the intermediate transfer unit 30 and the toner cartridges 29Y, 29M, 29C, and 29K of the image forming unit 20 with new ones.

The user interface 300 is, for example, a touch panel. By using the user interface 300 as a touch panel, various information such as image forming conditions of the image forming apparatus 1 is displayed on the touch panel. The user also touches the touch panel to perform input operations such as image formation conditions. That is, the user interface 300 functions as a display unit for displaying information about the image forming apparatus 1 which is its own device, and also functions as an operation unit for receiving an operation from the user. The user interface 300 is not limited to the touch panel, and the function as a display unit and the function as an operation unit may be separated. That is, the user interface 300 may be configured to separately include a display unit including a liquid crystal display or the like for displaying information about the image forming apparatus 1, and an operation unit including a physical key or the like for receiving an operation from the user.

<Explanation of operation of image forming apparatus 1>
The image forming apparatus 1 configured as described above operates as follows.
For example, the user can copy the original using the image forming apparatus 1. That is, the original can be copied by forming an image on the paper P by the image recording device 200 based on the image data of the original read by the image reading device 100. Further, the user can print by transmitting a print job to the image forming apparatus 1 from a personal computer (PC) or the like (not shown) connected to the communication line N. That is, it is possible to print by receiving a print job via the communication line N and forming an image on the paper P by the image recording device 200 based on the image data included in the print job. In addition, the user can send and receive facsimiles. That is, the image data of the original document read by the image reading device 100 can be transmitted via the communication line N. Alternatively, the user can save the image data of the original. That is, the image data of the original can be saved in the image forming apparatus 1 or in a PC connected to the communication line N.

Here, the operation of the image forming apparatus 1 will be described in detail by taking the case where the user copies or prints the original as an example.
The image of the original read by the image reader 100 and the image data received from the PC or the like are subjected to predetermined image processing, and the image data subjected to the image processing is yellow (Y) or magenta (M). ), Cyan (C), and black (K) are converted into four-color material gradation data and output to the optical system unit 50.

The optical system unit 50 emits the laser light emitted from the semiconductor laser (not shown) to the polygon mirror via the f−θ lens (not shown) according to the input color material gradation data. In the polygon mirror, the incident laser beam is modulated according to the gradation data of each color, deflected and scanned, and the image forming units 21Y, 21M, 21C, and 21K are subjected to an imaging lens (not shown) and a plurality of mirrors. The photoconductor drum 22 is irradiated.

In the photoconductor drum 22 of the image forming units 21Y, 21M, 21C, and 21K, the surface charged by the charger 23 is scanned and exposed to form an electrostatic latent image. The formed electrostatic latent image is developed as a toner image of each color of yellow (Y), magenta (M), cyan (C), and black (K) in each image forming unit 21Y, 21M, 21C, 21K. Will be done. The toner images formed on the photoconductor drums 22 of the image forming units 21Y, 21M, 21C, and 21K are multiple-transferred onto the intermediate transfer belt 31 which is an intermediate transfer body.

On the other hand, in the paper supply unit 60, the delivery roll 62 rotates in accordance with the timing of image formation to pick up the paper P stored in the paper storage unit 61 and transport the paper P through the transport path 63 by the transport rolls 64 and 65. Will be done. After that, the transfer roll 66 rotates according to the movement timing of the intermediate transfer belt 31 on which the toner image is formed, and the paper P is transferred to the secondary transfer position formed by the backup roller 35 and the secondary transfer roller 41. .. Toner images in which four colors are multiplexed are sequentially transferred in the sub-scanning direction on the paper P conveyed from the bottom to the top at the secondary transfer position by using a pressure contact force and a predetermined electric field. Will be done. Then, the paper P on which the toner images of each color are transferred is subjected to a fixing process by heat and pressure by the fixing device 45, and then discharged and loaded on the first loading tray 71 or the second loading tray 72.

When there is a request for double-sided printing, the paper P on which an image is formed on one side is conveyed by the reverse transfer unit 80 so that the front and back sides are reversed, and is sent to the secondary transfer position again. Then, at the secondary transfer position, the toner image is transferred to the other surface of the paper P, and the image transferred by the fixing device 45 is fixed. After that, the paper P on which the images are formed on both sides is ejected and loaded on the first loading tray 71 or the second loading tray 72.

The user interface 300 operates as follows.
FIG. 4 is a diagram showing an example of an image displayed on the user interface 300.
The information displayed on the user interface 300 is information about the image forming apparatus 1 which is the own apparatus as described above. Specifically, when the user copies or prints the original, the user interface 300 displays the size of the paper P to be used and image formation conditions such as single-sided printing / double-sided printing. In addition, when performing a facsimile, a list consisting of a shortened number of the destination of the facsimile, the name of the destination, and the like is displayed. Furthermore, when saving the read image data, a list of save destinations is displayed.

In the illustrated example, the user interface 300 displays a list of facsimile destinations as a destination list. In this case, the user interface 300 uses the abbreviated number of the destination and the name of the destination as one item, and displays a plurality of items side by side in the vertical direction in the figure.

At this time, the user interface 300 displays a part of the information including a plurality of items as an image. That is, when the number of items is large, it is not possible to display all the items on the user interface 300 at once. Therefore, some of all the items are displayed, and the other items are displayed in a predetermined order by moving (transitioning) the image by scrolling. In this case, scrolling is performed in the vertical direction in the figure. Scrolling may be performed by moving the image by a predetermined number of pixels, or by setting the displayed image as one page and sequentially switching the pages.

Scrolling is started when the user interface 300 receives a movement instruction operation from the user to move the image.
Specifically, the move instruction operation is an operation in which the user swipes with respect to the touch panel when the user interface 300 is a touch panel. The operation is not limited to this, and for example, an operation in which a scroll bar is displayed on the touch panel and the user touches or drags the scroll bar may be a movement instruction operation. When the user interface 300 is divided into a liquid crystal display and a physical key, the operation of pressing the physical key given the function of scrolling the image by the user can be a movement instruction operation.

The scrolling is stopped when the user interface 300 receives a stop instruction operation from the user to stop the movement of the image.
Specifically, when the user interface 300 is a touch panel, the stop instruction operation is an operation in which the user touches the touch panel. When displaying the scroll bar on the touch panel, the operation of releasing the finger touched or dragged by the user from the touch panel may be a stop instruction operation. When the user interface 300 is divided into a liquid crystal display and a physical key, an operation in which the user releases a finger from the physical key given the function of scrolling an image can be a stop instruction operation.

However, as the number of items increases, it is necessary to scroll a larger number of pages before the user can reach the desired item by scrolling. Not only does this take more time, but the user may be distracted and scroll past the desired item even though it was there.
Therefore, in the present embodiment, this problem is suppressed by controlling the speed at which the control device 400 scrolls the image displayed on the user interface 300 as follows. As will be described in detail later, the control device 400 functions as a movement control unit that controls the speed of movement of the image by scrolling.

<Explanation of control device 400>
FIG. 5 is a block diagram showing a functional configuration example of the control device 400. Note that, in FIG. 5, among various functions of the control device 400, those related to the present embodiment are selected and shown.
As shown in the figure, the control device 400 of the present embodiment includes a display item determination unit 401 that determines an item to be displayed on the user interface 300, an instruction operation determination unit 402 that determines a move instruction operation and a stop instruction operation, and a scroll. It includes a movement speed determination unit 403 that determines the movement speed, a line-of-sight determination unit 404 that determines the user's line of sight, and a display control unit 405 that controls an image to be displayed on the user interface 300.

The display item determination unit 401 determines the items to be displayed on the user interface 300 according to the operation of the image forming apparatus 1. Here, a case where the user selects to perform facsimile using the image forming apparatus 1 and thereby determines the items as shown in FIG. 4 will be described.

The instruction operation determination unit 402 determines whether or not the user has input the move instruction operation from the information on the operation of the user with respect to the user interface 300. In this case, the instruction operation determination unit 402 determines, for example, whether or not the user has performed a swipe operation on the touch panel. Further, the instruction operation determination unit 402 determines, for example, whether or not the user has performed an operation of pressing a physical key given a function of scrolling an image.
Further, the instruction operation determination unit 402 determines whether or not the user has input the stop instruction operation from the information on the operation of the user with respect to the user interface 300. In this case, the instruction operation determination unit 402 determines, for example, whether or not the user has released his or her finger from the touch panel. Further, the instruction operation determination unit 402 determines, for example, whether or not the user has released the pressing of the physical key given the function of scrolling the image.

The movement speed determination unit 403 determines the scroll speed when a plurality of items are scrolled to the user interface 300.

The line-of-sight determination unit 404 acquires information on the user's line-of-sight detected by the detection device 500 (see FIG. 1). Then, the line-of-sight determination unit 404 determines which part the user is looking at.

The display control unit 405 controls the display of the items determined by the display item determination unit 401 on the user interface 300. When the user inputs a movement instruction operation, the movement speed determination unit 403 controls scrolling of the image at a speed determined by the movement speed determination unit 403. Then, when the user inputs a stop instruction operation, the control for stopping the scrolling of the image is performed. Actually, the display control unit 405 generates image data of an image to be displayed on the user interface 300 at predetermined time intervals, and sequentially outputs the image data to the user interface 300.

<Explanation of operation of control device 400>
[First Embodiment]
Next, the first embodiment of the operation of the control device 400 will be described.
FIG. 6 is a flowchart illustrating the first embodiment of the operation of the control device 400. 7 (a) to 7 (d) are diagrams showing an example of an image displayed on the user interface 300. In FIG. 7, the solid line arrow indicates the scroll direction, and the dotted line arrow indicates the user's line of sight.

First, the display item determination unit 401 determines the items to be displayed on the user interface 300 (step 101).

At this time, for example, the image shown in FIG. 7A is displayed on the user interface 300. Note that FIG. 7A is the same as FIG.

Next, the instruction operation determination unit 402 determines whether or not the user interface 300 has accepted the movement instruction operation from the user (step 102).

Then, when the user interface 300 does not accept the move instruction operation (No in step 102), the process returns to step 101. On the other hand, when the user interface 300 accepts the movement instruction operation (Yes in step 102), the movement speed determination unit 403 selects a standard speed (first speed) and sets this as the movement speed (step 103). .. Then, the display control unit 405 controls to sequentially display the items on the user interface 300 while moving the image at a standard speed (first speed) by scrolling (step 104).

At this time, the user interface 300 displays an image that moves by scrolling as shown in FIG. 7B.

When the image is being moved by scrolling, the instruction operation determination unit 402 determines whether or not the user interface 300 has accepted the stop instruction operation as the movement instruction operation from the user (step 105).

Then, when the user interface 300 receives the stop instruction operation (Yes in step 105), the display control unit 405 controls to stop the movement by scrolling (step 106).
On the other hand, when the user interface 300 does not accept the stop instruction operation (No in step 105), the process proceeds to the next step 107.

Next, the line-of-sight determination unit 404 acquires information on the user's line-of-sight detected by the detection device 500 (step 107). Further, the line-of-sight determination unit 404 determines a portion being viewed by the user (step 108).

Further, the line-of-sight determination unit 404 is looking at the user interface 300, and further determines whether or not the line-of-sight is changing (step 109). Here, the change in the line of sight is not limited to the change in the position that the user is looking at. For example, dilation of the pupil, sudden change in viewpoint, gaze, etc. may be treated as changes in the line of sight.

Then, when the line of sight of the user to the user interface 300 has not changed (No in step 109), the process returns to step 105.
On the other hand, when the line of sight of the user to the user interface 300 changes (Yes in step 109), the display control unit 405 sets the item corresponding to the line of sight of the user (the item that the user was looking at) in the scroll direction of the user interface 300 (yes). In this case, it is positioned at the center in the vertical direction in the figure), and control is performed to stop the movement by scrolling (step 110).

At this time, it is assumed that there is a change in the line of sight of the user in the image shown in FIG. 7 (c). At this time, it is assumed that the user is looking at the item of "HIT Shoji" at the tip of the dotted arrow. In this case, as shown in FIG. 7D, the item corresponding to the user's line of sight (the item of "HIT Shoji" that the user was looking at) is located at the center of the user interface 300 in the vertical direction in the drawing. And scrolling stops.

After stopping the movement of the image, the instruction operation determination unit 402 determines whether or not the user interface 300 has further accepted the movement instruction operation by the user (step 111).

Then, when the user interface 300 does not accept the move instruction operation (No in step 111), the process ends.
On the other hand, when the user interface 300 further accepts the movement instruction operation from the user (Yes in step 111), the movement speed determination unit 403 has a high speed (second speed) faster than the standard speed (first speed). Is selected, and this is set as the speed of movement (step 112). Then, the display control unit 405 controls to move to the image displayed at the time when the user's line of sight to the image changes at a high speed (second speed) faster than the standard speed (first speed). (Step 113). After scrolling to the image displayed when the user's line of sight changes, the process returns to step 103. That is, the display control unit 405 returns to the standard speed (first speed) and continues to move the image by scrolling.

In the first embodiment, the control device 400 makes the moving speed slower than the standard speed (first speed) when the user's line of sight to the image changes while moving the image (in this case, the control device 400). (Stop) Control. This makes it easier for the user to find the desired item by stopping the image at the position of the item of interest to the user when the image is moving by scrolling. If the item displayed when stopped is not the item the user was looking for, the user can restart the scrolling movement by performing the move instruction operation again. At this time, the image is moved at a high speed (second speed) to the image displayed when the user's line of sight changes. This reduces the time it takes for the user to find the desired item.

[Second Embodiment]
Next, a second embodiment of the operation of the control device 400 will be described.
FIG. 8 is a flowchart illustrating a second embodiment of the operation of the control device 400. 9 (a) to 9 (b) are diagrams showing an example of an image displayed on the user interface 300. In FIG. 9, the solid line arrow indicates the scroll direction, and the dotted line arrow indicates the user's line of sight.

Note that the processing of steps 201 to 209 in FIG. 8 is the same as the processing of steps 101 to 109, and thus the description thereof will be omitted.

In step 209, when the line of sight of the user to the user interface 300 changes (Yes in step 209), the moving speed determination unit 403 sets a low speed (third speed) slower than the standard speed (first speed). Select and use this as the speed of movement (step 210). Then, the display control unit 405 controls to sequentially display the items on the user interface 300 while moving the image at a low speed (third speed) by scrolling (step 211).

At this time, the user interface 300 displays an image that moves by the low-speed scrolling shown in FIG. 9A.

On the other hand, in step 209, when the line of sight of the user to the user interface 300 does not change (No in step 209), the line-of-sight determination unit 404 determines whether or not a predetermined time has elapsed while the line of sight of the user has not changed. (Step 212).

Then, if the predetermined time has not elapsed (No in step 212), the process returns to step 209. On the other hand, when a predetermined time has elapsed (Yes in step 212), the moving speed determining unit 403 selects a high speed (fourth speed) faster than the standard speed (first speed), and this is selected. Is the speed of movement (step 213). Then, the display control unit 405 controls to sequentially display the items on the user interface 300 while moving the image at a high speed (fourth speed) by scrolling (step 211). After that, the process returns to step 205.

At this time, the user interface 300 displays an image that moves by high-speed scrolling shown in FIG. 9B.

In the second embodiment, the control device 400 changes the moving speed depending on whether or not there is a change in the user's line of sight with respect to the image while moving the image.
For example, when scrolling through an image to an item in the second half of the list, the user isn't interested in the first half, but as he approaches the second half, he begins to look for the item he wants to find. The line of sight of the user at this time does not change in the first half portion, but changes in the second half portion due to a change in the portion viewed on the user interface 300.

At this time, in the first half of the list, the line of sight of the user to the user interface 300 does not change for a predetermined time. In this case, the control device 400 sets the moving speed to a high speed (fourth speed) faster than the standard speed (first speed). This reduces the time it takes for the user to find the desired item.
Also, in the second half of the list, the user's line of sight to the image changes as the image is moved. In this case, the control device 400 controls the moving speed to be slower than the standard speed (first speed) (in this case, the third speed). This allows the image to move slower at the item of interest to the user, making it easier for the user to find the desired item, even when the image is moving by scrolling.

In the above-mentioned example, the image forming apparatus 1 has been taken as an example of the information processing apparatus, but the description is not limited to this. That is, the present embodiment can be applied to any device that displays information including a plurality of items as an image and displays the image by moving it by scrolling. For example, for devices such as mobile phones, smartphones, and tablets that display a phone book consisting of names, telephone numbers, email addresses, etc. as items, and devices such as PCs that run spreadsheet software that displays spreadsheets. Can also be applied.

Further, in the above-described example, the detection device 500 and the image forming device 1 which is an information processing device are provided as separate bodies to form the information processing system S. For example, the detection device 500 is incorporated in the image forming device 1. , May be integrated.

1 ... Image forming device, 20 ... Image forming unit, 30 ... Intermediate transfer unit, 40 ... Secondary transfer unit, 45 ... Fixing device, 100 ... Image reading device, 200 ... Image recording device, 300 ... User interface, 400 ... Control Device, 401 ... Display item determination unit, 402 ... Instruction operation determination unit, 403 ... Movement speed determination unit, 404 ... Line-of-sight determination unit, 405 ... Display control unit, 500 ... Detection device, S ... Information processing system

Claims (5)

A display unit that displays a part of information including a plurality of items as an image and scrolls the image at the first speed to display the items in a predetermined order.
An operation unit that accepts a move instruction operation from the user to move the image, and an operation unit.
If the user's line of sight to the image changes while the image is being moved, the moving speed is controlled to move at a third speed slower than the first speed, and the image is moved. If the user's line of sight to the image does not change while the image is displayed, a movement control unit that controls the movement speed to a fourth speed higher than the first speed, and a movement control unit.
Information processing device equipped with. A detector that detects the user's line of sight and
A display unit that displays a part of information including a plurality of items as an image and scrolls the image at the first speed to display the items in a predetermined order.
An operation unit that accepts a move instruction operation from the user to move the image, and an operation unit.
When the detection unit detects that the user's line of sight has changed in the display unit displaying the image while moving the image, the speed of movement is set to a third speed slower than the first speed. A movement control unit that controls to stop the movement by scrolling when the user inputs a stop instruction operation.
Information processing system equipped with. A detector that detects the user's line of sight and
A display unit that displays a part of information including a plurality of items as an image and scrolls the image at the first speed to display the items in a predetermined order.
An operation unit that accepts a move instruction operation from the user to move the image, and an operation unit.
When the detection unit detects that the user's line of sight has changed in the display unit displaying the image while the image is being moved, the moving speed is set to a third speed slower than the first speed. rows that have a control process for moving in, when the user's gaze unchanged with respect to the image while moving the image moves the speed of movement at faster fourth speed than the first speed Movement control unit and
Information processing system equipped with. An image forming part that forms an image on the recording material,
A display unit that displays a part of information about the own device including a plurality of items as an image and scrolls the image at the first speed to display the items in a predetermined order.
An operation unit that accepts a move instruction operation from the user to move the image, and an operation unit.
If the user's line of sight changes within the display unit that displays the image while the image is being moved, the moving speed is moved at a third speed slower than the first speed , and the user stops the image. When there is an input of an instruction operation, a movement control unit that controls to stop the movement by scrolling,
An image forming apparatus comprising. An image forming part that forms an image on the recording material,
A display unit that displays a part of information about the own device including a plurality of items as an image and scrolls the image at the first speed to display the items in a predetermined order.
An operation unit that accepts a move instruction operation from the user to move the image, and an operation unit.
If the line of sight of the user changes in the display unit that displays the image while the image is being moved, the movement speed is controlled to move at a third speed slower than the first speed. If the user's line of sight to the image does not change while the image is being moved, a movement control unit that moves the moving speed at a fourth speed higher than the first speed, and
An image forming apparatus comprising.

Images