JP2007081465A - Remote controller and imaging apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To reduce transfer load in transferring photographed images from an imaging apparatus capable of photographing high-resolution images to another apparatus capable of displaying high-resolution images. <P>SOLUTION: In a standard operation condition, a receiving means receives low-quality image data for all regions of the photographed image from the imaging apparatus. If the image data received by the receiving means includes high-quality image data for a region of a target portion of the photographed image, the display means displays the region of the target portion with a high-quality image on the basis of the high-quality image data. Thus, the above problem can be solved. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a remote device and an imaging device.

  In recent years, with the widespread use of digital single-lens reflex cameras, the use of user groups and cameras has become wide, and recently, digital single-lens reflex cameras for astronomical photography have also appeared. With a DSLR camera for astronomical photography, the LCD monitor on the back has an electronic viewfinder function that makes it difficult to adjust the focus due to the darkness. It has become.

  However, since the liquid crystal monitor is located on the back of the camera, for example, when shooting a celestial object with a tripod up, the monitor screen faces downward. Accordingly, there is a problem that it is difficult to check the captured image because the monitor screen is looked down from below. There was also a request to check the focus on a larger screen.

  As a method of solving such a problem, there is a method of remote shooting by connecting a digital single lens reflex camera and a personal computer. In fact, such a method has been put into practical use in a compact digital camera, and it is possible to take a picture while displaying an image taken with the compact digital camera on a monitor screen of a personal computer. However, with a digital single-lens reflex camera, it is difficult to realize a live view display that displays a captured image in real time on a monitor screen of a personal computer due to the high resolution of the captured image, which places a burden on the transfer of the captured image. was there.

  In order to solve such a problem, when an image is transferred from an imaging device to a remote device (for example, a personal computer), the transfer load is reduced by switching between a low resolution image and a high resolution image. There are some (for example, refer to Patent Document 1).

  More specifically, the imaging apparatus of Patent Document 1 prepares a low-resolution image and a high-resolution image. Then, when receiving a command from the remote device, the imaging device switches the low resolution image and the high resolution image and transfers them to the remote device, thereby reducing the transfer load.

JP 2003-274256 A

  However, the above-described method for transferring a captured image has a problem in that when a high-resolution image is transferred, a transfer load is applied such as an extremely low transfer speed. In addition, in the above-described transfer method of captured images, when live view display is performed on a monitor screen of a personal computer or the like, even if only a part of the captured image is required, the entire captured image is transferred, and a transfer load is applied. There was a problem.

  The present invention has been made in view of the above points, and an object thereof is to reduce a transfer load in transferring a captured image from an imaging apparatus capable of capturing a high resolution image to another apparatus capable of displaying the high resolution image. To do.

  Therefore, in order to solve the above-described problem, the present invention provides a receiving unit that receives image data related to a captured image transmitted at regular intervals from an imaging apparatus that performs communication, and the image data received by the receiving unit. Display means for displaying an image on the basis of the image data, and the receiving means receives low-quality image data relating to the entire area of the photographed image from the imaging device under standard operating conditions, and When the image data received by the receiving unit includes high-quality image data related to the region of interest of the captured image, the display unit is configured to display the region of interest based on the high-quality image data. Is displayed as a high-quality image.

  According to the present invention, a receiving unit that receives image data related to a captured image transmitted at regular intervals from an imaging device that performs communication, and an image is displayed based on the image data received by the receiving unit. Display means for receiving, under normal operating conditions, the receiving means receives low-quality image data relating to the entire area of the captured image from the imaging device, and the display means is the receiving means. If the received image data includes high-quality image data related to the region of interest of the captured image, the region of interest is displayed as a high-quality image based on the high-quality image data. For example, even if the imaging device is an imaging device that can capture a high-resolution image such as a digital single-lens reflex camera, by default, a low-resolution image is transmitted and the region of interest is specified. Since the high-resolution image is transmitted only in the specified area, the captured image is transferred from the imaging device capable of capturing the high-resolution image to another device (remote device) capable of displaying the high-resolution image. The transfer load in can be reduced.

According to another aspect of the present invention, there is provided receiving means for receiving image data relating to a photographed image transmitted at regular intervals from an imaging apparatus that performs communication, and displaying an image based on the image data received by the receiving means. Display means for transmitting, and transmission means for transmitting a transmission request for image quality image data in accordance with the resolution, including resolution information indicating resolution related to the display means,
The receiving means receives low-quality image data relating to the entire area of the photographed image from the imaging device under a standard operating condition, and the display means is configured so that the receiving means responds to the resolution. When the received image quality image data is received, the entire area of the captured image is displayed as an image having an image quality corresponding to the image quality image data based on the image quality image data.

According to the present invention, a receiving unit that receives image data related to a captured image transmitted at regular intervals from an imaging device that performs communication, and an image is displayed based on the image data received by the receiving unit. Display means for transmitting, and transmission means for transmitting a transmission request for image quality image data in accordance with the resolution, including resolution information indicating resolution related to the display means,
The receiving means receives low-quality image data relating to the entire area of the photographed image from the imaging device under a standard operating condition, and the display means is configured so that the receiving means responds to the resolution. When the image quality image data is received, the entire area of the captured image is displayed based on the image quality image data as an image with an image quality corresponding to the image quality image data. Even in such an imaging device that can capture a high-resolution image, by default, a low-resolution image is transmitted, and when the resolution of the display means is changed, an image with an image quality corresponding to the resolution is transmitted. Further, it is possible to reduce a transfer load in transferring a captured image from an imaging apparatus capable of capturing a high-resolution image to another apparatus (remote apparatus) capable of displaying the high-resolution image.

  In order to solve the above problem, the present invention may be an imaging device, a captured image display method, a captured image transmission method, a captured image display program, a captured image transmission program, and a recording medium.

  ADVANTAGE OF THE INVENTION According to this invention, the transfer load in transfer of the picked-up image from the imaging device which can image | photograph a high resolution image to the other apparatus which can display a high resolution image can be reduced more.

  Embodiments of the present invention will be described below with reference to the drawings.

  FIG. 1 is a diagram illustrating a main configuration of the imaging apparatus 100. In FIG. 1, an imaging unit 110 is a unit that images a subject using an image sensor and generates image data. The imaging control unit 111 is a unit that controls the operation of the imaging unit 110 according to an instruction from the system control unit 120. The imaging control unit 111 passes information on the image data generated by the imaging unit 110 to the system control unit 120. The image processing unit 112 performs predetermined arithmetic processing using the image data held by the system control unit 120, adjusts an image according to shooting information provided from the imaging unit 110, and compresses the adjusted image data by predetermined image compression. A unit that compresses according to a method.

  The system control unit 120 is a unit that controls the entire imaging apparatus 100. The memory 121 is a memory that records constants, variables, programs, and the like for operation of the system control unit 120. The memory 121 records a predetermined number of still images and a moving image for a predetermined time.

  The mode dial switch 130 inputs to the system control unit 120 instructions for switching setting of each function mode such as power off, automatic shooting mode, shooting mode, panoramic shooting mode, playback mode, multi-screen playback / erase mode, and PC connection mode. To do.

  The shutter switch 131 starts operation such as AF (auto focus) processing, AE (automatic exposure) processing, AWB (auto white balance) processing, and EF (flash pre-flash) processing in accordance with the half-pressed state (SW1) of the switch. An instruction is input to the system control unit 120. Also, the shutter switch 131 performs system control on an instruction to start operations such as exposure processing, development processing, processing for reading image data from the memory 121, and processing for writing image data into the removable memory 161 in accordance with the fully pressed state (SW2) of the switch. To the unit 120. Here, the exposure process is a process in the process of writing the image data generated by the imaging unit 110 into the memory 121. The development process is a process that is performed using an operation in the image processing unit 112.

  The image display ON / OFF switch 132 inputs an ON / OFF instruction for the display unit 150 to the system control unit 120. The operation unit 133 is a unit including various buttons, a touch panel, and the like. The operation unit 133 includes, for example, a menu button, a set button, a macro button, a multi-screen playback page break button, a flash setting button, and a single shooting / continuous shooting / self-timer switching button. Further, the operation unit 133 includes a menu movement + (plus) button, a menu movement − (minus) button, a reproduction image movement + (plus) button, a reproduction image − (minus) button, a shooting image quality selection button, and an exposure correction button. , Date / time setting buttons, and the like. The operation unit 133 also inputs various operation instructions to the system control unit 120.

  The display unit 150 includes a TFT (Thin Film Transistor), an LCD (Liquid Crystal Display), and the like, and is a unit that displays image data for display written in the memory 150. The imaging apparatus 100 can realize an electronic viewfinder function by sequentially displaying captured image data using the display unit 150. The display unit 150 displays information related to various settings of the imaging device 100. The user can change various settings using the operation unit 133 or the like in accordance with information related to various settings displayed on the display unit 150. The display unit 150 can turn on / off the display according to an instruction from the system control unit 120.

  The recording unit 160 is a unit that writes the image file designated by the system control unit 120 to the removable memory 161 or reads the image file designated by the system control unit 120 from the removable memory 161. The removable memory 161 is a recording medium such as a memory card or a hard disk.

  The communication unit 300 is a unit that communicates with the remote device 200 to transmit and receive a captured image and various types of information.

  FIG. 2 is a diagram illustrating a main configuration of the remote device 200. In FIG. 2, the system control unit 210 is a unit that controls the entire remote device 200. The memory 220 is a memory that stores data read from the image file by the system control unit 210. The memory 220 is also used as a work area for the system control unit 210.

  The display unit 250 is a unit that displays a captured image stored in the memory 220 by the system control unit 210. The resolution of the display unit 250 is monitored by the monitor resolution determination unit 260. When the resolution is changed, the monitor resolution determination unit 260 notifies the system control unit 210 of the change in resolution.

  The input unit 230 is a unit that inputs a region of interest in a captured image displayed on the display unit 250. The communication unit 400 is a unit that communicates with the imaging apparatus 100 and transmits and receives captured images and various types of information.

  The image decoding unit 240 is a unit that decodes a compressed image transmitted from the imaging apparatus 100 according to an instruction from the system control unit 210 and stores the decoded image in the memory 220.

  FIG. 3 is a flowchart illustrating an example of a process for performing a remote operation or the like of the imaging apparatus 100 while displaying a captured image on the display unit 250 in the remote apparatus 200.

  In step S <b> 101, the remote device 200 determines whether to display a captured image sent from the imaging device 100 via the communication unit 300 on a monitor screen such as the display unit 250. If the remote device 200 determines to display the captured image on the monitor screen, the process proceeds to step S102. If the remote device 200 determines not to display the captured image on the monitor screen, the remote device 200 ends the processing illustrated in FIG.

In step S102, the remote device 200 determines whether a region of interest has been designated by an external input. If the remote device 200 determines that a region of interest has been designated by external input, the process proceeds to step S103. If the remote device 200 determines that a region of interest has not been designated, the remote device 200 proceeds to step S108.
For example, when receiving the attention area information indicating the attention area designated by the user via the input unit 230 or the like, the remote device 200 determines that the attention area is designated by the external input.

  In step S108, the remote device 200 receives a low resolution image (low resolution image) sent from the imaging device 100. In the present embodiment, the image sent from the imaging apparatus 100 is a low-resolution image as a default in order to increase the image transfer efficiency. The same applies to the following embodiments.

  That is, the imaging device 100 transmits the low resolution image generated by the image processing unit 112 to the remote device 200 as a default.

  On the other hand, in step S <b> 103, the remote device 200 transmits a command requesting acquisition of a high-resolution image (high-resolution image) including attention area information to the imaging device 100. When receiving the command, the system control unit 120 of the imaging apparatus 100 requests the image processing unit 112 for a high-resolution image of the attention area specified by the attention area information.

  Upon receiving the request, the image processing unit 112 generates a high-resolution image of the attention area specified by the attention area information and a low-resolution image of the entire area using a compression method such as JPEG2000. In this embodiment, the description has been made using the JPEG2000 system as the image compression system, but this does not limit the implementation of the present invention. The same applies to the following embodiments.

  The system control unit 120 of the imaging apparatus 100 transmits the high resolution image of the region of interest and the low resolution image of the entire region received from the image processing unit 112 to the remote device 200 via the communication unit 300.

  Progressing to step S104 following step S103, the remote device 200 receives a high-resolution image of the region of interest and a low-resolution image of the entire region. In step S105, the remote device 200 decodes the image (captured image) received from the imaging device 100. Progressing to step S106 following step S105, the remote device 200 displays the decoded photographed image on a monitor screen such as the display unit 250.

  Here, FIG. 4 shows an example of a GUI (Graphical User Interface) when a captured image is displayed on a monitor screen such as the display unit 250. FIG. 4 is a diagram (No. 1) illustrating a GUI when a captured image is displayed on a monitor screen such as the display unit 250. As shown in FIG. 4, the remote device 200 displays, for example, a high resolution (high image quality) image of the attention area and a low resolution (low image quality) image of the entire area on a monitor screen such as the display unit 250. In the example of FIG. 4, the attention area designated by the user in the captured image is highlighted and displayed as a separate window.

  Returning to the description of FIG. 3 again, in step S107, the remote device 200 determines whether or not to end photographing. If the remote device 200 determines to end the shooting, the remote device 200 ends the process shown in FIG. 3, and if it determines not to end the shooting, the remote device 200 returns to step S102.

  Note that there is a technique called ROI (Region of Interest) in the compression method of JPEG2000. ROI is a technique for encoding a specific area in one image and a compression rate different from that of other areas.

  When the image processing unit 112 receives the request from the system control unit 120, the image processing unit 112 generates a high-resolution image of the attention area specified by the attention area information using the ROI, and the area other than the area specified by the attention area information. A low-resolution image of the area may be generated. That is, the image processing unit 112 may generate images with different resolutions (or compression ratios) in the attention area and other areas using different compression ratios. An image having a different resolution (or compression rate) is synonymous with an image having a different image quality.

  The system control unit 120 of the imaging apparatus 100 transmits the high-resolution image of the attention area generated by the image processing unit 112 and the low-resolution image of the area other than the attention area to the remote device 200 via the communication unit 300. When the remote device 200 receives the high-resolution image of the region of interest and the low-resolution image of the region other than the region of interest from the imaging device 100, the remote device 200 decodes the image in the image decoding unit 240. Then, the remote device 200 displays a high-resolution image of the attention area and a low-resolution image of the area other than the attention area on a monitor screen such as the display unit 250.

  Hereinafter, an example of a GUI when a captured image is displayed on the display unit 250 is shown in FIG. FIG. 5 is a diagram (part 2) illustrating a GUI when a captured image is displayed on the display unit 250. As shown in FIG. 5, the display unit 250 displays only the attention area specified by the user in the captured image with high resolution.

  Hereinafter, another example of the method of specifying (or determining) the attention area will be described in the second embodiment. For example, in the first embodiment described above, the user operates the remote device 200 to designate a region of interest that is desired to be displayed with high resolution. However, the imaging apparatus 100 may automatically determine (or designate) the attention area from the focus position (AF focus position) detected by autofocus. For example, the imaging apparatus 100 generates a high-resolution image of the determined attention area and also generates a low-resolution image of an area other than the attention area. Then, the imaging apparatus 100 transmits, for example, a high-resolution image of the attention area, a low-resolution image of an area other than the attention area, and information on the focus position (focus position information) to the remote apparatus 200. As described above, the remote device 200 displays the high-quality image of the region of interest and the low-quality image of the region other than the region of interest on the monitor screen of the display unit 250 and the like, as shown in FIG. Display focal position information.

  Hereinafter, another example of specifying the attention area will be described in the third embodiment. For example, in the above-described second embodiment, the imaging apparatus 100 automatically determines the AF focus position attention area. However, the imaging apparatus 100 transmits distance measurement point information (ranging point information) to the remote device 200. Then, the remote device 200 displays the received distance measuring point information on a monitor screen such as the display unit 250, and allows the user to designate a region of interest using an arrow pointer as shown in FIG. Good.

  When the attention area is designated by the user, the remote device 200 transmits a command requesting a high resolution image including attention area information indicating the attention area designated by the user to the imaging apparatus 100. Upon receiving the command, for example, the imaging apparatus 100 generates a high-resolution image of the attention area indicated by the attention area information and also generates a low-resolution image of an area other than the attention area. Then, the imaging apparatus 100 transmits, for example, a high-resolution image of the attention area and a low-resolution image of an area other than the attention area to the remote device 200. As described above, the remote device 200 displays the high-quality image of the attention area and the low-quality image of the area other than the attention area on the monitor screen of the display unit 250 or the like.

  Hereinafter, an example in which the resolution of the monitor screen is changed by the user will be described in the fourth embodiment. FIG. 8 shows an example of processing when the resolution of the monitor screen is changed by the user while performing remote operation of the imaging device 100 while displaying the captured image on the display unit 250 in the remote device 200. It is a flowchart.

  In step S <b> 201, the remote device 200 determines whether to display a captured image transmitted from the imaging device 100 via the communication unit 300 on a monitor screen such as the display unit 250. If the remote device 200 determines to display the captured image on the monitor screen, the process proceeds to step S202. If the remote device 200 determines not to display the captured image on the monitor screen, the remote device 200 ends the processing illustrated in FIG.

In step S202, the remote device 200 determines whether the resolution of the monitor screen has been changed. If the remote device 200 determines that the resolution of the monitor screen has been changed, the process proceeds to step S203. If the remote device 200 determines that the resolution has not been changed, the process proceeds to step S208.
For example, when the user changes the resolution of the monitor screen of the display unit 250 or the like, the monitor resolution determination unit 260 notifies the system control unit 210 of the change in resolution. When the change in resolution is notified to the system control unit 210, the remote device 200 determines that the resolution of the monitor screen has been changed.

  In step S208, the remote device 200 receives the low resolution image sent from the imaging device 100. On the other hand, in step S <b> 203, the remote device 200 transmits a command for requesting acquisition of a resolution-changed image corresponding to the resolution information, including resolution information indicating the changed resolution, to the imaging device 100. When receiving the command, the system control unit 120 of the imaging apparatus 100 requests the image processing unit 112 for a resolution-change image corresponding to the resolution information.

  Upon receiving the request, the image processing unit 112 generates a resolution-changed image corresponding to the resolution information using a compression method such as JPEG2000. The system control unit 120 of the imaging apparatus 100 transmits a resolution-changed image corresponding to the resolution information received from the image processing unit 112 to the remote device 200 via the communication unit 300.

  Proceeding to step S204 following step S203, the remote device 200 receives a resolution-changed image corresponding to the resolution information. In step S205, the remote device 200 decodes the image (captured image) received from the imaging device 100. Progressing to step S206 following step S205, the remote device 200 displays the decoded captured image on a monitor screen such as the display unit 250.

  In step S207, the remote device 200 determines whether or not to end shooting. When the remote device 200 determines to end the shooting, the remote device 200 ends the process illustrated in FIG. 8. When the remote device 200 determines not to end the shooting, the remote device 200 returns to step S202.

  As described above, according to each of the above-described embodiments, a transfer load in transferring a captured image from the imaging device 100 that can capture a high-resolution image to another device (remote device 200) that can display the high-resolution image is reduced. be able to.

(Other examples)
The purpose of each embodiment is to supply a recording medium recording a software program for realizing the functions of the above-described embodiments to a system or apparatus, and the computer of the system or apparatus reads and executes the program stored in the recording medium Is also achieved. Here, the computer is, for example, a CPU (Central Processing Unit), an MPU (Micro Processing Unit), or the like. In this case, the program itself read from the recording medium realizes the functions of the above-described embodiments, and the recording medium recording the program as well as the program constitutes the present invention.

  The preferred embodiments of the present invention have been described in detail above, but the present invention is not limited to such specific embodiments, and various modifications can be made within the scope of the gist of the present invention described in the claims.・ Change is possible.

1 is a diagram illustrating a main configuration of an imaging apparatus 100. FIG. 2 is a diagram illustrating a main configuration of a remote device 200. FIG. 10 is a flowchart illustrating an example of processing for performing remote operation or the like of the imaging apparatus 100 while displaying a captured image on the display unit 250 in the remote apparatus 200. FIG. 10 is a diagram (No. 1) illustrating a GUI when a captured image is displayed on a monitor screen of the display unit 250 or the like. FIG. 12 is a diagram (part 2) illustrating a GUI when a captured image is displayed on the display unit 250; It is a figure which shows the example which determines an attention area automatically from AF focus position. It is a figure which shows the example which a user designates an attention area | region based on ranging point information. 12 is a flowchart illustrating an example of processing when the resolution of a monitor screen is changed by a user when a remote operation or the like of the imaging device 100 is performed while displaying a captured image on the display unit 250 in the remote device 200.

Explanation of symbols

DESCRIPTION OF SYMBOLS 100 Image pick-up device 110 Image pick-up part 111 Image processing part 112 Image pick-up control part 121 Memory 130 Mode dial switch 131 Shutter switch 132 Image display ON / OFF switch 133 Operation part 150 Display part 160 Recording part 161 Removable memory 200 Remote apparatus 210 System control part 220 Memory 230 Input unit 240 Image decoding unit 250 Display unit 260 Monitor resolution determination unit 300 Communication unit 400 Communication unit

Claims (22)

Receiving means for receiving image data relating to a photographed image transmitted at regular intervals from an imaging device performing communication;
Display means for displaying an image based on the image data received by the receiving means;
Have
The receiving means receives low-quality image data relating to the entire area of the captured image from the imaging device under standard operating conditions,
The display means, when the image data received by the receiving means includes high-quality image data related to the region of interest of the captured image, based on the high-quality image data, A remote device that displays an area with a high-quality image.   The display means includes, in the image data received by the receiving means, high-quality image data relating to a region of interest of the photographed image, and low-quality image data relating to all regions including the attention location of the photographed image; , The region of interest is displayed as a high-quality image based on the high-quality image data, and the entire region including the region of interest is reduced based on the low-quality image data. The remote device according to claim 1, wherein the remote device displays an image having an image quality.   In the display unit, the image data received by the receiving unit includes high-quality image data relating to a region of interest of the photographed image and low-quality image data relating to a region other than the portion of interest. The region of interest is displayed as a high-quality image based on the high-quality image data, and the region other than the region of interest is displayed as a low-quality image based on the low-quality image data. The remote device according to claim 1.   The remote device according to claim 1, further comprising designation means for designating an area of the attention location.   The image processing apparatus further includes a transmission unit configured to transmit a transmission request for the image data including high-quality image data related to the region of interest, including region information indicating the region of the region of interest designated by the designation unit. The remote device according to claim 4. Receiving means for receiving image data relating to a photographed image transmitted at regular intervals from an imaging device performing communication;
Display means for displaying an image based on the image data received by the receiving means;
Transmitting means for transmitting a transmission request for image quality image data corresponding to the resolution, including resolution information indicating the resolution related to the display means;
Have
The receiving means receives low-quality image data relating to the entire area of the captured image from the imaging device under standard operating conditions,
When the receiving unit receives image quality image data corresponding to the resolution, the display unit displays the entire area of the captured image as an image having an image quality corresponding to the image quality image data based on the image quality image data. A remote device characterized by that. Image processing means for generating image data relating to the photographed image;
Transmitting means for transmitting the image data to a remote device in communication at regular intervals;
Have
The transmission means transmits low-quality image data relating to the entire area of the photographed image under standard operating conditions, and when the attention area of the photographed image is designated, the transmission means relates to the high area relating to the attention area. An image pickup apparatus that transmits the image data including image quality image data.   When the region of the spot of interest of the captured image is designated, the transmission means includes high-quality image data relating to the region of interest of the photographed image and low image quality relating to the entire region including the spot of interest of the photographed image. The imaging apparatus according to claim 7, wherein the image data including image data is transmitted.   When the region of interest of the captured image is designated, the transmission means includes high-quality image data related to the region of interest of the captured image, and low-quality image data related to a region other than the region of interest. The imaging apparatus according to claim 7, wherein the image data including the image data is transmitted.   The imaging apparatus according to claim 7, further comprising a designation unit that designates the region of interest.   The receiving device further comprising: a receiving unit configured to receive a transmission request for the image data including high-quality image data related to the region of interest including region information indicating the region of interest of interest from the remote device. The imaging device according to any one of 7 to 9. Image processing means for generating image data relating to the photographed image;
Transmitting means for transmitting the image data to a remote device in communication at regular intervals;
Receiving means for receiving a transmission request for image quality image data corresponding to the resolution, including resolution information indicating resolution;
Have
The transmission means transmits low-quality image data relating to the entire area of the photographed image under standard operating conditions. When the reception means receives the transmission request, the transmission means responds to the resolution based on the resolution information. An image pickup apparatus that transmits image quality image data. A method for displaying a captured image in a remote device,
A receiving step of receiving image data relating to a captured image transmitted at regular intervals from an imaging apparatus performing communication;
A display step of displaying an image based on the image data received in the receiving step;
Have
In the reception step, low-quality image data relating to the entire area of the captured image is received from the imaging device under standard operating conditions,
In the display step, when the image data received in the reception step includes high-quality image data related to the region of the attention location of the captured image, the attention location is based on the high-quality image data. A photographed image display method characterized by displaying a region of a high-quality image. A method for displaying a captured image in a remote device,
A receiving step of receiving image data relating to a captured image transmitted at regular intervals from an imaging apparatus performing communication;
A display step of displaying an image based on the image data received in the receiving step;
A transmission step of transmitting, to the imaging device, a transmission request for image quality image data corresponding to the resolution, including resolution information indicating resolution related to display of the image;
Have
In the reception step, low-quality image data relating to the entire area of the captured image is received from the imaging device under standard operating conditions,
In the display step, when the image quality image data corresponding to the resolution is received in the reception step, the entire area of the captured image is displayed as an image having an image quality corresponding to the image quality image data based on the image quality image data. A captured image display method characterized by: A captured image transmission method in an imaging apparatus,
An image processing step for generating image data relating to the photographed image;
A transmission step of transmitting the image data at regular intervals to a remote device in communication;
Have
In the transmission step, low-quality image data relating to the entire area of the captured image is transmitted under a standard operating condition, and when a region of interest of the photographed image is designated, a high A captured image transmission method comprising transmitting the image data including image quality image data. A captured image transmission method in an imaging apparatus,
An image processing step for generating image data relating to the photographed image;
A transmission step of transmitting the image data at regular intervals to a remote device in communication;
A reception step of receiving a transmission request for image quality image data corresponding to the resolution, including resolution information indicating resolution;
Have
In the transmission step, low-quality image data relating to the entire area of the captured image is transmitted under standard operating conditions, and when the transmission request is received in the reception step, the resolution is determined based on the resolution information. A photographic image transmission method characterized by transmitting image quality image data according to the above. Computer
Receiving means for receiving image data relating to a photographed image transmitted at regular intervals from an imaging device performing communication;
Display means for displaying an image based on the image data received by the receiving means;
A photographed image display program to function as
The receiving means receives low-quality image data relating to the entire area of the captured image from the imaging device under standard operating conditions,
The display means, when the image data received by the receiving means includes high-quality image data related to the region of interest of the captured image, based on the high-quality image data, A photographed image display program for displaying a region as a high-quality image. Computer
Receiving means for receiving image data relating to a photographed image transmitted at regular intervals from an imaging device performing communication;
Display means for displaying an image based on the image data received by the receiving means;
Transmitting means for transmitting a transmission request for image quality image data corresponding to the resolution, including resolution information indicating the resolution related to the display means;
A photographed image display program to function as
The receiving means receives low-quality image data relating to the entire area of the captured image from the imaging device under standard operating conditions,
When the receiving unit receives image quality image data corresponding to the resolution, the display unit displays the entire area of the captured image as an image having an image quality corresponding to the image quality image data based on the image quality image data. A photographed image display program characterized by that. Computer
Image processing means for generating image data relating to the photographed image;
Transmitting means for transmitting the image data to a remote device in communication at regular intervals;
A photographic image transmission program to function as
The transmission means transmits low-quality image data relating to the entire area of the photographed image under standard operating conditions, and when the attention area of the photographed image is designated, the transmission means relates to the high area relating to the attention area. A photographic image transmission program for transmitting the image data including image quality image data. Computer
Image processing means for generating image data relating to the photographed image;
Transmitting means for transmitting the image data to a remote device in communication at regular intervals;
Receiving means for receiving a transmission request for image quality image data corresponding to the resolution, including resolution information indicating resolution;
A photographic image transmission program to function as
The transmission means transmits low-quality image data relating to the entire area of the photographed image under standard operating conditions. When the reception means receives the transmission request, the transmission means responds to the resolution based on the resolution information. A photographed image transmission program characterized by transmitting image quality image data.   A computer-readable recording medium on which the captured image display program according to claim 17 or 18 is recorded.   21. A computer-readable recording medium on which the photographed image transmission program according to claim 19 or 20 is recorded.

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