JP4568954B2 - Data file management recording medium, data file management apparatus, image data transmission method, and data transmission method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a recording medium storing a data file management program for managing information data such as an image file, a data file management apparatus for managing information data, an image data transmission method, and a data transmission method.
[0002]
[Prior art]
For example, information data recorded on a recording medium such as a CF (compact flash) card by an electronic camera includes captured image data, recorded audio data, and information data containing information at the time of shooting. These pieces of information data are transmitted to a personal computer on which a predetermined application program is executed, and written in a data recording device on the personal computer side. In the case of image data, the image data written in the data recording device is read by executing a predetermined application program. The read image data is displayed on a display device such as a display device connected to the personal computer or printed on an output device connected to the personal computer. In the case of audio data, by executing a predetermined application program, the audio data written in the data recording device is read and reproduced by a reproduction device such as an audio reproduction device connected to the personal computer. . Further, in the case of information data, by executing a predetermined application program, the information data written in the data recording device is read and used as the information at the time of display and reproduction described above.
[0003]
[Problems to be solved by the invention]
As described above, when the photographer needs the information data recorded on the recording medium, all the data recorded on the recording medium is transmitted and recorded on the personal computer side. The At this time, even if it is desired to transmit only the information data newly recorded on the recording medium to the personal computer side, all the data recorded on the recording medium is transmitted to the personal computer side. As a result, information data already recorded in the recording device on the personal computer side is also transmitted and recorded redundantly. In particular, when information data of a large size, such as image data, is transmitted and recorded in an overlapping manner, the data transmission time becomes long and a large recording capacity is required for the data recording device on the personal computer side. there were.
[0004]
A first object of the present invention is a recording storing a data file management program for determining whether or not an information data file has been recorded using attribute information before transmitting and recording the information data file. To provide a medium.
A second object of the present invention is to provide a data file management apparatus that determines whether or not a file has been recorded using attribute information before transmitting and recording the information data file. .
A third object of the present invention is to transmit image data by using attribute information to determine whether or not the image data has been recorded before transmitting and recording the image data from the electronic camera to the computer apparatus. Is to provide.
A fourth object of the present invention is to determine whether or not data is recorded using attribute information before transmitting and recording data from the first electronic device to the second electronic device. Is to provide a transmission method.
[0005]
[Means for Solving the Problems]
(1) According to the first aspect of the present invention, there is provided a recording process for recording an image data file associated with a plurality of attribute information received from an external device on a recording medium, and the image data file recorded on the recording medium. An attribute data file creation process for creating a recorded attribute data file in which the plurality of attribute information associated therewith is recorded, a read process for reading a plurality of attribute information of an image data file in the external device, and the recorded A determination process for determining whether or not the plurality of attribute information recorded in the attribute data file completely matches the plurality of attribute information read by the reading process, and a complete result based on the determination result of the determination process Only when they do not match, an image data file that does not match completely is received from the external device and newly recorded on the recording medium. A computer-readable recording program for causing a computer to execute a recording control process for controlling the recording process and a display control process for displaying an image based on the newly recorded image data file on a display device Possible recording medium for data file managementThe recorded attribute data file is held for a predetermined period.
[0006]
(2) Claim5The invention described inA data file management device for receiving an image data file associated with a plurality of attribute information from an external device, wherein the recording means records the image data file associated with the plurality of received attribute information on a recording medium; and For the image data file recorded on the recording medium, attribute data file creation means for creating a recorded attribute data file in which the plurality of attribute information associated therewith are recorded, and a plurality of image data files in the external device Determining to determine whether reading means for reading attribute information and the plurality of attribute information recorded in the recorded attribute data file completely match the plurality of attribute information read by the reading means And image data that does not match completely only when the result of determination by the determination means does not match completely Recording control means for controlling the recording means so that a file is received from the external device and newly recorded on the recording medium, and display control for displaying an image based on the newly recorded image data file on a display device And the recorded attribute data file is held for a predetermined period.
(3) Claim6The invention described inIn the method of transmitting image data from an electronic camera to a computer device, the electronic camera prepares a plurality of attribute information associated with the image data, and the computer device receives the plurality of attribute information from the electronic camera. Compared with the plurality of attribute information recorded in the attribute data file in the recording device of the computer device, the received plurality of attribute information and the plurality of attribute information recorded in the attribute data file are at least one. The electronic camera requests the image data from the electronic camera only when they are different from each other, and the electronic camera transmits the image data to the computer when receiving the request for the image data. Data is received and newly recorded on the recording device, and the plurality of attributes of the image data And displaying an image based on image data recorded in the new with the broadcast updates recorded in the attribute data file to the display device, the attribute data file, characterized in that it is held for a predetermined time period.
[0008]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings.
-First embodiment-
FIG. 1 is a diagram showing an outline of a file management apparatus according to the first embodiment of the present invention. In FIG. 1, a file management apparatus includes an electronic still camera 1 and a personal computer (PC) 2 connected by an IEEE-1394 cable 3. The electronic still camera 1 includes an MPU 11, a CF card 12, and an interface circuit 13. The electronic still camera 1 records captured image data on a CF card in a predetermined format. In addition, the electronic still camera 1 can send captured image data to the personal computer 2 via the interface circuit 13 and the IEEE-1394 cable 3. The operation of the electronic still camera 1 is controlled by the MPU 11.
[0009]
The personal computer 2 includes an MPU 21, a recording device 22, and an interface circuit 23. Image data sent from the electronic still camera 1 is taken into the personal computer 2 via the IEEE-1394 cable 3 and the interface circuit 23. The image data captured by the personal computer 2 is recorded in a predetermined recording area in the recording device 22. The operation of the personal computer 2 is controlled by the MPU 21.
[0010]
As shown in FIG. 1, image data captured from the electronic still camera 1 to the personal computer 2 is displayed on a display device (not shown) connected to the personal computer 2 or printed by an output device (not shown) connected to the personal computer 2. Or The recording area of the recording device 22 is divided according to the file name given to the image data, and the image data of each file name is recorded in the corresponding recording area in the recording device 22.
[0011]
The recording format of the image data shot by the electronic still camera 1 and recorded on the CF card 12 is such that the image data can be processed using the personal computer 2 and the recorded image can be output to a display device or output device (not shown). Stipulated to match the format of data managed by a personal computer. FIG. 2 is a diagram for explaining the names of data given when the electronic still camera 1 takes a picture and records it on a recording medium such as the CF card 12. In FIG. 2, the name of the image data is determined by DCF (Design Rule for Camera File system) to give a directory 110 called “DCIM” under the root directory 100.
[0012]
FIG. 2 is called a directory tree and represents, for example, the structure of a data file managed by the personal computer 2. The image data name 120 provided under the above-described directory 110 will be described. As shown in FIG. 2, the image data name 120 includes a subdirectory 130 to which a plurality of names can be assigned, and a file name 140 to which a plurality of names can be assigned under each subdirectory 130. . These structures coincide with a structure called DOS used in a system that handles a recording device such as the personal computer 2. Some personal computer basic programs (OS) call a directory a folder.
[0013]
FIG. 3 is a diagram for explaining the subdirectory 130. The subdirectory 130 includes, for example, a numerical part 131 and a name part 132. The numerical part 131 is composed of a three-digit integer, and the name part 132 is composed of up to five alphabets, numbers and symbols. The name part 132 may be changed for each subdirectory 130 or may be the same name part 132 between different subdirectories 130. By making the numerical value part 131 different for each subdirectory 130, it is possible to identify another subdirectory 130 even if the name part 132 is the same.
[0014]
FIG. 4 is a diagram for explaining the file name 140. The file name 140 includes, for example, a header part 141, a numerical value part 142, and an extension 143. The header part 141 is given a four-digit alphabet character. “DSCN” in FIG. 4 indicates that the data with the file name 140 is image data recorded by the electronic still camera 1. The numerical value part 142 is given a 4-digit integer. The extension 143 “JPG” indicates that the image data with the file name 140 is image data compressed in the JPEG format. As described above, the image data recorded by the electronic still camera 1 can be processed by the personal computer 2 by giving a name including the subdirectory 130 and the file name 140 to the image data.
[0015]
Next, the fetched management table will be described. The captured management table summarizes four management items for each of the image data files recorded in the recording device 22: folder name, file name, date and time when the image data was taken, and file size of the image data. 3 is a management table recorded in the recording device 22. This management table prevents the image data already recorded in the recording device 22 from being duplicated when electronic image data is sent from the electronic still camera 1 connected as shown in FIG. Used for. FIG. 5A is a diagram illustrating the image data file 600 recorded on the CF card 12, and FIG. 5B is a diagram illustrating the captured management table 601.
[0016]
In FIG. 5A, the image data taken by the electronic still camera 1 is recorded in the CF card 12 with an individual file name as described above. Three files whose file names 140 are given by “DSCN0001.JPG” to “DSCN0003.JPG” are recorded in the folder given by the name “100NIKON” of the subdirectory 130. Also, four files whose file names 140 are given by “DSCN0001.JPG” to “DSCN0004.JPG” are recorded in a folder given by the name “101NIKON” of the subdirectory 130. Here, a case is considered in which the “DSCN0004.JPG” file in the “101NIKON” folder is newly sent to the personal computer 2 side.
[0017]
In FIG. 5B, the four management items described above are recorded in the fetched management table 601. Management items managed in the acquired management table 601 are defined in the acquired management definition table 602. In other words, among the attribute data of each image data file recorded in the recording device 22, the management item data defined in the captured management definition table 602 is tabulated and recorded as the captured management table 601. 22 is recorded. The attribute data is a plurality of information recorded on the CF card 12 as information representing the essence of the image data file when the electronic still camera 1 records the image data on the CF card 12 as an image data file. In addition to the data of the four management items described above, it includes shooting information such as a photographer and shooting conditions, a protector that prevents erroneous deletion of files, and the like.
[0018]
The fetched management table 601 is updated each time a new image data file is recorded in the recording device 22. For example, when an image data file with a file name “DSCN0004.JPG” in a folder whose subdirectory 130 is given by “101NIKON” is newly recorded in the recording device 22, the data of the management item relating to this image data file is captured. Is newly added to the completed management table 601.
[0019]
The management item is appropriately selected from the plurality of attribute data described above so that each image data file can be specified. Therefore, by checking only the management item data recorded in the fetched management table 601 among the attribute data of the image data file, the image data is stored in the recording device 22 without checking all the contents of the image data file. It can be determined whether or not to record. That is, it is possible to determine whether the image data is recorded in the recording device 22 by checking only the management item data.
[0020]
A process of taking the image data file into the personal computer 2 by the image data file management apparatus will be described with reference to the flowchart of FIG.
In FIG. 6, when the electronic still camera 1 and the personal computer 2 are connected with the IEEE-1394 cable 3 in a state where a predetermined image data file capturing program is activated on the personal computer 2, the processing of FIG. 6 is started. The In step S <b> 61, the MPU 21 of the personal computer 2 requests to send only attribute data from the electronic still camera 1 to the personal computer 2. Upon receiving the attribute data request, the MPU 11 of the electronic still camera 1 sends the attribute data of the corresponding file in the CF card 12 to the personal computer 2.
In the first step S61 after the process of FIG. 6 is started, only the attribute data of the first file in the CF card 12, that is, the image data file of the file name “DSCN0001.JPG” in the folder given by “100NIKON” is stored. Sent to PC 2. In step S62, the MPU 21 of the personal computer 2 reads the data in the fetched management table 601 from the recording device 22, and proceeds to step S63.
[0021]
In step S <b> 63, the MPU 21 determines whether the data in the captured management table 601 read from the recording device 22 matches the attribute data of the corresponding file captured from the electronic still camera 1. If it is determined that they match (Yes in step S63), the process proceeds to step S66. In this case, the electronic still camera 1 is not requested to send the image data file to the personal computer 2. On the other hand, if it is not determined that they match (No determination in step S63), the process proceeds to step S64. In step S64, the MPU 21 requests that the image data file in which the attribute data is captured in step S61 be sent from the electronic still camera 1 to the personal computer 2. When receiving the request for the image data file, the MPU 11 of the electronic still camera 1 sends the corresponding image data file in the CF card 12 to the personal computer 2. The MPU 21 of the personal computer 2 records the captured image data file in a predetermined recording area of the recording device 22, and proceeds to step S65.
[0022]
In step S65, the MPU 21 adds the management item data of the attribute data of the image data file recorded in the recording device 22 to the imported management table 601 and records it in the recording device 22, and proceeds to step S66. In step S66, the MPU 11 determines whether or not the processing has been completed for all image data files recorded in the CF card 12. If it is determined that the processing has been completed (Yes determination in step S66), an end flag is sent to the personal computer 2 and the processing in FIG. On the other hand, if it is determined that the process has not been completed (No in step S66), the process proceeds to step S67.
[0023]
In step S67, the MPU 11 advances the corresponding file for fetching the attribute data from the CF card 12, and returns to step S61.
[0024]
According to the image data file management apparatus according to the first embodiment described above, the following operational effects can be obtained.
(1) For each piece of image data recorded in the recording device 22 of the personal computer 2, the data of four management items including the folder name, the file name, the date and time when the image data was taken, and the file size of the image data were included. A fetched management table 601 is created and recorded in the recording device 22. When the personal computer 2 fetches the image data file from the electronic still camera 1, the electronic still camera 1 sends only the attribute data first (step S 61), and the personal computer 2 manages the management item data recorded in the recording device 22. It is determined whether or not it matches the attribute data fetched from the electronic still camera 1 (step S63). Therefore, before the electronic still camera 1 sends the image data file, only attribute data having a smaller number of data than the image data file is sent to determine whether the image data file is already recorded in the recording device 22 by the personal computer 2. Can be judged. As a result, the time required for the determination can be shortened as compared with the case where it is determined whether the file is a recorded file after the image data file is sent. In particular, when a data file having a large size such as image data is sent, a great effect can be obtained because the file transmission time is long.
(2) In addition to the above (1), in the image data file management apparatus according to the first embodiment, when it is not determined that the data of the management item matches the attribute data, the image data is transferred from the electronic still camera 1 to the personal computer 2. When the file is sent, the image data file is recorded in the recording device 22, and it is determined that the data of the management item matches the attribute data, the electronic still camera 1 does not send the image data file to the personal computer 2, Recording was not performed on the recording device 22. Accordingly, since the recorded image data file is not recorded in duplicate in the recording device 22 of the personal computer 2, the recording capacity of the recording device 22 can be suppressed.
[0025]
In the above description, the storage period of the data recorded in the fetched management table 601 has been described without specifying a period. However, the storage period may be specified. In this case, for example, a storage period is designated in advance such as 7 days, and the data recorded in the management table is erased after the storage period has passed. When the data is erased, a negative determination is made in step S63, so that all image data files are sent from the electronic still camera 1 to the personal computer 2. By specifying the data storage period in this way, there are the following advantages. For example, when a new image data file is additionally recorded on the CF card 12 that once sent the recorded image data file to the personal computer 2, the image data file recorded on the CF card 12 is sent again to the personal computer 2. By doing so, it is possible to prevent duplicated image data files from being sent to the recording device 22 of the personal computer 2 within the storage period of the management table data. The shorter the period of time that has passed since the last transmission of the image data file from the CF card 12 to the personal computer 2, the higher the possibility that the same image data file is recorded on the CF card 12. The intent of specifying the data retention period is to prevent the same image data file from being sent repeatedly when the same CF card 12 is used repeatedly. When the image data file is sent to the personal computer 2 after the predetermined period has elapsed, all the image data files in the CF card 12 are sent, so the image data file sent in the past is also sent again, and the personal computer 2 side All images in the CF card 12 can be confirmed.
[0026]
-Second embodiment-
When continuous shooting is performed with the electronic still camera 1, several frames are captured per second. Therefore, the number of image data files created at the time of one shooting is larger than when shooting a single frame. Therefore, it is more convenient to handle image data shot by continuous shooting in a group rather than handling single frames. In the second embodiment, the attribute data of the image data file recorded on the CF card 12 is used to determine whether or not the image data file has been continuously shot and image data that has been shot continuously. If it is determined that the file is a file, these image data files are grouped to perform file management.
[0027]
The MPU 21 of the personal computer 2 takes in the attribute data representing the file names 140 and dates regarding all the image data files recorded in the CF card 12 of the electronic still camera 1. The MPU 21 further determines whether or not the image data file has been continuously shot from the fetched attribute data. FIG. 7 is an example of attribute data representing the file name 140 and date captured by the personal computer 2. In FIG. 7, the date information includes a date part 150 and a time part 160, and the time stamp used in the above-described DOS can be used. These image data files are image data continuously photographed because the numerical value portion 142 of the file name 140 increases by one. Further, since the date part 150 is the same and the time part 160 is substantially the same time (strictly speaking, it differs only by the shooting interval at the time of continuous shooting), it is image data taken continuously. Here, the folder name of the image data file is the same, the numerical value part 142 of the file name 140 is incremented by one, the date part 150 is the same, and the time part 160 is advanced according to the shooting interval at the time of continuous shooting. In this case, the image data file has continuity.
[0028]
When the image data file has continuity as described above, the MPU 21 regards the image data file as a continuously shot image data file and performs group management as a set of files. When managing as a set of files, either one of the header part 141 and the numerical value part 142 in the file name 140 of FIG. 7 is replaced with a predetermined character, for example, “G0010004.JPG” to “G0010007.JPG”. Manage as given file name. “G001” represents the first group that is grouped.
[0029]
The processing of the image data file management apparatus according to the second embodiment will be described with reference to the flowchart of FIG. The program shown in the flowchart of FIG. 8 is activated when the electronic still camera 1 and the personal computer 2 are connected by the IEEE-1394 cable 3 in a state where a predetermined image data file import program is activated on the personal computer 2. To do. In step S81, the MPU 21 of the personal computer 2 requests the electronic still camera 1 to send only the attribute data relating to the file name and date to the personal computer 2. When the MPU 11 of the electronic still camera 1 receives a request for attribute data, the MPU 11 sends attribute data related to file names and dates of a plurality of image data files in the CF card 12 to the personal computer 2. The plurality of image data files are all image data files recorded on the CF card 12.
[0030]
In step S <b> 82, the MPU 21 of the personal computer 2 determines whether the attribute data captured from the electronic still camera 1 includes continuity data. If it is determined that there is data having continuity (positive determination in step S82), the process proceeds to step S83. If it is determined that there is no data having continuity (negative determination in step S82), the process proceeds to step S84.
[0031]
In step S <b> 83, the MPU 21 prepares a prefix “G001” that replaces the header portion 141. If there are a plurality of continuities, prefixes “G002”, “G003”,. In step S84, the MPU 21 requests that the image data file recorded on the CF card 12 be sent from the electronic still camera 1 to the personal computer 2. When receiving the request for the image data file, the MPU 11 of the electronic still camera 1 sends the image data file recorded in the CF card 12 to the personal computer 2. The MPU 21 of the personal computer 2 determines that the file determined to have continuity in step S82 among the captured image data files is the prefix “G001” prepared in the header portion 141 of the file name of the captured image data file. ”In the predetermined recording area of the recording device 22. On the other hand, a file determined not to be continuous is recorded in a predetermined recording area of the recording device 22 with the same file name as that sent from the electronic still camera 1. When the MPU 21 records all the image data files sent from the electronic still camera 1 in the recording device 22, the MPU 21 ends the processing of FIG.
[0032]
According to the image data file management apparatus according to the second embodiment described above, the electronic still camera 1 only receives the attribute data relating to the file names and dates of a plurality of image data files recorded in the CF card 12. The data is sent to the personal computer 2 first, and the personal computer 2 determines whether or not the acquired attribute data includes continuity (step S82). When it is determined that the image data file has the continuity, the MPU 21 of the personal computer 2 regards the image data file sent from the electronic still camera 1 in step S84 as a continuously shot image data file and prefixes the file name. The data is replaced and recorded in the recording device 22. As a result, since the continuously taken image data files are group-managed as a set of files having the same prefix, file management becomes easy. In particular, since a large number of image data files are generated by continuous shooting, a great effect can be obtained.
[0033]
In the above description, the MPU 11 of the electronic still camera 1 sends the attribute data regarding the file names and dates of all the image data files in the CF card 12 to the personal computer 2 (step S81). The attribute data may be sent only for the image data file recorded in the folder given by the subdirectory name 130. In this case, when the MPU 21 of the personal computer 2 records the image data file in the predetermined recording area of the recording device 22 in step S84, the image data file recorded in the folder designated in advance in the CF card 12 is stored. Is recorded in the recording device 22.
[0034]
In step S83 described above, the MPU 21 prepares the prefix “G001” for replacing the header portion 141. However, a suffix for replacing the numerical value portion 142 may be prepared.
[0035]
-Third embodiment-
In the image data file management apparatus according to the third embodiment, when the attribute data of the image data file is designated in advance by the personal computer 2 and the personal computer 2 fetches the image data file from the electronic still camera 1, the electronic still camera 1 Send only attribute data first. The personal computer 2 determines whether or not the attribute data designated in advance matches the attribute data fetched from the electronic still camera 1. If the personal computer 2 determines that the attribute data matches, the electronic still camera 1 sends an image data file to the personal computer 2.
[0036]
As described above, the attribute data includes, in addition to the folder name, file name, file date and time (date and time when the image data was captured), and file size of the image data, DOS format “read only”, “hidden file”, “ Archive ", image data header information, and the like. Arbitrary attribute data is designated in advance by the personal computer 2 from these. FIG. 9 is a diagram showing a take-in designation definition table 603 for designating attribute data. In FIG. 9, two attribute data are designated. The first one is read-only, and designates a file with a protection flag added to the image data file so that the file is not accidentally erased. The second is the date and time, and designates a file shot at 16:30 on April 4, 2000. In this way, at least one attribute data is specified in advance in the acquisition specification definition table 603.
[0037]
The processing of the image data file management device according to the third embodiment will be described with reference to the flowchart of FIG. 10 showing the flow of processing. The program shown in the flowchart of FIG. 10 is activated when the electronic still camera 1 and the personal computer 2 are connected by the IEEE-1394 cable 3 in a state where a predetermined image data file import program is activated on the personal computer 2. To do.
[0038]
In step S <b> 101, the MPU 21 of the personal computer 2 requests to send only attribute data from the electronic still camera 1 to the personal computer 2. Upon receiving the attribute data request, the MPU 11 of the electronic still camera 1 sends the attribute data of the corresponding file in the CF card 12 to the personal computer 2. In the first step S101 after the processing of FIG. 10 is started, only the attribute data of the first file in the CF card 12, that is, the image data file of the file name “DSCN0001.JPG” in the folder given by “100NIKON” is stored. Sent to PC 2. In step S102, the MPU 21 of the personal computer 2 reads the capture designation definition table 603 (FIG. 9) from the recording device 22, and proceeds to step S103.
[0039]
In step S <b> 103, the MPU 21 determines whether or not the attribute data specified in the acquisition specification definition table 603 read from the recording device 22 matches the attribute data acquired from the electronic still camera 1. If it is determined that they match (Yes determination in step S103), the process proceeds to step S104. On the other hand, if it is determined that they do not match (No determination in step S103), the process proceeds to step S105. In this case, the electronic still camera 1 is not requested to send the image data file to the personal computer 2. In step S104, the MPU 21 requests that the image data file in which the attribute data is acquired in step S101 be sent from the electronic still camera 1 to the personal computer 2. When receiving the request for the image data file, the MPU 11 of the electronic still camera 1 sends the corresponding image data file in the CF card 12 to the personal computer 2. The MPU 21 of the personal computer 2 records the captured image data file in a predetermined recording area of the recording device 22, and proceeds to step S105.
[0040]
In step S105, the MPU 11 determines whether or not the processing has been completed for all the image data files recorded in the CF card 12. If it is determined that the processing has been completed (Yes determination in step S105), an end flag is sent to the personal computer 2 and the processing in FIG. On the other hand, if it is determined that the process has not been completed (No in step S105), the process proceeds to step S106.
[0041]
In step S <b> 106, the MPU 11 advances the corresponding file for importing the attribute data from the CF card 12 and returns to step S <b> 101.
[0042]
According to the image data file management device of the third embodiment described above, the following operational effects can be obtained.
(1) The attribute data is designated by the take-in designation definition table 603 on the personal computer 2 and recorded in the recording device 22. When the personal computer 2 fetches the image data file from the electronic still camera 1, the electronic still camera 1 sends only the attribute data first (step S101), and the personal computer 2 uses the electronic still for the attribute data recorded in the recording device 22. It is determined whether or not it matches the attribute data fetched from the camera 1 (step S103). Therefore, before the electronic still camera 1 sends the image data file, it is possible to determine whether or not the image data file is necessary for the personal computer 2 by sending only attribute data having a smaller number of data than the image data file.
(2) In addition to the above (1), in the image data file management apparatus according to the third embodiment, when it is determined that the designated attribute data matches the attribute data sent from the electronic still camera 1 When the image data file is sent from the electronic still camera 1 to the personal computer 2 and the specified attribute data does not match the attribute data sent from the electronic still camera 1, the electronic still camera 1 sends the image data file to the personal computer 2. I tried not to. Therefore, it is possible to automatically select necessary image data from among a large number of image data in the electronic still camera 1 and send it to the personal computer 2 simply by specifying the attribute data. Compared with the case where selection is made after sending from the still camera 1 to the personal computer 2, the time and labor required for the capturing process can be greatly reduced.
[0043]
In the above description, the file management apparatus has been described by taking an example in which an electronic still camera 1 and a personal computer (PC) 2 are connected by an IEEE-1394 cable 3. The electronic still camera 1 and the personal computer (PC) 2 may be connected using a network cable or an interface device that transmits and receives wirelessly.
[0044]
In addition, instead of connecting the electronic still camera 1 and the personal computer 2, a CF card reader is provided in the personal computer 2 so that the personal computer 2 can directly read the data recorded on the CF card 12. The apparatus may be directly connected to the personal computer 2. In this case, the programs represented by the flowcharts of FIGS. 6, 8, and 10 described above are activated when the CF card 12 is inserted into the CF card reader. At this time, the processing performed by the MPU 11 of the electronic still camera 1 in the above description is collectively performed by the MPU 21 of the personal computer 2. That is, when the MP card reader does not include an MPU as in the electronic still camera 1, when the MPU 21 requires attribute information or image data, the attribute information or image data is received from the CF card reader.
[0045]
Furthermore, the image data file management device may be configured by connecting an electronic camera and an electronic camera, a personal computer and a personal computer, a recording medium and a recording medium, a camera and a recording medium, a recording medium and a personal computer, or These can be housed in a single housing. In the case of a recording medium, for example, when a CF card is connected to a personal computer or the like, it is connected via an adapter that converts the CF card reader or the interface of the CF card into another interface such as USB, Bluetooth, or IrDA. In any case, the present invention can be applied to the case where data having a large file size such as image data is transmitted between each electronic device regardless of a wired connection or a wireless connection, according to a predetermined data communication protocol. it can.
[0046]
In the above first to third embodiments, the file management apparatus has been described. However, the file management process described above is stored as a file management program in a recording medium such as a CD-ROM or a floppy disk in the form of software. The file management program can be read by a personal computer and used when the image data file recorded by the electronic camera is taken into the personal computer.
[0047]
Instead of reading the file management program from the recording medium on which the above-described file management program is recorded, the above-described file management program may be transmitted using a transmission medium such as the Internet. In this case, the transmitted file management program is read by a personal computer, and the above-described image data file fetching process is performed by the personal computer.
[0049]
【The invention's effect】
  As described above in detail, the present invention has the following effects.
(1) According to the invention described in claim 1,It is determined whether or not the plurality of attribute information recorded in the recorded attribute data file and the plurality of attribute information read by the reading means completely match. A file was received from an external device and newly recorded on a recording medium.
Therefore, when recording an image data file on a recording medium, it is possible to determine whether the image file has already been recorded on the recording medium by reading only attribute information having a smaller number of data than the image data file. As a result, the time required for the determination can be shortened as compared with the case where it is determined whether the file is a recorded file after reading the image data file.
In addition, since it is determined whether or not a plurality of pieces of attribute information completely match, only a new image data file can be surely recorded on the recording medium, and the capacity of the recording medium can be suppressed.
Furthermore, since an image based on the newly recorded image data file is displayed on the display device, the transfer can be easily confirmed.
(2) Especially,Claim 4According to the invention described in (1), in addition to (1) above,Arbitrary at least one attribute information is specified, and only when the specified attribute information matches the read attribute information, the image data file is received from the external device and newly recorded on the recording medium. Therefore, the information data file of the specified attribute information can be selected from the image data and recorded on the recording medium.
(3)According to the sixth aspect of the present invention, a plurality of attribute information of an image data file in an external device is read, and a plurality of attribute information recorded in the recorded attribute data file and a plurality of read information are read by the reading means. It is determined whether or not the attribute information completely matches, and only when the attribute information does not completely match, an image data file that does not completely match is received from the external device, newly recorded on the recording medium, and based on the newly recorded image data file The displayed image is displayed on the display device.
  Therefore, when recording an image data file on a recording medium, it is possible to determine whether the image file has already been recorded on the recording medium by reading only attribute information having a smaller number of data than the image data file. As a result, the time required for the determination can be shortened as compared with the case where it is determined whether the file is a recorded file after reading the image data file.
Further, since it is determined whether or not a plurality of pieces of attribute information match completely, only a new image data file can be surely recorded on the recording medium, and the capacity of the recording medium can be suppressed.
Furthermore, since the image based on the newly recorded image data file is displayed on the display device, the transfer can be easily confirmed.
(4)According to the seventh aspect of the invention, a plurality of attribute information is received from the electronic camera, compared with a plurality of attribute information recorded in the attribute data file in the recording device, and the received plurality of attribute information and attribute data are received. Only when at least a part of the plurality of attribute information recorded in the file is different, the image data is received from the electronic camera and newly recorded on the recording device, and the plurality of attribute information of the image data is stored in the attribute data. An image based on the newly recorded image data is displayed on the display device while being updated and recorded in the file.
Therefore, when recording an image data file on a recording medium, it is possible to determine whether the image file has already been recorded on the recording medium by reading only attribute information having a smaller number of data than the image data file. As a result, the time required for the determination can be shortened as compared with the case where it is determined whether the file is a recorded file after reading the image data file.
In addition, since it is determined whether or not a plurality of pieces of attribute information completely match, only a new image data file can be surely recorded on the recording medium, and the capacity of the recording medium can be suppressed.
Furthermore, since an image based on the newly recorded image data file is displayed on the display device, the transfer can be easily confirmed.
[Brief description of the drawings]
FIG. 1 is a diagram showing an outline of a file management apparatus according to a first embodiment.
FIG. 2 is a diagram for explaining the names of data given when data is recorded on a CF card.
FIG. 3 is a diagram illustrating a subdirectory.
FIG. 4 is a diagram illustrating file names.
FIG. 5A is a diagram illustrating an image data file recorded on a CF card, and FIG. 5B is a diagram illustrating a captured management table.
FIG. 6 is a flowchart showing a flow of processing for fetching an image data file by the image data file management apparatus according to the first embodiment.
FIG. 7 is a diagram illustrating attribute data representing a file name and a date.
FIG. 8 is a flowchart showing a flow of processing for fetching an image data file by the image data file management apparatus according to the second embodiment.
FIG. 9 is a diagram illustrating a capture designation definition table.
FIG. 10 is a flowchart showing a flow of processing for fetching an image data file by the image data file management apparatus according to the third embodiment.
[Explanation of symbols]
1 ... electronic still camera, 2 ... computer,
3 ... Cable, 11,21 ... MPU,
12 ... CF card 13,23 ... Interface circuit,
22 ... Recording device, 600 ... Image recorded on CF card
Data file, 140 ... file name,
141 ... header part 142 ... numerical value part,
150 ... Date part, 160 ... Time part,
601 ... Captured management table, 602 ... Captured management definition table,
603 ... Acquisition specification definition table

Claims (6)

A recording process for recording an image data file accompanied by a plurality of attribute information received from an external device on a recording medium;
An attribute data file creation process for creating a recorded attribute data file in which the plurality of attribute information accompanying the image data file recorded on the recording medium is recorded;
A read process for reading a plurality of attribute information of an image data file in the external device;
A determination process for determining whether or not the plurality of attribute information recorded in the recorded attribute data file and the plurality of attribute information read by the reading process completely match;
A recording control process for controlling the recording process so that an image data file that does not completely match is received from the external device and is newly recorded on the recording medium only when the determination result of the determination process does not completely match;
Display control processing for displaying an image based on the newly recorded image data file on a display device;
The A computer-readable data file management recording medium recording a program for causing a computer to execute,
The recorded attribute data file is retained for a predetermined period, and is a data file management recording medium. The data file management recording medium according to claim 1,
The attribute data file creation process records the plurality of attribute information of the recorded image data file newly recorded on the recording medium by the recording control process in the recorded attribute data file. Recording medium for file management. In the data file management recording medium according to claim 1 or 2 ,
A specification process for specifying any at least one attribute information;
A second determination process for determining whether or not the one attribute information specified in the specification process matches the attribute information read by the read process;
The recording control process controls the recording unit to receive a new image data file from the external device and record it on the recording medium only when it matches according to the determination result of the second determination process. A data file management recording medium characterized by the above. The data file management recording medium according to any one of claims 1 to 3 ,
A recording medium for data file management, wherein the external device is an electronic camera or a computer device . A data file management device for receiving an image data file accompanied by a plurality of attribute information from an external device,
Recording means for recording an image data file accompanied with the plurality of received attribute information on a recording medium;
About the image data file recorded on the recording medium, attribute data file creation means for creating a recorded attribute data file in which the plurality of attribute information associated therewith is recorded,
Reading means for reading a plurality of attribute information of an image data file in the external device;
Determining means for determining whether or not the plurality of attribute information recorded in the recorded attribute data file and the plurality of attribute information read by the reading means completely match;
A recording control means for controlling the recording means so as to receive an image data file that does not completely match only when the determination result of the determination means does not completely match from the external device and newly record it on the recording medium;
Display control means for displaying an image based on the newly recorded image data file on a display device;
With
The recorded attribute data file, data file management apparatus, characterized in that it is held for a predetermined time period. In a method for transmitting image data from an electronic camera to a computer device,
The electronic camera prepares a plurality of attribute information accompanying the image data,
The computer device receives the plurality of attribute information from the electronic camera and compares the attribute information with a plurality of attribute information recorded in an attribute data file in a recording device of the computer device, and the received plurality of attribute information and the Requesting the image data from the electronic camera only when the attribute information recorded in the attribute data file is at least partially different from the attribute information file,
When the electronic camera receives the request for the image data, the electronic camera transmits the image data to the computer,
The computer device receives the image data and newly records the image data in the recording device, and updates and records the plurality of attribute information of the image data in the attribute data file and an image based on the newly recorded image data. Display on the display device,
The attribute data file is retained for a predetermined period, and the image data transmission method is characterized in that :

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