JP3854820B2 - Server apparatus, server program, and image transmission method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a server device, a server program, and an image transmission method.
[0002]
[Prior art]
An example of a method for publishing an image having a plurality of images to others is an http server (WWW, World Wide Web server).
[0003]
For example, run an http server on an image server, create an html document that displays a list of images, and the client accesses the image server with an http client such as Netscape Navigator, and accesses an html document that displays a list of images. It is also possible to display an image list and select a desired image therefrom.
[0004]
[Problems to be solved by the invention]
However, it is necessary to obtain all image data included in the html document once from the image server, and there is a possibility that the image not desired by the user is included in all the image data.
[0005]
This becomes a problem particularly when the communication speed is relatively low.
[0006]
Alternatively, it is possible to reduce the amount of communication by creating a thumbnail image for display and composing an html document and providing a link from each thumbnail image to the original image. In this case as well, all thumbnail images are received. There is a need to.
[0007]
Although this can be expected to reduce the amount of communication compared to the case of using the original image, there is a problem that the amount of communication is still large when the number of images is large.
[0008]
In addition, since the thumbnail image is not a target image, there is a problem in that an image that is eventually unnecessary is communicated.
[0009]
This is particularly a problem when there are many images, when the communication speed is low, or when the client device is, for example, an embedded device and the storage capacity is limited.
[0010]
[Means for Solving the Problems]
In view of the above problems, a server device according to the present invention includes an image holding unit that holds an image file, a display unit that displays an image of the image file held in the image holding unit, and an image from a client during image display. When an identifier transmission request is received, an image identifier transmission unit that transmits an image identifier corresponding to the image being displayed to the client; and when an image identifier and an image transfer request are received from the client, the received image identifier Accordingly, the image processing apparatus includes an image transmission unit that reads an image file of an image displayed when the client transmits an image identifier transmission request from the image holding unit and transmits the image file to the client.
According to another aspect of the present invention, there is provided a server device connected to a client via a first communication path, and an image holding means for holding an image file in the server device connected to the image communication display device via a second communication path. Display image transmission means for ordering image data of image files held in the image holding means and transmitting the image data to the image communication display device; and a switching instruction for switching an image displayed by the image communication display device. A switching instruction transmission means for transmitting to the communication display device, an information holding means for holding information capable of identifying the image currently displayed by the image communication display device, and the client from the client while the image communication display device is displaying an image. When an image transfer request is received, the image communication display device is selected according to information that can identify the image currently displayed by the image communication display device. There reads the image file by the image holding means corresponds to the image being displayed is held, and having a request image transmitting means for transmitting to said client.
[0011]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 is a block diagram showing a configuration example of an image communication apparatus capable of realizing the image communication method according to the present invention.
[0012]
An input unit 101 in FIG. 1 is a device for inputting instructions and data from a user, and includes a keyboard and a pointing device. Note that examples of the pointing device include a mouse, a trackball, a trackpad, and a tablet. Alternatively, when this example is applied to, for example, a known digital camera device, it may be configured by buttons, a mode dial, or the like.
[0013]
The data storage unit 102 is a part that holds image data, and is usually configured by a hard disk, floppy disk, CD-ROM or CD-R, memory card, CF card, smart media, SD card, memory stick, or the like. It is also possible to store programs and other data in the data storage unit 102.
[0014]
The communication unit 107 is a part that controls communication such as Ethernet or a modem. The communication method is arbitrary and may be a well-known wired communication method such as USB, IEEE1284, or IEEE1394, or may be a wireless communication method such as infrared, IEEE802.11b, or Bluetooth. The communication unit 107 is a part of these communication path control devices.
[0015]
The display unit 103 is a device that displays an image such as a GUI, and generally uses a CRT, a liquid crystal display, or the like. Alternatively, it may be a display device outside the device connected by a cable or the like.
[0016]
Reference numeral 104 denotes a CPU, which is involved in all of the processing of each configuration described above. The ROM 105 and RAM 106 provide the CPU 104 with programs, data, work areas, and the like necessary for the processing. In addition, a control program necessary for processing to be described later is stored in the data storage unit 102 or, if stored in the ROM 105, is once read into the RAM 106 and executed.
[0017]
Alternatively, although not shown, a known image input means such as a CCD may be further provided so that an image is input and stored in the data input / output unit 102.
[0018]
In addition to the above, there are various components of the system configuration, but the description is omitted because it is not the main point of the present invention.
[0019]
FIG. 2 is a diagram showing an example of an image communication system using the image communication method according to the present invention. FIG. 2 shows a state in which the image communication apparatuses 201 and 202 having the configuration of FIG.
[0020]
The communication path 203 is a cable having a physical shape when the communication method is a known wired method such as Ethernet, modem, USB, IEEE1284, IEEE1394, or wirelessly such as infrared, IEEE802.11b, Bluetooth. In some cases, it is a conceptual communication path. Although the present invention does not depend on the type of communication path, FIG. 2 shows the communication path 203 for convenience of explanation.
[0021]
In addition, 211 of the image communication apparatus 201 is a cross key, and 212 and 213 are buttons. Similarly, 221 of the image communication apparatus 202 is a cross key and 222 and 223 are buttons. is doing. The cross keys and buttons are merely examples, and the types and numbers thereof do not depend on the method of the present invention and do not limit the method of the present invention.
[0022]
In the present embodiment, a case where the user operates the image communication apparatus 201 and acquires an image stored in the image communication apparatus 202 will be described as an example. For convenience of explanation, the image communication device 201 operated by the user is also referred to as a client or client device, and the image communication device 202 that holds an image is also referred to as a server or server device.
[0023]
A display unit 214 is provided on the client device 201 side, and a display unit 224 is provided on the server device 202 side, each of which is configured by the display unit 103 of FIG. 1. In the method of the present invention, the display unit 214 is provided on the client device 201 side. Is not essential and may be omitted. In the case of FIG. 2, contrary to the description in the present embodiment, an example of a configuration in which the image communication apparatus 201 is a server and the image communication apparatus 202 is also a client is shown.
[0024]
The storage device 231 conceptually represents the data storage unit 102 of the image communication device 201 that is a client, and the storage device 232 conceptually represents the data storage unit 102 of the image communication device 202 that is a server.
[0025]
Now, N (N ≧ 1) image files 233 are stored in the storage device 232 of the server device 202, and each of the N image files has a file identifier FID. ₁ ~ FID _N Is assigned and managed by the server apparatus 202.
[0026]
In the communication method according to the present invention, first, the server apparatus 202 displays any one of the N image files 233 held on the display unit 224. This display may be performed by the user operating the server device 202 to select and display any of the N image files 233, or the server device sequentially displays the N image files 233 at regular intervals ( A slide show) may be automatically performed.
[0027]
When the user who operates the client device 201 browses the image displayed on the display unit 224 of the server device 202 and wants to reproduce the displayed image, the client device 201 is displayed while the image is displayed. The input unit 101 of 201 is operated to instruct to copy an image.
[0028]
In response to an instruction from the user, the client device 201 transmits a request for requesting transmission of an image currently displayed on the server device 202. The server apparatus 202 that has received the request transmits an image corresponding to the image currently displayed on the display unit 224. For example, the file identifier FID _n If the image (in this example, 1 ≦ n ≦ N) is being displayed, the FID _n Returns an image of.
[0029]
The image used for display is not necessarily the target image itself. For example, when a thumbnail image obtained by reducing the image is associated with the original image and the thumbnail image is used for display, the original image is returned.
[0030]
FIG. 3 is a diagram illustrating the processing and communication flow of the client device 201 and the server device 202. Communication is performed via the communication path 203 of FIG.
[0031]
The server device 202 displays images one after another by, for example, processing as shown in FIG.
[0032]
FIG. 9 shows processing executed by the CPU 104 of the server device 202 based on a program. The RAM 106 is a storage medium in which this program is stored so as to be readable by the CPU 104 that is a computer. Further, when the CPU 104 is configured to read the program from a floppy disk or compact disk (not shown), the floppy disk or compact disk corresponds to a storage medium that stores the program so that the CPU 104 can read the program. Further, this program may be supplied to the RAM 106 from the outside via the communication unit 107.
First, in step S901, initialization processing is performed. For example, in the case of processing according to the flowchart of FIG.
-Variable X that holds the file identifier of the image being displayed
List of images held by server device 202
A variable numOfImages that holds the number of images
・ Variable i representing the current position on the image list
Since these will be described as using, initialize these variables.
[0033]
For example, first, the variable X that holds the file identifier of the image being displayed is cleared. If the file identifier is a number, for example, 0 or a negative value may be substituted, or if the variable X is a character string type, this can be realized by setting an empty character string.
[0034]
Also, a list of images held by the server device 202 is created on the RAM 106.
[0035]
FIG. 15 shows an example of the list of images. The example of FIG. 15 indicates that the server device 202 holds seven image files. At the same time, a variable numOfImages for holding the number of images is set to 7, and a variable i representing the current position on the image list is initialized to 0.
[0036]
In a succeeding step S902, it is determined whether or not the process is finished. In this example, the process ends when all the images have been displayed. Therefore, the value of numOfImages is compared with the value of i. If i is equal to or greater than numOfImages, the process ends, and the process proceeds to S908. Otherwise, the process flows to S903.
[0037]
In step S903, the file identifier of the image to be read for display is determined. This can be done by taking out the i-th row of the list of images exemplified in FIG. For example, when i is 0, an image file identifier of img0032.jpg is obtained.
[0038]
In step S904, the image is read into the RAM 106 from the storage device 232 (data holding unit 102) based on the file identifier of the image obtained in step S903. For example, when an image is compressed by a known compression method such as JPEG, decompression processing is performed as necessary.
[0039]
In step S905, the file identifier of the image obtained in step S903 is stored in variable X.
[0040]
Subsequently, the image read onto the RAM 106 in step S904 is displayed on the display unit 224 (step S906).
[0041]
In step S907, it is determined whether or not image display switching is performed. For example, in the case of automatically switching images, the value of i may be automatically incremented by 1 after a predetermined time has elapsed by using a count-up using a counter or a timer interrupt. Alternatively, the user may operate the input units 211 to 213 to give an instruction to change the image. In the latter case, for example, the value of i may be decremented by 1 when the user designates the previous image, and the value of i may be incremented by 1 when the next image is designated.
[0042]
When the value of i is changed, the determination result in step S907 is true, and the process returns to S902. If not, the process returns to S907 to make a determination again.
[0043]
In step S908, which is an end process, the value of the variable X is cleared again. This is because it is used for determination of processing according to FIG.
[0044]
As described above, while the server device 202 displays images one after another, the client device 201 and the server device 202 perform communication.
[0045]
FIG. 3 shows a communication procedure between the client device 201 and the server device 202. The client device 201 and the server device 202 execute the following processing under the control performed by the CPU 104 based on the program.
[0046]
First, after the client apparatus 201 first establishes a connection with the server apparatus 202, the user views the display unit 224 of the server apparatus 202. When it is desired to duplicate the image displayed on the display unit 224, the client apparatus 201 is operated to instruct an image request (step S301).
[0047]
FIG. 8 is a diagram showing a flow of processing in the client apparatus 201 at this time.
[0048]
FIG. 8 shows processing executed by the CPU 104 of the client device 201 based on a program. The RAM 106 is a storage medium in which this program is stored so as to be readable by the CPU 104 that is a computer. Further, when the CPU 104 is configured to read the program from a floppy disk or compact disk (not shown), the floppy disk or compact disk corresponds to a storage medium that stores the program so that the CPU 104 can read the program. Further, this program may be supplied to the RAM 106 from the outside via the communication unit 107.
First, in response to an image request instruction from the user, an image request 311 (FIG. 3) is transmitted to the server apparatus 202 (step S801).
[0049]
Subsequently, a response from the server apparatus 202 is received (step S802). In step S803, the process branches depending on the response of the server apparatus 202. If the response of the server apparatus 202 is an error, the process proceeds to S805 to perform error processing. In error processing, for example, an error message is displayed on the display unit 214 of the client device 201 to notify the user, and the processing ends.
[0050]
If the response of the server device 202 is the image data 312 (FIG. 3), the received image data is stored in the storage device 231 (step S804), and the process ends.
[0051]
On the contrary, if the user does not want to copy the image displayed on the display unit 224 of the server device 202, the user can simply do nothing and wait for the display on the display unit 224 to change next.
[0052]
FIG. 10 shows the flow of processing on the server 202 side after receiving the image request 311 (FIG. 3). FIG. 10 shows processing executed by the CPU 104 of the server device 202 based on the program in the RAM 106.
[0053]
First, in step S1001, it is determined whether an image is currently being displayed. This is realized by referring to the variable X used in the flowchart of FIG. That is, it is assumed that the image is not being displayed if X is cleared, and the image is being displayed otherwise. If the image is being displayed, the process flows to S1002, and if not, the process flows to S1005. An error is transmitted to the client and the process ends.
[0054]
In S1002, the file identifier of the image being displayed is acquired. This can be done by referring to the variable X and obtaining the file identifier.
[0055]
In subsequent S1003, based on the file identifier of the image obtained in S1002, the image file corresponding to the image being displayed is accessed from the storage unit 232 to read the image data.
[0056]
The read image data is transmitted to the client as image data 312 (FIG. 3), and the process ends (step S1004).
[0057]
As shown in FIG. 3, the server apparatus 202 displays the processing from the image request instruction of the user described above until the image data is transmitted from the server apparatus 202 to the client apparatus 201 and the client apparatus 201 stores the image data. While the image is displayed on the part 224, it is repeated as many times as the user thinks necessary.
[0058]
In the present embodiment, the description has been given using an example in which the image processing apparatus configured as illustrated in FIG. 1 is a client apparatus. However, for example, a printer apparatus illustrated in FIG. It is also possible to do.
[0059]
FIG. 6 differs from the configuration of FIG. 1 only in the portion where the data storage unit 102 is a printing unit 602. The printing unit 602 is a part that prints image data received by the printer device illustrated in FIG. 6, and may have a configuration such as a known print head and a paper feed mechanism.
[0060]
In the case of a printer device, the display unit 103 may be a CRT or a liquid crystal display, or may be configured by a lamp or the like. In this case, the client device does not store the image but passes it to the printing unit 602 for printing.
[0061]
Further, in this embodiment, an example in which there is one client device is shown, but the method according to the present invention does not limit the number of client devices, and a plurality of client devices are arranged, and each client device is connected to a server device. Each of them can perform communication processing as shown in FIG.
[0062]
As described above, according to the present invention, according to the image displayed on the server device, the user selects only the instruction to copy the image from the client device, and the user desires according to the client request. By transmitting only the image from the server device, it is possible to reduce the amount of communication and the communication time.
[0063]
In the first embodiment, an image is transmitted immediately in response to an image transmission request from the client device 201.
[0064]
Next, in response to a request from the client apparatus 201, the server apparatus 202 returns an image identifier, the client holds the received image identifier, and a second embodiment is described in which an image transmission request is made later using the identifier. To do.
[0065]
FIG. 4 is a diagram showing a flow of processing and communication between the client and the server in this embodiment. The client device 201 and the server device 202 execute the following processing under the control performed by the CPU 104 based on the program.
[0066]
In the form of FIG. 4, as in the first embodiment, the server apparatus 202 displays images one after another on the display unit 224 by the process as shown in FIG.
[0067]
When the user instructs an image request (step S401), the client apparatus 201 performs processing as shown in FIG. FIG. 11 shows processing executed by the CPU 104 of the client apparatus 201 based on the program in the RAM 106.
[0068]
In step S1101, an image identifier request 411 (FIG. 4) is transmitted to the server apparatus 202 in response to an image request instruction from the user in step S401 of FIG. 4, and subsequently a response transmitted by the server apparatus 202 is received. (Step S1102). In the subsequent step S1103, the process is branched according to the response of the server apparatus 202.
[0069]
If the response of the server device 202 is an error, the process proceeds to S1105 to perform error processing. In the error process, for example, an error message is displayed on the display unit 214 of the client device 201, the user is notified, and the process ends. When the response of the server device 202 is the image identifier 412 (FIG. 4), the received image identifier is stored in the data storage unit 102 (storage device 231) or the RAM 106 (step S1104), and the process ends.
[0070]
The image identifier may be an arbitrary identifier corresponding to the file identifier of the image stored in the storage device 232 of the server device 202. For example, when the character string “img0001.jpg” is used as the image file identifier, the file identifier itself may be used as the image identifier. For example, “img0001” or “0001” may be used.
[0071]
Furthermore, the identifier may not be easily inferred from the original file identifier. In that case, the data indicating the correspondence between the image identifier and the file identifier of the image is stored in the storage device 232 or the RAM 106 in the server device 202, and the client later requests an image based on the image identifier. In this case, it is sufficient if the target image in the storage device 232 can be specified by referring to the correspondence relationship to obtain the file identifier of the image. In this case, the image identifier and the image file identifier do not have to have a one-to-one correspondence. That is, since it is sufficient to uniquely determine a file identifier from a certain image identifier, there may be a plurality of image identifiers corresponding to one file identifier.
[0072]
The image identifier may be determined in advance or may be dynamically generated during system operation. In the former case, for example, data representing an example of the correspondence relationship with the file identifier of FIG. 5 may be held in any of the ROM 105, RAM 106, and data storage unit 102 of the server device 202.
[0073]
In the latter case, an image identifier corresponding to the file identifier may be generated, and the corresponding relationship may be held in either the RAM 106 or the data storage unit 102 of the server device 202. Any method can be used for generating numbers and character strings representing image identifiers as long as the generated image identifier is unique.
[0074]
In this embodiment, for simplicity of explanation, the image identifier is a 7-digit numeric character string representing a serial number for the image identifier request 411 from the client device. In order to obtain this serial number, for example, a variable numOfIDReq for counting the number of image identifier requests 411 (FIG. 4) is provided. Each time an identifier is generated, 1 is added, and in the case of this embodiment, it can be realized by converting it into a 7-digit numeric character string.
[0075]
FIG. 5 is a diagram showing an example of this correspondence.
[0076]
In FIG. 5, only a so-called file name is used as the file identifier. However, when the storage device 232 uses a system having a directory structure such as a well-known UNIX or MS-DOS file system, the directory Information (path name) may be included.
[0077]
The client device 201 can save the image identifier in any way. For example, as shown in FIG. 16, the received image identifier may be stored in the storage device 231 as a text file.
[0078]
FIG. 12 shows the flow of processing on the server 202 side after receiving the image identifier request 411 (FIG. 4) from the client apparatus 201. FIG. 12 shows processing executed by the CPU 104 of the server device 202 based on the program in the RAM 106.
[0079]
First, in step S1201, it is determined whether an image is currently being displayed. This is realized by referring to the variable X used in the flowchart of FIG. 9 as in the processing according to FIG. 10 of the first embodiment. That is, it is assumed that the image is not being displayed if X is cleared, and the image is being displayed otherwise. If an image is being displayed, the process proceeds to S1202, and if not, the process proceeds to S1205. An error is transmitted to the client device 201 and the process ends.
[0080]
In the next step S1202, the file identifier of the image being displayed is acquired. Similarly to the processing according to FIG. 10 of the first embodiment, this may be done by referring to the variable X in FIG. 9 to obtain the file identifier.
[0081]
In step S1203, an image identifier corresponding to the file identifier of the image acquired in step S1202 is acquired. As described above, the image identifier generation method in this embodiment is realized by adding 1 to the variable numOfIDReq and converting it into a 7-digit numeric character string. In the case of this embodiment, since the image identifier is dynamically generated, the correspondence relationship between the image file identifiers in the RAM 106 or the storage unit 102 as illustrated in FIG. 5 is updated.
[0082]
FIG. 17 shows a state in which the image identifier and the image file identifier shown in FIG. 5 are stored in the RAM 106 or the storage unit 102, a new image identifier request 411 (FIG. 4) is received, and an image identifier is generated. This is an example of updating the relation with the image (img0035.jpg) that was in the middle.
[0083]
In the correspondence table of FIG. 17, a new correspondence relationship, that is, a pair of an image identifier 0000008 and an image file identifier img0035.jpg is added after the last row in FIG.
[0084]
In step S1204, the image identifier acquired in step S1203 is transmitted to the client apparatus 201 as an image identifier 412 (FIG. 4), and the process ends.
[0085]
After the server apparatus 202 has displayed all the images, the client apparatus 201 starts an image transfer process for the images (step S402 in FIG. 4).
[0086]
The image transfer process may be started by the user operating the input units 221 to 223 to give an instruction and start the image transfer process.
[0087]
Alternatively, although not shown in FIG. 4, in a modified example, after the server device 202 displays the last image and a predetermined time has elapsed, the server device 202 communicates with the client device 201 to perform image display processing. The client apparatus 201 starts image transfer processing accordingly.
[0088]
The client apparatus 201 performs the process shown in FIG. 14 in response to step S402 (FIG. 4) for starting the image transfer process. FIG. 14 shows processing executed by the CPU 104 of the client device 201 based on the program in the RAM 106.
[0089]
First, in step S1401, the index variable k is initialized to 0.
[0090]
In the subsequent step S1402, the (k + 1) th image identifier (the (k + 1) -th line in FIG. 16) image identifier from the list of image identifiers (illustrated in FIG. 16) acquired by the image identifier acquisition process described in FIG. Is read. For example, when k is 0, the image identifier of the first row, that is, “0000001” is extracted.
[0091]
In step S1403, the image request 413 (FIG. 4) is transmitted to the server apparatus 202 using the image identifier acquired in step S1402, for example, 0000001. The format of the image request may be any format that includes an image identifier.
[0092]
Subsequently, a response transmitted from the server apparatus 202 is received (step S1404).
[0093]
In the subsequent step S1405, the process branches depending on the response of the server.
[0094]
If the response of the server device 202 is an error, the process proceeds to S1407 to perform error processing. In error processing S1407, for example, an error message is displayed on the display unit 214 of the client device 201 to notify the user, and the processing flows to S1408.
[0095]
If the response of the server device 202 is the image data 414 (FIG. 4), the process proceeds to S1406. In step S1406, the image data 414 is stored in the storage device 231 (data storage unit 102).
[0096]
In the subsequent step S1408, the index variable k is incremented by 1 and updated.
[0097]
In step S1409, the end of processing is determined. If all the image identifiers have been processed, the process ends. If not, the process proceeds to S1402.
[0098]
Whether or not the processing has been completed for all image identifiers is determined by comparing the index variable k with the number of image identifiers. If k is equal to or greater than the number of image identifiers, it can be determined that the processing has been completed for all image identifiers. For example, in the case of the example of FIG. 16, the number of image identifiers is four, so the process ends when k is 4 or more.
[0099]
Upon receiving the message (image transmission request) 413, the server device 202 converts the image identifier included in the message 413 into a file identifier of the image, and retrieves the image having the obtained file identifier from the storage device 232 (step S403). Further, the image is transmitted as a message (image data) 414 to the client apparatus 201 (step S403 in FIG. 4).
[0100]
FIG. 13 is a diagram for explaining the processing (step S403 in FIG. 4) of the server apparatus 202 that has received the image transmission request 413 (FIG. 4). FIG. 13 shows processing executed by the CPU 104 of the server apparatus 202 based on the program in the RAM 106.
[0101]
First, in step S1301, an image identifier included in the message 413 is extracted and converted from an image identifier to a file identifier. This conversion can be realized by referring to the data representing the correspondence as shown in FIG. 5 or FIG. 17 stored in the storage device 232 or the RAM 106.
[0102]
If the sent image identifier is in the correspondence table of FIG. 5 or FIG. 17, the file identifier of the corresponding image is extracted. If the sent image identifier is not included in the data representing the correspondence, acquisition of the file identifier fails.
[0103]
In step S1302, the process branches depending on the result of file identifier acquisition in step S1301. If the file identifier has been successfully acquired, the process proceeds to S1303. If the file identifier has failed, the process proceeds to S1306.
[0104]
In step S1303, image data is read from the storage device 232 based on the image identifier acquired in step S1301. At this time, if the file reading fails because the image file indicated by the file identifier is not in the storage device 232, the process flows to S1306 due to the branch of step S1304.
[0105]
If the file has been successfully read, the process proceeds to S1305, where the server apparatus 202 transmits the read data (image data 414) to the client 201, and the process ends.
[0106]
Step S1306 is an error process in which a message notifying the user of the error is transmitted, and the process ends.
[0107]
The processing in the server device 202 described above is performed every time an image transmission request 413 is sent from the client device 201.
[0108]
In the case of FIG. 4, an example is shown in which images are acquired one by one, or all image identifiers held by the client device 201 are transmitted to the server device 202 by a message 413, and the server device 202 receives images corresponding to each image identifier. It is also possible to obtain a file identifier for the image file, extract the image file, and send it to the client apparatus 201 with the message 414.
[0109]
As in the first embodiment, this embodiment can also use a printer as shown in FIG. 6 as a client.
[0110]
Further, in the present embodiment, an embodiment in which the number of client devices is one is shown. However, the method according to the present invention does not limit the number of client devices, and a plurality of client devices are arranged. Each of them can perform communication processing as shown in FIG.
[0111]
As described above, according to the embodiment of the present invention, the user selects only according to the image displayed on the server device and transmits only an instruction to copy the image from the client device, and the user desires according to the client request. An identifier representing an image is transmitted from the server device, and after displaying all the images, a request for image transmission is transmitted from the client device to the server device based on the previously received image identifier. By transmitting, it is possible to reduce the amount of communication and the communication time. In this embodiment, the server apparatus responds to a request in response to an image duplication instruction from the user, and the amount of response data from the server apparatus is small. Therefore, when the communication path 203 is slower or a plurality of client apparatuses are provided. It is particularly effective in such cases.
[0112]
FIG. 7 is a diagram showing the configuration of the image communication system according to the third embodiment.
[0113]
The client device 701 and the server device 702 are image communication devices having the configuration shown in FIG. 1, similarly to the client device 201 and the server device 202 shown in FIG. 2 in the first and second embodiments. Similarly to the first and second embodiments, the client device 701 may be a printer device having the configuration shown in FIG. 6, but in this embodiment, the client device 701 is shown in FIG. A case of such an image communication apparatus will be described.
[0114]
The display device 703 is an image communication device having the configuration shown in FIG. 1, but as will be apparent from the following description, the input unit 101 may be omitted in the method according to the present embodiment. Preferably, the display unit 103 includes a large screen CRT, a liquid crystal display, a known projector, or the like.
[0115]
The client device 701 and the server device 702 are connected via a communication path 704, and the server device 702 is connected to the display device 703 via a communication path 705. As in the first and second embodiments, the communication paths 704 and 705 are cables having a physical shape in the case of a wired communication system such as Ethernet, modem, USB, IEEE1284, IEEE1394, etc. Alternatively, in the case of wireless such as infrared, IEEE802.11b, Bluetooth, etc., it is a conceptual communication path. Although the present invention does not depend on the communication method and route type, FIG. 7 shows the communication paths 703 and 704 for convenience of explanation.
[0116]
In addition, the communication methods for the communication paths 703 and 704 do not have to be the same, and may be based on different communication methods. Further, one may be a wired communication method and the other may be a wireless communication method.
[0117]
In addition, 711 of the client device 701 is a cross key, 712 and 713 are buttons, and similarly, 721 of the server device 702 is a cross key and 722 and 723 are buttons, which respectively constitute the input unit of FIG. Yes. The cross keys and buttons are merely examples, and the types and numbers thereof do not depend on the method according to the present invention, and do not limit the method according to the present invention.
[0118]
The storage devices 731, 732, and 734 conceptually represent the data storage unit 102 of the client device 701, the server device 702, and the display device 703, respectively.
[0119]
Now, M (M ≧ 1) image files 733 are stored in the storage device 732 of the server device 702, and each of the M image files has a file identifier FID. _S1 ~ FID _SM And is managed by the server apparatus 702.
[0120]
Further, P (1 ≦ P ≦ M) image files 735 are stored in the storage device 734 of the display device 703, and each of the P image files has a file identifier FID. _D1 ~ FID _DP Is assigned and is managed by the display device 703.
[0121]
The P image files 735 are selected from the M images stored in the storage device 732 by the server device 702 and transmitted via the communication path 705. Further, the image may be converted into a format that can be processed by the display device 703 by the server device 702 performing image format conversion and resolution conversion as necessary. Therefore, the P image files 735 may not be original image data.
[0122]
In addition, a table 736 and a table 737 are stored in the storage device 732 of the server device 702. This table 736 is a transmission list to be described later, and table 737 is data representing the correspondence between the image identifiers of the P image files 735 on the display device 703 and the file identifiers of the images of the original images included in the image 733. .
[0123]
The server device 702 orders and transmits at least one image among the held images to the image communication display device 703. The image communication display device 703 receives the image identifier corresponding to the received image and the image communication display device. A file identifier that can identify the image of the is generated. At the same time, the image communication display device 703 stores the correspondence between the image identifier corresponding to the received image and the file identifier that can identify the image of the image communication display device so that the order of image reception can be reproduced, The image identifier is returned to the server device 703.
[0124]
The server device 702 receives the image identifier, and stores the correspondence between the transmitted image and the image identifier received from the image communication display device so that the order of image transmission can be reproduced.
[0125]
The image communication display device 703 switches an image to be displayed according to an instruction from the server device 702.
[0126]
FIG. 19 is a diagram illustrating a flow of processing in which the server apparatus 702 selects P images from the M images 733. FIG. 19 shows processing executed by the CPU 104 of the server device 702 based on the program in the RAM 106.
[0127]
First, the transmission list is initialized (step S1901).
[0128]
FIG. 20 shows an example of a list (2001) of M (M = 10) images 733 and an example of a transmission list (2002). In this case, initialization is performed by emptying the transmission list 2002. Can be realized.
[0129]
Next, the user operates the server device 702 to select an image to be transmitted (step S1902). This displays a list of images or file identifiers of images on the display unit 724, and operates the input units 721 to 723 to instruct transmission list registration.
[0130]
For example, 2001 is a list of M images 733 and the index variable m is used to display the mth row image of the list, and the user operates the input units 721 to 723 to instruct the display of the previous image. In this case, m can be subtracted by 1, and when the display of the next image is instructed, m is incremented by 1 and a new m-th row image is displayed. Alternatively, 2002 itself may be displayed and the user may select it.
[0131]
In the next step S1903, the file identifier of the image selected in the previous step S1902 is added to the end of the transmission list 2002.
[0132]
In step S1904, the end of the process is determined. For example, when a message such as “Do you want to end?” Is displayed on the display unit 724 and the user instructs the end by operating the input units 721 to 723, the determination result in step S1904 is true, Processing flows to step S1905.
[0133]
If the user instructs not to end the process, the process returns to step S1902.
[0134]
In the transmission list 2002, it is understood that the user has instructed transmission in the order of img0006.jpg, img0008.jpg, img0003.jpg, img0002.jpg, img0009.jpg, img0010.jpg by this processing.
[0135]
In step S1905, the transmission list 2002 is stored for subsequent image transmission processing to the display device 703. This is filed and stored, for example, in the storage device 732 (736). The format of the filed transmission list may be a format such as 2002, for example, but may be any other format.
[0136]
FIG. 18 is a diagram illustrating communication processing between the server device 702 and the display device 703. The server device 702 and the display device 703 execute the following processing under the control performed by the CPU 104 based on the program. The input unit 101 of the server device 702 can input a start instruction for the processing of FIG.
First, the server apparatus 702 transmits an image format inquiry (1801) to the display apparatus 703. In response to the inquiry, the display device 703 responds to the server device 702 with an image format (image format, image width and height, color space, etc.) that can be processed by the server device 702 (1802). This processing may be omitted when it is known in advance that the display device 703 can process the image data held by the server device 702. Therefore, it is indicated by a broken line in FIG.
[0137]
If the server device 702 cannot transmit an image in a processable image format that is returned by the display device 703, the processing is unsuccessful, and subsequent processing by messages 1803 and 1804 is not performed, resulting in an error. In this case, the display unit 724 indicates that an error has occurred and the process ends.
[0138]
Alternatively, when the server device 702 includes a means for converting the image format, resolution, or color space, it is determined whether or not there is an error by comparing the result image format by the conversion means with the image format by the response of the display device. You may do it.
[0139]
The server device 702 transmits image data (1803), and the display device 703 returns an image identifier (1804) for each received image. This exchange is repeated by the number of image identifiers that the transmission list 2002 has as a result of the processing shown in FIG. 19 described above.
[0140]
FIG. 21 is a diagram showing the flow of image transmission processing in the server device 702. FIG. 21 shows processing executed by the CPU 104 of the server device 702 based on the program in the RAM 106.
[0141]
First, in step S2101, the index variable idx is initialized to 0. Next, the file identifier on the (idx + 1) line of the transmission list is extracted (step S2102). Further, the image file indicated by the file identifier obtained in step S2102 is read to obtain image data (S2103).
[0142]
The next step S2104 controls whether or not to perform image format conversion processing as necessary. This branching is based on the image format of the server apparatus 702 as a result of the image format response 1802 in FIG. True if the display device 703 cannot process and format conversion is necessary, the process flows to S2105, and if format conversion is not necessary, the process is false, and the process flows to S2106. Alternatively, if the server device 702 does not include an image format conversion unit, the process always proceeds to false and the process proceeds to S2106.
[0143]
S2105 is a conversion process such as an image format, resolution, and color space. These conversion means may be known ones. Further, in addition to the configuration shown in FIG. 1, hardware (chip or the like) may be provided in the server apparatus 702, and stored in the ROM 105, RAM 106, and data storage unit 102 in the form of a program. You can do it. Alternatively, as mentioned in the description of step S2104, the resolution conversion means is not essential and may be omitted.
[0144]
In the subsequent step S2106, the image data read in step S2103 or the image data whose image format is converted in step S2105 (1803 in FIG. 18) is transmitted to the display device 703.
[0145]
In step S2107, the display device 703 receives an image identifier (1804 in FIG. 18) returned in response to image data transmission. In step S2108, the image identifier received in step S2107 is stored together with the file identifier of the transmitted image (737 in FIG. 7). The format of this file may be arbitrary as long as the correspondence between the image identifier and the identifier in the file can be expressed.
[0146]
The above processing is repeated by the number of image identifiers held in the transmission list 2002, which is the result of the processing shown in FIG. In step S2109, if the transmission of the image on the transmission list is completed, the process is terminated. If not, the index variable idx is incremented in step S2110, and the process returns to step S2103.
[0147]
231 in FIG. 23 is an example of a file format for recording this correspondence. In 2301, the correspondence is described in each line in the format of “image identifier” (returned by the display device 703), tab, and “file identifier” (in the server device 702).
[0148]
FIG. 22 is a flowchart showing a processing flow in the display device 703 corresponding to the image data 1803 in FIG. FIG. 22 shows processing executed by the CPU 104 of the display device 703 based on the program in the RAM 106. The RAM 106 is a storage medium in which this program is stored so as to be readable by the CPU 104 that is a computer. Further, when the CPU 104 is configured to read the program from a floppy disk or compact disk (not shown), the floppy disk or compact disk corresponds to a storage medium that stores the program so that the CPU 104 can read the program. Further, this program may be supplied to the RAM 106 from the outside via the communication unit 107. When the display device 703 receives the image data 1803 (FIG. 18) (step S2201), the display device 703 generates an image file identifier for storing the image (step S2202). The file identifier can be generated by any method as long as an identifier that can be identified inside the display device 703 is generated. In conjunction with this, an image identifier is also generated. Since the method for generating an image identifier has been described in the second embodiment, a description thereof is omitted here.
[0149]
Next, using the file identifier generated in step S2202, the image data received in step S2201 is stored in the storage device 734 as a file (step S2203). Further, the file identifier and the image identifier generated in step S2202 are stored as a pair in the storage device 734 (step S2204).
[0150]
This correspondence relationship is the same as the correspondence relationship shown in FIG. 17, and any format can be used as long as these relationships can be expressed. 232 in FIG. 23 is an example of a file format for recording this correspondence. In 2302, the correspondence is described in each line in the format of “image identifier” (in the display device 703), tab, and “file identifier” (in the display device 703).
[0151]
In step S2204, a new file identifier and image identifier are added to the end of the file indicated by 2301. In this way, the order in which the images are received can be stored. In step S2205, the image identifier 1804 (FIG. 18) generated in step S2202 is transmitted to the server device 702, and the process ends.
[0152]
When 2301 and 2302 are associated with each other, for example, it can be seen that the image file img0006.jpg of the server device 702 corresponds to the image file p001001.jpg of the display device 703, and both are associated with the image identifier hnd0001. Further, since the order relationship in which the images are transferred is also maintained, it can be seen that, for example, the image next to img0006.jpg of the server device 702 corresponds to p001002.jpg of the display device 703.
[0153]
Therefore, after the image transfer process described above, it is possible to specify that the server device 702 displays the specific image on the display device 703 or displays the previous or next image in the transmission order. After the instruction is made a plurality of times, it is possible to determine what the image in the server device 702 corresponding to the currently displayed image is.
[0154]
In FIG. 18, 1805 is a message for instructing the display device 703 to display a specific image from the server device 702. The message 1805 is an image identifier (generated by the display device 703 generated by Image identifier returned to device 702).
[0155]
The display device 703 determines an image corresponding to the image identifier designated according to the message 1805 from 2302 in FIG. 23, reads the image pointed to by the corresponding image identifier, and displays it on the display unit 734. A message 1806 is a response message indicating success or failure of display processing in response to the message 1805. Alternatively, in the modification, the image identifier of the image displayed as a result of the instruction by the message 1805 is used.
[0156]
A message 1807 instructs the server apparatus 702 to display the previous image in the order of the table 2302 with respect to the image currently displayed. In response to the message 1807, the display device 703 reads the previous image in the order of the table 2302 with respect to the currently displayed image and displays the read image on the display unit 734.
[0157]
A message 1808 is a response message indicating success or failure of display processing in response to the message 1807. Alternatively, in the modified example, the image identifier of the image displayed as a result of the instruction by the message 1807.
[0158]
A message 1809 instructs the server apparatus 702 to display the next image in the order of the table 2302 with respect to the image currently displayed. In response to the message 1809, the display device 703 reads the next image in the order of the table 2302 with respect to the currently displayed image and displays it on the display unit 734.
[0159]
A message 1810 is a response message indicating the success or failure of the display process in response to the message 1809. Alternatively, in the modified example, the image identifier of the image displayed as a result of the instruction by the message 1809.
[0160]
These messages 1805, 1807, and 1809 may be repeated any number of times in an arbitrary order from the server device 702. The input unit of the server device 702 can input an instruction to transmit any one of the messages 1805, 1807, and 1809.
[0161]
As described above, in the communication system shown in FIG. 7, an image can be transmitted from the server device 702 to the display device 703 in advance, and a display instruction for a specific image and an image display instruction before and after that can be performed. Also, the server device 702 always knows which image is displayed, and also knows which image 733 in the storage device 732 is the image corresponding to the currently displayed image. That is, the server device 702 displays a file identifier (or an image communication display device) indicating which of the image files 733 stored in the storage device 732 is the image displayed by the image display device 703. The image identifier at 703) is stored in the RAM.
[0162]
Therefore, the user instructs the client apparatus 701 to transfer an image as in the first or second embodiment while viewing the image displayed on the display unit 734 of the display apparatus 703, and the client apparatus 701 sends a request to the server apparatus 702. When transmitted, the server device 702 specifies what the image requested by the user is (since the information indicating which image the image communication display device 703 is displaying is stored in the RAM 106, The user's desired image is retrieved from the storage device 732 and transmitted to the client device 701.
[0163]
That is, as in the first embodiment, the server device 702 can identify the image currently displayed on the image communication display device 703 (the image identifier on the image communication display device 703 or the image file 733 corresponding thereto). And the image communication display device 703 displays an image, and the client device 701 transmits an image transfer request to the server device 702, the server device 702 is currently displaying the image communication display device 703. And the image held in the server device 702 corresponding to the image displayed on the image communication display device 703 is transmitted to the client device 701.
[0164]
Further, as in the second embodiment, when the image communication display device is displaying an image and the client device 701 transmits a request for image identifier transmission to the server device 702, the server device 702 displays the current image communication display device 703. Is identified from the identifiable information, the image identifier corresponding to the image currently displayed on the image communication display device 703 and the information that can identify the image displayed on the image communication display device 703. The correspondence relationship is held, and this image identifier is transmitted to the client device 701.
[0165]
The client 701 that has received the image identifier transmits an image transfer request together with the image identifier to the server device 702, and the server device 702 that has received the image identifier and the image transfer request receives the received image identifier and image communication. The image displayed by the image communication display device 703 when the client device 701 transmits an image identifier transmission request according to the correspondence between the information that can identify the image displayed on the display device and the second image identifier. The image held by itself corresponding to is transmitted to the client apparatus 701.
[0166]
As described above, according to the embodiment of the present invention, only a command selected by the user according to the image displayed on the display device and transmitted from the client device to the server device is transmitted to the server device. Can be transmitted from the server device to the client device. The processing according to the first and second embodiments can be realized by cooperating with a device having a high display capability even when the display capability of the server device is not high or not.
[0167]
【The invention's effect】
As described above, according to the present invention, an image identifier is transmitted during image display, and when an image transfer request is received, an image file is read and transmitted, so that The transmission load is light.
In addition, according to the present invention, when the server device holding the image file displays an image using the image communication display device, the image displayed on the image communication display device can be identified. Further, the server can transmit an image file corresponding to the image displayed on the image communication display device to the client.
[Brief description of the drawings]
FIG. 1 is a diagram illustrating a configuration example of an image communication apparatus constituting an image communication system according to the present invention.
FIG. 2 is a diagram illustrating a configuration example of an image communication system according to first and second embodiments.
FIG. 3 is a diagram illustrating a process of a client and a server and a flow of communication according to the first embodiment.
FIG. 4 is a diagram illustrating a process of a client and a server and a flow of communication according to the second embodiment.
FIG. 5 is a diagram illustrating a correspondence example between an image identifier and an image file identifier.
FIG. 6 is a diagram illustrating a configuration example of a printer device constituting a client of the image communication system according to the present invention.
FIG. 7 is a diagram illustrating a configuration example of an image communication system according to a third embodiment.
FIG. 8 is a flowchart showing a processing flow on the client side of the image communication system according to the first embodiment.
FIG. 9 is a flowchart showing a flow of image display processing on the server side of the image communication system according to the first and second embodiments.
FIG. 10 is a flowchart showing the flow of response processing on the server side of the image communication system according to the first embodiment.
FIG. 11 is a flowchart showing the flow of image identifier acquisition processing on the client side of the image communication system according to the second embodiment.
FIG. 12 is a flowchart showing a flow of response processing to an image identifier request on the server side of the image communication system according to the second embodiment.
FIG. 13 is a flowchart showing a flow of response processing to an image request on the server side of the image communication system according to the second embodiment.
FIG. 14 is a flowchart showing the flow of image acquisition processing on the client side of the image communication system according to the second embodiment.
FIG. 15 is a diagram showing an example of an image list held by the server of the image communication system according to the present invention.
FIG. 16 is a diagram showing an example of an image identifier list stored by a client of the image communication system according to the second embodiment.
FIG. 17 is a diagram illustrating a state in which FIG. 5 of a correspondence example between an image identifier and an image file identifier is updated.
FIG. 18 is a diagram illustrating a communication flow between the server and the display device of the image communication system according to the third embodiment.
FIG. 19 is a diagram showing a flow of image transmission list creation processing in the server of the image communication system according to the third embodiment.
FIG. 20 is a diagram illustrating an example of an image list and an image transmission list.
FIG. 21 is a diagram showing a flow of image transmission processing in the server of the image communication system according to the third embodiment.
FIG. 22 is a diagram showing a flow of image reception processing in the display device of the image communication system according to the third embodiment.
FIG. 23 is a diagram showing a correspondence relationship between an image file identifier transmitted by a server of an image communication system according to the third embodiment and an image identifier issued by a display device, and an image file identifier received by the display device and a display device; It is a figure showing the correspondence of the image identifier which issued.
[Explanation of symbols]
201 Client device
202 Server device

Claims (9)

Image holding means for holding image files;
Display means for displaying an image of the image file held in the image holding means ;
An image identifier transmitting means for transmitting an image identifier corresponding to the image being displayed to the client when an image identifier transmission request is received from the client during image display;
When receiving the image identifier and the image transfer request from the client, the image file of the image displayed when the client transmitted the image identifier transmission request is read from the image holding unit according to the received image identifier, A server apparatus comprising image transmission means for transmitting to the client. Displays the image of the stored image file,
When an image identifier transmission request is received from the client during image display, the image identifier corresponding to the image being displayed is transmitted to the client.
When an image identifier and an image transfer request are received from the client , the image file of the image that was displayed when the client transmitted an image identifier transmission request is read according to the received image identifier and transmitted to the client A server program characterized by that . Displays the image of the stored image file,
When an image identifier transmission request is received from the client during image display, the image identifier corresponding to the image being displayed is transmitted to the client,
When an image identifier and an image transfer request are received from the client, the image file of the image that was displayed when the client transmitted an image identifier transmission request is read according to the received image identifier and transmitted to the client The image transmission method in the server characterized by the above-mentioned. In the server device that is connected to the client via the first communication path and connected to the image communication display device via the second communication path,
Image holding means for holding image files ;
Display image transmission means for ordering the image data of the image files held in the image holding means and transmitting them to the image communication display device;
A switching instruction transmitting means for transmitting a switching instruction for switching an image displayed by the image communication display apparatus to the image communication display apparatus;
Information holding means for holding information capable of identifying an image currently displayed by the image communication display device;
When an image transfer request is received from the client while the image communication display device is displaying an image, the image communication display device displays the image communication display device according to information that can identify the image currently being displayed. A server apparatus comprising: a request image transmission unit that reads an image file held by the image holding unit corresponding to an image being held and transmits the image file to the client. In the server program that connects to the client via the first communication path and connects to the image communication display device via the second communication path ,
The image data of the stored image file is ordered and transmitted to the image communication display device,
A switching instruction to switch an image displayed by the image communication display device is transmitted to the image communication display device;
Holds information that can identify the image currently displayed on the image communication display device,
When an image transfer request is received from the client while the image communication display device is displaying an image, the image communication display device identifies the currently displayed image from the identifiable information, and the image communication display device displays A server program that reads an image file corresponding to a current image and transmits the image file to the client . In an image transmission method in a server connected to a client via a first communication path and connected to an image communication display device via a second communication path,
The image data of the held image file is ordered and transmitted to the image communication display device,
A switching instruction to switch an image displayed by the image communication display device is transmitted to the image communication display device;
Holds information that can identify the image currently displayed on the image communication display device,
When an image transfer request is received from the client while the image communication display device is displaying an image, the image communication display device identifies the currently displayed image from the identifiable information, and the image communication display device displays An image transmission method comprising: reading an image file corresponding to an image being transmitted and transmitting the image file to the client. In the server device that is connected to the client via the first communication path and connected to the image communication display device via the second communication path,
Image holding means for holding image files ;
Display image transmission means for ordering the image data of the image files held in the image holding means and transmitting them to the image communication display device;
Instruction transmitting means for transmitting an instruction to switch an image displayed by the image communication display device;
Identification information holding means for holding information capable of identifying an image currently displayed by the image communication display device;
When the image communication display device transmits an image identifier transmission request from the client while the image is being displayed, the current image communication display device determines whether the image currently being displayed is identifiable. Identifier transmitting means for transmitting an image identifier corresponding to the image being displayed to the client;
When the image identifier and the image transfer request are received from the client, the image communication display device corresponds to the image displayed when the client transmits the image identifier transmission request according to the received image identifier. A server apparatus comprising: a request image transmission unit that reads an image file held by the image holding unit from the image holding unit and transmits the read image file to the client. In the server program that connects to the client via the first communication path and connects to the image communication display device via the second communication path ,
The image data of the stored image file is ordered and transmitted to the image communication display device,
Sending an instruction to switch the image displayed by the image communication display device,
Holds information that can identify the image currently displayed on the image communication display device,
When the image communication display device transmits an image identifier transmission request from the client while the image is being displayed, the image communication display device currently displays the image communication display device according to information that can identify the image currently displayed. Sends an image identifier to the client that corresponds to the image that is being displayed,
When the image identifier and the image transfer request are received from the client, the image communication display device corresponds to the image displayed when the client transmits the image identifier transmission request according to the received image identifier. A server program for reading an image file held by a server and transmitting it to the client . In the image transmission method in the server connected to the client via the first communication path and connected to the image communication display device via the second communication path,
The image data of the stored image file is ordered and transmitted to the image communication display device,
Sending an instruction to switch the image displayed by the image communication display device,
Holds information that can identify the image currently displayed on the image communication display device,
When the image communication display device transmits an image identifier transmission request from the client while the image is being displayed, the current image communication display device determines whether the image currently being displayed is identifiable. Sends an image identifier to the client that corresponds to the image that is being displayed,
When the image identifier and the image transfer request are received from the client, the image communication display device corresponds to the image displayed when the client transmits the image identifier transmission request according to the received image identifier. An image transmission method comprising: reading an image file held by a server and transmitting the image file to the client .

Images