JP2004104369A - Information-processing apparatus and method therefor, and program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To enable a user to remotely control an imaging device at a remote place to pick up an image, and to obtain a picked image while staying at a remote place. <P>SOLUTION: An image operating program 49c requests to pick up a static image. In response to this request, an image transferring program 49b requests a communication program 48a to pick up the static image. In response to this request, a communication program 49a requests to pick up the static image. A digital still camera 2 picks up the static image in response to the request, stores the image in a memory card 95, divides the data of the stored static image, and transmits the data to a PC 1. The program 49a allows a VRAM 44 to store the data of the static image to be transmitted in a divided state, and transmits a completion notice to the program 49b when all the data of the static image are stored. The program 49b obtains the static image, and supplies the data to an image operating program 49c in response to a request from the program 49c. The apparatus is applicable to a radio image pickup system. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an information processing apparatus, a method, and a program, and more particularly, to an information processing apparatus in which a photographing device at a remote place is operated while being at a remote place, and the photographed image can be confirmed at a remote place when photographing is performed. The present invention relates to a processing device and method, and a program.
[0002]
[Prior art]
2. Description of the Related Art A technique of operating a digital still camera by remote control to capture an image has become popular.
[0003]
2. Description of the Related Art Conventionally, there has been a device that transfers an image recorded in a camera to a personal computer by wireless communication (for example, see Patent Document 1).
[0004]
Further, there is a camera that stores an image in the camera at the timing when the shutter is released by the camera and transfers the image to a personal computer (for example, see Patent Documents 2 and 4).
[0005]
Further, there is a camera in which a camera is remotely operated by a remote controller (for example, see Patent Document 3).
[0006]
Further, there is a camera which can operate a camera at a remote place by a remote controller to perform zoom photographing or the like (for example, see Patent Document 5).
[0007]
Further, there is a camera in which an operation of a camera is performed by a remote controller, and an image captured by the camera is transmitted to the remote controller by infrared communication and displayed (for example, see Patent Document 6).
[0008]
[Patent Document 1]
JP-A-2002-64740 (page 5, FIG. 6)
[Patent Document 2]
JP-A-2002-125186 (page 5, FIG. 2)
[Patent Document 3]
JP-A-2002-326845 (page 5, FIG. 4)
[Patent Document 4]
JP-A-2002-137796 (pages 8-9, FIG. 5)
[Patent Document 5]
JP-A-8-205016 (page 7, FIG. 8)
[Patent Document 6]
JP-A-7-38797 (page 7, FIG. 8)
[0009]
[Problems to be solved by the invention]
However, it is possible to operate the camera with a remote controller and shoot it from a remote place.However, it is possible to confirm the image to be actually shot, and after shooting, the image recorded in the camera can be shot from a remote place. There was a problem that it could not be confirmed.
[0010]
The present invention has been made in view of such a situation, and enables a photographed image to be confirmed at a remote place when a photographing apparatus at a remote place is operated and photographed while being at a remote place. It is.
[0011]
[Means for Solving the Problems]
The information processing apparatus of the present invention communicates with another information processing apparatus, a transmitting / receiving unit that transmits and receives information, and a process that performs control of transmitting an image capturing request to the other information processing apparatus via the transmitting / receiving unit, A process of controlling the reception of a reduced image of a photographed image, which is transmitted by another information processing device in response to a photographing request, via a transmission / reception unit, and transferring the photographed image information to another information processing device For controlling the transmission of a transfer request requesting that the image data is transmitted via the transmission / reception means, and the control for receiving, via the transmission / reception means, photographed image information transmitted by another information processing apparatus in response to the transfer request. And a display control means for controlling display of the image information obtained by the control means.
[0012]
The transmission / reception unit may wirelessly communicate with another information processing apparatus to transmit and receive information.
[0013]
Recording means for recording the photographed image information may be further provided.
[0014]
The control unit performs control to transmit a transfer request for a still image having a lower resolution than an image to another information processing device via the transmission / reception unit, and is transmitted by another information processing device in response to a shooting request. It is possible to control the reception of the low-resolution still image transferred in response to the transfer request via the transmission / reception means, and the recording means stores the low-resolution still image transferred in response to the transfer request in the recording means. It can be recorded as a moving image.
[0015]
The information processing method of the present invention communicates with another information processing apparatus, a transmitting and receiving step of transmitting and receiving information, and a processing of performing control of transmitting an image capturing request to the other information processing apparatus in the transmitting and receiving step processing, A process for controlling the reception of a reduced image of a photographed image, which is transmitted by another information processing device in response to a photographing request, in the transmission / reception step process, and transfers photographed image information to another information processing device. Control for transmitting a transfer request requesting to perform in the transmission / reception step processing, and control for receiving, in the transmission / reception step, photographed image information transmitted by another information processing apparatus in response to the transfer request. And a display control step of performing control to display the image information acquired in the processing of the control step.
[0016]
The program according to the present invention controls the process of transmitting an image capturing request to another information processing device, and receives a reduced image of the captured image transmitted by the other information processing device in response to the capturing request. And a process of transmitting a transfer request requesting that the image information captured by another information processing device be transferred to the other information processing device. Causing the computer to execute a control step of performing a process of performing control of receiving captured image information, and a display control step of performing a control of displaying image information acquired in the process of the control step. And
[0017]
In the information processing apparatus and method, and the program according to the present invention, communication with another information processing apparatus, transmission and reception of information are performed, and control for transmitting a photographing request of an image to the other information processing apparatus is performed. Control is performed to receive a reduced image of the photographed image transmitted by another information processing device in response to the request, and a request is made to transfer the photographed image information to another information processing device. Control for transmitting a transfer request is performed, control for receiving captured image information transmitted by another information processing apparatus in response to the transfer request is performed, and control for displaying the acquired image information is performed. Is performed.
[0018]
BEST MODE FOR CARRYING OUT THE INVENTION
FIG. 1 is a diagram showing a configuration of an embodiment of a wireless imaging system according to the present invention.
[0019]
In the wireless photographing system of the present invention, when the digital still camera 2 is operated by a software program on the PC 1 to photograph a still image or a moving image, the photographer recognizes an image that can be photographed at the moment, and then photographs the photographed image. Further, the photographed image is confirmed.
[0020]
Next, the configuration of the PC 1 will be described with reference to FIG. The CPU (Central Processing Unit) 41 executes various processes in accordance with programs (communication program 49a, image transfer program 49b, and image operation program 49c) stored in ROM (Read Only Memory) 42 or storage unit 49. I do. In a RAM (Random Access Memory) 43, programs executed by the CPU 41, data, and the like are stored as appropriate. The VRAM (Video-RAM) 44 stores an image transmitted from the digital still camera 2. The CPU 41, the ROM 42, the RAM 43, and the VRAM 44 are mutually connected by a bus 45.
[0021]
An input / output interface 46 is also connected to the CPU 41 via a bus 45. The input / output interface 46 is connected to an input unit 47 including a keyboard, a mouse, a microphone, and the like, and an output unit 47 including a display, a speaker, and the like. The CPU 41 executes various processes in response to a command input from the input unit 47. Then, the CPU 41 outputs an image, a sound, or the like obtained as a result of the processing to the output unit 47.
[0022]
The storage unit 49 connected to the input / output interface 46 is constituted by, for example, a hard disk, and stores programs executed by the CPU 41 and various data.
[0023]
The storage unit 49 stores programs such as a communication program 49a, an image transfer program 49b, and an image operation program 49c, and the CPU 41 reads out these programs and executes corresponding processing. The various programs will be described later with reference to FIG.
[0024]
Further, in addition to the programs described above, the program stored in the storage unit 49 may be obtained via the wireless communication unit 50 and stored in the storage unit 49.
[0025]
The wireless communication unit 50 is a so-called Bluetooth, and can communicate at a speed of 1 Mbps using radio waves in the 2.45 GHz band. Unlike communication using infrared light, Bluetooth can be used even if there is an obstacle if the distance between devices is within a range of about 10 m. In addition, since Bluetooth uses a small transceiver of 0.5 square inches, the power consumption is small and the manufacturing cost is low as compared with the infrared communication device. The wireless communication unit 50 may be a device other than Bluetooth as long as it can perform wireless communication. For example, the wireless communication unit 50 may be a wireless communication device conforming to the IEEE 802.11b standard.
[0026]
The drive 51 connected to the input / output interface 46 drives a magnetic disk 61, an optical disk 62, a magneto-optical disk 63, a semiconductor memory 64, or the like when mounted, and drives programs and data recorded thereon. Get etc. The acquired programs and data are transferred and stored in the storage unit 49 as necessary.
[0027]
Next, the configuration of the digital still camera 2 will be described with reference to FIG. The CPU 96 is a control unit that performs overall control of each circuit based on a signal input from the operation unit 102, and controls display on the liquid crystal monitor 90, strobe light emission control, autofocus (AF) calculation, and automatic exposure (AE) calculation. And so on.
[0028]
The operation unit 102 is a block including an instruction input unit. When the power is turned on, the CPU 96 sends a command to the power control circuit 98 to supply power to each part of the digital still camera 2 from an external power supply connected to the battery 99 or a DC power terminal (not shown). And enable each circuit. The battery 99 may be a rechargeable battery (secondary battery) or a commercially available dry battery (primary battery).
[0029]
The photographing lens 81 includes one or a plurality of lenses, and may be a single focus lens or a variable focal length lens such as a zoom lens. The light passing through the photographing lens 81 is incident on a CCD (Charge Coupled Device) 83 after the amount of light is adjusted by an aperture 82. Photosensors are arranged in a plane on the light receiving surface of the CCD 83, and the subject image formed on the light receiving surface of the CCD 83 is converted into signal charges of an amount corresponding to the amount of incident light by each photosensor. Note that the CCD 83 has a so-called electronic shutter function that can control the charge accumulation time (shutter speed) of each photosensor.
[0030]
The signal charges thus accumulated are sequentially read out as voltage signals (image signals) corresponding to the signal charges based on the pulse given from the imaging system control circuit 92.
[0031]
The image signal output from the CCD 83 is sent to an analog signal processing unit 84. The analog signal processing unit 84 includes a sampling and holding circuit, a color separation circuit, a gain adjustment circuit, and the like. The analog signal processing unit 84 performs correlated double sampling (CDS) processing and color separation into R, G, and B color signals. After that, the signal level of each color signal is adjusted (pre-white balance processing).
[0032]
The signal output from the analog signal processing unit 84 is converted into a digital signal by the A / D converter 85 and then supplied to the digital signal processing unit 86. The digital signal processing unit 86 is image processing means including a luminance / color difference signal generation circuit, a gamma correction circuit, a sharpness correction circuit, a contrast correction circuit, a white balance correction circuit, and the like, and processes an image signal according to a command from the CPU 96.
[0033]
The digital signal processing unit 86 converts the image data into a luminance signal (Y signal) and color difference signals (Cr, Cb signals), and after performing predetermined processing such as gamma correction, stores the image data in the memory 87. The image data stored in the memory 87 is read out according to a command from the CPU 96, converted into an analog signal via a D / A converter 88, and converted into a predetermined signal format such as an NTSC (National Television Standards Committee) system. It is converted and output to the video output terminal 89 and the liquid crystal monitor 90. The image stored in the memory 87 is normally read out by the CPU 96 as a preview image.
[0034]
The image data in the memory 87 is periodically rewritten by the image signal output from the CCD 83, and the video signal generated from the image data is supplied to the liquid crystal monitor 90, so that the image input through the CCD 83 can be changed in real time. It is displayed on the liquid crystal monitor 90. The photographer can confirm the image angle of view by using the image displayed on the liquid crystal monitor 90 or the optical viewfinder.
[0035]
When the user operates the operation unit 102 to set the shooting mode, a shooting start instruction (release ON) signal is issued. The CPU 96 detects the release ON signal and sends a command to the imaging system control circuit 92. The imaging system control circuit 92 performs focus control via the AF motor zoom motor 91 and controls exposure by controlling the charge accumulation time in the aperture 82 and the CCD 83.
[0036]
When an operation for instructing to capture image data for recording is performed, recording is started. When the mode for compressing and recording image data is selected, the CPU 96 sends a command to the compression / expansion circuit 93. Thus, the compression / expansion circuit 93 compresses the image data in the memory 87 in accordance with the JPEG format (or another predetermined format). Further, when outputting the preview image, the compression / expansion circuit 93 compresses a 160 × 120 size image defined by BIP (Basic Imaging Profile) in Bluetooth used as the wireless communication unit 101 into a JPEG format. , To the CPU 96. The photographed still image is compressed in the JPEG format while maintaining the set image size.
[0037]
The compressed image data is recorded on a memory card 95 via a card I / F (interface) 94. When a mode for recording non-compressed image data (non-compression mode) is selected, the compression processing by the compression / expansion circuit 93 is omitted, and the image data is recorded on the memory card 95 without compression.
[0038]
In the digital still camera 2 of this example, as a means for storing image data, for example, a memory stick (trademark), which is a semiconductor memory, is applied. The recording medium is not limited to this, and may be a PC card, a compact flash (registered trademark), a magnetic disk, an optical disk, a magneto-optical disk, a smart media, or the like, and may be electronic, magnetic, optical, or a combination thereof. Various media that can be read and written according to the above can be used. Signal processing means and interfaces corresponding to the recording medium used are applied. Regardless of the type of recording medium, different types of recording media may be used. Further, the means for saving the image file is not limited to a recording medium detachable from the camera body, but may be a recording medium (internal memory) built in the camera.
[0039]
The operation state of the CCD 83 differs between when the image data for recording is taken in and in other cases. That is, when image data for recording is not captured, the CCD 83 is in a mode of acquiring an image with a lower resolution than when image data for recording is captured. As a result, the amount of image data is reduced. Since the transfer speed between the analog signal processing 84 and the D / A converter 88 is increased, the image is quickly displayed on the liquid crystal monitor 90. Therefore, in this state, the image stored in the memory 87 is a low-resolution image. Therefore, the image read in this state is a preview image of low resolution. On the other hand, when image data of a still image for recording is taken in, the CCD 83 obtains a still image with a higher resolution, and as a result, image data of a large data amount but of high quality is stored in the memory 87. Will be. The thumbnail image generation unit 103 converts a still image having a large data amount into a thumbnail image based on a command from the CPU 96. Note that the thumbnail image is an image or a character obtained by reducing a predetermined image.
[0040]
When the reproduction mode is set by a predetermined operation, the image data is read from the memory card 95. The read image data is expanded by a compression / expansion circuit 93 as necessary, and output to a video output terminal 89 and a liquid crystal monitor 90 via a D / A converter 88.
[0041]
The digital still camera 2 has a wireless communication unit 101 made of Bluetooth, and can transmit and receive image data and various signals via the wireless communication unit 101. The EEPROM 97 stores identification information (ID) for specifying an external device to be a communication partner, and the CPU 96 determines a communication target device based on the identification information registered in the EEPROM 97. Further, the CPU 96 encrypts the transmission data using the identification information of the communication partner in the encryption circuit 88, and transmits the data from the wireless communication unit 101.
[0042]
Next, with reference to a functional block diagram of FIG. 4, functions realized by the PC 1 of FIGS. 2 and 3 and the digital still camera 2 will be described.
[0043]
Each program shown in FIG. 4 may be realized by dedicated hardware. Therefore, the functional block diagram of FIG. 4 may be regarded as a hardware configuration diagram or a software configuration diagram.
[0044]
The communication program 49a controls the wireless communication unit 50 to control communication with a device having another wireless communication unit. The communication program 49a controls the wireless communication unit 50 to search for a communicable electronic device. For example, a display screen as shown in FIG. 5 is displayed, and the currently communicable electronic device is displayed. In FIG. 5, a display column 122 indicating itself is shown on the left side of the screen 121, and in this case, "My computer PC" is displayed. At the center of the screen 121, profile icons 123 to 128 are displayed, and a Bluetooth profile that can be transmitted and received by wireless communication is displayed as an icon. The profile is, for example, image data and music data that can be transmitted and received.
[0045]
On the right side of the screen 121, display columns 131 to 135 of the communicable devices are shown, and among them, the device which is the communication target device is displayed in the display column 133 at the center in the vertical direction. In this case, “Digital still camera” is displayed in the center display column 133, and the digital still camera is selected as a communication target device of “My Computer PC” displayed in the display column 122. It is shown.
[0046]
If a plurality of devices can communicate, they are displayed in other display columns 131 to 135. In this case, "PDA" and "PC-1" are displayed in addition to the digital still camera, indicating that "PDA" and "PC-1" have been detected as communicable devices. .
[0047]
The buttons 129 and 130 are operated when changing the electronic device to be communicated. For example, when the button 129 is operated, the display column 131 is deleted from the display, and the display columns 132 to 135 are displayed in the upper part of the figure. Slide in the direction. As a result, “PC-1” is displayed at the center of the communicable device, and “PC-1” is selected as the communication target device. When the button 130 is operated, the display column 135 is deleted, and the display columns 131 to 134 slide downward in the figure. As a result, “PDA” is displayed at the center of the communicable device, and “PDA” is selected as the communication target device.
[0048]
Parentheses are displayed on the left and right of each of the profile menu icons 123 to 128 to indicate whether the profile is a profile that the communication device can transmit and receive. In this case, parentheses 123a to 128a are all displayed on the left side of the profile menu icons 123 to 128, and all the electronic devices corresponding to “My Computer PC” in the display field 122 are displayed as the profile menu icons. It is shown that it is possible to send and receive profiles. Of the profile menu icons 123 to 128, only the parentheses 127b and 128b are displayed on the right side, and the digital still camera selected as the communication target device has only the profiles corresponding to the profile menu icons 127 and 128. It is indicated that transmission and reception are not possible. Therefore, the communication target device to be selected cannot transmit or receive the profile unless the desired profile menu icon has parentheses.
[0049]
With such a display, it is possible to recognize whether or not the communication target device is a receivable / receivable profile only by looking at the display of the parentheses of the profile menu icon. Further, by selecting the used profile, the PC shown in the display field 122 and the digital still camera shown in the display field 133 are connected by a line on the screen 121, and the selection corresponding to the image data is made. This indicates that communication of the specified profile is enabled.
[0050]
When the PC 1 and the digital still camera 2 are made communicable by the above-described method, the communication program 49a transmits an image request or performs an image receiving process performed between the digital still camera 2 and the PC 1. I do.
[0051]
Further, when image data such as a preview image, a thumbnail image, or a still image is transferred from the digital still camera 2, the communication program 49a transmits the received preview image, thumbnail image, or still image to the image data. It is stored in the VRAM 44. However, when a high-quality still image is received, since the image data is divided and transferred, it takes time to transfer the image data. Therefore, the communication program 49a also transmits a progress notification indicating the progress of the reception of the still image. At the same time, it notifies the image transfer program 49b.
[0052]
The image transfer program 49b manages an image stored in the VRAM 44 based on a notification from the communication program 49a, for example, a monitor change notification, and responds to a request for an image from the image operation program 49c. An image (preview image, thumbnail image, or still image) is read from the VRAM 44 and supplied to the image operation program 49c. Further, when a request for capturing a still image is received from the image operation program 49c, the fact is transferred to the communication program 49a.
[0053]
The image operation program 49c requests a preview image, a thumbnail image, or a still image from the image transfer program 49b, and displays the image supplied based on the request, for example, as shown in FIG.
[0054]
6, a still image, a moving image, or a fixed-point observation image (a group of a plurality of still images captured within a predetermined time) is displayed on the display unit 218, and the still image mode button 201 is displayed on the left side thereof. , A moving image mode button 202, and a fixed point observation mode button 203 are displayed. On the right side of the display unit 218, a thumbnail image list 217 is provided. On the right side, a mode switching button 211, a save button 212, a mail button 213, an upload button 214, and a trash can button 215 are provided from the top. Is provided.
[0055]
The still image mode button 201 is operated when the user selects the still image mode. The moving image mode button 202 is operated when the user selects the moving image mode. The fixed point observation mode button 203 is operated when the user selects the fixed point observation mode.
[0056]
The thumbnail image list 217 is in a state where it is not currently stored (a state where the image is not stored as a file but a captured image is temporarily stored in the VRAM 44 or a predetermined area of the storage unit 49). A thumbnail image indicating one of a still image, a moving image, and a fixed point observation image is displayed. In the case of a still image, the thumbnail image of the still image itself is displayed, while in the case of a moving image, the thumbnail image of the image at the start of recording (the first captured image) is displayed. In the case of an image, one of a plurality of still images captured as a fixed-point observation image is displayed as a thumbnail image, but as a default, the first still image captured when fixed-point observation is started is used as a thumbnail image. It is displayed and can be changed to a still image taken after that. When the number of temporarily stored images is equal to or more than a predetermined number, or when the stored area is equal to or more than a predetermined capacity, the oldest image is deleted and the latest image is stored.
[0057]
In addition, each thumbnail image can be designated (selected) by moving the pointer to the position of the desired thumbnail image and clicking the thumbnail image, and the designated thumbnail image is displayed with the outline of the image. . In the case of FIG. 6, among the thumbnail images displayed in the thumbnail image list 217, the thumbnail image located at the bottom in the figure is designated.
[0058]
Further, when the image displayed in the thumbnail image list 217 is double-clicked in a designated state, the display is instructed. In the case of a still image, the selected still image is displayed on the display unit 218, and the moving image, Alternatively, in the case of a fixed-point observation image, the moving image is displayed on the display unit 218 as a moving image (in the case of a fixed-point observation image, still images are continuously displayed).
[0059]
The mode switching button 211 is a button that is operated when instructing reproduction of a specified thumbnail image among the thumbnail images displayed in the thumbnail image list 217.
[0060]
The save button 212 is a button operated when saving a specified image (when saving as a file) among the thumbnail images displayed in the thumbnail image list 217.
[0061]
The mail button 213 is a button that is operated when a specified image among the thumbnail images displayed in the thumbnail image list 217 is transmitted by e-mail.
[0062]
The upload button 214 is a button operated when uploading a specified image from the thumbnail images displayed in the thumbnail image list 217 to a predetermined server.
[0063]
The trash can button 215 is a button operated when deleting a thumbnail image displayed in the thumbnail image list 217 (when deleting an image temporarily stored in a predetermined area of the storage unit 48).
[0064]
When the still image mode button 201 is operated, as shown in FIG. 7, the display color of the still image mode button 201 changes, and a shooting button 221 a is displayed below the display unit 218. Further, a setting button 222a and the like are displayed on the right side of the shooting button 221a. At this time, the image operation program 49c causes the display unit 218 to display the received preview image. The shooting button 221a is a button operated when the user gives an instruction to shoot a preview image displayed on the display unit 218. The setting button 222a is a button operated when performing various settings in the still image mode. When this button is operated, a setting screen for the still image mode is displayed, and various settings can be performed.
[0065]
When the photograph button 221a is operated, the image operation program 49c displays the image (still image) that has just been photographed (still image) in the thumbnail image list 217 below the thumbnail image 217a that has been the latest image as shown in FIG. Is displayed, a new thumbnail image 217b corresponding to is displayed.
[0066]
When the moving image mode button 202 is operated, as shown in FIG. 9, the image operation program 49c changes the display color of the moving image mode button 202, and displays a recording button 221b below the display unit 218. Further, a setting button 222b and the like are displayed on the right side of the recording button 221b. At this time, the image operation program 49c causes the display unit 218 to display the received preview image. The recording button 221b is a button operated when the user instructs recording of the preview image displayed on the display unit 218. The setting button 222b is a button operated when performing various settings in the moving image mode. When this button is operated, a setting screen for the moving image mode is displayed.
[0067]
In this state, when the recording button 221b is operated, the image operation program 49c stores the thumbnail image list 217 as shown in FIG. 10 below the thumbnail image 217a shown in FIG. Then, a new thumbnail image 217c corresponding to the image (moving image) just taken is displayed. At this time, as shown in FIG. 10, the image operation program 49c displays only the recording mark indicating that recording is in progress in the thumbnail image 217c, and displays the lower part of the display unit 218 from the recording button 221b. It is displayed instead of the end button 221c.
[0068]
When the end button 221c is operated in this state, the image operation program 49c ends the recording, and as shown in FIG. 10, the thumbnail image 217c in which only the recording-in-progress mark is displayed is displayed as shown in FIG. Then, a thumbnail image 217d for identifying the recorded moving image is displayed. At this time, as shown in FIG. 11, the thumbnail image 217d is displayed with a moving image mark (a mark like an 8-mm camera) attached to the upper left portion of the thumbnail image 217d to indicate that the moving image is a moving image. By displaying in this way, it is possible to identify at a glance whether an image managed as a thumbnail image is a still image or a moving image.
[0069]
When the fixed point observation mode button 203 is operated, the image operation program 49c changes the display color of the fixed point observation mode button 203 as shown in FIG. Is displayed. Further, a setting button 222e and the like are displayed on the right side of the start button 221d. At this time, the image operation program 49c causes the display unit 218 to display the received preview image. The start button 221d is a button operated when the user instructs fixed-point observation of the image displayed on the display unit 218. The setting button 222e is a button operated when performing various settings in the fixed point observation mode. When this button is operated, a setting screen of the fixed point observation mode is displayed. A reservation button 231 is displayed on the left side of the start button 221d. The reservation button 231 is a button that is operated by the user when a reservation is set in advance for fixed-point observation imaging.
[0070]
When the start button 221d is operated in this state, the image operation program 49c stores the thumbnail image 217a in the thumbnail image list 217 as shown in FIG. Below, a new thumbnail image 217e corresponding to the image just taken (fixed-point observation image) is displayed. At this time, as shown in FIG. 13, the image operation program 49c displays only the fixed-point observation mark indicating that the fixed-point observation image is being captured in the thumbnail image 217e, and also displays the lower part of the display unit 218. Are displayed instead of the start button 221e to the end button 221f.
[0071]
When the end button 221f is operated in this state, the image operation program 49c terminates the photographing in the fixed-point observation mode and changes the thumbnail image 217e in which only the fixed-point observation mark is displayed as shown in FIG. , And a thumbnail image 217f for identifying the image captured by the fixed point observation is displayed. At this time, as shown in FIG. 14, the thumbnail image 217f is displayed with a fixed-point observation mark (a mark like a camera) indicating that it is a fixed-point observation image at the upper left portion in the thumbnail image 217f. . By displaying in this way, it is possible to identify at a glance whether an image managed as a thumbnail image is a still image, a moving image, or a fixed-point observation image.
[0072]
Returning to the description of FIG.
[0073]
The digital still camera 2 reads out a preview image stored in the memory 87, a thumbnail image generated by the thumbnail image generation unit 103, or a still image stored in the memory card 95 in response to a request from the PC 1. To PC1. However, in the case of a request for a still image, the digital still camera 2 captures the image, transmits the captured image as a thumbnail image, temporarily stores the captured image in the memory card 95, and transmits the thumbnail image. Is transmitted to the PC1.
[0074]
Next, the photographing process of the digital still camera 2 will be described with reference to the flowchart of FIG.
[0075]
In step S1, the CPU 96 of the digital still camera 2 controls the wireless communication unit 101 to determine whether a preview image has been requested from the PC1. For example, when a preview image is requested by the process of step S22 in FIG. 16 described later, the process proceeds to step S2.
[0076]
In step S2, the CPU 96 acquires the image stored in the memory 87 as a preview image (that is, captures the preview image), and transmits the preview image to the PC 1 via the wireless communication unit 101.
[0077]
If it is determined in step S1 that a preview image has not been requested, then in step S3, the CPU 96 determines whether or not shooting of a still image has been requested. For example, when a still image is requested to be photographed by the process of step S27 in the flowchart of FIG. 16 described below, the process proceeds to step S4.
[0078]
In step S4, the CPU 96 controls the control circuit 92 to switch the CCD 83 to the high-resolution mode, store the still image data in the memory 87, and shoot the image.
[0079]
In step S5, the CPU 96 controls the thumbnail image generation unit 103 to convert a still image stored in the memory 87 into a thumbnail image, controls the wireless communication unit 101, and transmits the thumbnail image to the PC1.
[0080]
If it is determined in step S3 that shooting of a still image has not been requested, in step S6, the CPU 96 determines whether transfer of a still image has been requested. For example, when the transfer of a still image is requested by the process of step S30 in FIG. 16 described below, the process proceeds to step S7.
[0081]
In step S7, the CPU 96 controls the compression / expansion circuit 93 to compress the image stored in the memory 87 by the JPEG method and divides the image into a transferable size. In step S8, the CPU 96 controls the wireless communication unit 101. Then, the PC 1 transmits the sequentially divided still images to the PC 1.
[0082]
If it is determined in step S6 that the transfer of the still image has not been requested, the process returns to step S1, and the subsequent processes are repeated.
[0083]
Next, communication processing by the communication program 49a of the PC 1 will be described with reference to the flowchart of FIG.
[0084]
In step S21, the communication program 49a determines whether it is necessary to request the preview image. For example, when the preview image is already requested and the preview image is waiting, the communication program 49a needs to request the preview image. Is determined to not exist, and the process proceeds to step S23. On the other hand, if it is determined in step S21 that the preview image has not been requested and it is determined that the preview image needs to be requested, the wireless communication unit 50 is controlled in step S22 to request the digital still camera 2 to request the preview image. (Request transfer).
[0085]
In step S23, the communication program 49a controls the wireless communication unit 50 to determine whether or not a preview image corresponding to the preview image request in the process of step S22 has been transmitted from the digital still camera 2; When it is determined that the preview image has been transmitted by the process of step S2 in FIG. 15, the process proceeds to step S24.
[0086]
In step S24, the communication program 49a controls the wireless communication unit 50 to receive the transmitted preview image and store it in the VRAM 44.
[0087]
In step S25, the communication program 49a sends a monitor change notification indicating that the preview image has been stored in the VRAM 44 to the image transfer program 49b.
[0088]
If it is determined in step S23 that the preview image has not been transmitted, in step S26, the communication program 49a determines whether or not a request to shoot a still image has been issued from the image transfer program 49b. For example, when the image transfer program 49b requests shooting of a still image by the processing of step S56 in the flowchart of FIG. 17 described later, the image transfer program 49b controls the wireless communication unit 50 to control the digital communication in step S27. It requests the still camera 2 to shoot a still image.
[0089]
If it is determined in step S26 that shooting of a still image has not been requested, in step S28, the communication program 49a controls the wireless communication unit 50 to determine whether a thumbnail image has been transmitted from the digital still camera 2. Determine whether or not. For example, when a thumbnail image has been transmitted from the digital still camera 2 by the process of step S5 in the flowchart of FIG. 15, it is determined that a thumbnail image has been transmitted, and the process proceeds to step S29.
[0090]
In step S29, the communication program 49a controls the wireless communication unit 50 to receive the thumbnail image transmitted from the digital still camera 2 and store the thumbnail image in the VRAM 44.
[0091]
In step S30, the communication program 49a transmits a monitor change notification indicating that the thumbnail image has been stored in the VRAM 44 to the image transfer program 49b, and controls the wireless communication unit 50 to stop the digital still camera 2. Ask the user to transfer the image.
[0092]
If it is determined in step S28 that the thumbnail image has not been transmitted, in step S31, the communication program 49a controls the wireless communication unit 50 to transmit the divided still image from the digital still camera 2. Is determined. For example, when the still images divided by the process of step S8 in the flowchart of FIG. 15 are sequentially transmitted, it is determined that the divided still images have been transmitted, and the process proceeds to step S32.
[0093]
In step S32, the communication program 49b controls the wireless communication unit 50 to receive the still images that have been divided and transmitted, and store them in the VRAM 44 sequentially. In step S33, the communication program 49b reads the progress of the still image stored in the VRAM 44, and transmits a progress notification to the image transfer program 49b.
[0094]
In step S34, the communication program 49a checks the VRAM 44, determines whether all of the transferred still images have been stored, and determines that not all the still images have been stored. The process returns to step S32. That is, while the still image is being transferred from the digital still camera, the processing of steps S32 to S34 is repeated.
[0095]
If it is determined in step S34 that all the still images have been stored in the VRAM 44, in step S35, the communication program 49a transmits a transfer completion notification indicating that the transfer of the still images has been completed to the image transfer program 49b. The process returns to step S21, and the subsequent processes are repeated.
[0096]
Next, an image transfer process by the image transfer program 49b will be described with reference to the flowchart in FIG.
[0097]
In step S51, the image transfer program 49b determines whether a monitor change notification has been received. For example, when a monitor change notification is transmitted from the communication program 49a by the process of step S25 or S30 in FIG. 16, it is determined that the monitor change notification has been received, and the process proceeds to step S52.
[0098]
In step S52, the image transfer program 49b reads the preview image or the thumbnail image stored in the VRAM 44.
[0099]
When it is determined in step S51 that the monitor change notification has not been received, in step S53, the image transfer program 49b determines whether a request for a preview image or a thumbnail image has been made from the image operation program 49c. For example, when a request for a preview image or a thumbnail image is made by the processing of step S82 or S88 of the flowchart of FIG. 18 described later, it is determined that the request for the preview image or the thumbnail image is made, and Proceeds to step S54.
[0100]
In step S54, the image transfer program 49b transmits the read preview image or thumbnail image to the image operation program 49c.
[0101]
If it is determined in step S53 that there is no request for a thumbnail image or a preview image, in step S55, the image transfer program 49b determines whether or not the image operation program 49c has requested a still image to be captured. For example, when a still image shooting request is transmitted by the process of step S86 in FIG. 18 described later, it is determined that the still image shooting request has been received, and the process proceeds to step S56.
[0102]
In step S56, the image transfer program 49b transmits a request for capturing a still image to the communication program 49a.
[0103]
If it is determined in step S55 that a still image has not been requested, in step S57, the image transfer program 49b determines whether a progress notification has been transmitted from the communication program 49a. For example, when the progress notification is transmitted by the process of step S33 in the flowchart of FIG. 16, it is determined that the progress notification is transmitted, and in step S58, the image transfer program 49b receives the transmitted progress notification. And memorize.
[0104]
If it is determined in step S57 that the progress notification has not been transmitted, in step S59, the image transfer program 49b determines whether a progress notification has been requested from the image operation program 49c. For example, when a progress notification is requested by the process of step S90 in the flowchart of FIG. 18 described later, it is determined that the progress notification is requested, and in step S60, the image transfer program 49b receives the progress notification in the process of step S58. The progress notification is transmitted to the image operation program 49c.
[0105]
If it is determined in step S59 that the progress notification has not been requested, in step S61, the image transfer program 49b transmits a completion notification indicating that the transfer of the still image to the VRAM 44 has been completed from the communication program 49b. Is determined. For example, when the completion notification is transmitted from the communication program 49a by the process of step S35 in the flowchart of FIG. 16, it is determined that the completion notification has been transmitted, and the process proceeds to step S62.
[0106]
In step S62, the image transfer program 49b receives the completion notification transmitted from the communication program 49a, and further transmits the completion notification to the image operation program 49c.
[0107]
If it is determined in step S61 that the completion notification has not been transmitted, in step S63, the image transfer program 49b determines whether a still image has been requested by the image operation program 49c. For example, when a request for a still image is transmitted from the image operation program 49c by the processing of step S93 in FIG. 18 described later, it is determined that there is a request for a still image, and in step S64, the image transfer program 49b The still image is read from the VRAM 44 and transmitted to the image operation program 49c.
[0108]
If it is determined in step S63 that a still image has not been requested, the process returns to step S51, and the subsequent processes are repeated.
[0109]
Next, operation processing by the image operation program 49c will be described with reference to the flowchart in FIG.
[0110]
In step S81, the image operation program 49a determines whether a predetermined time has elapsed. If it is determined that the predetermined time has elapsed, the process proceeds to step S82.
[0111]
In step S82, the image operation program 49c requests a preview image from the image transfer program 49b. With this process, the preview image is transmitted by the process of step S54 in the flowchart of FIG. Therefore, in step S83, the image operation program 49c receives the transmitted preview image, and in step S84, displays the preview image on the display unit 218 shown in FIG. 7, for example, and the process proceeds to step S95. .
[0112]
If it is determined in step S81 that the predetermined time has not elapsed, in step S85, the image operation program 49c determines whether or not a request to shoot a still image has been made. For example, when the display screen of the still image mode is displayed as shown in FIG. 7, when the photographing button 221a is operated, the image operation program 49c determines that the photographing of the still image is requested, and the processing Proceeds to step S86.
[0113]
In step S86, the image operation program 49c transmits a still image shooting request to the image transfer program 49b.
[0114]
In step S87, the image operation program 49c determines whether or not a predetermined time has elapsed, and repeats the processing until the predetermined time has elapsed. If the predetermined time has elapsed in step S87, in step S88, the image operation program 49c requests (issues) the thumbnail image or the preview image to the image transfer program 49b.
[0115]
Based on this request, for example, a thumbnail image or a preview image is transmitted by the processing of step S54 in the flowchart of FIG.
[0116]
Then, in step S89, the image operation program 49c receives (acquires) and displays the preview image or the thumbnail image transmitted from the image transfer program. More precisely, basically, the preview image is transmitted, but only when the thumbnail image is received in the process of step S52, the thumbnail image is received. For example, as shown in FIG. The image is displayed as an image 217b, otherwise, as shown by the display unit 218 in FIG. 8, the preview image is received and displayed.
[0117]
In step S89, the image operation program 49c requests a progress notification from the image transfer program 49b. Through this processing, for example, a progress notification is transmitted in step S60 of the flowchart in FIG. Then, in step S91, the image operation program 49c displays a progress state of the still image transfer based on the received progress notification. That is, for example, as shown in FIG. 19, the image operation program 49c displays the progress state in the transfer of the still image by displaying the progress bar 251 and the transfer state. The progress bar 251 indicates the progress by a white cell in the figure. If the overall progress is 0%, the progress bar 251 displays a state without a white cell. If the progress is 50%, the progress bar 251 White cells are displayed from the left to the center, and in the case of 100%, the entire range of the progress bar is displayed as white cells.
[0118]
In step S92, the image operation program 49c determines whether or not a completion notification has been received from the image transfer program 49b. If it is determined that the completion notification has not been received, the process returns to step S87. That is, the processing of steps S87 to S92 is repeated until the completion notification is received.
[0119]
In step S92, for example, if a completion notification has been transmitted by the processing of step S62 in the flowchart of FIG. 17, it is determined that the completion notification has been received. In step S93, the image operation program 49c sends the image transfer program 49b A still image is requested from the transfer program 49b. Then, a still image is transmitted by the process of step S64 in the flowchart of FIG. Therefore, in step S94, the image operation program 49c receives the still image transmitted by the image transfer program 49b and displays it on, for example, the display unit 218 in FIG. 8, and the process proceeds to step S95.
[0120]
In step S95, the image operation program 49c determines whether recording of a moving image has been requested. For example, when the recording button 221b shown in FIG. 9 is operated, the image operation program 49c determines that recording of a moving image has been requested, and the process proceeds to step S96.
[0121]
In step S96, the image operation program 49c records the current preview image received in the processing in step S83.
[0122]
In step S97, the image operation program 49c determines whether termination is requested. For example, if it is determined that the recording has been continued and not the end, in step S98, the image operation program 49c determines whether or not a predetermined time has elapsed. The process is repeated, and if it is determined that the predetermined time has elapsed, the process proceeds to step S99.
[0123]
In step S99, the image operation program 49c requests the preview image to the image transfer program 49b (issues a request). With this process, the preview image is transmitted by the process of step S54 in the flowchart of FIG. Therefore, in step S100, the image operation program 49c receives the transmitted preview image, and the process returns to step S96. At this time, in step S96, the image operation program 49c records (acquires and records) the newly received preview image. Then, in step S97, the processes in steps S96 to S100 are repeated and recording is performed until it is determined that the end is instructed.
[0124]
In step S97, for example, when it is determined that the end button 221c shown in FIG. 10 has been operated and the end has been instructed, or when it is determined in step S95 that the recording has not been instructed, the processing is performed. , The process returns to step S81, and the subsequent processes are repeated.
[0125]
Next, with reference to the timing chart of FIG. 20, the relationship between the digital still camera 2, the communication program 49a, the image transfer program 49b, and the image operation program 49c for the process of displaying the preview image will be described. Since each process has been described with reference to the flowcharts in FIGS. 15 to 18, only the mutual relationship will be described.
[0126]
First, the communication program 49b requests a preview image by the process of step S22. In response to this request, the digital still camera 2 acquires the preview image stored in the memory 87 and transmits the preview image to the communication program 49a by the process of step S2.
[0127]
In step S24, the communication program 49a receives the transmitted preview image and stores it in the VRAM 44, and in step S25, sends a monitor change notification to the image transfer program 49b.
[0128]
In step S52, the image transfer program 49b reads and acquires the preview image from the VRAM 44 in response to the monitor change notification transmitted from the communication program 49a.
[0129]
In the image operation program 49c, since the processing of steps S81 to S84 is repeated at predetermined time intervals, the preview image is requested to the image transfer program 49b by the processing of step S82 at predetermined time intervals.
[0130]
Based on this request, the image transfer program 49b transmits the preview image acquired in the process of step S52 to the image operation program 49c in step S54.
[0131]
The image operation program 49c receives the preview image in step S83, and displays the received preview image in step S84.
[0132]
When the communication program 49a requests the preview image again by the process of step S22, the above process is repeated, and the preview image is continuously displayed on the display unit 218.
[0133]
With the above processing, it is possible to check in real time what is being photographed on the PC 1 in the digital still camera 2 installed in a remote place.
[0134]
Next, referring to the timing chart of FIG. 21, a process for requesting the photographing of a still image and displaying the photographed still image will be described with reference to the digital still camera 2, the communication program 49a, the image transfer program 49b, and the image operation program. The relationship between the respective processes of 49c will be described. Since each process has been described with reference to the flowcharts in FIGS. 15 to 18, only the mutual relationship will be described.
[0135]
In step S86, the image operation program 49c requests the image transfer program 49b to shoot a still image. In response to this, in step S56, the image transfer program 49b requests the communication program 49a to shoot a still image. Further, in response to this request, in step S27, the communication program 49a requests the digital still camera 2 to shoot a still image.
[0136]
In step S4, the digital still camera 2 shoots a still image in response to the still image shooting request, and in step S5, converts the still image into a thumbnail image and transmits the thumbnail image to the PC 1 (communication program 49a). In step S29, the communication program 49a receives the transmitted thumbnail image and stores the received thumbnail image in the VRAM 44. In step S30, the communication program 49a transmits a monitor change notification indicating that the thumbnail image is stored in the VRAM 44 to the image transfer program 49b. At the same time, it requests the digital still camera 2 to transfer a still image.
[0137]
Here, the digital still camera 2 receives the transfer request of the still image, divides the image data of the still image in step S7, and converts the image data of the sequentially divided still image into the PC 1 (communication program 49a) in step S8. ).
[0138]
In step S32, the communication program 49a sequentially stores the transmitted divided still image data in the VRAM 44, and in step S33, transmits a progress notification to the image transfer program 49b. In this process, the processes of steps S32 to S34 are repeated until it is determined in step S34 that all the divided still images have been stored in the VRAM 44 (that is, although not shown in FIG. 21, step S32 is performed). , S33 may be repeated).
[0139]
At this time, in step S58, the image transfer program 49b receives the progress notification transmitted from the communication program 49a in step S33.
[0140]
If all of the divided still images have been transferred to the VRAM 44, in step S35, the communication program 49a sends a transfer completion notification indicating that the still image has been transferred to the VRAM 44 to the image transfer program 49b. Send to
[0141]
On the other hand, according to the monitor change notification indicating that the thumbnail image transmitted from the communication program 49a is stored in the VRAM 44 in the process of step S30, the image transfer program 49b executes the thumbnail image stored in the VRAM 44 in step S52. To get.
[0142]
At this time, the image operation program 49c repeats the processing of steps S87 to S92 at predetermined time intervals until the transfer completion notification is transmitted from the image transfer program 49b. Therefore, in step S88, the image operation program 49c requests the preview image or the thumbnail image from the image transfer program 49b.
[0143]
In response to this request, the image transfer program 49b transmits the thumbnail image or the preview image to the image operation program 49c in step S54.
[0144]
Note that the image transfer program 49b transmits the thumbnail image to the image operation program 49c immediately after receiving the thumbnail image, and transmits a preview image after that. In other words, the process of displaying the preview image shown in FIG. 20 is executed even when a still image shooting is requested.
[0145]
In step S89, the image operation program 49c receives and displays the thumbnail image or the preview image transmitted in the processing in step S54.
[0146]
Further, the image operation program 49c requests a progress notification from the image transfer program 49b at predetermined time intervals. At this time, as described above, the image transfer program 49b transmits the progress notification received in the processing of step S58 to the image operation program 49c in step S60.
[0147]
In step S91, the image operation program 49c receives and displays the progress notification transmitted from the image transfer program 49b. As described above, the processing of steps S32 to S34 is repeated until all of the divided still images are transferred to the VRAM 44. Therefore, the processing of steps S58 and S60 and the processing of steps S90 and S91 are also divided. This is repeated at predetermined time intervals until all the still images that have been transferred to the VRAM 44.
[0148]
When the completion notification is transmitted by the processing of step S35, the image transfer program 49b receives the completion notification from the communication program 49a and transmits the transfer completion to the image operation program 49c by the processing of step S62. Send notifications.
[0149]
When the transfer completion notification is transmitted from the image transfer program 49b, the image operation program 49c requests the still image to the image transfer program 49b in step S93.
[0150]
In response to this request, in step S64, the image transfer program 49b transmits the still image stored in the VRAM 44 to the image operation program 49c. In step S94, the image operation program 49c receives and displays the transmitted still image.
[0151]
With the above processing, even when the digital still camera 2 is located at a remote place, a still image can be shot by the PC 1, and the shot still image can be received and displayed by the PC 1 from a remote place. Become.
[0152]
In addition, in the case of shooting a moving image, in the above-described method of shooting a still image, it takes time to transfer the image. Therefore, the image operation program 49c records the preview image continuously. That is, as shown in FIG. 22, the processes of steps S99 and S96 are executed instead of the processes of steps S82 and S84 in FIG. A moving image can be recorded by such processing.
[0153]
Further, when capturing a fixed point observation image, the interval at which the preview image is recorded in step S96 in the timing chart of FIG. 22 is adjusted. That is, one of the recorded preview images is recorded as a still image constituting the fixed-point observation image, so that the fixed-point observation image can be captured.
[0154]
Note that the communication program 49a requests a preview image (step S2), and when the preview image is received and stored (step S24), requests the preview image again (step S2). Is repeated, but the required time is not constant depending on the communication environment, the communication distance, and the like because the wireless communication units 50 and 101 are used.
[0155]
On the other hand, when displaying the preview image (when photographing of a still image or recording of a moving image is not requested), the image operation program 49c requests the image transfer program 49b to request an image at a predetermined time interval (step S81). In response to this request (step S82), the image transfer program 49b transmits the preview image read from the VRAM 44 every time a monitor change notification is issued (step S52) (step S54). As a result, the preview image read from the VRAM 44 is transmitted to and received by the image operation program 49c (step S83), so that the preview image is read from the VRAM 44 at predetermined time intervals and displayed. Become.
[0156]
Therefore, when the image operation program 49a wants to receive an image supply at, for example, 10 fps, the above-mentioned predetermined time interval is set to 100 ms, and the image is requested to the image transfer program 49b. At this time, since the image operation program 49c and the image transfer program 49b are on the PC 1, the transfer time is very short. Therefore, the digital still camera 2 may not be able to provide an image at a desired frame rate. The same image may be returned depending on the timing at which the request for the preview image is issued to the transfer program 49b, but the image operation program 49c can obtain the preview image at the desired frame rate. The preview image obtained in this manner is an image having a constant frame rate, and thus can be easily handled as data.
[0157]
According to the above, it is possible to monitor, as a preview image, an image that can be photographed by the digital still camera 2 at a remote location, and to display an image (still image, moving image, or (Including a fixed-point observation image), and the captured image can be confirmed at a remote location.
[0158]
The series of processes described above can be executed by hardware, but can also be executed by software. When a series of processing is executed by software, a program constituting the software may be executed by a computer built into dedicated hardware or by installing various programs to execute various functions. It is installed from a recording medium in a possible personal computer or the like, for example.
[0159]
This recording medium is provided to the user in a state in which it is pre-installed in the PC 1 as shown in FIG. 2, and is not limited to the storage unit 48 in which the program is recorded. , A magnetic disk 61 (including a flexible disk) on which a program is recorded, an optical disk 62 (including a CD-ROM (Compact Disk-Read Only Memory), and a DVD (Digital Versatile Disk)), a magneto-optical disk 63 (Including MD (Mini-Disc) (registered trademark)), or a package medium including a semiconductor memory 64 (including Memory Stick).
[0160]
In this specification, a step of describing a program recorded on a recording medium is performed in a time-series manner in the order described. Alternatively, the processing includes individually executed processing.
[0161]
Also, in this specification, a system refers to an entire device including a plurality of devices.
[0162]
【The invention's effect】
According to the present invention, an image (including a still image, a moving image, or a fixed-point observation image) can be captured by a remote imaging device, and the captured image can be confirmed at a remote location. .
[Brief description of the drawings]
FIG. 1 is a block diagram of a wireless imaging system to which the present invention is applied.
FIG. 2 is a block diagram illustrating a configuration of a PC in FIG. 1;
FIG. 3 is a block diagram illustrating a configuration of the digital still camera in FIG. 1;
FIG. 4 is a functional block diagram illustrating functions realized by the wireless imaging system in FIG. 1;
FIG. 5 is a diagram illustrating an example of a display image according to a communication program.
FIG. 6 is a diagram showing an example of a display image by the image operation program.
FIG. 7 is a diagram showing an example of a display image by the image operation program.
FIG. 8 is a diagram showing an example of a display image by the image operation program.
FIG. 9 is a diagram illustrating an example of a display image according to the image operation program.
FIG. 10 is a diagram showing an example of a display image by an image operation program.
FIG. 11 is a diagram showing an example of a display image by the image operation program.
FIG. 12 is a diagram showing an example of a display image by the image operation program.
FIG. 13 is a diagram showing an example of a display image by the image operation program.
FIG. 14 is a diagram showing an example of a display image by the image operation program.
FIG. 15 is a flowchart illustrating a photographing process performed by a digital still camera.
FIG. 16 is a flowchart illustrating communication processing by a communication program.
FIG. 17 is a flowchart illustrating a transfer process by an image transfer program.
FIG. 18 is a flowchart illustrating operation processing by an image operation program.
FIG. 19 is a diagram showing an example of a display image by the image operation program.
FIG. 20 is a timing chart when a preview image is displayed.
FIG. 21 is a timing chart when capturing a still image.
FIG. 22 is a timing chart when recording a moving image.
[Explanation of symbols]
1 PC, 2 digital still camera, 49a communication program, 49b image transfer program, 49c image operation program, 50 wireless communication section, 87 memory, 93 compression / expansion section, 95 memory card, 101 wireless communication section

Claims (6)

Transmitting and receiving means for communicating with another information processing apparatus and transmitting and receiving information;
A process of performing control to transmit a photographing request of an image to the other information processing device via the transmitting / receiving unit, and transmitting the photographed image transmitted by the other information processing device in response to the photographing request. A process of performing control for receiving a reduced image via the transmission / reception unit, and control of transmitting, via the transmission / reception unit, a transfer request for requesting the other information processing apparatus to transfer the captured image information. A control unit that executes a process to be performed and a process of performing a control of receiving the photographed image information via the transmission / reception unit transmitted by the other information processing apparatus in response to the transfer request;
An information processing apparatus comprising: a display control unit that controls display of image information acquired by the control unit. The information processing apparatus according to claim 1, wherein the transmission / reception unit wirelessly communicates with another information processing apparatus to transmit and receive information. The information processing apparatus according to claim 1, further comprising a recording unit that records the photographed image information. The control unit controls transmission of a transfer request for a still image having a lower resolution than the image to the other information processing device via the transmission / reception unit, and transmits the request by the other information processing device in response to the shooting request. Performing control to receive the low-resolution still image transferred in response to the transfer request via the transmitting and receiving unit,
2. The information processing apparatus according to claim 1, wherein the recording unit records the low-resolution still image transferred in response to the transfer request as a moving image. A transmitting / receiving step of communicating with another information processing apparatus and transmitting / receiving information;
A process of controlling transmission of the image capturing request to the other information processing device in the process of the transmitting / receiving step, and a process of transmitting the captured image transmitted by the other information processing device in response to the image capturing request. A process of performing control for receiving the reduced image in the process of the transmitting and receiving step, and a process of transmitting a transfer request for requesting the other information processing apparatus to transfer the captured image information in the process of the transmitting and receiving step. A control step of performing a process to be performed and a process of performing control of receiving the photographed image information in the process of the transmitting and receiving step, which is transmitted by the other information processing apparatus in response to the transfer request.
A display control step of performing control for displaying the image information acquired in the processing of the control step. A process of performing a control for transmitting a photographing request for an image to another information processing device, and a control for receiving a reduced image of the photographed image transmitted by the other information processing device in response to the photographing request. Processing to be performed, a process of transmitting a transfer request for requesting to transfer the photographed image information to the other information processing device, and a process of transmitting by the other information processing device in response to the transfer request. A control step of performing a process of performing a control of receiving the captured image information,
A computer-readable storage medium storing a program for causing a computer to execute a display control step of performing control for displaying image information acquired in the processing of the control step.

Images