JP2010200224A - Image display system, image capturing apparatus, image supply device, and program - Google Patents

Abstract

An image display system, an imaging apparatus, an image supply apparatus, and a program capable of easily performing network connection for supplying image information from an image supply apparatus to a projector are provided.
When a user places a paper on which an IP address of a projector 2 is placed on a stage 50a as a subject of the document camera 3, the document camera 3 images the paper (IP address) by an imaging unit 52. Then, the captured image is analyzed to detect the IP address. Then, detection information indicating that the IP address has been detected and the detected IP address are output to the computer 1. When the detection information is input from the document camera 3, the computer 1 executes a network connection to the input IP address, that is, the projector 2, and starts supplying image information to the projector 2.
[Selection] Figure 1

Description

  The present invention relates to an image display system, an imaging device, an image supply device, and a program.

  Various systems have been proposed in which a projector that projects an image and an image supply device (for example, a personal computer) that supplies image information to the projector are connected via a network (see, for example, Patent Documents 1 and 2). In such a system, in order to supply image information from a specific image supply device to a specific projector, the supply source (image supply device) designates a supply destination (projector), or the supply destination specifies the supply source. It is necessary to specify and connect to the network. Here, the designation of the connection partner (supplier or supplier) is performed, for example, by inputting specific information (for example, IP address) of the connection partner.

JP 2003-198994 A JP-A-2005-208823

  However, inputting unique information one character at a time is cumbersome, and if multiple projectors are connected to the network, there is a risk of outputting image information to an unintended projector due to an input error. . In the system described in Patent Document 2, projectors on the network are automatically searched and displayed in a list, and a projector to be connected is selected from the list. However, searching for a projector takes a lot of time. In addition, the user may accidentally select an inappropriate projector.

  SUMMARY An advantage of some aspects of the invention is to solve at least a part of the problems described above, and the invention can be implemented as the following forms or application examples.

  Application Example 1 An image display system according to this application example includes a projector that projects an image based on image information, an image supply device that supplies the image information to the projector via a network, the projector, and the image supply An image display system comprising: an imaging device connected to any one of the devices, wherein the imaging device images connection information for the one device to connect to the other device via a network; The one apparatus is network-connected to the other apparatus based on the connection information captured by the imaging apparatus.

  According to this image display system, if the imaging device connected to one of the projector and the image supply device captures connection information for network connection with the other device, the projector and the image supply device A network connection is made. Therefore, it is possible to easily perform network connection for supplying image information from the image supply device to the projector, and convenience is improved.

  Application Example 2 In the image display system according to the application example, the connection information may be an IP address of the other device.

  Application Example 3 An image display system according to this application example is a projector that projects an image based on image information, an image supply device that supplies the image information to the projector via a network, and a connection to the image supply device An image display system comprising: an imaging device configured to capture connection information for the image supply device to connect to the projector via a network; and the image supply device is configured to capture an image of the image supply device. Based on the connection information, a network connection is made to the projector, and the image information is supplied to the projector.

  According to this image display system, when the imaging device connected to the image supply device captures connection information for network connection with the projector, the image supply device and the projector are connected to the network. Therefore, it is possible to easily perform network connection for supplying image information from the image supply device to the projector, and convenience is improved.

  Application Example 4 In the image display system according to the application example, the connection information may be an IP address of the projector.

  Application Example 5 In the image display system according to the application example, the imaging device detects the connection information from the captured image and outputs the connection information to the image supply device, and the image supply device receives an input from the imaging device. The projector may be connected to the network based on the connection information.

  Application Example 6 In the image display system according to the application example, the image supply device detects the connection information from an image captured by the imaging device, and establishes a network connection to the projector based on the detected connection information. You may make it perform.

  Application Example 7 An imaging apparatus according to this application example is connected to one of a projector that projects an image based on image information and an image supply apparatus that supplies the image information to the projector via a network. An imaging unit that images a subject and generates imaging information; and a connection that detects connection information for connecting the one device to the other device from a captured image based on the imaging information. An information detection unit, and a connection information output unit that outputs the connection information detected by the connection information detection unit to the one device are provided.

  According to this imaging device, the connection information detection unit detects connection information for one device to connect to the other device from the captured image captured by the imaging unit, and the connection information output unit detects the connection information. Is output to one device. For this reason, by using the connection information input from the imaging device, it is possible to easily perform network connection from one device to the other device, and convenience is improved.

  Application Example 8 An image supply apparatus according to this application example is connected to a projector that projects an image based on image information via a network, and is connected to an imaging apparatus that captures an image of a subject and generates imaging information. An image supply device, an imaging information input unit to which the imaging information is input from the imaging device, and a connection information detection unit that detects connection information for network connection to the projector from a captured image based on the imaging information And, when the connection information detection unit detects the connection information, based on the connection information, a network connection unit that performs a network connection to the projector, and the network-connected projector via the network And an image information output unit that outputs the image information.

  According to this image supply device, when the imaging device captures connection information for network connection with the projector, the connection information detection unit detects connection information from the captured image, and the network connection unit detects the detected connection. Based on the information, a network connection is made between the image supply device and the projector. Therefore, it is possible to easily perform network connection for supplying image information from the image supply device to the projector, and convenience is improved.

  Application Example 9 A program according to this application example is connected to a projector that projects an image based on image information via a network and is connected to a computer connected to an imaging apparatus that captures an image of a subject and generates imaging information. When the connection information is detected in the connection information detection step for detecting connection information for network connection to the projector from the captured image based on the imaging information input from the imaging device, and the connection information detection step. And a network connection step for performing network connection to the projector based on the connection information, and an image information output step for outputting the image information via the network to the projector connected to the network. .

  According to this program, if the imaging device captures connection information for network connection with the projector, the connection information is detected from the captured image, and the computer and the projector are connected to the network based on the detected connection information. The For this reason, it is possible to easily perform network connection for supplying image information from the computer to the projector, and convenience is improved.

The perspective view which shows the image display system of 1st Embodiment. 1 is a block diagram showing a schematic configuration of a computer according to a first embodiment. 1 is a block diagram illustrating a schematic configuration of a projector according to a first embodiment. 1 is a block diagram showing a schematic configuration of a document camera according to a first embodiment. 6 is a flowchart for explaining the operation of the document camera of the first embodiment. The figure which shows the paper on which the connection information (IP address) was described. The flowchart explaining operation | movement of the computer based on the network connection program of 1st Embodiment. It is explanatory drawing for demonstrating operation | movement of a computer, and is a figure which shows the operation | movement selection window. It is explanatory drawing for demonstrating operation | movement of a computer, and is a figure which shows the screen of a liquid crystal display. It is explanatory drawing for demonstrating operation | movement of a computer, and is a figure which shows a toolbar. It is explanatory drawing for demonstrating operation | movement of a computer, (a) is a figure which shows the screen of a liquid crystal display, (b) is a figure which shows a screen. The block diagram which shows schematic structure of the document camera of 2nd Embodiment. It is explanatory drawing for demonstrating operation | movement of a computer, and is a figure which shows the screen of a liquid crystal display. The flowchart for demonstrating operation | movement of the computer based on the captured image display program of 2nd Embodiment. The flowchart explaining operation | movement of the computer based on the network connection program of 2nd Embodiment. It is explanatory drawing for demonstrating operation | movement of a computer, (a) is a figure which shows the screen of a liquid crystal display, (b) is a figure which shows a screen.

  Hereinafter, embodiments of an image display system will be described with reference to the drawings.

(First embodiment)
FIG. 1 is a perspective view showing an image display system according to the first embodiment.
As shown in FIG. 1, an image display system 100 according to the present embodiment includes a computer 1 as an image supply device, a projector 2 as an image display device, and a document camera 3 as an imaging device. .

  The computer 1 is, for example, a notebook personal computer, and includes a liquid crystal display 16 that is a display unit, a keyboard 20 that is an input unit, and a touch pad 21 that is a pointing device. The computer 1 is connected to a network N such as a LAN (Local Area Network) together with the projector 2 and can supply image information to the projector 2 via the network N.

  The projector 2 has a main body housed in a box-shaped housing 45, and an input operation unit 42 for giving various instructions to the projector 2 is disposed on the upper surface of the housing 45. The projector 2 forms an image based on image information input from the computer 1 via the network N, and projects from the projection lens 33 disposed on the front surface of the housing 45 (hereinafter, simply “screen”). S ").

  The document camera 3 is connected to the computer 1 by USB (Universal Serial Bus). The document camera 3 includes a box-shaped housing 50, a hollow support arm 51 extending upward from an end of the housing 50, and an imaging unit 52 fixed to the upper end of the support arm 51. A substantially rectangular stage 50 a and an input operation unit 53 including a plurality of operation keys are provided on the upper surface of the housing 50. A subject such as a document is placed on the stage 50 a, and the document camera 3 captures the subject with the imaging unit 52 to generate image information, and outputs the image information to the computer 1.

FIG. 2 is a block diagram illustrating a schematic configuration of the computer 1.
As shown in FIG. 2, the computer 1 includes a CPU (Central Processing Unit) 11, two bridge circuits (North Bridge 12 and South Bridge 13), a RAM (Random Access Memory) 14, a video controller 15, a liquid crystal display 16, Hard disk drive 17, optical disk drive 18, BIOS-ROM (Read Only Memory) 19 in which BIOS (Basic Input / Output System) is written, keyboard 20, touch pad 21, network interface (I / F) 22, USB interface (I / F) 23 and the like.

  The CPU 11 performs overall control of the operation of the computer 1 by operating according to various programs read to the RAM 14 or the BIOS written to the BIOS-ROM 19.

  The north bridge 12 performs bridge processing between the CPU 11 and the south bridge 13, control of the RAM 14, control of the video controller 15, and the like. The RAM 14 is configured by a DRAM (Dynamic RAM), and stores an OS (Operating System), an application program, and the like read from the hard disk drive 17. The RAM 14 is used for temporary storage of various data during program execution.

  The video controller 15 controls image display on the liquid crystal display 16. The video controller 15 includes a VRAM (Video RAM) (not shown), and sequentially generates image information in units of frames on the VRAM based on instructions from the CPU 11 that executes the OS and application programs. The image is output to the display 16 and an image based on the image information is displayed on the screen of the liquid crystal display 16.

  The liquid crystal display 16 includes a transmissive liquid crystal panel in which liquid crystal is sealed between a pair of transparent substrates, a backlight unit that emits white light from the back side of the liquid crystal panel, and a drive circuit that drives the liquid crystal panel (both shown in FIG. (Not shown). A large number of pixels arranged in a matrix are formed on the inner surface of the liquid crystal panel. Each pixel includes three sub-pixels that can transmit red (R), green (G), and blue (B) light, and a driving voltage can be applied to the liquid crystal for each sub-pixel. ing. When the drive circuit applies a drive voltage corresponding to the image information input from the video controller 15 to each subpixel, each subpixel is set to a light transmittance corresponding to the image information. Therefore, the light emitted from the backlight unit is modulated by transmitting through the liquid crystal panel, and an image corresponding to the image information is displayed on the front side of the liquid crystal panel, that is, on the screen of the liquid crystal display 16.

  Various interface circuits are built in the south bridge 13, and a hard disk drive 17, an optical disk drive 18, a BIOS-ROM 19, a keyboard 20, a touch pad 21, a network interface 22, a USB interface 23, and the like are connected to the south bridge 13. The hard disk drive 17 stores the installed OS, application programs, various data, and the like. The optical disk drive 18 reads data from an optical disk such as a CD (Compact Disc) or a DVD (Digital Versatile Disc) and writes data to the optical disk.

  The BIOS-ROM 19 stores a BIOS. The BIOS includes programs for controlling input / output devices such as the video controller 15, the hard disk drive 17, the keyboard 20, and the like, as well as programs that are read by the CPU 11 when the computer 1 is started and perform various initialization processes and OS startup. Basic input / output control for these input / output devices is provided to the OS and application programs. The CPU 11 that executes the OS and application programs can perform input / output with these input / output devices directly or via the BIOS.

  The keyboard 20 is an input device for inputting characters, control codes, and the like by key operations, and the touch pad 21 is a pointing device for performing operations such as moving and clicking a pointer displayed on the liquid crystal display 16. . The keyboard 20 and the touch pad 21 output an operation signal based on an operation performed by the user to the south bridge 13, and the south bridge 13 transmits the operation signal to the CPU 11 via the north bridge 12.

  The network interface 22 performs communication with an external network device via the network N. In the present embodiment, image information can be output to the projector 2 connected to the network. The hard disk drive 17 is installed with a resident application program (network connection program CP) for connecting the projector 2 to the network and supplying image information to the projector 2.

  The USB interface 23 performs data communication based on the USB standard with an external input / output device. The document camera 3 is connected to the USB interface 23 of the present embodiment, and image information of an image (captured image) captured by the document camera 3 is input. Further, in the hard disk drive 17 of the present embodiment, an application program (captured image display program DP) for displaying a captured image from the document camera 3 on the liquid crystal display 16 of the computer 1 or storing it in the hard disk drive 17. Is installed.

Next, a schematic configuration of the projector 2 will be described.
FIG. 3 is a block diagram illustrating a schematic configuration of the projector 2.
As shown in FIG. 3, the projector 2 includes an image projecting unit 30, a control unit 40, a storage unit 41, an input operation unit 42, a network communication unit 43, an image processing unit 44, and the like. 45 (see FIG. 1).

  The image projection unit 30 includes a light source 31, three liquid crystal light valves 32R, 32G, and 32B as light modulation devices, a projection lens 33 as a projection optical system, a light valve drive unit 34, and the like. The light is modulated by the liquid crystal light valves 32R, 32G, and 32B to form an image (image light), and this image is projected from the projection lens 33 and displayed on the screen S.

  The light source 31 includes a discharge-type light source lamp 31a composed of an ultra-high pressure mercury lamp, a metal halide lamp, or the like, and a reflector 31b that reflects light emitted from the light source lamp 31a toward the liquid crystal light valves 32R, 32G, and 32B. ing. Light emitted from the light source 31 is converted into light having a substantially uniform luminance distribution by an integrator optical system (not shown), and red (R), green (G), and blue that are the three primary colors of light by a color separation optical system (not shown). After being separated into each color light component of (B), it enters the liquid crystal light valves 32R, 32G, 32B, respectively.

  The liquid crystal light valves 32R, 32G, and 32B are each configured by a transmissive liquid crystal panel in which liquid crystal is sealed between a pair of transparent substrates. Each liquid crystal panel is formed with a plurality of pixels arranged in a matrix, and a driving voltage can be applied to the liquid crystal for each pixel.

  When the light valve driving unit 34 applies a driving voltage corresponding to the input image information to each pixel, each pixel is set to a light transmittance corresponding to the image information. For this reason, the light emitted from the light source 31 is modulated by transmitting through the liquid crystal light valves 32R, 32G, and 32B, and an image corresponding to the image information is formed for each color light. The formed images of the respective colors are combined for each pixel by a color combining optical system (not shown) to form a color image, and then enlarged and projected onto the screen S by the projection lens 33.

  The control unit 40 includes a CPU, a RAM used for temporary storage of various data, and the like, and performs overall control of the operation of the projector 2 by operating according to a control program stored in the storage unit 41.

  The storage unit 41 is configured by a non-volatile memory such as a mask ROM, flash memory, or FeRAM (Ferroelectric RAM). The storage unit 41 stores a control program for controlling the operation of the projector 2, various setting data for defining operation conditions of the projector 2, and the like.

  The input operation unit 42 includes a plurality of operation keys for the user to give various instructions to the projector 2. The operation keys provided in the input operation unit 42 include a “power key” for switching on / off of the power, a “menu key” for displaying a setting menu for performing various settings, and the like. When the user operates various operation keys of the input operation unit 42, the input operation unit 42 outputs an operation signal corresponding to the operation content of the user to the control unit 40. The input operation unit 42 may be configured using a remote control (not shown) capable of remote operation. In this case, the remote control transmits an infrared operation signal corresponding to the user's operation content, and a remote control signal receiving unit (not shown) receives this and transmits it to the control unit 40.

  The network communication unit 43 performs data communication via the network N, and the control unit 40 can exchange data with an external network device connected to the network N via the network communication unit 43. it can. In addition, the network communication unit 43 of the present embodiment can receive image information from the computer 1 connected to the network. When the image information is input to the network communication unit 43, the network communication unit 43 The input image information is output to the image processing unit 44.

  The image processing unit 44 defines the image information input from the network communication unit 43 as image information representing the gradation of each pixel of the liquid crystal light valves 32R, 32G, and 32B, that is, a drive voltage applied to each pixel. Convert to image information. Further, the image processing unit 44 performs processing for adjusting image quality such as brightness, contrast, sharpness, hue, and the like on the converted image information based on an instruction from the control unit 40, and the processed image information Is output to the light valve driving unit 34.

  When the light valve driving unit 34 drives the liquid crystal light valves 32R, 32G, and 32B according to the input image information, the liquid crystal light valves 32R, 32G, and 32B form images according to the image information, and these images are projected into the projection lens. 33 is projected onto the screen S.

Next, a schematic configuration of the document camera 3 will be described.
FIG. 4 is a block diagram showing a schematic configuration of the document camera 3.
As shown in FIG. 4, the document camera 3 includes a control unit 54, a storage unit 55, an image processing unit 56, a USB interface (I / F) 57, an image analysis, in addition to the imaging unit 52 and the input operation unit 53 described above. A portion 58 and the like are provided, and these are housed in the housing 50 (see FIG. 1).

  The control unit 54 includes a CPU, a RAM, and the like, and performs overall control of the operation of the document camera 3 by operating according to a control program stored in the storage unit 55. That is, the control unit 54 functions as a computer together with the storage unit 55.

  The storage unit 55 is configured by a non-volatile memory such as a mask ROM, flash memory, or FeRAM. The storage unit 55 stores a control program for controlling the operation of the document camera 3, various setting data for defining the operation conditions of the document camera 3, and the like.

  The input operation unit 53 receives an input operation from the user and includes a plurality of operation keys for performing various instructions to the document camera 3. The operation keys provided in the input operation unit 53 include a “power key” for switching the power on and off, a “zoom key” for performing a zoom operation, and the like. When the user operates various operation keys of the input operation unit 53, the input operation unit 53 accepts this input operation and outputs an operation signal corresponding to the operation content of the user to the control unit 54.

  The imaging unit 52 is an imaging device (not shown) made up of a CCD (Charge Coupled Device) sensor, a CMOS (Complementary Metal Oxide Semiconductor) sensor, and the like, and imaging that forms an image of light reflected by the subject on the light receiving surface of the imaging device. A lens (not shown) is provided, and a rectangular range that substantially coincides with the entire area of the stage 50a can be imaged. A plurality of pixels (light receiving pixels) arranged in a matrix are formed on the light receiving surface of the image sensor, and the imaging unit 52 generates image information based on the amount of light received by each pixel at a predetermined frame rate. This image information is composed of a plurality of pixel values corresponding to all the pixels on the image sensor, and is imaged via a cable (not shown) wired inside the support arm 51 (see FIG. 1). The data are sequentially output to the processing unit 56 and the image analysis unit 58.

  The image processing unit 56 converts the image information input from the imaging unit 52 into image information in a format that can be used by the computer 1 based on an instruction from the control unit 54, and outputs the converted image information to the USB interface 57. To do. The USB interface 57 outputs the image information input from the image processing unit 56 to an external host device, that is, the computer 1. In the present specification, image information generated by the document camera 3 and output to the computer 1 is also referred to as “imaging information”.

  The image analysis unit 58 analyzes the captured image (captured image) based on the image information input from the imaging unit 52, and is assumed to be a character string (strictly speaking, a character string) included in the captured image. Detection). The character string is detected by, for example, analyzing the density distribution of the captured image.

FIG. 5 is a flowchart for explaining the operation of the document camera 3 and shows the operation when the image analysis unit 58 detects a character string in the captured image.
As illustrated in FIG. 5, when the image analysis unit 58 detects a character string in the captured image, the image analysis unit 58 determines whether the detected character string is connection information for network connection from the computer 1 to the projector 2. (Step S101). The image analysis unit 58 of the present embodiment can detect an IP (Internet Protocol) address as connection information, and the detected character strings are four sets of numeric strings separated by “. (Dot)”. In this case, the IP address is determined. When the image analysis unit 58 detects a character string in the captured image, the image analysis unit 58 extracts the detected character string from the captured image, and divides the part into a plurality of parts for each character based on shading connectivity. And the number of each part can be specified by comparing the shade pattern (shape) of each part after division | segmentation with the numerical pattern of 0-9 memorize | stored previously.

  If the image analysis unit 58 determines that the detected character string is an IP address, the computer 1 sends the detection information indicating that the IP address has been detected and the detected IP address from the USB interface 57 to the computer 1. (Step S102), and then the flow ends. On the other hand, if it is determined that the detected character string is not an IP address, the flow is terminated without outputting detection information or the like.

  The document camera 3 is configured as described above. When the user operates the power key of the input operation unit 53 to turn on the power, the document camera 3 starts imaging by the imaging unit 52, and the USB interface. Image information (imaging information) is output from 57. Thereafter, when the user places the paper P1 (see FIG. 6) on which the IP address of the projector 2 is placed on the stage 50a as a subject, the document camera 3 captures the paper P1 (IP address) by the imaging unit 52. Then, the image analysis unit 58 analyzes the captured image. When the IP address is detected by the image analysis unit 58, the document camera 3 outputs detection information and an IP address from the USB interface 57 to the computer 1.

Next, the operation of the computer 1 will be described.
When the computer 1 is turned on, the CPU 11 performs boot processing in accordance with the BIOS stored in the BIOS-ROM 19 to start up the OS stored in the hard disk drive 17 (read into the RAM 14). Start operation. Then, the CPU 11 instructs the video controller 15 to display a predetermined initial screen on the screen of the liquid crystal display 16.

  When the activation of the OS is completed, the computer 1 is in a state in which the application program can be activated, and the user can instruct activation of a desired application program by operating the keyboard 20, the touch pad 21, or the like. When the activation of the application program is instructed, the CPU 11 reads the instructed application program from the hard disk drive 17 into the RAM 14 and starts an operation according to the application program. In addition, when application programs that should be automatically started without being operated by the user are registered in the OS, the CPU 11 automatically starts these application programs after the startup of the OS is completed. Yes. In the present embodiment, the network connection program CP described above is registered as an application program that is automatically started. The network connection program CP of the present embodiment monitors the input of detection information from the document camera 3, and executes network connection with the projector 2 when detection information is input from the document camera 3. .

  FIG. 7 is a flowchart for explaining the operation of the computer 1 based on the network connection program CP, and FIGS. 8 to 11 are explanatory diagrams for explaining the operation of the computer 1. When detection information is input from the document camera 3 with the network connection program CP activated, the CPU 11 operates according to the flow shown in FIG.

  As shown in FIG. 7, when detection information is input from the document camera 3, the CPU 11 displays an operation selection window W1 (see FIG. 8) on the screen of the liquid crystal display 16 to select a desired operation by the user. (Step S111).

  As shown in FIG. 8, the operation selection window W1 includes a message indicating that an IP address has been detected, and a message asking whether to make a network connection to this IP address. Further, the operation selection window W1 includes two buttons, a button to be operated when the network connection is made (Yes button B1) and a button to be operated when the network connection is not made (No button B2). The user can select a desired operation by clicking on any button with the touch pad 21.

  Next, the CPU 11 determines whether or not to perform network connection to the IP address input together with the detection information based on the user selection result (step S112). When the user selects the No button B2, that is, when the network connection is not performed, the CPU 11 instructs the video controller 15 to delete the operation selection window W1 and the above-described captured image display program. The DP is activated (step S113), and the flow ends.

  When the captured image display program DP is activated, the CPU 11 instructs the video controller 15 to display a captured image display window W2 (see FIG. 9) on the screen of the liquid crystal display 16, and within the captured image display window W2. The captured image from the document camera 3 is displayed on the screen. As a result, paper (paper with an IP address) P1 placed on the stage 50a of the document camera 3 is displayed as a captured image in the captured image display window W2.

  On the other hand, when the user selects the Yes button B1 in the operation selection window W1, that is, when performing network connection, the CPU 11 performs network connection to the projector 2 based on the input IP address ( Step S114). Specifically, the CPU 11 notifies a connection request from the network interface 22 to the input IP address. Then, when the projector 2 notifies the computer 1 as a response to the connection request, the network connection between the computer 1 and the projector 2 is established.

  When the network connection is established, the CPU 11 instructs the video controller 15 to delete the operation selection window W1, and displays the tool bar W3 (see FIG. 10) on the liquid crystal display 16 (step S115). As shown in FIG. 10, the tool bar W3 includes various buttons such as a disconnect button B3 for disconnecting the network connection, and the user clicks these buttons to change the status of the network connection. And the projection state of the projector 2 can be controlled.

  Thereafter, the CPU 11 starts supplying image information to the projector 2 (step S116), and ends the flow. Thereafter, the CPU 11 sequentially captures images to be displayed on the liquid crystal display 16 by the video controller 15 and outputs the images as image information from the network interface 22 to the projector 2. As a result, as shown in FIGS. 11A and 11B, the image displayed on the liquid crystal display 16 is projected from the projector 2 onto the screen S. However, the network connection program CP is configured to capture an image that does not include the toolbar W3, and the image projected by the projector 2 does not include the toolbar W3. If the user activates the captured image display program DP separately, the captured image of the document camera 3 can be projected from the projector 2.

  As described above, according to the image display system 100 of the present embodiment, if the document camera 3 connected to the computer 1 captures connection information (IP address) for network connection with the projector 2, the computer 1 and the projector 2 are connected to the network. For this reason, network connection for supplying image information from the computer 1 to the projector 2 can be easily performed, and convenience is improved.

  In the present embodiment, the image analysis unit 58 that analyzes the captured image and detects connection information (IP address) corresponds to the connection information detection unit, and the USB interface 57 that outputs the detected IP address to the computer 1. This corresponds to a connection information output unit.

(Second Embodiment)
Next, an image display system according to the second embodiment will be described. In addition, the same code | symbol is attached | subjected to the component same as 1st Embodiment, and the detailed description is abbreviate | omitted.

  Similar to the first embodiment, the image display system 100 of the present embodiment includes a computer 1, a projector 2, and a document camera 3 (see FIG. 1), and the computer 1 and the projector 2 are the first one. The hardware configuration is the same as that of the embodiment (see FIGS. 2 and 3). However, the functions of the network connection program CP and the captured image display program DP installed in the hard disk drive 17 of the computer 1 of the present embodiment are not the same as those in the first embodiment. Also, as shown in FIG. 12, the document camera 3 of the present embodiment does not include the image analysis unit 58 (see FIG. 4) and cannot detect connection information (IP address). That is, the document camera 3 of the present embodiment is a general document camera, and outputs image information from the USB interface 57 but does not output detection information and an IP address. Instead, in this embodiment, the captured image display program DP has a function of detecting an IP address from the captured image.

  In the OS of the computer 1 of the present embodiment, the captured image display program DP is registered so as to be automatically started. When the startup of the OS is completed, the captured image display program DP is automatically started and resides. The CPU 11 monitors the input of image information from the document camera 3. When the CPU 11 detects the input of image information to the USB interface 23, the CPU 11 instructs the video controller 15 to display a captured image display window W2 on the screen of the liquid crystal display 16, and is input from the document camera 3. An image (captured image) based on the image information to be displayed is displayed in the captured image display window W2 (see FIG. 13). Thereby, the subject (for example, the material P2) placed on the stage 50a of the document camera 3 is displayed as a captured image. Furthermore, the captured image display program DP of the present embodiment causes the CPU 11 to analyze the captured image and detect a character string included in the captured image.

FIG. 14 is a flowchart for explaining the operation of the computer 1 based on the captured image display program DP of this embodiment, and shows the operation when the CPU 11 detects a character string in the captured image.
As illustrated in FIG. 14, when the CPU 11 performs the same analysis as the document camera 3 (image analysis unit 58) in the first embodiment and detects a character string in the captured image, the detected character string is converted into the computer 1. It is determined whether or not the connection information (IP address) for connecting to the projector 2 via the network (step S201). If it is determined that the detected character string is not an IP address, the flow ends.

  On the other hand, when it is determined that the detected character string is an IP address, that is, paper P1 (see FIG. 6) on which the IP address is written is placed on the stage 50a of the document camera 3, and this IP address is the CPU 11 If detected, the CPU 11 stores the detected IP address in the RAM 14. (Step S202). Then, the CPU 11 instructs the video controller 15 to display an operation selection window W1 (see FIG. 8) similar to that in the first embodiment on the screen of the liquid crystal display 16, and to allow the user to select a desired operation. (Step S203).

  Next, the CPU 11 determines whether or not to perform network connection to the input IP address based on the user selection result (step S204). When the user selects the No button B2, that is, when the network connection is not performed, the CPU 11 causes the video controller 15 to delete the operation selection window W1 and ends the flow.

  On the other hand, when the user selects the Yes button B1, that is, when performing network connection, the CPU 11 causes the video controller 15 to delete the operation selection window W1 and also stores the network connection program CP stored in the hard disk drive 17. Is started (step S205), and the flow is terminated. Thereafter, the CPU 11 operates according to the network connection program CP.

FIG. 15 is a flowchart for explaining the operation of the computer 1 based on the network connection program CP of the present embodiment.
As shown in FIG. 15, when the network connection program CP is activated, the CPU 11 executes network connection to the device (projector 2) having the detected IP address (step S211). Specifically, the CPU 11 reads the detected IP address from the RAM 14 and notifies the IP interface of a connection request from the network interface 22. Then, as a response to this connection request, when the projector 2 notifies the computer 1 that the connection is permitted, a network connection between the computer 1 and the projector 2 is established.

  When the network connection is established, the CPU 11 displays the tool bar W3 (see FIG. 10) on the liquid crystal display 16 (step S212).

  Thereafter, the CPU 11 starts supplying image information to the projector 2 via the network N (step S213), and ends the flow. Thereafter, the CPU 11 sequentially captures images to be displayed on the liquid crystal display 16 by the video controller 15 and transmits the images as image information from the network interface 22 to the projector 2. As a result, the image displayed on the liquid crystal display 16 is projected from the projector 2 onto the screen S as shown in FIG. In the present embodiment, since the captured image display window W2 is displayed on the liquid crystal display 16, the image projected from the projector 2 also includes the captured image display window W2. Since the user does not necessarily want to project the captured image of the document camera 3 from the projector 2, the captured image display window W2 is closed when the network connection program CP is started from the captured image display program DP in step S205 ( It may be deleted from the screen.

  As described above, according to the image display system 100 of the present embodiment, the same effects as those of the first embodiment can be obtained. In the present embodiment, the connection information (IP address) is detected not by the document camera 3 but by the computer 1, so that it is possible to use a general document camera 3 and an image display system. 100 is easily realized.

  In this embodiment, the USB interface 23 to which image information (imaging information) is input from the document camera 3 corresponds to an imaging information input unit, and when detecting connection information (IP address) from the captured image in step S201. The CPU 11 corresponds to a connection information detection unit. In step S211, the CPU 11 and the network interface 22 when performing network connection to the projector 2 correspond to a network connection unit, and the CPU 11 and the network interface 22 when supplying image information to the projector 2 output image information. It corresponds to the part.

(Modification)
In addition, you may change the said embodiment as follows.

  The program configuration (software configuration) in the above embodiment is not limited to the configuration described above. For example, the network connection program CP and the captured image display program DP may be integrated into one program, or the functions may be subdivided and configured with a larger number of programs.

  In the above-described embodiment, the configuration for detecting connection information (IP address) written as a character string (numerical string) is shown. However, an encoded (graphical) connection such as a barcode or a two-dimensional code is shown. The information may be detected and decoded.

  In the above-described embodiment, the IP address of the projector 2 is used as connection information for performing network connection. However, the connection information is not limited to the IP address as long as the connection target can be identified. For example, an individual name assigned to identify the projector 2 on the network N may be used.

  In the above embodiment, the network N is not limited to a wired network, and may be a wireless network such as a wireless LAN. At this time, the network connection between the computer 1 and the projector 2 may be a connection via an access point (infrastructure mode) or a connection without an access point (ad hoc mode).

  In the above embodiment, the document camera 3 is connected to the computer 1 and the computer 1 is connected to the projector 2 via the IP address of the projector 2 imaged by the document camera 3. However, the document camera 3 is connected to the projector 2. It is also possible to connect to the computer 1 from the projector 2 using the IP address of the computer 1 captured by the document camera 3.

  In the above embodiment, the three-plate projector 2 using the three liquid crystal light valves 32R, 32G, and 32B as the light modulation device has been described. However, the configuration of the projector 2 is not limited to this. For example, it is possible to form an image with one liquid crystal light valve that includes sub-pixels that can transmit R light, G light, and B light in each pixel.

  In the above-described embodiment, the transmissive liquid crystal light valves 32R, 32G, and 32B are used as the light modulation device of the projector 2, but a reflective light modulation device such as a reflective liquid crystal light valve can also be used. is there. In addition, it is possible to use a micromirror array device that modulates light emitted from a light source by controlling the emission direction of incident light for each micromirror as a pixel.

  In the above embodiment, the light source 31 of the projector 2 is configured by the discharge-type light source lamp 31a. However, a solid light source such as an LED (Light Emitting Diode) light source or other light sources may be used.

  In the above embodiment, as an example of an image supply device, a notebook personal computer (computer 1) integrally provided with display means (liquid crystal display 16), input means (keyboard 20), and pointing device (touch pad 21). Although described, the image supply device is not limited to a notebook personal computer. For example, a personal computer having a configuration in which all or a part of a display unit, an input unit, and a pointing device are externally attached, such as a desktop personal computer, may be used. Further, as long as it has a configuration capable of supplying image information via the network N, it may be a device other than a personal computer (such as a video playback device).

  In the above embodiment, the document camera 3 has been described as an example of the imaging device. However, the imaging device is not limited to the document camera 3, and other imaging devices such as a video camera and a scanner may be used.

  DESCRIPTION OF SYMBOLS 1 ... Computer, 2 ... Projector, 3 ... Document camera, 11 ... CPU, 12 ... North bridge, 13 ... South bridge, 14 ... RAM, 15 ... Video controller, 16 ... Liquid crystal display, 17 ... Hard disk drive, 18 ... Optical disk drive 19 ... BIOS-ROM, 20 ... keyboard, 21 ... touch pad, 22 ... network interface, 23 ... USB interface, 30 ... image projection unit, 31 ... light source, 31a ... light source lamp, 31b ... reflector, 32R, 32G, 32B DESCRIPTION OF SYMBOLS ... Liquid crystal light valve, 33 ... Projection lens, 34 ... Light valve drive part, 40 ... Control part, 41 ... Memory | storage part, 42 ... Input operation part, 43 ... Network communication part, 44 ... Image processing part, 45 ... Case, 50 ... Case, 50a ... Stage, 51 ... Support 52 ... Imaging unit, 53 ... Input operation unit, 54 ... Control unit, 55 ... Storage unit, 56 ... Image processing unit, 57 ... USB interface, 58 ... Image analysis unit, 100 ... Image display system, N ... Network, P1 ... paper, P2 ... document, S ... screen, CP ... network connection program, DP ... captured image display program, W1 ... motion selection window, W2 ... captured image display window, W3 ... tool bar, B1 ... Yes button, B2 ... No Button, B3 ... Disconnect button.

Claims (9)

A projector that projects an image based on image information, an image supply device that supplies the image information to the projector via a network, an imaging device that is connected to one of the projector and the image supply device, An image display system comprising:
The imaging device captures connection information for network connection of the one device to the other device,
The one apparatus is network-connected to the other apparatus based on the connection information captured by the imaging apparatus. The image display system according to claim 1,
The image display system, wherein the connection information is an IP address of the other device. An image display system comprising: a projector that projects an image based on image information; an image supply device that supplies the image information to the projector via a network; and an imaging device connected to the image supply device,
The imaging device captures connection information for the image supply device to connect to the projector via a network,
The image supply device is configured to connect the projector to a network based on the connection information captured by the imaging device and supply the image information to the projector. The image display system according to claim 3,
The image display system, wherein the connection information is an IP address of the projector. The image display system according to claim 3 or 4,
The imaging device detects the connection information from the captured image and outputs the connection information to the image supply device;
The image supply system, wherein the image supply device performs network connection to the projector based on the connection information input from the imaging device. The image display system according to claim 3 or 4,
The image supply system detects the connection information from an image captured by the imaging device, and performs network connection to the projector based on the detected connection information. An imaging device connected to any one of a projector that projects an image based on image information and an image supply device that supplies the image information to the projector via a network,
An imaging unit that images a subject and generates imaging information;
A connection information detection unit for detecting connection information for network connection of the one device to the other device from a captured image based on the imaging information;
A connection information output unit that outputs the connection information detected by the connection information detection unit to the one device;
An imaging apparatus comprising: An image supply device connected to a projector that projects an image based on image information via a network, and connected to an imaging device that images a subject and generates imaging information,
An imaging information input unit to which the imaging information is input from the imaging device;
A connection information detection unit for detecting connection information for network connection to the projector from a captured image based on the imaging information;
A network connection unit that performs network connection to the projector based on the connection information when the connection information detection unit detects the connection information;
An image information output unit that outputs the image information to the projector connected to the network via the network;
An image supply apparatus comprising: A computer connected to a projector that projects an image based on image information via a network, and connected to an imaging device that captures an image of a subject and generates imaging information.
A connection information detection step of detecting connection information for network connection to the projector from a captured image based on the imaging information input from the imaging device;
A network connection step of performing network connection to the projector based on the connection information when the connection information is detected in the connection information detection step;
An image information output step of outputting the image information to the projector connected to the network via the network;
A program that executes

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