JP2017129731A - Projector and control method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a projector capable of causing a projector desired by a user out of a plurality of projectors to execute a command without using a PC.SOLUTION: A projector includes: a projection unit for projecting a first image on a projection surface; a receiving unit which receives identification information for identifying another projector from the another projector; a screen generation unit generating a selection screen being a screen for selecting a subordinate projector projecting a second image together with the first image projected by the projection unit on the projection surface from the another projector indicated by the identification information received by the receiving unit; a display control unit for causing the display unit to display the selection screen generated by the screen generation unit; an instruction receiving unit for receiving an instruction with respect to the selection screen displayed on the display unit by the display control unit; and a transmission unit which transmits a command to the selected subordinate projector in response to the instruction received by the instruction receiving unit.SELECTED DRAWING: Figure 2

Description

  The present invention relates to a projector and a control method.

  Development and research of technology to connect multiple projectors to a network are being conducted.

  In this regard, Patent Document 1 displays a list of a plurality of projectors connected to a network on a display of a PC (Personal Computer), and selects a target projector to be operated by the user from the displayed list. It is described to do.

JP 2011-203620 A

  However, in the conventional method, it is necessary to use a PC in order to select, from a plurality of projectors, a projector to be executed by a command executed in cooperation with two or more projectors. Therefore, in the conventional method, it may be difficult to reduce the time required for setting the projector.

  Therefore, the present invention has been made in view of the above-described problems of the prior art, and provides a projector and a control method that can cause a user to execute a command desired by a user among a plurality of projectors without using a PC. To do.

One aspect of the present invention is a projection unit that projects a first image onto a projection plane, a reception unit that receives identification information for identifying the other projector from another projector, and the identification information received by the reception unit. A screen generation unit that generates a selection screen that is a screen for selecting a slave projector that is a projector that projects the second image on the projection plane together with the projection of the first image by the projection unit from the other projector indicated by: A display control unit that causes the display unit to display the selection screen generated by the screen generation unit; an instruction reception unit that receives an instruction to the selection screen displayed by the display control unit using the display unit; and the instruction reception unit. A transmission unit that transmits a command to the slave projector selected by the received instruction.
With this configuration, the projector projects the first image on the projection plane by the projection unit, receives identification information for identifying the other projector from another projector, and projects the projection from the other projector indicated by the received identification information. A selection screen that is a screen for selecting a slave projector that is a projector for projecting the second image onto the projection plane is projected together with the projection of the first image by the unit, and the generated selection screen is displayed on the display unit and displayed on the display unit. An instruction for the selected screen is received, and a command is transmitted to the slave projector selected by the received instruction. Accordingly, the projector can cause the projector desired by the user to execute commands without using a PC.

In another aspect of the invention, the projector may be configured such that the transmission unit transmits the command to be executed by the slave projector to the slave projector that has established a connection with the own device. .
With this configuration, the projector transmits a command to be executed by the slave projector to the slave projector that has established a connection with the own device. As a result, the projector can cause the slave projector, which has established a connection with the own apparatus, to execute the command.

According to another aspect of the present invention, in the projector, the display unit includes the projection unit, and the display control unit causes the projection unit to project the selection screen generated by the screen generation unit. A configuration for displaying on the projection surface may be used.
With this configuration, the projector displays the generated selection screen on the projection surface by causing the projection unit to project the generated selection screen. Accordingly, the projector can receive an instruction for the selection screen displayed on the projection surface, and can cause the projector desired by the user to execute a command based on the received instruction.

According to another aspect of the present invention, in the projector, the display unit includes a display device provided in the own device, and the display control unit displays the selection screen generated by the screen generation unit on the display device. A display configuration may be used.
With this configuration, the projector displays the generated selection screen on the display device. Accordingly, the projector can receive an instruction for the selection screen displayed on the display device, and can cause the user to execute a command desired by the user among the plurality of projectors based on the received instruction.

According to another aspect of the present invention, there is provided a projector control method including a projection unit that projects a first image on a projection plane, the first image being projected onto the projection plane by the projection unit, and another projector. The projector receives the identification information for identifying the other projector from the projector, and projects the second image on the projection plane together with the projection of the first image by the projection unit from the other projector indicated by the received identification information. The slave projector generates a selection screen that is a screen for selecting a slave projector, displays the generated selection screen on a display unit, receives an instruction for the displayed selection screen, and selects the slave projector selected by the received instruction Is a control method for transmitting a command to
With this configuration, the control method projects the first image onto the projection surface by the projection unit, receives identification information for identifying the other projector from another projector, and projects from the other projector indicated by the received identification information. A selection screen that is a screen for selecting a slave projector that is a projector for projecting the second image onto the projection plane together with the projection of the first image by the unit is generated, the generated selection screen is displayed by the display unit, and the displayed selection screen is displayed. The command is transmitted to the slave projector selected by the received command. Thereby, the control method can cause a projector desired by a user to execute commands without using a PC.

  As described above, the projector and the control method project the first image onto the projection plane by the projection unit, receive the identification information for identifying the other projector from the other projector, and receive the identification information from the other projector indicated by the received identification information. A selection screen that is a screen for selecting a slave projector that is a projector for projecting the second image onto the projection plane together with the projection of the first image by the projection unit is generated, and the generated selection screen is displayed and displayed by the display unit. An instruction for the selection screen is received, and a command is transmitted to the slave projector selected by the received instruction. As a result, the projector and the control method can cause the projector desired by the user to execute commands without using a PC.

1 is a diagram illustrating an example of a configuration of a projector system 1. FIG. 2 is a diagram illustrating an example of a functional configuration of a projector. FIG. It is a figure which shows an example of the flow of the process which the control part 16 performs when the operation mode of the projector 10-1 is changed into the operation mode which makes a slave projector perform an individual difference correction process. It is a figure which shows an example of a selection screen. It is a figure which shows an example of the flow of the process which the control part 16 performs after the projector 10-2 receives a command from the main projector.

<Embodiment>
Hereinafter, embodiments of the present invention will be described with reference to the drawings.

<Configuration of projector system>
First, the configuration of the projector system 1 according to the present embodiment will be described. FIG. 1 is a diagram illustrating an example of the configuration of the projector system 1. The projector system 1 includes a plurality of projectors 10 and a HUB 30. In the following, as an example, the projector system 1 is installed in the four projectors 10 shown in FIG. 1, that is, the projectors 10-1 to 10-4, and a room 1 that is different from the room in which these projectors 10 are installed. A case where the above projector 10 is provided with another projector 10 (not shown) will be described. Instead of this, the projector system 1 may be configured not to include the other projector 10 or may be configured not to include a part of the four projectors 10.

  The projector 10 includes a liquid crystal panel (not shown), a light source (not shown), and a projection lens (not shown). The projector 10 applies (drives) a drive voltage corresponding to an input projection image to each pixel of a liquid crystal panel (not shown). By this application, the liquid crystal panel forms light incident on the liquid crystal panel from a light source (not shown) as light that displays an image corresponding to the image information. The projector 10 includes a reflector that reflects light emitted from the light source toward the liquid crystal panel, and causes the reflected light to be formed on the liquid crystal panel as light that displays an image according to image information. Then, the projector 10 projects light that projects the image formed on the liquid crystal panel onto the screen SC through a projection lens (not shown).

  Here, the light source (not shown) is, for example, a discharge type light source lamp such as an ultra-high pressure mercury lamp or a metal halide lamp. However, the light source is not limited to the light source lamp, and an LED (Light Emitting Diode) light source or a laser light source may be used. Good. The liquid crystal panel is, for example, a transmissive liquid crystal panel corresponding to each of RGB, which is the three primary colors of light, in which liquid crystal is sealed between a pair of transparent substrates. The liquid crystal panel is not limited to a transmissive liquid crystal panel, and may be a reflective liquid crystal panel. Further, the projector 10 may be configured to include a DMD (Digital Mirror Device) or the like instead of the configuration including the liquid crystal panel.

  The projector 10 is communicably connected to the HUB 30 via a cable, and is connected to be communicable with another projector 10 via the HUB 30. Wired communication via a cable is performed according to standards such as Ethernet (registered trademark) and USB (Universal Serial Bus), for example. Note that some or all of the four projectors 10 may be connected to a router or the like that relays the wireless communication by wireless communication performed according to a communication standard such as Wi-Fi (registered trademark). The configuration may be such that the devices are connected to each other without using other devices by wireless communication performed according to a communication standard such as Wi-Fi (registered trademark).

  In this example, a case where each of the plurality of projectors 10 has the same configuration will be described. Note that some or all of the plurality of projectors 10 may have different configurations. In this case, each of the plurality of projectors 10 has at least the configuration of the projector 10 described in the present embodiment.

  The HUB 30 is a communication device that relays wired communication performed according to standards such as Ethernet (registered trademark) and USB. The HUB 30 is connected to a network (not shown). The network is, for example, a LAN (Local Area Network) laid in a building where the four projectors 10 shown in FIG. 1 are installed. The network may be another network such as a WAN (Wide Area Network) instead. In addition to the four projectors 10 described above, other projectors 10 are connected to the HUB 30 via a network. That is, each of the four projectors 10 is connected to the other projector 10 so as to be communicable. In this example, the case where the other projector 10 is installed in a room different from the room in which the four projectors 10 are installed will be described. The HUB 30 may be a router that relays the wired communication.

<Outline of processing performed by the projector>
Hereinafter, an outline of processing performed by the projector 10 in the projector system 1 will be described.

  In the projector system 1 in this example, the four projectors 10 shown in FIG. 1 perform the tiling projection in cooperation with each other to display the projection image P0 on the projection surface. Tiling projection is to display a single image by arranging images projected by a plurality of projectors on a projection surface. In this example, the projection surface is a screen SC. The projection plane may be a wall surface, a floor surface, a ceiling, or the surface of another object instead of the screen SC.

  In the example shown in FIG. 1, the projector 10-1 projects the partial image P1 of the partial images obtained by dividing the projection image P0 into four parts, the projector 10-2 projects the partial image P2, and the partial image P3. The projector 10-3 projects and the partial image P4 is projected by the projector 10-4. Each of the projectors 10-1 to 10-4 projects the partial images P1 to P4 so as to be arranged in 2 rows and 2 columns on the screen SC. In this example, the partial image P1 is the upper left of the 2 rows and 2 columns, the partial image P2 is the upper right of the 2 rows and 2 columns, the partial image P3 is the lower left of the 2 rows and 2 columns, and the partial image P4 is the 2 rows and 2 columns. It is arranged in the lower right. Here, left and right and up and down represent directions when viewed toward the screen SC. By such tiling projection, the projector system 1 displays the projection image P0 on the screen SC. The projected image P0 is an image in which an ellipse C is drawn in this example. The projected image P0 may be another image instead of the image.

  In this example, each of the projectors 10-1 to 10-4 projects so that the partial images P1 to P4 do not overlap each other. However, this is only an example, and the projector system 1 has a configuration in which each of the projectors 10-1 to 10-4 projects so that at least a part of each of the partial images P1 to P4 overlap each other. May be.

  While performing such tiling projection, the projector system 1 performs tiling projection together with the main projector by the main projector (host projector) selected by the user from the plurality of projectors 10 connected to the HUB 30. The other projector 10 that is being operated is selected (specified). In this example, the main projector is one of the four projectors 10 shown in FIG. Instead of this, the main projector may be another projector 10 different from the projector 10 shown in FIG. Hereinafter, for convenience of explanation, a case where the main projector selected by the user is the projector 10-1 will be described.

  Hereinafter, for convenience of explanation, an image projected by the main projector is referred to as a first image, and an image projected by a slave projector 10 that is a projector 10 other than the main projector and selected by the user is referred to as a second image. I will explain.

  In tiling projection, the projector 10-1, which is the main projector in this example, projects a partial image P1, which is the first image, on the screen SC. Further, the projector 10-1 receives identification information for identifying the other projector 10 from the other projector 10 that can communicate via the HUB 30. For example, the projector 10-1 receives identification information from each of the projectors 10-2 to 10-4 that are other projectors 10 installed in the same room as the room in which the projector 10-1 is installed. For example, the projector 10-1 receives identification information from the projector 10 installed in a room different from the room in which the projector 10-1 is installed.

  Note that the projector 10-1 may be configured to receive identification information of a part of the projectors 10 from some of the other projectors 10 that can communicate via the HUB 30. The part of the projectors 10 are other projectors 10 belonging to the same segment as the segment to which the projector 10-1 belongs, for example.

  The identification information is information including, for example, an IP (Internet Protocol) address, a MAC (Media Access Control) address, a projector ID, a model number, and the like. Hereinafter, as an example, a case will be described in which the identification information is information in which an IP address, information indicating the name of the projector 10 indicated by the IP address, and information indicating a comment regarding the projector 10 indicated by the IP address are associated with each other. To do. The information indicating the comment is, for example, information indicating a comment on a room number or the like in which the projector 10 indicated by the IP address is installed.

  The projector 10-1 is a screen for selecting a slave projector that is a projector 10 that projects the second image on the screen SC together with the projection of the first image by the projector 10-1 from the other projectors 10 indicated by the received identification information. Generate a selection screen. For example, when the slave projector is the projector 10-2, the second image is the partial image P2 projected by the projector 10-2. When the slave projector is the projector 10-3, the second image is a partial image P3 projected by the projector 10-3. When the slave projector is the projector 10-4, the second image is the partial image P4 projected by the projector 10-4.

  The projector 10-1 displays the generated selection screen on the display unit. The display unit will be described later. The projector 10-1 receives an instruction for the selection screen displayed by the display unit. The projector 10 transmits a command to the slave projector selected by the received instruction. Accordingly, the projector 10 can cause the projector 10 desired by the user to execute a command without using a PC. Hereinafter, as an example, a case will be described in which the projectors 10 selected as the projectors according to the user are the three projectors 10 of the projectors 10-2 to 10-4 illustrated in FIG.

  In this example, the command is a command for executing individual difference correction processing in tiling projection. The individual difference correction process is a process of adjusting setting values related to image quality such as luminance, hue, contrast, color mode, black level, and the like of partial images projected by the projectors 10 on the screen SC to predetermined setting values. That is, while performing tiling projection, the user selects the projector 10 that is performing tiling projection together with the projector 10-1 from the selection screen as a slave projector. Then, the projector 10-1 transmits a command for executing the individual difference correction process in tiling projection to the projector 10 selected (specified) as the slave projector selected by the user. Thereby, the projector 10-1, that is, the main projector, sets values related to image quality such as luminance, hue, contrast, color mode, and black level between images projected from the slave projector that performs tiling projection together with the main projector. The projector can be adjusted to eliminate the difference (individual difference). Note that the command executes an operation linked to each of the plurality of projectors 10, for example, a synchronization process that synchronizes the timing of switching images in tiling projection, instead of a command for executing the individual difference correction process. Any other instruction may be used as long as it is an instruction.

  Below, the process which the projector 10 produces | generates a selection screen and it displays on a display part and the process which transmits a command to the slave projector selected by the instruction | indication which the projector 10 received from the selection screen are demonstrated in detail.

<Functional configuration of projector>
Hereinafter, the functional configuration of the projector 10 will be described with reference to FIG. FIG. 2 is a diagram illustrating an example of a functional configuration of the projector 10. The projector 10 includes an imaging unit 11, a storage unit 12, an operation receiving unit 13, a communication unit 14, a display unit 15, a control unit 16, an image processing unit 17, and an image input unit 18.

  The imaging unit 11 is a camera including, for example, a CCD (Charge Coupled Device), a CMOS (Complementary Metal Oxide Semiconductor), or the like, which is an imaging element that converts collected light into an electrical signal. In this example, the imaging unit 11 is provided at a position where a range including the entire projected image P0 projected on the screen SC by tiling projection can be captured.

  The storage unit 12 includes, for example, a hard disk drive (HDD), a solid state drive (SSD), an electrically erasable programmable read-only memory (EEPROM), a read-only memory (ROM), and a random access memory (RAM). The storage unit 12 may be an external storage device connected via a digital input / output port such as a USB instead of the one built in the projector 10. The storage unit 12 stores various information, images, and programs processed by the projector 10.

  The operation reception unit 13 is, for example, a touch panel configured integrally with the display unit 15. The operation receiving unit 13 may be a keyboard, a mouse, a touch pad, or other input device.

The communication unit 14 includes, for example, a digital input / output port such as USB, an Ethernet (registered trademark) port, and the like. The communication unit 14 includes a reception unit 141 and a transmission unit 142.
The receiving unit 141 receives the identification information of the projector from another projector.
The transmission unit 142 transmits a command to the slave projector selected by the instruction received by the operation reception unit 13.

The display unit 15 includes a projection unit 151 and a display device 152.
The projection unit 151 projects an image from a projection lens (not shown).
The display device 152 is, for example, a liquid crystal display panel provided in the housing of the projector 10 or an organic EL (ElectroLuminescence) display panel.

  The control unit 16 is configured using, for example, an FPGA (Field-Programmable Gate Array) (not shown). Alternatively, the control unit 16 may be configured by a CPU (Central Processing Unit) (not shown) reading various programs stored in the storage unit 12 and executing the read programs. Further, a part or all of the functions of the control unit 16 may be realized by a hardware function unit such as an LSI (Large Scale Integration) or an ASIC (Application Specific Integrated Circuit).

  The control unit 16 receives the identification information of the other projector 10 from the other projector 10 by the receiving unit 141. The control unit 16 causes the image processing unit 17 to generate a selection screen based on the identification information received by the receiving unit 141. The control unit 16 acquires the selection screen generated by the image processing unit 17. The control unit 16 displays the acquired selection screen on one or both of the projection unit 151 and the display device 152 based on the instruction received by the operation reception unit 13. In this example, the instruction is a request to the control unit 16 based on an operation performed on the selection screen by the user. In addition, the control unit 16 causes the transmission unit 142 to transmit a command to the slave projector selected by the instruction received by the operation reception unit 13 from the selection screen. In addition, the control unit 16 receives a command from another projector 10 by the receiving unit 141. The control unit 16 executes processing according to the received command. Further, the control unit 16 causes the projection unit 151 to display the image acquired by the image input unit 18. Further, the control unit 16 reads an image from the storage unit 12 based on the instruction received by the operation receiving unit 13 and causes the projection unit 151 to display the read image.

The image processing unit 17 generates various images in response to a request from the control unit 16. Further, the image processing unit 17 changes a setting value related to the image quality of the image in response to a request from the control unit 16.
The image input unit 18 acquires an image from an apparatus that supplies an image such as a PC.

<Specific example of processing executed by control unit of main projector>
Hereinafter, with reference to FIG. 3, as a specific example of processing executed by the control unit 16 of the projector 10-1 that is the main projector in this example, the operation mode of the projector 10-1 causes the slave projector to execute individual difference correction processing. A process executed by the control unit 16 when the operation mode is changed will be described. FIG. 3 is a diagram illustrating an example of a flow of processing executed by the control unit 16 when the operation mode of the projector 10-1 is changed to an operation mode that causes the slave projector to execute the individual difference correction processing. Note that the control unit 16 in the description of the flowchart illustrated in FIG. 3 is the control unit 16 included in the projector 10-1.

  After the operation mode of the projector 10-1 is changed to the operation mode in which the slave projector executes the individual difference correction process, the control unit 16 transmits the identification information request information to the other projectors 10 that are communicably connected via the HUB 30. Is transmitted to the transmission unit 142. The identification information request information is information (command) that causes the projector 10 that has received the identification information request information to return the identification information as a response. The control unit 16 receives the identification information returned as a response to the identification information request information by the receiving unit 141 (step S100).

  Next, the control unit 16 operates the image processing unit 17 to generate a selection screen based on the identification information received by the receiving unit 141 in step S100 (step S110). In step S <b> 110, the image processing unit 17 acquires the identification information received by the reception unit 141 in step S <b> 100 from the control unit 16 in response to the selection screen generation request from the control unit 16. In addition, the image processing unit 17 reads selection screen information from the storage unit 12. In this example, the selection screen information is information necessary for generating the selection screen, and is information configured by, for example, HTML (HyperText Markup Language), CSS (Cascading Style Sheets), or the like. The selection screen information is information stored in the storage unit 12 in advance. The image processing unit 17 generates a selection screen based on the identification information acquired from the control unit 16 and the selection screen information read from the storage unit 12. The image processing unit 17 may be configured to generate selection screen information in response to a selection screen generation request from the control unit 16.

  Here, the selection screen will be described with reference to FIG. FIG. 4 is a diagram illustrating an example of the selection screen. FIG. 4 shows a selection screen G1 as an example of the selection screen. The selection screen G1 includes, for example, a selectable projector list L1, a selection history list L2, a button B1, and a button B2. Note that the selection screen G1 may include another GUI (Graphical User Interface) in addition to the selectable projector list L1, the selection history list L2, the button B1, and the button B2. Further, the selection screen G1 may be configured to include other GUIs in place of some or all of the selection history list L2, the button B1, and the button B2.

  In this example, the selectable projector list L <b> 1 is a column in which a list of names of projectors 10 that can be selected by the user as slave projectors, IP addresses of the projectors 10, and comments regarding the projectors 10 is displayed. The image processing unit 17 generates a selectable projector list L1 based on the identification information acquired from the control unit 16. The selectable projector list L1 may be configured to display other information indicating the projectors 10 that can be selected as the slave projector by the user. In the selectable projector list L1 in this example, a check box associated with each projector 10 displayed in the selectable projector list L1 is displayed. By checking the check box, the user can select the projector 10 associated with the checked check box as a slave projector. That is, the control unit 16 receives the operation checked by the user in the check box of the selectable projector list L1 by the operation receiving unit 13 as an instruction to select the slave projector. Then, based on the operation received by the operation receiving unit 13, the control unit 16 selects (specifies) the projector 10 associated with the check box checked by the user as a slave projector.

  The selection history list L2 is a list of the names of the projectors 10 that were previously selected as secondary slaves from the selection screen by the user in the projector 10-1 that is the main projector, the IP addresses of the projectors 10, and comments about the projectors 10. Is a column in which is displayed. The image processing unit 17 reads history information from the storage unit 12, and generates a selection history list L2 based on the read history information. The history information is information indicating a history of identification information of the projector 10 that was previously selected as a slave projector from the selection screen by the user in the projector 10-1. The selection history list L2 may be configured to display other information indicating the projector 10 that was previously selected as a slave projector from the selection screen by the user in the projector 10-1.

  The button B1 is a button for establishing a logical connection (session) between the projector 10 and the projector 10-1 associated with the check box checked by the user in the selectable projector list L1. That is, when the button B1 is tapped (clicked) by the user, the control unit 16 checks the check box checked by the user in the selectable projector list L1 based on the IP address included in the identification information received by the receiving unit 141. Establishes a logical connection with each of the projectors 10 associated with the. For example, if the projector 10 associated with the check box checked by the user in the selectable projector list L1 is the projector 10-2, the control unit 16 taps (clicks) the button B1. Establishes a logical connection (establishes a session) with the projector 10-2. The control unit 16 establishes a logical connection with the projector 10 associated with the check box checked by the user, triggered by the check box checked by the user in the selectable projector list L1. It may be configured to.

  The button B2 is a button for checking all check boxes associated with the projectors 10 displayed in the selection history list L2 among the check boxes displayed in the selectable projector list L1. That is, when the user taps (clicks) the button B2, all the check boxes associated with each of the projectors 10 displayed in the selection history list L2 are checked out of the check boxes displayed in the selectable projector list L1. Is done.

  After the process of step S110 is performed, the control unit 16 causes the display unit 15 to display the selection screen generated by the image processing unit 17 in step S110 (step S120). Here, the process of step S120 will be described. The control unit 16 selects one or both of the projection unit 151 and the display device 152 based on a display selection operation that is an operation received from the user by the operation receiving unit 13. The display selection operation is an operation received in advance by the control unit 16 by the operation receiving unit 13 and selects which one of the projection unit 151 and the display device 152 is used or both when the selection screen is displayed. It is an operation. Hereinafter, a case where the display selection operation is an operation for selecting to use the projection unit 151 when displaying the selection screen will be described.

  The control unit 16 acquires from the image processing unit 17 the selection screen generated by the image processing unit 17 in step S110. Then, the control unit 16 causes the projection unit 151 to project the acquired selection screen, thereby displaying the selection screen on the screen SC. At this time, the area where the selection screen is displayed in the screen SC is an area where the partial image P1 projected by the projector 10-1 in the tiling projection is projected. When the display selection operation is an operation of selecting to use the display device 152 when displaying the selection screen, the control unit 16 causes the display device 152 to display the selection screen acquired from the image processing unit 17.

  After the processing of step S120 is performed, the control unit 16 waits while performing processing according to the instruction received by the operation receiving unit 13 until the button B1 is pressed (step S130). In this example, the process corresponding to the instruction is to select each of the projectors 10 associated with the check box checked by the user in the selectable projector list L1 as a slave projector.

  When it determines with button B1 having been pressed in step S130 (step S130-YES), the control part 16 memorize | stores the log | history of the projector 10 currently selected as a slave projector in the memory | storage part 12 as log | history information. Then, the control unit 16 establishes a logical connection (session) with each of the projectors 10 currently selected as slave projectors (step S140). Then, the control unit 16 causes the projection unit 151 to project the partial image P1 again instead of the selection screen G1, and displays it on the screen SC.

  Next, the control unit 16 causes the imaging unit 11 to capture a range including the entire projection image P0 projected on the screen SC by tiling projection (step S150). Next, the control unit 16 acquires the captured image captured by the imaging unit 11 in step S150 from the imaging unit 11 (step S160). In addition, the control part 16 may be the structure which makes the external imaging part image the said range in step S150. In this case, in step S160, the control unit 16 acquires a captured image captured by the imaging unit from the imaging unit. The imaging unit may be an imaging unit separate from the projector 10 or the imaging unit 11 of another projector 10 that is not the main projector. The other projector 10 may be a slave projector, or may be a projector 10 different from the slave projector.

  Next, the control unit 16 determines between the partial image P1 projected by the projector 10-1 and the partial image projected by each slave projector based on the captured image acquired from the imaging unit 11 in step S160. Individual differences are detected (step S170). As described above, the individual difference is a difference in setting values related to image quality such as luminance, hue, contrast, color mode, and black level. About the detection method of the said individual difference, the conventional detection method may be sufficient and the new detection method developed from now on may be sufficient. Here, the control unit 16 stores in advance information indicating in which area in the screen SC each of the slave projectors that perform tiling projection together with the projector 10-1 is projecting the partial image. The information is information that is stored according to settings or the like performed on the projector 10 when the user performs tiling projection.

  The individual difference detection on the screen SC170 may be performed by each of the slave projectors instead of the configuration performed by the main projector. In this case, each of the slave projectors detects an individual difference between the partial image projected by the own apparatus and the partial image projected by the main projector. In addition, each of the slave projectors may be configured to capture a captured image by the imaging unit 11 of the own apparatus and detect the individual difference based on the captured image, and to receive the captured image from the main projector. It may be a structure which receives a picked-up image from the image pick-up part 11 of the other projector 10 which is not a main projector.

  Next, for each slave projector, the control unit 16 is a command including information indicating the individual difference of the slave projector detected on the screen SC170, and the slave projector projects the command so as to eliminate the individual difference. A command for adjusting (changing) a setting value related to the image quality of a partial image is generated. The command may be a command including an amount for correcting the set value so as to eliminate the individual difference. Then, the control unit 16 transmits the generated command to the slave projector (step S180) and ends the process.

<Specific example of processing executed by control unit of slave projector>
Hereinafter, referring to FIG. 5, as a specific example of processing executed by the control unit 16 of the projector 10-2, which is one of the slave projectors in this example, the projector 10-2 receives a command from the main projector. Processing executed by the control unit 16 will be described. FIG. 5 is a diagram illustrating an example of a flow of processing executed by the control unit 16 after the projector 10-2 receives a command from the main projector. Note that the control unit 16 in the description of the flowchart illustrated in FIG. 5 is the control unit 16 included in the projector 10-2. The process of the flowchart shown in FIG. 5 is a process that is executed after the slave projector receives a command from the master projector, and is also a process that is executed by a slave projector other than the projector 10-2.

  After receiving the command from the projector 10-1, which is the main projector in this example, by the receiving unit 141, the control unit 16 executes an individual difference correction process based on the command (step S210). Specifically, the control unit 16 operates the image processing unit 17 based on information indicating individual differences included in the command, and corrects (changes) setting values related to the image quality of the partial image P2 so as to eliminate the individual differences. To do. Next, the control unit 16 causes the projection unit 151 to project the partial image P2 in which the setting value is corrected by the image processing unit 17 to be displayed on the screen SC (step S220), and ends the process.

  Note that the master-slave relationship between the master projector and the slave projector described above is maintained until the extended session is released, that is, until the logical connection between the master projector and the slave projector is disconnected. The configuration may be changed, or the configuration may be changed based on the operation received from the user.

  Further, the command described above may be a command for causing the slave projector to generate (cut out) the partial image projected by each projector 10 in the tiling projection from the projection image P0. In this case, information indicating how the main projector divides the projection image P0 is generated, and the generated information is transmitted to each slave projector together with the command. The information is information indicating the size and shape to be cut out, for example.

  As described above, in the projector 10 according to the present embodiment, the first image (partial image P1 in this example) is projected by the projection unit (projection unit 151 in this example) (screen SC in this example). The identification information for identifying the other projector 10 is received from the other projector 10, and the second image (this image is projected together with the projection of the first image by the projection unit from the other projector 10 indicated by the received identification information. In one example, a selection screen (in this example, a selection screen G1) that is a screen for selecting a slave projector that is the projector 10 that projects the partial image P2 to the partial image P4 on the projection surface is generated, and the generated selection screen is generated. Is displayed on the display unit (in this example, the display unit 15), and the selection screen displayed on the display unit Against accepting an instruction, and transmits the command to the slave projector selected by instruction received. Accordingly, the projector 10 can cause the projector 10 desired by the user to execute a command without using a PC.

  Further, the projector 10 transmits a command to be executed by the slave projector to the slave projector that has established a connection with the own device. Thereby, the projector 10 can cause the slave projector, which has established a connection with the own device, to execute the command.

  Further, the projector 10 displays the generated selection screen on the projection plane by causing the projection unit to project the generated selection screen. Accordingly, the projector 10 can receive an instruction for the selection screen displayed on the projection surface, and can cause the projector 10 desired by the user to execute a command based on the received instruction.

  Further, the projector 10 displays the generated selection screen on a display device (in this example, the display device 152). Accordingly, the projector 10 can receive an instruction for the selection screen displayed on the display device, and can cause the projector 10 desired by the user to execute a command based on the received instruction.

  The embodiment of the present invention has been described in detail with reference to the drawings. However, the specific configuration is not limited to this embodiment, and changes, substitutions, deletions, and the like are possible without departing from the gist of the present invention. May be.

  Further, a program for realizing the function of an arbitrary component in the above-described apparatus (for example, the projector 10) is recorded on a computer-readable recording medium, and the program is read into a computer system and executed. It may be. Here, the “computer system” includes hardware such as an OS (Operating System) and peripheral devices. The “computer-readable recording medium” refers to a portable medium such as a flexible disk, a magneto-optical disk, a ROM, a CD (Compact Disk) -ROM, or a storage device such as a hard disk built in the computer system. . Furthermore, “computer-readable recording medium” means a volatile memory (RAM) inside a computer system that becomes a server or client when a program is transmitted via a network such as the Internet or a communication line such as a telephone line. In addition, those holding programs for a certain period of time are also included.

In addition, the above program may be transmitted from a computer system storing the program in a storage device or the like to another computer system via a transmission medium or by a transmission wave in the transmission medium. Here, the “transmission medium” for transmitting the program refers to a medium having a function of transmitting information, such as a network (communication network) such as the Internet or a communication line (communication line) such as a telephone line.
Further, the above program may be for realizing a part of the functions described above. Further, the program may be a so-called difference file (difference program) that can realize the above-described functions in combination with a program already recorded in the computer system.

DESCRIPTION OF SYMBOLS 1 ... Projector system 10, 10-1-10-4 ... Projector, 11 ... Imaging part, 12 ... Memory | storage part, 13 ... Operation reception part, 14 ... Communication part, 15 ... Display part, 16 ... Control part, 17 ... Image processing unit, 18 ... image input unit, 30 ... HUB, 141 ... reception unit, 142 ... transmission unit, 151 ... projection unit, 152 ... display device

Claims (5)

A projection unit that projects the first image onto the projection surface;
A receiving unit that receives identification information for identifying the other projector from another projector;
A screen for selecting a slave projector that is a projector for projecting the second image onto the projection plane together with the projection of the first image by the projection unit from the other projector indicated by the identification information received by the reception unit. A screen generator for generating a screen;
A display control unit that causes the display unit to display the selection screen generated by the screen generation unit;
An instruction receiving unit that receives an instruction for the selection screen displayed by the display control unit by the display unit;
A transmission unit that transmits a command to the slave projector selected by the instruction received by the instruction reception unit;
A projector comprising: The transmission unit transmits the command to be executed by the slave projector to the slave projector that has established a connection with its own device.
The projector according to claim 1. The display unit includes the projection unit,
The display control unit displays the selection screen generated by the screen generation unit on the projection plane by causing the projection unit to project the selection screen.
The projector according to claim 1 or 2. The display unit includes a display device provided in the device itself,
The display control unit causes the display device to display the selection screen generated by the screen generation unit.
The projector according to any one of claims 1 to 3. A method for controlling a projector including a projection unit that projects a first image onto a projection surface,
Projecting the first image onto the projection plane by the projection unit;
Receiving identification information for identifying the other projector from another projector;
From the other projector indicated by the received identification information, a selection screen, which is a screen for selecting a slave projector that projects the second image on the projection plane together with the projection of the first image by the projection unit, is generated. ,
Display the generated selection screen on the display unit,
Accept instructions for the displayed selection screen,
A command is transmitted to the slave projector selected by the received instruction;
Control method.

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