JP3603583B2 - Document presentation device - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a material presentation device for converting a material such as a document or a three-dimensional object into a video signal in order to project the material on a screen of a monitor device or a screen via a projector or the like.
[0002]
[Prior art]
As audio-visual equipment used for conferences and lectures, a material (subject) is placed on a flat stage, and images are taken from above while projecting with a lighting device, and the material (subject) is displayed on the screen of a monitor device. 2. Description of the Related Art A document presenting apparatus for causing a document to be projected on a screen or the like with a projector has been used.
[0003]
FIG. 4 is an external view of a conventional document presentation device. The conventional material presentation device 101 includes a stage 2 on which a subject O such as a material is placed. Above the stage 2, an imaging unit 3 having a CCD imaging device is provided on the apparatus main body via a mounting arm 4. Reference numerals 5a and 5b denote illumination devices for illuminating the subject O, and generally, a fluorescent lamp or the like is used.
[0004]
FIG. 5 is a block diagram of a conventional document presentation device. The conventional document presentation device includes an optical block 11, an imaging circuit 12, a video signal processing circuit 13, an encoder 14, an output terminal 15, a control circuit 16, a CPU 17, and an operation unit 18. . The operation unit 18 includes a zoom adjustment button 18a and a focus adjustment button 18b.
[0005]
The optical block 11 includes an optical lens, an optical filter, a zoom adjustment mechanism, a focus adjustment mechanism, an iris adjustment mechanism, and the like, and forms an image of a subject on a CCD imaging device in the imaging circuit 12. The imaging circuit 12 includes a CCD imaging device, a CCD driving circuit, a sampling circuit, a preamplifier, and the like, and converts optical information formed on the CCD imaging device into a video signal and outputs the video signal. The video signal is supplied to the video signal processing circuit 13. The optical block 11 and the imaging circuit 12 constitute the imaging section 3 shown in FIG.
[0006]
The video signal processing circuit 13 performs various processes such as non-linear processing, luminance signal processing, color signal processing, and image quality correction processing on the video signal output from the imaging circuit 12, and outputs a color difference signal (or RGB signal). The color difference signal (or RGB) is supplied to the encoder 14. The encoder converts the color difference signal (or RGB signal) into a composite video signal and outputs the composite video signal to the output terminal 15. The control circuit 16 generates various control signals, timing signals, synchronization signals, and the like, and supplies them to the respective units 11 to 14. The CPU 17 controls the overall operation of the document presentation device based on an operation input from the operation unit 18.
[0007]
The subject image incident from the optical block 11 is converted into an electric signal after being formed on a CCD image pickup device in the image pickup circuit 12, and is output as a video signal via a sampling circuit and a preamplifier. The video signal processing circuit 13 performs non-linear processing, image quality correction processing, luminance signal processing, and color signal processing (in the case of a single-chip CCD system) on the video signal, and outputs a color difference signal (or RGB signal). The encoder 14 converts the color difference signal (or RGB signal) into a composite video signal and outputs the composite video signal to the output terminal 15. The control circuit 16 supplies control signals such as zoom adjustment and focus adjustment to the optical block 11, and also supplies a timing signal and a synchronization signal to the imaging circuit 12, the video signal processing circuit 13, and the encoder 14.
[0008]
By supplying the composite video signal output from the output terminal 15 to the monitor device, an image of the subject can be displayed on the screen of the monitor device. Further, by supplying the composite video signal to the projector device, the video of the subject can be projected on the screen. Further, by inputting the composite video signal to a personal computer or the like via an image input device (or an image input board), image data processing or the like can be performed.
[0009]
FIG. 6 is a block diagram of another conventional material presentation device. The material presentation device shown in FIG. 6 stores a captured image of a subject in a frame memory, and can output the stored image. For this reason, the document presentation device shown in FIG. 6 is different from that shown in FIG. 5 in that an A / D conversion circuit 19, a frame memory 20, a D / A conversion circuit 21, and an output switch circuit 22 are added. Have been. The operation unit 18 has a recording button 18c and an output selection button 18d.
[0010]
By operating the recording button 18c, the video signal output from the video signal processing circuit 13 is converted into a digital video signal by the A / D conversion circuit 19 and stored in the frame memory 20. By operating the output selection button 18d, the digital video signal stored in the frame memory 20 is converted into an analog video signal by the D / A conversion circuit 21 and supplied to the encoder 14 via the output changeover switch circuit 22. At 14, it is converted into a composite video signal and output from an output terminal 15.
[0011]
In addition, in the conventional document presentation device, by operating an input selection button, a video signal input to an input terminal of the device and a video signal captured by an imaging unit are switched by output switching, and are selected and output from an output terminal to an external device. Also known are those configured to project images on monitors, screens, and the like.
[0012]
[Problems to be solved by the invention]
(1) When a video taken by a material presentation device is taken into a personal computer Since the video output of a conventional material presentation device is an analog signal, an image input device (image input board) or the like is connected to the personal computer, and the analog signal is output. It is necessary to convert a video signal into a digital video signal before capturing it. For this reason, there are problems that the setting of the device is difficult for a beginner of the personal computer, and the wiring to be connected and the image input device itself are obstructive.
[0013]
(2) When the content of the material to be presented is determined each time Since the conventional material presentation device outputs the video taken by the imaging unit as it is, when the subject to be presented is changed, the subject on the stage is replaced each time. There is a need. In addition, even in the case where material presentation along a series of flows is performed a plurality of times, it is necessary to exchange subjects in the same procedure each time. As described above, in the conventional material presentation device, the material to be the subject is always required.
[0014]
(3) In the case of a material presenting device equipped with only a frame memory circuit In the conventional material presenting device, the number of screens that can be recorded is limited by the storage capacity of the frame memory. Therefore, the number of screens that can be recorded is one or several. Further, when the power supply of the material presentation device is turned off, the recorded contents are erased.
[0015]
SUMMARY OF THE INVENTION The present invention has been made to solve such a problem, and it is possible to store a video image captured by an imaging unit in an external storage medium and output an image stored in the external storage medium. In addition, it is possible to easily supply image data to a personal computer, etc., eliminate restrictions on the number of images that can be recorded, enable long-term recording of images, and store materials in external storage media in advance. Therefore, it is an object of the present invention to provide a material presentation device which enables presentation of materials without preparing materials and facilitates presentation of materials along a series of flows.
[0016]
[Means for Solving the Problems]
In order to solve the above problems, a document presentation device according to the present invention includes an imaging unit that captures an image of a subject such as a document placed on a stage, a support unit that supports the imaging unit, and a presentation unit that is provided on the stage. An opening for loading an external storage medium capable of storing an image to be stored, an input unit for receiving an image to be presented from an external device, and an image captured from the input unit mounted on the opening. A transfer circuit for transferring data to an external storage medium, and an output unit for reading and outputting a video stored in the external storage medium attached to the opening are provided.
[0017]
The document presentation device according to the present invention has a configuration in which a digital video signal can be transferred between the storage circuit and a removable (removable / portable) external storage medium. The digital image can be supplied to a personal computer or the like via an external storage medium. Further, a large number of images can be stored in the external storage medium without being limited by the storage capacity of the storage circuit. Therefore, if the image of the subject is captured in advance and stored in the external storage medium, the material can be presented without the subject thereafter. Therefore, it is easy to present materials according to a series of flows.
[0018]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. FIG. 1 is an external view of a document presentation device according to the present invention. The material presentation device 1 according to the present invention is provided with an insertion slot 6 for a card-type external storage medium 10 in the conventional material presentation device 101 shown in FIG. Further, the material presentation device 1 according to the present invention adds a record button 7a, a page forward button 7b, a page reverse button 7c, an output selection button 7d, and respective indicators 8a and 8b to the operation / display unit 7. It becomes.
[0019]
When the recording button 7a is pressed with the external storage medium 10 attached to the insertion slot 6, one frame of a still image is recorded on the external storage medium 10. During the recording operation to the external storage medium 10, the fact is displayed on the display 8a. When the page forward button 7b or the page reverse button 7c is pressed, the image data recorded on the external storage medium 10 is read. The page to be read is displayed on the display 8b, and during reading, the fact is displayed on the display 8a. When the output selection button 7d is pressed, a video signal of a still image read from the external storage medium 10 is output. In the present embodiment, the display 8b is configured using a two-digit seven-segment light-emitting diode so that a maximum of 99 pages (99 images) can be designated. The maximum number of pages is limited by the recording capacity of the external storage medium 10. When an image of 99 pages or more can be recorded by using the external storage medium 10 having a large recording capacity, the display 8b for displaying a page is configured accordingly.
[0020]
By supplying the output video signal to a monitor device or a projector device (not shown), the video signal can be displayed on the screen of the monitor device or projected on the screen. Further, the external storage medium 10 on which the still image is recorded can be inserted into a PC card slot of a personal computer (not shown), and the personal computer can process image data. Further, by operating the page buttons 7b and 7c using the external recording medium 10 on which a plurality of still images are recorded, a series of still images are sequentially displayed on the screen of the monitor device, or the screen is displayed via the projector device. It can be displayed sequentially on top.
[0021]
FIG. 2 is a block diagram of the document presentation device according to the present invention. The data presentation device 1 according to the present invention is different from the conventional data presentation device shown in FIG. 5 in that a conversion circuit 23, an inverse conversion circuit 24, a transfer circuit 25, a clock generation circuit 26, a transfer control A circuit 27 and a compression / expansion circuit 28 are added. In addition to the zoom adjustment and focus adjustment buttons 18a and 18b, buttons 7a to 7d for recording, forward feed, reverse feed, and output selection, and indicators 8a and 8b are connected to the CPU 17 for controlling the entire operation. .
[0022]
The color difference signal (or RGB signal) output from the video signal processing circuit 13 is supplied to one input terminal of the output switch circuit 22 and the conversion circuit 23, respectively.
The conversion circuit 23 converts the color difference signals into RGB signals. The RGB signals are supplied to the A / D conversion circuit 19. When the video signal processing circuit 13 outputs RGB signals, the RGB signal output from the video signal processing circuit 13 is directly supplied to the A / D conversion circuit 19 without providing the conversion circuit 23. .
[0023]
The A / D conversion circuit 19 A / D converts an RGB signal (RGB analog signal) and outputs a digital video signal (RGB digital signal). The frame memory 20 stores a digital video signal for one frame. The frame memory 20 is configured using a semiconductor memory. The D / A conversion circuit 21 D / A converts the digital video signal (RGB digital signal) read from the frame memory 20 and outputs an RGB signal (RGB analog signal).
[0024]
The RGB signals (RGB analog signals) output from the D / A conversion circuit 21 are supplied to the inverse conversion circuit 24. The inverse conversion circuit 24 converts an RGB signal (RGB analog signal) into a color difference signal. The color difference signal output from the inverse conversion circuit 24 is supplied to the encoder 14 via the output switch circuit 22. The encoder 14 converts a color difference signal (a color difference signal output from the video signal processing circuit 13 or a color difference signal output from the inverse conversion circuit 24) selected and switched by the output switch circuit 22 into a composite video signal, and outputs the composite video signal. 15 is output.
[0025]
When the encoder 14 is configured to convert an RGB signal (RGB analog signal) into a composite video signal, the RGB signal (RGB analog signal) output from the D / A conversion circuit 21 without providing the inverse conversion circuit 24 is provided. Is supplied to the encoder 14 via the output changeover switch circuit 22.
[0026]
If the video signal processing circuit 13 outputs a digital video signal (RGB digital signal) and the encoder 14 converts the digital video signal (RGB digital signal) into a composite video signal, the conversion circuit 23 and the A / The digital video signal output from the video signal processing circuit 13 is directly supplied to the frame memory 20 without the D conversion circuit 19, and the D / A conversion circuit 21 and the inverse conversion circuit 24 are not provided. The digital video signal read from the digital video signal 20 is supplied to the encoder 14 via the output switch circuit 22.
[0027]
Further, when the video signal processing circuit 13 outputs a digital color difference signal and the encoder 14 converts the digital color difference signal into a composite video signal and outputs it, the digital color difference signal output from the video signal processing circuit 13 is output. The conversion circuit 23 converts the RGB digital signal into an RGB digital signal and supplies it to the frame memory 20, and converts the RGB digital signal read from the frame memory 20 into a digital color difference signal by the inverse conversion circuit 24, and outputs the converted signal through the output switch circuit 22. It is configured to supply to the encoder 14.
[0028]
In the present embodiment, the configuration example in which the video signal stored in the frame memory 20 is an RGB digital signal is shown. However, the video signal stored in the frame memory 20 does not need to be limited to the RGB digital signal. For example, the memory 20 may be configured to store a digital color difference signal.
[0029]
The transfer circuit 25 transfers image data between the frame memory 20 and the external storage medium 10. The clock generation circuit 26 generates a reference clock based on the synchronization signal supplied from the control circuit 16. The reference clock is supplied to the transfer control circuit 27. Note that a configuration may be employed in which the clock signal generation circuit 26 generates a synchronization signal and supplies the generated synchronization signal to the imaging circuit 12 and the video signal processing circuit 13.
[0030]
The compression / decompression circuit 28 performs compression and decompression operations when compressing and recording image data on the external storage medium 10 and when decompressing compressed image data read from the external storage medium 10. When the RGB digital signals recorded in the frame memory 20 are transferred to the external storage medium 10 without compression, the video signal data recorded in the external storage medium 10 is in a bitmap format. By providing the compression / decompression circuit 28 with, for example, a JPEG-format compression / decompression circuit, it is possible to record JPEG-format image data on the external storage medium 10. By compressing the image data, the number of images that can be stored in the external storage medium 10 can be increased. Recording and reproduction may be performed in a data format other than the JPEG format. When the image data is not compressed and recorded on the external storage medium 10, the compression / expansion circuit 28 is unnecessary.
[0031]
As the external storage medium 10, a PCMCIA-compliant PC card such as a flash ATA card or a hard disk card can be used. The external storage medium 10 may be another memory card. Further, the external storage medium 10 may be another recording medium such as a compact flash (registered trademark), a smart media (registered trademark), or a floppy disk.
[0032]
When the transfer circuit 25 detects that the external storage medium 10 is mounted, it supplies the medium controllable information to the transfer control circuit 27. The transfer control circuit 27 relays the media accessible information to the CPU 17. When recognizing that the external storage medium 10 is mounted on the basis of the medium accessible information, the CPU 17 reads the recording data of the external storage medium 10 via the transfer control circuit 27 and the transfer circuit 25, and Recognize the total capacity, recorded capacity, number of recorded images (number of recorded pages), recorded area, and the like.
[0033]
Next, an operation when the video signal captured by the imaging unit 3 is recorded in the external storage medium 10 will be described. When the recording button 7a of the operation / display unit 7 is pressed, the CPU 17 supplies a recording request to the transfer control circuit 27. The transfer control circuit 27 generates an A / D conversion timing signal based on the reference clock supplied from the clock generation circuit 26 and supplies it to the A / D conversion circuit 19, and also generates a write address signal and a write timing signal. To the frame memory 20. Thus, the video signal for one frame captured by the imaging unit 3 is converted into a digital video signal (RGB digital signal) and stored in the frame memory 20.
[0034]
After storing one frame of video in the frame memory 20, the CPU 17 designates a file name including the number of pages obtained by adding +1 to the number of images (recorded pages) already recorded on the external storage medium 10, and performs transfer control. The file name is recorded in the external storage medium 10 via the circuit 27 and the transfer circuit 25, and a write request including the write start address of the external storage medium 10 is supplied to the transfer control circuit 27. After supplying the write start address to the transfer circuit 25, the transfer control circuit 27 generates a read address signal and a read timing signal for the frame memory 20, and outputs a digital video signal (RGB) for one frame stored in the frame memory 20. Digital signals).
[0035]
The transfer circuit 25 sequentially writes the digital video signals (RGB digital signals) read from the frame memory 20 to the external storage medium 10 from a designated write address. As a result, a digital video signal (RGB digital signal) for one frame is transferred. While transferring the video data, the CPU 17 causes the display 8a to display that the video data is being transferred.
[0036]
When recording / reproduction in, for example, the JPEG format is set by a setting switch or the like (not shown), the transfer circuit 25 converts the digital video signal (RGB digital signal) read from the frame memory 20 into a compression / decompression circuit 28. To compress the image data, and record the compressed data output from the compression / expansion circuit 28 on the external storage medium 10.
[0037]
Next, an operation of reading image data stored in the external storage medium 10, converting the read image data into a composite video signal, and outputting the composite video signal will be described. When a page is designated by operating each of the page feed buttons 7b and 7c, the CPU 17 causes the file information and the video signal data of the corresponding page to be read from the external storage medium 10 via the transfer control circuit 27 and the transfer circuit 25. At the same time, the read video signal data is written to the frame memory 20. The CPU 17 displays on the display 8a that the data is being transferred during the data transfer.
[0038]
When recording / playback in, for example, the JPEG format is set by the read file information, the transfer circuit 25 supplies the compressed data read from the external storage medium 10 to the compression / decompression circuit 28, and The decompression process is performed, and the decompressed digital video signal (RGB digital signal) output from the compression / decompression circuit 28 is written into the frame memory 20.
[0039]
When detecting that the output selection button 7d has been operated, the CPU 17 switches the output selection switch circuit 22 to the solid line side in the drawing via the control circuit 16. Further, the CPU 17 causes the digital video signal (RGB digital signal) to be repeatedly read at a predetermined cycle (for example, 30 frames per second) from the frame memory 20 via the transfer control circuit 27, and the digital video signal (RGB digital signal) is read. A D / A conversion timing signal synchronized with the reading is supplied to the D / A conversion circuit 21, and the D / A conversion circuit 21 outputs an RGB analog signal. The RGB analog signal is converted into a color difference signal by an inverse conversion circuit 24, supplied to an encoder 14 via an output switch circuit 22, converted into a composite video signal by the encoder 14, and output from an output terminal 15. Thereby, the image data read from the external storage medium 10 can be displayed as a still image on a screen of a monitor device (not shown), or can be projected and displayed on a screen via a projector.
[0040]
FIG. 3 is a block diagram showing another embodiment of the material presenting apparatus according to the present invention.
3 is different from the block diagram of FIG. 2 in that an input terminal 30, an output changeover switch circuit 31, a decoder 32, a changeover switch circuit 33, a changeover switch circuit 34 and an input / selection button 7e are added to the operation / display section 7. .
[0041]
In FIG. 3, a video signal (for example, CVTR, TV video, etc.) supplied to the input terminal 30 is converted into a synchronizing signal and an RGB signal via a decoder 32, and the synchronizing signal is switched by a manipulation of an input selection button 7e. The clock signal is supplied to the clock generation circuit 26 via a dotted line 33 (indicated by a broken line). On the other hand, the RGB signals are supplied to the A / D conversion circuit 19 via the changeover switch 34 (indicated by a broken line). The details of recording and reproduction to and from the external storage medium 10 thereafter are the same as those described with reference to FIG.
In this manner, an arbitrary video signal supplied to the input terminal 30 can be stored in the external storage medium 10.
[0042]
【The invention's effect】
As described above, the document presentation device according to the present invention has a configuration in which a digital video signal can be transferred between the storage circuit and a removable (removable and portable) external storage medium. The digital image of the subject captured in the above can be supplied to a personal computer or the like via an external storage medium. Further, a large number of images can be stored in the external storage medium without being limited by the storage capacity of the storage circuit. Therefore, if the image of the subject is captured in advance and stored in the external storage medium, the material can be presented without the subject thereafter. Therefore, it is easy to present materials according to a series of flows.
[Brief description of the drawings]
FIG. 1 is an external view of a material presenting device according to the present invention. FIG. 2 is a block diagram of a material presenting device according to the present invention. FIG. 3 is a block diagram of another embodiment of the material presenting device according to the present invention. 4: External view of a conventional material presenting device [FIG. 5] Block diagram of a conventional material presenting device [FIG. 6] Block diagram of another conventional material presenting device [Description of symbols]
DESCRIPTION OF SYMBOLS 1 ... Material presentation apparatus, 2 ... Stage, 3 ... Image pick-up part, 4 ... Mounting arm, 5a, 5b ... Lighting device, 6 ... External storage medium insertion opening, 7 ... Operation / display part, 7a ... Recording button, 7b ... Page forward button, 7c ... Page reverse button, 7d ... Record button, 8a ... Transfer status display, 8b ... Page information display, 10 ... External storage medium, 11 ... Optical block constituting imaging unit, 12 ... 13: video signal processing circuit, 14: encoder, 15: output terminal, 16: control circuit, 17: CPU, 19: A / D conversion circuit, 20: frame memory (digitized signal) , D / A conversion circuit, 22 output switching circuit, 23 conversion circuit, 24 inverse conversion circuit, 25 transfer circuit, 26 black Click generation circuit, 27 ... transfer control circuit, 28 ... decompression circuit, O ... subject.

Claims (2)

In a document providing apparatus for capturing an image of a subject such as a material placed on a stage and projecting the captured image of the subject on a monitor, a screen, or the like,
An imaging unit for imaging an object such as a material placed on the stage, a support unit for supporting the imaging unit, and an external storage medium provided on the stage and capable of storing a video to be presented are loaded. An opening that enables the image to be presented, an input unit that captures an image to be presented from an external device, a transfer circuit that transfers the image captured from the input unit to an external storage medium mounted in the opening, An output unit for reading and outputting a video stored in the external storage medium mounted on the unit. Article providing apparatus according to claim 1, further comprising a means for selecting an image to be presented, which is stored in the video or the external storage medium has been taken into the input unit.

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