JP4635545B2 - Camera device, image recording method, program, and document camera - Google Patents

Description

The present invention relates to a camera device , an image recording method, a program, and a document camera that supply image information obtained by photographing a document or the like to a projector or the like.

  In recent years, in presentations and meetings, documents (characters, charts, etc.) stored as data in a personal computer (hereinafter referred to as PC) are enlarged and projected on a screen using a projector. In addition, when using a projector, when projecting handwritten manuscripts (newspapers, magazine articles, presentation papers, etc.) or three-dimensional materials, that is, non-digital information materials, in addition to the above documents, they are generally used. Images are taken by a digital camera, converted into image data, and then input to a PC or directly input to a projector.

A so-called document camera is used for digitizing a document original. As described in Patent Document 1, for example, a document camera is integrally provided with a camera unit on a camera stand having a document table on which written materials are placed, and the camera unit includes a photographing lens, a CCD, and a MOS. In general, an image sensor of a type and various electronic circuits for processing an image signal are incorporated.
Japanese Patent Laid-Open No. 11-205649

  However, the conventional document camera is suitable as a camera for photographing a document document placed on a document table, but is not suitable for photographing a presentation image by carrying it, for example. There has been a problem that the range of use is mainly limited to photographing document originals. On the other hand, a general digital camera is convenient for converting (digitizing) any of the above-mentioned non-digital information materials into image data, but it aims to shoot the object to be photographed "faithfully and neatly". Therefore, an image obtained by shooting was not necessarily suitable as a presentation material. Therefore, it cannot be said that the function is sufficient as a device for acquiring presentation materials.

The present invention has been made in view of such conventional problems, and is a camera device that can be used as a document camera and can easily acquire a photographed image suitable for acquisition of materials for presentation, It is another object of the present invention to provide a document camera including the camera device and an image recording method and program capable of easily acquiring a photographed image suitable for acquisition of presentation materials.

In order to solve the above-mentioned problems, the invention of claim 1 is a camera device having an imaging means having an optical system having a zoom function that is detachable from a camera stand, and is used for taking a document when the camera device is used alone. A business camera function for performing suitable image processing; a region specifying unit for specifying a quadrangular region existing in an image based on a contour extraction process for an image captured by the image capturing unit at the time of image capturing by the business camera function; Magnification adjusting means for adjusting the rectangular area specified by the specifying means to an appropriate magnification for enlarging to a predetermined size in the image, and a shape for correcting an image captured at the appropriate magnification adjusted by the magnification adjusting means into a rectangle Correction processing, color adjustment processing for unifying similar colors in the image after correction by the shape correction processing, and single similar colors by the color adjustment processing A density adjustment process for adjusting the density of the obtained image, an image processing means for performing image processing on the image captured by the imaging means in the order of a shape correction process, a color adjustment process, and a density adjustment process; and the image processing means An image recording means for recording an image generated through the plurality of image processing by the above, a connection portion for ensuring an electrical connection state with the camera stand when attached to the camera stand, and attachment to the camera stand In some cases, it includes a function of outputting an image without deforming it.

In such a configuration, an arbitrary subject other than the document original can be easily photographed by removing it from the camera stand as necessary. In addition, a subject image acquired by photographing can be recorded in a state in which various image processes are performed.
In addition, the zoom magnification is set so that the rectangular area existing in the subject is a predetermined size.
Because it is automatically adjusted to the appropriate magnification to enlarge, high resolution without requiring complicated operations
Can be recorded in degrees.

In the invention of claim 2 , preliminary operation means for a user to perform a preliminary shooting operation prior to a shooting operation, and in response to the preliminary shooting operation by the preliminary operation means, In addition to specifying a rectangular area, the magnification adjusting means includes control means for adjusting the zoom magnification of the optical system to an appropriate magnification.

  In such a configuration, since the zoom magnification is automatically adjusted only when a shooting preliminary operation is performed, useless zoom magnification changing operation can be eliminated.

According to a third aspect of the present invention, the preliminary operation means is a photographing instruction means in which a user gives a photographing instruction by a two-stage operation including a photographing preliminary operation and a photographing operation.

  In such a configuration, the user can record an image of a rectangular area existing on the subject with a high resolution without requiring a complicated operation by an extremely simple operation.

According to a fourth aspect of the present invention, in a plurality of image processing performed in a predetermined order by the image processing means, the zoom magnification of the optical system is adjusted to an appropriate magnification by the magnification adjusting means. It was performed on the image picked up by the image pickup means.

  In such a configuration, the image of the rectangular area existing in the subject can be automatically corrected to the state when the subject is photographed from the front, and the main image information can be revealed.

In addition, in the invention of claim 5, the camera stand is detachably attached to the camera stand, and when the camera stand is attached to the connecting portion for securing an electrical connection state with the camera stand, the image is displayed. A method of recording an image captured by an imaging unit in a camera apparatus having a function of outputting without deformation processing and an imaging unit having an optical system having a zoom function, and photographing a document when the camera unit is used alone A region specifying step for specifying a quadrangular region existing in an image based on a contour extraction process for an image captured by the image capturing unit, and a region specifying step A magnification adjustment step for adjusting the square area thus formed to an appropriate magnification for enlargement to a predetermined size in the image, and adjustment by the magnification adjustment step. A shape correction step of correcting the image captured at the appropriate magnification into a rectangle, a color adjustment step of unifying similar colors in the image corrected by the shape correction step, and a similar color by the color adjustment step. An image processing process for adjusting the density of the unified image, and an image processing process for the image captured by the imaging unit in the order of a shape correction process, a color adjustment process, and a density adjustment process, and And an image recording step of recording an image generated through a plurality of image processes.

  According to such a method, the subject image acquired by photographing can be recorded by performing various image processing.

In the invention of claim 6, the camera stand is detachable, and a connecting portion that secures an electrical connection state between the camera stand and the camera stand is attached to the camera stand. Documents by business camera function that performs image processing suitable for document shooting in a computer with a camera device having a function of outputting without deformation processing and an imaging means having an optical system with a zoom function. At the time of shooting, a procedure for specifying a square area existing in the image based on the contour extraction process for the image taken by the imaging means, and an adjustment to an appropriate magnification for enlarging the specified square area to a predetermined size in the image , A procedure for correcting an image captured at an adjusted appropriate magnification into a rectangle, and a procedure for unifying similar colors in the corrected image The procedure for adjusting the density of an image in which similar colors are unified and the procedure for an image captured by the imaging means are in the order of a procedure for correcting the shape, a procedure for adjusting the color, and a procedure for adjusting the density. A program for executing a procedure for processing an image to be performed and a procedure for recording an image generated through the plurality of image processes.

The invention according to claim 7 is a document camera comprising the digital camera according to any one of claims 1 to 4 and a camera stand to which the digital camera is detachably mounted, wherein the camera The stand is electrically connected to the connection portion of the attached digital camera and includes an output unit that outputs image data output from the connection portion to an external device.

  In such a configuration, it is possible to supply an image captured by a digital camera and recorded in a state where various kinds of image processing are performed to an external device via the camera stand.

  As described above, in the camera device of the present invention, it is possible to easily shoot any subject other than the document original by removing it from the camera stand as necessary, and the subject image obtained by the shooting is It was made possible to record the image after various image processing. Therefore, it can be used as a document camera and a captured image suitable as a presentation material can be easily acquired. As a result, it is possible to ensure a sufficient function as a device for acquiring presentation materials.

  In addition, since the zoom magnification is automatically adjusted to an appropriate magnification for enlarging the rectangular area existing in the subject to a predetermined size, it is possible to record at a high resolution without requiring a complicated operation. did. Therefore, it is possible to easily acquire a high-quality captured image suitable as a presentation material.

  In addition, since the zoom magnification is automatically adjusted only when there is a shooting preliminary operation, it is possible to eliminate unnecessary zoom magnification changing operation. Therefore, useless power consumption can be eliminated.

  In addition, the user can record an image of a rectangular area existing in the subject with a high resolution without requiring a complicated operation by an extremely simple operation. This also makes it possible to obtain a captured image suitable as a presentation material more easily.

  In addition, the image of the rectangular area existing in the subject is automatically corrected to the state when the subject is photographed from the front, and the main image information can be made obvious. Therefore, it is possible to easily obtain an extremely high quality captured image suitable as a presentation material.

  Further, in the image recording method of the present invention, the subject image obtained by photographing can be recorded by performing various image processing, so that a photographed image suitable as a document for presentation can be easily obtained. It becomes.

  Hereinafter, an embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a configuration diagram of an imaging projection system including a document camera system according to the present invention.

  This imaging / projection system includes a document camera 1 for photographing a document original A and the like, a PC (personal computer) 2, and a projector (projection device) 3. The document camera 1 and the PC 2 are connected by a first USB cable 4, and the PC 2 and the projector 3 are connected by a second USB cable 5 and an RGB cable 6. The projector 3 is provided with an infrared remote control unit (hereinafter referred to as an infrared remote controller) 7 that can be operated from a remote location. Details of each of the document camera 1, the PC 2, and the projector 3 will be described below.

(Document camera)
The document camera 1 includes a camera stand 11 and a digital camera 51 detachably attached thereto. First, the digital camera 51 will be described.
Digital camera The digital camera 51 has a general specification having an AE function, an AF function, etc. and can be used alone, and when it is mounted on the camera stand 11, it is in a normal shooting standby state. It functions as a PC camera that outputs image data acquired by imaging in a mode (REC through mode).

  FIG. 2A is a perspective view showing a mounting structure of the digital camera 51 with respect to the camera stand 11. As shown in the figure, the digital camera 51 has a thin main body 52. A liquid crystal monitor 53, an optical viewfinder 54, a mode selection key 55, and a zooming key 56 are provided on the rear surface of the main body 52, and a power switch 57 and a shutter key 58 are provided on the upper surface. The shutter key 58 has a so-called half shutter function capable of two-stage operation of a half-press operation (shooting preliminary operation) and a full-press operation (shooting operation), and is a preliminary operation means of the present invention. It is a photographing instruction means.

An optical system including a zoom lens and a focus lens, which is retractable, is retracted into the camera when the power is turned off and is protruded from the front of the camera when the power is turned on, and is movable on the optical axis. An imaging lens 59 composed of a system and a strobe that emits auxiliary light during photographing are provided (not shown). The bottom surface of the main body 52 is provided with a tripod mounting screw hole and an external device connection connector 76 (see FIG. 3) for connecting the digital camera 51 to an external device such as a personal computer.
FIG. 3 is a block diagram showing an electrical configuration of the digital camera 51. The digital camera 51 includes a CCD 61 that is an image pickup device for picking up the document original A, and a DSP / CPU 62. The CCD 61 is an image pickup means of the present invention, photoelectrically converts an optical image of a subject formed through an optical system such as the imaging lens 59, and outputs an analog image signal corresponding to the optical image of the subject.

  The DSP / CPU 62 is a one-chip microcomputer that performs digital signal processing including compression / decompression of image data by the JPEG method and controls each part of the digital camera 51. A TG (Timing Generator) 63 that drives the CCD 61 is connected to the DSP / CPU 62, and a unit circuit 64 to which an imaging signal output from the CCD 61 is input is connected to the TG 63. The unit circuit 64 is a CDS circuit that removes noise such as an output signal of the CCD 61 by correlated double sampling, a gain adjustment amplifier (AGC) that amplifies the imaging signal from which noise is removed, and the amplified imaging signal is converted into a digital signal. An A / D converter (AD) for conversion is configured, and the output signal of the CCD 61 is converted into a digital signal by the unit circuit 64 and sent to the DSP / CPU 62.

  The DSP / CPU 62 is connected to a lens driving unit 65, a strobe circuit 66, a USB interface 67, a power supply control unit 68, a key input unit 69, and the liquid crystal monitor 53, and a DRAM 72 via an address / data bus 71. The built-in flash memory 73 and the card interface 74 are connected. The card interface 74 is connected to a memory card 75 that is detachably attached to a card slot (not shown) provided in the main body 52. The lens driving unit 65 includes a motor that drives the zoom lens and the focus lens that constitute the imaging lens 59 described above, and a drive circuit thereof, and the like, and drives the zoom lens and the focus lens according to a control signal sent from the DSP / CPU 62. To do.

  The DRAM 72 is a buffer that temporarily stores image data of a subject imaged and digitized by the CCD 61 and is used as a working memory of the DSP / CPU 62. Then, at the time of shooting when the shutter key is pressed, the image data temporarily stored in the DRAM 72 is compressed by the DSP / CPU 62, and finally is stored in the memory / image recording means of the present invention as an image file of a predetermined format. Recorded on the card 75.

  The strobe circuit 66 includes a light source such as a xenon lamp constituting the strobe described above, a power feeding circuit, a light control circuit, and the like. The liquid crystal monitor 53 includes a color LCD and its driving circuit, displays the subject image captured by the CCD 61 as a through image in the shooting standby mode, and is read from the memory card 75 in the playback mode (PLAY mode). The recorded image expanded by the DSP / CPU 62 is displayed. In addition, for operation assistance, a processing menu display at the time of selecting a function and a setting figure or icon are displayed.

  The lens driving unit 65 drives a lens group including the zoom lens and the focus lens constituting the imaging lens 59 in the optical axis direction, and drives them according to a control signal sent from the DSP / CPU 62. Consists of a motor driver.

  The USB interface 67 is connected to the external device connector 76 described above. The external device connection connector 76 is a connection unit of the present invention, and the digital camera 51 is connected to another external device via the external device connection connector 76, thereby receiving an operation signal sent from the external device and memory. The image data recorded on the card 75 can be transferred to an external device. In the shooting standby mode, the image data of the subject imaged and digitized by the CCD 61 is sequentially output to the external device.

  A power supply circuit 77 including a rechargeable battery such as nickel metal hydride is connected to the power supply control unit 68, and the power supply control unit 68 supplies power supplied from the outside to the power supply circuit 77 via the external device connection connector 76. . The key input unit 69 includes a plurality of operation keys and switches such as the mode selection key 55 described above, and outputs an operation signal corresponding to the key operation by the user to the DSP / CPU 62.

  The built-in flash memory 73 is necessary for control according to various operation modes such as a control program for causing the DSP / CPU 62 to control the above-described units, for example, an AE / AF control program and a data communication program. A program and various data are stored. In particular, a program for causing the DSP / CPU 62 to function as the image processing means, area specifying means, magnification adjusting means, and control means of the present invention is stored.

  ・ Camera stand

  Hereinafter, the camera stand 11 will be described. As shown in FIG. 1, the camera stand 11 is mainly composed of a thin plate-like original platen 12 on which a document original A or the like is placed, a stand body 13 supported by the original platen 12, and a support provided at the upper end thereof. The arm 14 and an attachment portion 15 provided at the tip of the support arm 14 are configured, and a digital camera 51 is attached to the attachment portion 15. The document table 12 can be folded on the left and right sides of the general part that supports the stand body 13, and the above-mentioned parts are pivotally supported with other parts, so that the entire camera stand 11 can be used when not in use. Folding into a thin panel shape makes it easy to carry around.

  Further, an external connector 16 (see FIG. 4) to which the first USB cable 4 is connected is provided on the side surface of the stand main body 13 in the vicinity of the document table 12 and above the external connector 16. A power key 17a, an illumination switch 17b, a mode switching key 17c, a shutter key 17d, and a zooming key 17e, which are operating means, are arranged in this order upward.

  Further, as shown in FIG. 2A, the end face of the mounting portion 15 is connected to the external connector 16 via the support arm 14 and the USB cable 18 routed inside the stand body 13. The camera side connector 19 and the engagement hole 20 are provided side by side. Further, as shown in FIG. 2B, which is a view taken in the direction of arrow B in FIG. 2A, a document illumination 21 for illuminating the document document A is provided on the back side of the attachment portion 15. . The document illumination 21 includes an LED (light emitting diode) and a diffuser plate for the emitted light. The digital camera 51 is attached to the attachment portion 15 via the camera fixing member 25.

  The camera fixing member 25 has an engaging pin 26 protruding toward the mounting portion 15, a fixing screw 27 screwed into the above-described tripod mounting screw hole at the bottom of the main body 52 of the digital camera 51, and the mounting portion 15. A pair of male and female relay connectors 28 connected to the camera-side connector 19 is provided. The camera fixing member 25 is integrated with the digital camera 51 by a fixing screw 27, so that the male side of the relay connector 28 is connected to the external device connection connector 76 (see FIG. 3) at the bottom of the main body 52 of the digital camera 51. It is connected.

  In the state where the digital camera 51 is integrated with the camera fixing member 25, the engagement pin 26 of the camera fixing member 25 is inserted into the engagement hole 20 of the attachment portion 15 and the inside of the attachment portion 15. , The engagement pin 26 is firmly supported by the mounting portion 15 without rattling by engaging with a lock mechanism that prevents the engagement pin 26 from being pulled out in the insertion direction. The attachment portion 15 is provided with a release button 22 for releasing the engagement state between the lock mechanism and the engagement pin 26. Further, in this state, the female side of the relay connector 28 is connected to the camera side connector 19 of the mounting portion 15, so that the digital camera 51 is mounted on the mounting portion 15 and at the same time between the camera stand 11. Electrical connection is ensured.

  FIG. 4 is an electric circuit diagram of the camera stand 11. In the stand main body 13 of the camera stand 11, a charging circuit 31 for supplying power for charging to the digital camera 51 mounted as described above, and the original illumination (LED) arranged in the mounting portion 15. Illumination drive circuit 32 for supplying power to 21 and key input circuit 33 are provided. The charging circuit 31 and the illumination driving circuit 32 are connected to an AC jack 34 provided at a location (not shown) of the camera stand 11, and both circuits 31 and 32 are connected to an external AC power source via the AC jack 34. Power is supplied from the connected AC adapter 35. The charging circuit 31 is connected to the relay connector 28 via the USB cable 18 and the camera-side connector 19, and the illumination driving circuit 32 is connected to the document illumination 21 by power supply wiring.

The key input circuit 33 includes the power key 17a, the illumination switch 17b, the mode switch key 17c, the shutter key 17d, the zooming key 17e, and a signal generation circuit that generates a predetermined operation signal corresponding to the operation. ing. The signal output line of the key input circuit 33 is connected to the key input circuit 33, and the USB cable 18 and the camera side connector 19, together with the signal system wiring of the external connector 16 and the charging system wiring of the charging circuit 31, The digital camera 51 is connected via the relay connector 28. As a result, the document illumination 21 can be turned on / off by operating the illumination switch 17b, and when another operation key or the like is operated, an operation signal corresponding to the operation is sent to the digital camera 51, whereby a predetermined operation is performed on the digital camera 51. It can be done.
(PC configuration)

  On the other hand, FIG. 5 is a block diagram showing an outline of the electrical configuration of the PC 2 and the projector 3. First, the configuration of the PC 2 will be described.

  The PC 2 is a general-purpose notebook personal computer that functions as an external device of the present invention, and includes a CPU 81, a RAM 82, a storage device 83, an input device 84, a video adapter 85, a VRAM 86, and a display device 87.

  The video adapter 85 generates a display video signal (RGB signal) and outputs it to a display device 87 including an LCD and its drive circuit. The VRAM 86 stores the display image data generated by the video adapter 85 as needed. To do. The video adapter 85 is provided with an RBG output terminal 88 to which the RGB cable 6 is connected. The video adapter 85 transmits image data for display via the RGB cable 6 in accordance with a command from the CPU 81. Output to 3.

  Further, the PC 2 has two USB ports, and first and second USB connection terminals 89 and 90 are provided in a USB interface circuit (not shown) connected to the CPU 81. A first USB cable 4 connected to the document camera 1 is connected to the first USB connection terminal 89, and image data is input from the document camera 1 from here, and the document camera 1 as necessary. A predetermined operation signal can be output. The second USB connection terminal 90 is connected to the second USB cable 5 connected to the projector 3.

  The input device 84 is a plurality of keys provided on the PC 2 main body, a mouse connected to the main body, and the like, and the storage device 83 is a hard disk or the like having a relatively large storage capacity. The storage device 83 has a predetermined presentation program for creating and editing a document for presentation, a dedicated program for realizing data communication with the document camera 1, a video adapter 85, and a display device 87. Display image data for displaying the document, image, etc., an image display program for generating image data to be output to the projector 3, and an image processing program for performing various processing on the image data, etc. Is stored.

(Projector configuration)
On the other hand, the projector 3 includes a CPU 91, a ROM 92, a RAM 93, an image input unit 94, a display unit 95, a key input unit 96, and an infrared signal receiving unit 97. An RBG signal input terminal 98 to which the RGB cable 6 is connected is connected to the image input unit 94, and a display signal for projecting an image is input based on the input image signal (RGB signal) input from the PC 2. It is generated and sent to the display unit 95. The display unit 95 includes a light source such as a krypton lamp, an image conversion element such as a liquid crystal or a micromirror array for converting the light of the light source into projection light corresponding to an input display signal, and the image conversion element from the image input unit 94. A display circuit based on image data sent from the PC 2 includes a drive circuit that drives based on the sent display signal, and an optical system such as a projection lens provided in the projection unit 3a (see FIG. 1) of the main body. Project to.

  The CPU 91 operates using the RAM 93 as a working memory according to a program stored in the ROM 92 and controls the projector 3 as a whole. The key input unit 96 includes a plurality of operation keys prepared for the user to operate the projector 3, and the infrared signal receiving unit 97 receives infrared rays transmitted from the infrared remote controller 7 described above. The received light is decoded, and the operation signal encoded therein is decoded and sent to the CPU 91.

  Further, a USB interface circuit (not shown) is connected to the CPU 91, and a USB terminal 99 to which the second USB cable 5 connected to the PC 2 is connected is provided. Thereby, the operation signal sent from the operation key of the key input unit 96 or the infrared remote controller 7 to the CPU 91 can be transmitted to the PC 2 as necessary.

  (Operation explanation etc.)

  In the system configured as described above, when the dedicated program is activated in the PC 2 and the photographing standby mode is set in the digital camera 51, the following operation is performed.

  That is, the document camera 1 captures the document original A and outputs the captured image data to the PC 2. In the PC 2, the image processing program performs necessary image processing such as distortion correction processing, rotation processing, and clipping processing on the input image data, and an image having a resolution suitable for the projector 3 based on the processed image data. A signal is generated and output to the projector 3 via the RGB cable 6. The projector 3 converts the input image signal into projection light, and irradiates the screen (or whiteboard or the like) S from the projection unit 3a in which an optical system such as a projection lens is accommodated. As a result, an image such as a document original A photographed by the document camera 1 is projected onto the screen S.

  On the other hand, during the above operation, the document camera 1 is in a state of automatically accepting an operation signal sent from the outside when the digital camera 51 is attached to the camera stand 11, and is provided in the camera stand 11. When the above-described power key 17a, mode switching key 17c, shutter key 17d, and zooming key 17e are operated, the digital camera 51 operates in accordance with the contents of the operation signal sent from the camera stand 11. That is, the user can operate the digital camera 51 on the camera stand 11 side.

  That is, in this embodiment, the power is turned on / off by operating the power key 17a, the zoom ratio of the imaging lens 59 is changed by operating the zooming key 17e, and the zooming key 17e is operated while the mode switching key 17c is kept pressed. Adjusting the contrast of the captured image, taking a still image by operating the shutter key 17d, that is, capturing an image for recording, recording the captured image to the memory card 75, and switching from the shooting standby mode by operating the mode switching key 17c to the playback mode Operations such as mode switching to can be performed.

  In still image shooting, by operating the shutter key 17d while keeping the mode switch key 17c kept pressed, it is possible to prohibit flash emission by the AE function during shooting. In the playback mode, it is possible to switch the playback image by operating the zooming key 17e and adjust the contrast of the captured image. When the power is turned off, the digital camera 51 is automatically charged if the camera stand 11 is connected to the AC adapter 35 and is supplied with power.

  Further, during the activation of the dedicated program, the PC 2 causes the display device 87 to display the operation screen of the document camera 1 prepared in advance in the dedicated program in accordance with the operation of the user, and the keyboard is operated according to the operation screen. When a mouse operation is performed, an operation signal corresponding to the operation is generated and transmitted to the digital camera 51 via the first USB cable 4 and the camera stand 11. Thereby, the user can perform the above-described operation on the digital camera 51 also on the PC 2 side.

  However, when the still image shooting is instructed by the PC 2, the PC 2 automatically requests the digital camera 51 to transfer the captured image data, and the image data recorded in the digital camera 51 is transferred. At the same time, the transferred image data is recorded in the storage device 23. Further, the operation of the digital camera 51 is effective even when the projector is not connected as long as the dedicated program is being activated.

  The display of the operation screen on the PC 2 is not essential. For example, when the dedicated program is started, the above-described operation is automatically assigned to a predetermined key on the keyboard, and the predetermined key is pressed. Only the above-described operation may be possible.

  On the other hand, in the document camera 1 of the present embodiment, the digital camera 51 is detachable from the camera stand 11 as described above. For this reason, when using the document A or the like for taking a presentation image, for example, the digital camera 51 is removed from the camera stand 11 and handled in the same manner as a general digital camera. Can do. Therefore, the application range is not limited to the photographing of the document A and the like, and the usage range is wide.

  Moreover, as described above, the digital camera 51 attached to the camera stand 11 can be operated in various ways from the camera stand 11 side. Therefore, favorable usability can be secured as the document camera 1. In the document camera 1, the camera stand 11 that supports the digital camera 51 is preferably a compact size in consideration of handling, and the document document A or the like is placed at the mounting position of the digital camera 51. It must be positioned above the document table 12. Therefore, since the digital camera 51 is in an unstable state, when the digital camera 51 is directly operated, it is necessary for the user to ensure stability by himself / herself. On the other hand, in the present embodiment, the above-described operation can be performed without directly touching the digital camera 51, and the above-described complexity is relieved.

  In particular, when the camera stand 11 is configured to be foldable to ensure handling when not in use as in the present embodiment, the rigidity of the camera stand 11 and its own weight are naturally limited. As a result, there is a limit to securing stability during use, so the above effect is remarkable. Furthermore, it is possible to operate with one hand by devising the type and location of the operation buttons. Note that the type of operation for the digital camera 51 is not limited to that described above, and can be arbitrarily set.

  In this embodiment, since the digital camera 51 can be operated not only on the camera stand 11 but also on the PC 2 to which the camera stand 11 is connected, the usability is further improved. Unlike the present embodiment, for example, in a configuration in which the document camera 1 is directly connected to the projector 3 via USB and transfers image data, the projector 3 is provided with the same operation functions as the PC 2, and the projector 3 has operation keys and red The digital camera 51 may be operated by operating the external remote controller 7.

  The digital camera 51 of the present embodiment is a business camera function prepared in advance when shooting a subject in the shooting standby mode in a state where it is used as a normal camera without being attached to the camera stand 11. When is set to the on state, it operates as follows.

  FIG. 6 is a flowchart showing the operation of the digital camera 51 in the shooting standby mode when the business camera function is in the on state, and FIG. 7 is an explanatory diagram showing the operation contents. It is explanatory drawing which made the example the case where the business card | curd put on is image | photographed. The digital camera 51 first moves the zoom lens of the imaging lens 59 to the wide end (step S1) when the shooting standby mode is set when the shooting standby mode is set or when the power is turned on. At this time, a state in which a specific portion of the subject can be enlarged by optical zoom is ensured. Thereafter, the imaging of the subject image by the CCD 61 and the display of the through image on the liquid crystal monitor 53 are started (step S2). Note that AE and AF control are started. If there is a zoom operation with the zooming key 56 during display of the through image (NO in step S3, YES in step S4), the zoom lens of the imaging lens 59 is driven in accordance with the operation (step S5). That is, the zoom magnification is changed.

  If the shutter key 58 is pressed halfway during the through image display (YES in step S3), the first subject image 101 displayed as the through image at that time (the business card 202 is placed on the table 201). (See FIG. 7A)), the contour extraction process is performed, and the quadrangular area 101a (see FIG. 7A) existing in the subject image 101 is specified as the main subject area (step S6). . For the contour extraction process, for example, a known radon method is used, and the largest rectangular area existing in the subject image is extracted. In place of such processing, for example, all extractable quadrangular areas existing in the subject image are extracted, and frame lines (rectangular frames) indicating all the quadrangular areas are displayed in order on the through image, and During this period, the square area of the frame line displayed when the user performs a predetermined key operation (decision operation) may be specified as the main subject area.

  Next, the zoom magnification at which the above-described square area (main subject area) 101a is maximized in the screen is calculated (step S7), and the zoom lens in the imaging lens 59 is driven to adjust the zoom magnification to the calculated zoom magnification. (Step S8: See FIG. 7B).

  Thereafter, while the half-pressed state of the shutter key is continued, it waits for the shutter key to be fully pressed (shooting operation) (NO in step S9, YES in step S10), and the half-pressed state of the shutter key is released. If so (NO in step S10), the process returns to step S2 at that time and the above-described processing is repeated.

  Eventually, when the shutter key is fully pressed (YES in step S9), an image pickup process is performed to pick up the second subject image 102 (see FIG. 7B) that occupies most of the rectangular region (main subject region) 101a. The image data is stored in the DRAM 72 (step S11). Subsequently, an angle correction process is performed on the captured second subject image 102 so that a pair of opposite sides (left and right sides in the present embodiment) are substantially vertical (step S12: see FIG. 7C). ). This process is a process of correcting the shape of the rectangular area 101a to a shape obtained when the image is taken at a position moved to either the left or right from the position facing the main subject area. Next, a trapezoidal correction process for correcting the shape of the square area 101a after the angle correction to a rectangle is performed to generate a third subject image 103 (step S13: see FIGS. 7D and 7C). The angle correction process and the trapezoid correction process described above correspond to the shape correction process of the present invention.

  Subsequently, the third subject image 103 is subjected to color adjustment processing to unify similar colors using a plurality of image filters prepared in advance, and image information such as yellowishness and color unevenness, that is, the third subject. After removing noise other than the character information included in the image 103 (step S14: see FIG. 7E), a density adjustment process for adjusting the density by changing the brightness and contrast is further performed, and the image is included in the image. A fourth subject image 104 is generated in which the character information (main image information) that has been revealed is generated (step S15: see FIGS. 7F and 7D). Note that the density adjustment process may be replaced with a binarization process, for example. Thereafter, the finally generated fourth subject image 104, that is, a captured image suitable as a presentation material is recorded in the memory card 75 (step S16). Thereafter, the process returns to step S1, and the above-described operation is repeated until the photographing standby mode is changed to the reproduction mode or the power is turned off.

  As described above, the digital camera 51 can be used not only as a document camera as described above, but also by setting the business camera function to ON so that it can be used as a presentation material. Images can be acquired easily.

  Moreover, the zoom magnification at which the main subject area (101a) is maximized within the screen is automatically set by simply pressing the shutter key 58 halfway during shooting, so that high resolution can be achieved without requiring complicated operations. It can be recorded, and a high-quality captured image can be easily acquired. Furthermore, it is only necessary to perform a series of operations such as half-pressing and full-pressing the shutter key 58, and the operation at the time of photographing is extremely simple. Before the shutter key 58 is half-pressed, if there is no zoom operation by the user, there is no zoom magnification changing operation, and power is not wasted.

  Further, at the time of shooting, the image of the rectangular area existing in the subject is automatically recognized as the main subject area (101a), and it is automatically corrected to the state when shot from the front, and the characters included in the image are included. Since the fourth subject image 104 after revealing information is recorded, it is possible to obtain an extremely high quality captured image suitable as a presentation material.

  In the present embodiment, when the digital camera 51 is used as a normal camera without being attached to the camera stand 11 and the business camera function is set to ON, the presentation is performed by the above-described operation. When a photographed image suitable for a document is recorded, it is used as a document camera by being attached to the camera stand 11, that is, various operation keys 17 a to 17 provided on the camera stand 11. Even in the state in which the operation by 17e is possible, when the business camera function is set to ON, the operation similar to the operation shown in FIG. 6 may be performed. In that case, the process in step S3 described above may be performed to determine whether or not the shutter key 17d of the camera stand 11 has been pressed, and an operation in which the processes in steps S9 and S10 described above are abolished may be performed. This operation is the same when the shutter key 58 of the digital camera 51 is not provided with a half shutter function.

  Furthermore, the half-pressing operation of the shutter key 58 described above, that is, the photographing preliminary operation, can be replaced with the operation of other operation keys other than the shutter key 58. In that case, for example, the process of step S3 described above is set as a process for determining whether or not the other operation key is pressed, and the process of step S10 described above is set to continue pressing the other operation key. What is necessary is just to perform the operation | movement as the process which discriminate | determines whether or not.

  In the present embodiment, a plurality of image processes including an angle correction process, a trapezoid correction process, a color adjustment process, and a density adjustment process are sequentially performed on a subject image captured when the shutter key 58 is fully pressed. Although the fourth subject image 104 to be finally recorded is acquired, the present invention is not limited to this, and the order of performing each image processing and the specific contents of each image processing can be changed as appropriate. Also, the type and number of image processing performed on the subject image can be appropriately changed as necessary.

1 is a system configuration diagram showing an imaging projection system including a document camera according to the present invention. (A) is a perspective view which shows the mounting structure of the digital camera to a camera stand, (b) is a B arrow view of (a). It is an electrical circuit diagram of a camera stand. It is a block diagram which shows the electric constitution of a digital camera. It is a block diagram which shows the outline of the electrical structure of the projector and PC in the system. 6 is a flowchart illustrating an operation in a shooting standby mode when a business camera function is in an on state in a digital camera. It is explanatory drawing which shows the operation | movement content when a business camera function is in an ON state.

Explanation of symbols

1 Document Camera 2 PC
DESCRIPTION OF SYMBOLS 3 Projector 4 1st USB cable 5 2nd USB cable 6 RGB cable 7 Infrared remote control unit 11 Camera stand 12 Document stand 13 Stand main body 15 Mounting part 16 External connector 17a Power key 17b Illumination switch 17c Mode switching key 17d Shutter Key 17e Zooming key 18 USB cable 19 Camera side connector 21 Document illumination 28 Relay connector 31 Charging circuit 32 Illumination drive circuit 33 Key input circuit 51 Digital camera 59 Imaging lens 61 CCD
62 DSP / CPU
65 Lens Drive Unit 66 Strobe Circuit 67 USB Interface 68 Power Supply Control Unit 69 Key Input Unit 75 Memory Card 76 External Device Connector 77 Power Supply Circuit 81 CPU
83 Storage Device 84 Input Device 88 RBG Output Terminal 89 First USB Connection Terminal 90 Second USB Connection Terminal 91 CPU
99 USB terminal A Document manuscript S Screen

Claims (7)

A camera device including an imaging unit having an optical system having a zoom function that is detachable from a camera stand,
A business camera function that performs image processing suitable for document imaging when the camera device is used alone,
An area specifying means for specifying a quadrangular area existing in an image based on a contour extraction process for an image picked up by an image pickup means at the time of taking a document by the business camera function;
Magnification adjusting means for adjusting the square area specified by the area specifying means to an appropriate magnification for enlarging to a predetermined size in the image;
A shape correction process for correcting an image captured at an appropriate magnification adjusted by the magnification adjustment means into a rectangle;
Color adjustment processing for unifying similar colors in the image after correction by the shape correction processing;
A density adjustment process for adjusting the density of an image in which similar colors are unified by the color adjustment process;
Image processing means for performing image processing on an image picked up by the image pickup means in the order of shape correction processing, color adjustment processing, and density adjustment processing;
Image recording means for recording an image generated through the plurality of image processing by the image processing means;
A connection part for securing an electrical connection state with the camera stand when mounted on the camera stand ;
A camera device comprising a function of outputting an image without deformation when mounted on a camera stand . Preliminary operation means for a user to perform preliminary shooting operation prior to shooting operation;
In response to the preliminary shooting operation by the preliminary operation means, the area specifying means specifies the rectangular area, and the magnification adjustment means includes a control means for adjusting the zoom magnification of the optical system to an appropriate magnification. The camera apparatus according to claim 1.   3. The camera apparatus according to claim 2, wherein the preliminary operation means is a photographing instruction means in which a user issues a photographing instruction by a two-stage operation including a photographing preliminary operation and a photographing operation.   The plurality of image processing performed in a predetermined order by the image processing unit is performed on an image captured by the imaging unit in a state where the zoom magnification of the optical system is adjusted to an appropriate magnification by the magnification adjustment unit. The camera device according to claim 2 or 3, wherein The camera stand can be attached to and detached from the camera stand, and when attached to the camera stand, it has a function to output the image without deformation and a zoom function. In a camera apparatus comprising an imaging means having an optical system provided, a method for recording an image taken by the imaging means,
An area specifying step for specifying a quadrangular area in an image based on a contour extraction process for an image captured by the imaging unit when capturing a document with a business camera function that performs image processing suitable for capturing a document when the camera device alone; ,
A magnification adjustment step of adjusting the square area identified by the area identification step to an appropriate magnification for enlarging to a predetermined size in the image,
A shape correction step of correcting an image captured at an appropriate magnification adjusted by the magnification adjustment step into a rectangle;
A color adjustment step of unifying similar colors in the image after correction by the shape correction step;
A shade adjustment step for adjusting the shade of an image in which similar colors are unified by the color adjustment step;
An image processing step for performing an image processing step on the image picked up by the image pickup means in the order of a shape correction step, a color adjustment step, and a density adjustment step;
And an image recording step of recording an image generated through the plurality of image processes. The camera stand is detachable and has a connection section that ensures electrical connection with the mounted camera stand, and a zoom function that outputs images without deformation when attached to the camera stand. A computer having a camera device including an imaging unit having an optical system,
A procedure for identifying a quadrangular region existing in an image based on a contour extraction process for an image captured by the imaging unit when capturing a document with a business camera function that performs image processing suitable for capturing a document when the camera device is a single unit;
A procedure for adjusting the specified rectangular area to an appropriate magnification for enlarging to a predetermined size in the image,
A procedure for correcting an image captured at an adjusted appropriate magnification into a rectangle;
A procedure for unifying similar colors in the corrected image;
A procedure to adjust the shading of an image with similar colors unified,
A procedure for processing an image performed in the order of a procedure for correcting an image, a procedure for correcting a shape, a procedure for adjusting a color, and a procedure for adjusting shading, and a procedure for an image captured by the imaging unit;
A program for executing a procedure for recording an image generated through the plurality of image processing. A document camera comprising the digital camera according to claim 1 and a camera stand to which the digital camera is detachably attached,
The camera stand is electrically connected to the connection portion of the attached digital camera, and further includes output means for outputting image data output from the connection portion to an external device. camera.

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