WO2005062186A1 - データ記憶装置、情報送信装置、データ記憶システム及び情報処理システム - Google Patents
データ記憶装置、情報送信装置、データ記憶システム及び情報処理システム Download PDFInfo
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- WO2005062186A1 WO2005062186A1 PCT/JP2004/009107 JP2004009107W WO2005062186A1 WO 2005062186 A1 WO2005062186 A1 WO 2005062186A1 JP 2004009107 W JP2004009107 W JP 2004009107W WO 2005062186 A1 WO2005062186 A1 WO 2005062186A1
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Classifications
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- H04N5/00—Details of television systems
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- H04N5/765—Interface circuits between an apparatus for recording and another apparatus
- H04N5/77—Interface circuits between an apparatus for recording and another apparatus between a recording apparatus and a television camera
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- G11B27/28—Indexing; Addressing; Timing or synchronising; Measuring tape travel by using information detectable on the record carrier by using information signals recorded by the same method as the main recording
- G11B27/32—Indexing; Addressing; Timing or synchronising; Measuring tape travel by using information detectable on the record carrier by using information signals recorded by the same method as the main recording on separate auxiliary tracks of the same or an auxiliary record carrier
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Definitions
- Data storage device information transmission device, data storage system, and information processing system
- the present invention relates to a data storage device that stores acquired data in a hierarchical structure.
- a data storage device that stores acquired data in a hierarchical structure.
- the present invention relates to a data storage device that includes an imaging unit and generates a file of the data and a name of a folder having each file based on code information in image data obtained by imaging with the imaging unit.
- An information transmitting device that includes an image capturing unit, analyzes a code extracted from image data obtained by capturing the image using the image capturing unit, and transmits the obtained code information to the outside; and a code transmitted by the information transmitting device.
- a data storage system that generates a folder name or a file name of data stored in the data storage device based on the information; and an information processing device in which the information processing device performs predetermined processing based on the code information transmitted by the information transmission device.
- each device is configured to automatically set the file name and folder name of each data file based on, for example, the order in which each data is stored or the date and time when each data was obtained (for example, And Patent Document 1).
- a device configured to enable data communication or wireless communication with a computer via a cable.
- the file name or folder The name of the received file can be created in the memory, and the folder name of each data file stored in the memory can be changed to the file name or folder name received from the computer. Can be changed.
- a computer that can remove the memory card from the device body and read and write to the memory card is used.
- a new folder can be created in the storage area of the memory card, and the file name and folder name of each data file already stored in the memory card can be changed.
- Patent Document 1 Japanese Patent No. 3445325
- the file name and the folder name that are automatically set by each device by a predetermined process are often configured using, for example, numbers, alphabets, and the like.
- the name and folder name With the name and folder name, the data content in each data file cannot be predicted. Therefore, when processing each data, it is necessary to check the contents of each data file, and there is a problem that the processing load increases.
- the present invention has been made in view of such circumstances, and extracts code information corresponding to the code from image data obtained by capturing an image including the code, based on the extracted code information. It is another object of the present invention to provide a data storage device capable of generating an arbitrary folder name and a file name for each data stored in a memory. Further, when a code is not included in image data obtained by imaging, it is possible to reliably generate a folder name and a file name for each data stored in the memory based on predetermined information. It is another object to provide a possible data storage device.
- an information transmitting apparatus for analyzing a code obtained from image data obtained by imaging and transmitting the obtained code information to the outside, based on the code information transmitted by the information transmitting apparatus,
- a data storage system capable of generating arbitrary folder names and file names in data stored in the data storage device, and an information processing device based on the code information transmitted by the information transmitting device.
- Another object of the present invention is to provide an information processing system capable of performing a predetermined process.
- a data storage device is a data storage device comprising storage means for storing acquired data in a hierarchical structure, wherein a code is generated from an imaging unit and image data obtained by imaging the imaging unit. It is characterized by comprising extraction means for extracting information, and name generation means for generating a folder name or a file name of the data based on the code information extracted by the extraction means.
- the extracting means extracts the code information from the image data obtained by the imaging unit, and the name generating means stores the code information in the storing means in a hierarchical structure based on the extracted code information.
- a folder name or a file name for each data to be generated is generated. Therefore, for example, code information is previously associated with each code such as a two-dimensional barcode, and code information corresponding to the code is extracted from image data obtained by capturing an image of each code. Generate a folder name or file name based on the information.
- a data storage device is a storage unit that stores acquired data in a hierarchical structure.
- the data storage device including: an imaging unit; a table in which code information is associated with each of a plurality of image data; and code information corresponding to image data obtained by imaging by the imaging unit. It is characterized by comprising extraction means for extracting, and name generation means for generating a folder name or a file name of the data based on the code information extracted by the extraction means.
- a table in which code information is associated with each of a plurality of image data is prepared in advance, and the code information corresponding to the image data obtained by imaging by the imaging unit is extracted.
- the means extracts the table power, and the name generating means generates a folder name or a file name for each data stored in the storage means in a hierarchical structure based on the extracted code information. Therefore, for example, based on a table in which code information is previously associated with image data of each code such as a two-dimensional barcode, code information corresponding to image data obtained by capturing an image of each code is acquired, A desired folder name or file name is generated based on the acquired code information.
- the data storage device includes a judging means for judging whether or not the extracting means has extracted code information. If it is determined, the name generating means is configured to generate a folder name or a file name of the data based on predetermined information.
- the judging means judges whether or not the extracting means has been able to extract the code information from the image data obtained by the imaging section, and judges that the extracting means cannot extract the code information.
- the name generating means generates a folder name or a file name for each data stored in the storage means in a hierarchical structure based on the predetermined information.
- the data storage device is characterized in that when the determination means determines that the extraction means has not extracted code information, the data storage device is provided with a notification means for notifying that fact.
- the judging means judges that the code information cannot be extracted, the code information cannot be extracted, that is, an arbitrary name is given to the folder name or the final name of each data.
- the notifying means notifies that it is not possible.
- the folder name generated by the name generation means may be stored in a folder.
- Folder generating means for generating a folder in the storage means
- name changing means for changing the folder name or file name of the data stored in the storage means to the folder name or file name generated by the name generating means.
- the folder generation means generates a folder having the folder name generated by the name generation means in the storage means, and the name changing means generates the folder name relating to the data stored in the storage means. (Or file name) to the folder name (or file name) generated by the name generation means.
- the data storage device includes receiving means for receiving a selection of the first processing or the second processing, and the folder generating means, when the receiving means receives the selection of the first processing, A folder having a folder name generated by the name generation unit is generated in the storage unit, and the name change unit stores the folder in the storage unit when the reception unit receives the selection of the second process. It is characterized in that it is configured to change the folder name or the file name of the data that has been made to the folder name or the file name generated by the name generating means.
- receiving means for receiving a selection of the first processing or the second processing, and when the receiving means receives the selection of the first processing, the folder generating means is generated by the name generating means. A folder having the folder name is generated in the storage means. Further, when the accepting unit accepts the selection of the second process, the name changing unit replaces the folder name (or file name) of the data stored in the storage unit with the folder name (or file name) generated by the name generating unit. First name).
- An information transmitting apparatus is the information transmitting apparatus for transmitting information to the outside, comprising: an imaging unit; a code obtaining unit configured to obtain a code from image data obtained by imaging the imaging unit; It is characterized by comprising an analyzing means for analyzing the code acquired by the code acquiring means and acquiring code information, and a transmitting means for transmitting the code information acquired by the analyzing means to the outside.
- the code obtaining means obtains a code from the image data obtained by the imaging unit, and the obtained code is analyzed by the analysis means, and the obtained code information is sent to the outside. Send. Therefore, to obtain code information by analyzing the code, for example, a two-dimensional There is no need to store code information in association with each code such as one code in advance.
- the information transmitting apparatus includes a display means for displaying the code information acquired by the analysis means, and an instruction reception for receiving an instruction whether to transmit the code information displayed on the display means. Means, wherein the transmission means is configured to transmit the code information when the instruction reception means receives an instruction to transmit the code information.
- the code information obtained by analyzing the code extracted from the image data is displayed on the display means, and an instruction as to whether to transmit the displayed code information is given by the instruction receiving means. Accept. Further, by transmitting the code information when an instruction to transmit the code information is received, for example, transmission of inappropriate code information to the outside is prevented.
- the information transmitting apparatus includes an encrypting unit that encrypts the code information obtained by the analyzing unit, and the transmitting unit transmits the code information encrypted by the encrypting unit. It is characterized by being constituted.
- code information obtained by analyzing a code obtained from image data is encrypted by an encryption means and transmitted to the outside, so that highly confidential information is leaked. Even in such cases, unauthorized use of information becomes difficult.
- the information transmitting apparatus includes a plurality of the analyzing means corresponding to each of the different codes, and an analyzing means for analyzing the code based on the code acquired by the code acquiring means. Selecting means for selecting from the analyzing means, wherein the analyzing means selected by the selecting means is configured to analyze the code acquired by the code acquiring means.
- a plurality of analysis means for analyzing a code acquired from image data are provided, and one of the plurality of analysis means is selected based on the acquired code, and the selected analysis is performed. Analyze the code by means. Therefore, it is possible to appropriately analyze each of the codes obtained from the image data obtained by capturing the images of the different types of codes by appropriate analysis means.
- the information transmitting apparatus includes the code acquired by the code acquiring means and the code Storage means for storing, for each analysis means selected by the selection means, code information obtained by analyzing the code by the analysis means.
- a code obtained from image data and code information obtained by analyzing the code are stored for each corresponding analysis means, and an image obtained by appropriately capturing an image is stored.
- the analysis process can be simplified by selecting the code information corresponding to the code obtained from the data and the code information already stored.
- a data storage system is a data storage system including the above-described information transmission device and a data storage device that stores data in a hierarchical structure.
- a data storage device that stores data in a hierarchical structure receives code information transmitted from the information transmitting device described above, and, based on the received code information, generates the data by a name generation unit. Generate a folder name or a file name according to. Therefore, by generating a folder name or a file name of each data stored in a hierarchical structure based on the code information acquired from the information transmitting apparatus having the image pickup unit, the data storage device having no image pickup unit can be used. In this case, the folder name or file name of each data can be arbitrarily added.
- An information processing system includes the above-described information transmitting device, and an information processing device that performs a predetermined process based on code information transmitted from the information transmitting device.
- the information processing apparatus receives the code information transmitted from the information transmitting apparatus described above, and performs a predetermined process based on the received code information, so that the imaging unit is configured. It becomes possible to acquire information for an information processing apparatus having no image processing unit to perform a predetermined process from an information transmitting apparatus having an imaging unit.
- a storage device is provided based on code information corresponding to the code extracted from image data obtained by capturing an image including a code such as a two-dimensional barcode.
- code information corresponding to the code extracted from image data obtained by capturing an image including a code such as a two-dimensional barcode.
- code information cannot be extracted from the obtained image data, predetermined information, for example, the date and time of the data obtained to be stored in the storage means, the storage order in the storage means, etc.
- code information cannot be obtained from the image data obtained by the imaging unit to generate an arbitrary folder name or file name.
- code information cannot be extracted from image data obtained by capturing an image, the fact is notified so that generation of an arbitrary folder or file name in accordance with an instruction from each user has failed. Each user can be notified.
- a folder having a folder name generated based on the code information extracted from the image data obtained by imaging by the imaging unit is generated in the storage unit, so that each acquired It is possible to create a folder with an arbitrary folder name in the storage means for storing data. Also, the file name or folder name of each data file already stored in the storage unit is replaced with the file name or folder name generated based on the code information extracted from the image data obtained by the imaging unit. By changing the name of the data file, the file name or the folder name of the data file stored in the storage means can be arbitrarily changed.
- a folder having the generated folder name is generated in the storage unit, and when the second process is selected, the folder is stored in the storage unit.
- the file name or folder name of each data it is possible to switch between creating a new folder and changing the folder name or file name, for example, by selecting a process by the user. it can. Therefore, for example, a digital camera that stores image data obtained by capturing an image and reproduces the stored image data.
- a new folder is created if the execution of the recording process is selected, and the execution of the playback process is selected. Can be configured to change the folder name or file name.
- the code information is acquired by analyzing the code acquired from the image data obtained by capturing the image including the code, and the code information is previously associated with the code and stored.
- the code information obtained by analyzing the code obtained from the image data picked up by the device having the image pickup unit that does not need to be stored can be used in an external device.
- the code information obtained by the analysis is displayed, an instruction as to whether or not to transmit the displayed code information is received, and the transmission of code information that does not accept the transmission instruction is prevented from being transmitted to the outside. For example, only appropriate code information that has received the transmission instruction can be transmitted to an external device.
- a code extracted from image data obtained by capturing images of different types of codes is provided. Can be appropriately analyzed by appropriate analysis means. Also, by storing the code extracted from the image data and the code information obtained by analyzing the code for each corresponding analysis means, the corresponding code information can be obtained from the already stored code information. Information selection is sufficient, and the load of analysis processing that does not require analysis of codes extracted from image data obtained by appropriately capturing images can be reduced.
- a data storage device that stores data in a hierarchical structure generates a folder name or a file name related to the data based on code information transmitted from an external information transmitting device. By doing so, a folder name or a file name of each data can be arbitrarily added even in a data storage device having no imaging unit. Also, by performing a predetermined process on the information processing device and the code information transmitted from the external information transmitting device, the information processing device without the imaging unit can be obtained from the external information transmitting device with the imaging unit. By performing a predetermined process based on the information obtained, it is not necessary to input information necessary for various processes by operating the operation keys.
- FIG. 1 is a block diagram showing a configuration example of a digital camera according to Embodiment 1.
- FIG. 2 is a schematic diagram showing an example of contents stored in a code information DB.
- FIG. 3 (a) is a schematic diagram showing a configuration example of a folder list screen
- FIG. 3 (b) is a schematic diagram showing a configuration example of a thumbnail list screen.
- FIG. 4 is a flowchart showing a procedure for generating a folder name or a file name in the digital camera according to the first embodiment.
- FIG. 5 is a flowchart showing a generation procedure of a folder name or a file name in the digital camera according to the first embodiment.
- FIG. 6 is a flowchart showing a procedure for generating a folder name or a file name in the digital camera according to the first embodiment.
- FIG. 7 is a block diagram showing a configuration example of a digital camera according to a second embodiment.
- FIG. 8 is a block diagram showing a configuration example of a recording / reproducing apparatus according to Embodiment 2.
- FIG. 9 is a schematic diagram showing a configuration example of a name setting screen.
- FIG. 10 is a schematic diagram showing an example of a program name list sheet.
- FIG. 11 is a flowchart showing a generation processing procedure of a folder name or a file name by the digital camera according to the second embodiment.
- FIG. 12 is a flowchart showing a generation processing procedure of a folder name or a file name by the digital camera according to the second embodiment.
- FIG. 13 is a schematic diagram showing an example of a broadcast program list sheet.
- FIG. 14 is a flowchart showing a reservation recording processing procedure for the recording / reproducing device by the digital camera according to the third embodiment.
- FIG. 15 is a block diagram showing a configuration example of an information processing system according to the present invention.
- FIG. 16 is a schematic diagram showing an example of a travel list sheet.
- FIG. 17 is a schematic diagram showing a configuration example of a user confirmation screen.
- FIG. 18 is a flowchart showing a travel application processing procedure by the mobile phone 5 according to the fourth embodiment. It is one chart.
- FIG. 1 is a block diagram showing a configuration example of a digital camera as a data storage device according to the present invention.
- reference numeral 1 denotes a digital camera as a data storage device according to the present invention.
- the digital camera 1 includes a CPU (Central Processing Unit) 10, a ROM 11, a RAM 12, a camera processing unit 13, a code recognition unit. 14, a name generating unit 15, a display unit 16, a recording medium 17, and the like are connected to each other via a bus 19.
- CPU Central Processing Unit
- the CPU 10 operates as a control center of the digital camera 1, controls each of the above-described hardware connected via the bus 19, and performs various software operations in accordance with a control program stored in the ROM 11 in advance. Implement the function.
- the ROM 11 stores in advance various control programs necessary for operating the digital camera 1 as the data storage device of the present invention.
- the RAMI 2 is composed of an SRAM, a flash memory, or the like, and temporarily stores data generated when the CPU 10 executes the control program.
- the camera processing unit 13 is connected to a camera unit 13a, which is an imaging unit configured by a CCD (Charge Couple Device) or the like, and captures an image with the camera unit 13a at a timing according to the control of the CPU 10.
- the image data is fetched, a predetermined process is performed on the obtained image data, and the image data is recorded on the recording medium 17 via the bus 19.
- the camera processing unit 13 also transfers the image data subjected to the predetermined processing to the code recognition unit 14 or the display unit 16 as necessary.
- the recording medium 17 includes a memory card, a magnetic medium, a magneto-optical medium, a semiconductor memory, or the like, and operates as a storage unit that stores image data obtained from the camera processing unit 13.
- the recording medium 17 according to the present embodiment stores each image data as an image file managed in advance for each folder set to form a hierarchical structure.
- the display unit 16 is configured by a liquid crystal display (LCD), and displays an operation state of the digital camera 1, information to be notified to a user, image data obtained by imaging by the camera unit 13a, and the like. By using the touch panel type as the display unit 16, some or all of the various keys of the operation unit 18 can be substituted.
- a flash ROM 14a is connected to the code recognition unit 14, and a code information DB (table) 14b is stored in the flash ROM 14a.
- the code information DB 14b stores codes constituted by two-dimensional bar codes and code information corresponding to each code.
- the code recognition unit 14 recognizes whether or not the image data transferred from the camera processing unit 13 includes a code included in the code information DB 14b as necessary, and stores the code information DB 14b in the image data.
- the code information corresponding to the recognized code is read out from the code information DB 14b and transferred to the name generation unit 15. Therefore, the code recognizing unit 14 operates as extracting means for extracting code information corresponding to a code included in the image data, based on the image data obtained by the camera unit 13a.
- the name generation unit 15 operates as a name generation unit that generates a folder name or a file name in the image file stored in the recording medium 17 based on the code information transferred from the code recognition unit 14.
- the name generation unit 15 notifies the CPU 10 of the generated folder name or file name, and the CPU 10 generates a folder having the name generated by the name generation unit 15 on the recording medium 17 according to an instruction from the user. It works as a means.
- the CPU 10 may also serve as a name changing unit that changes a folder name or a file name of an image file already stored in the recording medium 17 to a name generated by the name generating unit 15 in accordance with an instruction from the user. Operate.
- the CPU 10 is connected to the operation unit 18.
- the operation unit 18 includes various keys necessary for the user to operate the digital camera 1, specifically, a cursor key 18a including a cross button, a mode switch 18b, a name button 18c, a shutter button 18d, and a decision button 18e. And so on.
- the mode switch 18b is, for example, a switch for switching between a recording process (recording mode) as the first process and a reproduction process (reproduction mode) as the second process, and selects the first process or the second process. It operates as a receiving means for receiving.
- the name button 18c is a button for instructing execution of a generation process for generating a folder name or a file name of an image file stored in the recording medium 17.
- the shutter button 18d is a button for instructing a timing of capturing image data as a still image from image data sequentially acquired by the camera unit 13a.
- the enter button 18e is a button used for various kinds of selection processing.
- the CPU 10 when the recording mode is selected by the mode switch 18b of the operation unit 18, the CPU 10 operates the camera processing unit 13 and the display unit 16, and the camera unit 13a operates.
- the sequentially acquired image data is transferred to the display unit 16 via the bus 19 and displayed on the display unit 16.
- the CPU 10 captures the image data at the timing when the shutter button 18d is turned on from the image data sequentially acquired by the camera unit 13a.
- the image file is recorded on the recording medium 17 as an image file, and the image file is displayed on the display unit 16. Note that a file name when a new image file is recorded on the recording medium 17 is given based on, for example, a photographing date and time, a recording order on the recording medium 17, and the like.
- the user when the user wants to create a new folder in a desired folder on the recording medium 17, the user turns on the name button 18c with the recording mode selected by the mode switch 18b.
- the code corresponding to is captured by the camera unit 13a.
- the code information DB 14b shown in FIG. 2 is printed as a code list sheet on recording paper in advance, and a desired code in the code list sheet is imaged by the camera unit 13a.
- the image data captured by the camera unit 13a is input to the code recognition unit 14. Further, the code recognizing unit 14 recognizes whether or not the acquired image data includes a code included in the code information DB 14b. If the code is recognized in the image data, the code information corresponding to the recognized code is recognized.
- the data is read from the DB 14b and transferred to the name generator 15.
- the name generation unit 15 generates a folder name based on the code information obtained from the code recognition unit 14. Note that the generated The notified folder name is notified to the CPU 10, and the CPU 10 creates a folder with the notified folder name in the designated folder.
- FIG. 3A is a schematic diagram showing a configuration example of the folder list screen. Each square in the figure indicates a folder, and each folder name is indicated in the square.
- Fig. 3 (b) is a schematic diagram showing an example of the configuration of the thumbnail list screen. The squares in the figure indicate image files, and the squares in the figure indicate thumbnail images and file images of each image file. The name is shown.
- the selection screen may be configured to display a list screen in which screen strength, folders, and thumbnails are confused as shown in FIG.
- the user selects a folder storing desired image files with the cursor key 18a and turns on the enter button 18e.
- the CPU 10 returns to the folder “20030101A” as shown in FIG. 3B. Display the thumbnail list screen of the image files stored in the display unit 16.
- Fig. 3 (b) similarly, when the image file with the file name "XXX_002.JPG" is selected and the enter button 18e is turned on, the CPU 10 proceeds to the selected image file "XXX_002.JPG”. Is read from the recording medium 17 and displayed on the display unit 16.
- the user can read the desired image file from the recording medium 17 and check it on the display unit 16.
- the user When the user wants to change the folder name or the file name of the image file stored in the recording medium 17, the user selects the reproduction mode with the mode switch 18b and changes the name with the cursor key 18a. Select a folder, folder or file and turn on the name button 18c. In this state, a code corresponding to the desired code information is captured by the camera unit 13a.
- the CPU 10 prompts the user to enter the name button.
- the image data acquired by the camera unit 13a is input to the code recognition unit 14.
- the code recognizing unit 14 recognizes whether or not the acquired image data includes a code included in the code information DB 14b, and when the code is recognized in the image data, the code information corresponding to the recognized code is recognized. Is read from the code information DB 14b and transferred to the name generation unit 15.
- the name generation unit 15 generates a folder name based on the acquired code information.
- a folder name of the selected folder is generated, and when a file is selected, a file name of the selected file is generated. I do.
- the generated folder name or file name is notified to the CPU 10, and the CPU 10 changes the folder name or the file name selected to change the name to the notified folder name or file name. I do. Therefore, as shown in Fig. 3 (a), it is possible to assign arbitrary folder names such as "Mt.Fuji", “athletic meet", and "Nikko", as shown in Fig. 3 (b). You can assign any file name such as “Hokkaido JPG”.
- the code recognizing unit 14 cannot recognize the code from the image data acquired from the camera processing unit 13, the code recognizing unit 14 notifies the CPU 10 of the fact.
- the CPU 10 Based on the notification from the code recognizing unit 14, the CPU 10 operates as a determining unit for determining whether the code recognizing unit 14 has recognized the code in the image data and extracted the corresponding code information. If it is determined that the code cannot be recognized in the image data, a signal indicating that fact is sent to the name generation unit 15.
- the name generation unit 15 When the code recognition unit 14 obtains a signal indicating that the code cannot be recognized in the image data from the CPU 10, the name generation unit 15 generates a folder name or a file name based on predetermined information. Specifically, the name generation unit 15 outputs the date and time of shooting, the date and time when A folder name or a file name is generated based on this. For example, when the first folder is created on November 4, 2003, a folder name such as “20031104A” can be generated.
- the code recognizing unit 14 determines that the code cannot be recognized in the image data
- the CPU 10 displays on the display unit 16 that the generation process of the arbitrary name specified by the user has failed.
- the display unit 16 operates as a notification unit that notifies the user that an arbitrary name could not be generated.
- FIG. 4 to FIG. 6 are flowcharts showing a folder name or file name generation processing procedure in the digital camera 1 according to the first embodiment.
- the user operates the mode switch 18b of the operation unit 18 according to a case where a new folder is created on the recording medium 17 or a case where the file name or the folder name of the image file already recorded is changed. To select the recording mode or the reproduction mode.
- the CPU 10 determines whether or not the recording mode has been selected by the user (S1). If the CPU 10 determines that the recording mode has been selected (S1: YES), the camera processing unit 13 and The display unit 16 is activated, and the image data acquired and captured by the camera unit 13a is sequentially transferred to the display unit 16 via the bus 19 and displayed on the display unit 16 (S2). Next, the user turns on a name button 18c to generate a name of a folder to be newly created on the recording medium 17.
- the CPU 10 determines whether or not the name button 18c of the operation unit 18 has been turned on (S3). If it is determined that the name button 18c has not been turned on (S3: NO), the CPU 10 proceeds to step S2. The process returns to the step (1), and the image data acquired by the camera section 13a is sequentially displayed on the display section 16 until the name button 18c is turned on. If the CPU 10 determines that the name button 18c has been turned on (S3: YES), the CPU 10 determines whether or not the user has turned on the shutter button 18d (S4). In this case (S4: NO), the control waits until the shutter button 18d is turned on.
- the shutter button 18d is turned on in order to take an image.
- the CPU 10 determines that the shutter button 18d is turned on (S4: YES)
- the CPU 10 captures image data acquired by the camera unit 13a, here, image data obtained by capturing a desired code (S5), and performs camera processing.
- the image data output from the unit 13 is input to the code recognition unit 14.
- the CPU 10 causes the code recognizing unit 14 to recognize whether or not any code in the code information DB 14b of the flash R ⁇ ⁇ ⁇ ⁇ ⁇ M 14a is included in the input image data (S6).
- the code recognizing unit 14 cannot recognize the code in the code information DB 14b in the acquired image data
- the code recognizing unit 14 notifies the CPU 10 of the fact, and the CPU 10 recognizes the code from the image data acquired by the camera unit 13a based on the notification. Power is determined ⁇ Judge (S7).
- the code recognition unit 14 If the code can be recognized from the image data acquired by the camera unit 13a (S7: YES), the code recognition unit 14 reads out the code information corresponding to the recognized code from the code information DB 14b (S8). The read code information is transferred to the name generator 15. The name generation unit 15 generates a folder name based on the code information acquired from the code recognition unit 14 (S9), and notifies the CPU 10 of the generated folder name.
- the CPU 10 determines that the code cannot be recognized from the image data obtained by the camera unit 13a (S7: NO), the CPU 10 generates a name indicating that the code could not be recognized by the code recognition unit 14. It is sent to the unit 15 (S10).
- the name generation unit 15 that has obtained this signal generates a folder name based on the predetermined information (S11), and notifies the CPU 10 of the generated folder name.
- the CPU 10 creates a folder having the folder name generated and notified by the name generation unit 15 at a predetermined location on the recording medium 17 (S12).
- the user when the user wants to change the folder name or the file name of the image file already recorded on the recording medium 17, the user operates the mode switch 18b of the operation unit 18 to select the reproduction mode.
- the CPU 10 determines that the recording mode is not selected by the user (S1: N ⁇ ), that is, when the reproduction mode is selected by the user, the folder name in each image file stored in the recording medium 17 is determined.
- a selection screen such as a folder list screen and a thumbnail list screen as shown in FIG. 3 is displayed on the display unit 16 in order to accept a change in the file name (S13).
- the user operates the cursor key 18a to select a folder or file whose name is to be changed using the selection screen.
- the CPU 10 determines whether or not the cursor key 18a has been operated by the user (S14). If the CPU 10 determines that the cursor key 18a has been operated (S14: YES), the CPU 10 operates according to the operated cursor key 18a. Then, the selected folder or file is changed (S15). If the CPU 10 determines that the cursor key 18a is not operated (S14: NO), the CPU 10 skips the process of step S15.
- the user selects a folder using the cursor key 18a to select a file in the folder shown on the selection screen, and turns on the enter button 18e.
- the CPU 10 determines whether or not the user presses the enter button 18e (S16). If the CPU 10 determines that the enter button 18e is turned on (S16: YES), the CPU 10 determines whether or not the folder is selected by the cursor key 18a. Is determined (S17). If it is determined that a folder has been selected (S17: YES), the CPU 10 displays a selection screen including a folder list screen and a thumbnail list screen for selecting folders and files in the selected folder (S18). ), And returns to the processing of step S14. If the CPU 10 determines that the enter button 18e has not been turned on (S16: NO), the CPU 10 skips to step S20.
- the CPU 10 stores the selected image file in the recording medium. It is read out from 17 and displayed on the display unit 16 (S19). Next, the user operates the operation unit 18 to change the name of the image file displayed on the display unit 16 or the folder or image file selected in step S15 without the enter button 18e being turned on in step S16. Turn on the name button 18c.
- the CPU 10 determines whether or not the name button 18c of the operation unit 18 has been turned on (S20). If the CPU 10 determines that the name button 18c has not been turned on (S20: NO), the process proceeds to step S14. Return to processing. If it is determined that the name button 18c has been turned on (S20: YES), the CPU 10 determines whether or not the shutter button 18d has been turned on by the user (S21), and the shirt button 18d has been turned on. In this case (S21: NO), the control waits until the shutter button 18d is turned on.
- the user turns on the shutter button 18d so that a desired code is captured by the camera unit 13a from the code list sheet as shown in FIG.
- CPU10 has a shutter button 18d If it is determined that is turned on (S21: YES), image data acquired by the camera unit 13a, here, image data obtained by capturing a desired code is taken (S22) and output from the camera processing unit 13 The image data to be input to the code recognition unit 14.
- the CPU 10 causes the code recognizing unit 14 to recognize whether or not any code in the code information DB 14b of the flash R ⁇ M 14a is included in the input image data (S23). If the code in the code information DB 14b cannot be recognized in the acquired image data, the code recognizing unit 14 notifies the CPU 10 of the fact, and the CPU 10 recognizes the code from the image data acquired by the camera unit 13a based on the notification. It is determined whether or not the operation has been completed (S24).
- the code recognition unit 14 When the code can be recognized from the image data acquired by the camera unit 13a (S24: YES), the code recognition unit 14 reads out the code information corresponding to the recognized code from the code information DB 14b (S25). ), And transfers the read code information to the name generation unit 15.
- the name generator 15 generates the name of the folder or file selected by the cursor key 18a based on the code information obtained from the code recognizer 14 (S26), and sends the generated folder name or file name to the CPU 10. Notice. As a result, the CPU 10 changes the name of the folder or file selected by the user to the name generated by the name generation unit 15 (S27).
- the CPU 10 fails to change the name of the folder or file selected by the cursor key 18a. Is displayed on the display unit 16 (S28), and the name change process ends.
- an arbitrary folder name or file name can be given based on the code information corresponding to the barcode captured by the camera unit 13a.
- code information corresponding to the captured barcode is not prepared in advance, it is possible to reliably generate a folder name or a file name based on predetermined information.
- code information is added to the code information DB 14b in this way, for example, a list of hiragana is displayed on the display unit 16, and the user operates the cursor keys 18a to select each hiragana, thereby obtaining a new hiragana.
- Code information can be input.
- the digital camera 1 can be connected to a computer via a cable or the like, and can be added from a keyboard or the like provided in the computer.
- a QR code registered trademark
- the recording medium 17 in the above-described embodiment is configured by a memory card, a magnetic medium, a magneto-optical medium, a semiconductor memory, or the like. No, it doesn't matter.
- the data storage device can be applied to a camera-equipped mobile phone that can be used only in the embodiment using the digital camera 1 described above. Further, the present invention is not limited to a device that records acquired image data, but can be applied to a mobile phone, a PDA, and the like that records acquired image data and video data including audio data. Furthermore, the present invention can be applied to a voice recorder that records acquired audio data by providing a camera and a display unit.
- FIG. 7 is a block diagram showing a configuration example of a digital camera in the data storage system according to the present invention
- FIG. 8 is a block diagram showing a configuration example of a recording / reproducing apparatus in the data storage system according to the present invention.
- the data storage system according to the second embodiment includes a digital camera 2 as an information transmission device according to the present invention, and a recording / reproducing device 3 as a data storage device according to the present invention.
- the wireless communication with the recording / reproducing apparatus 3 is possible according to the IrDA (Infrared Data Association) standard using infrared rays.
- the digital camera 2 and the recording / reproducing device 3 can perform wireless communication such as a wireless LAN compliant with the IEEE 802.11b standard and a wireless communication compliant with the Bluetooth standard in addition to the wireless communication using infrared rays. It's okay.
- the recording / reproducing device 3 is set in advance so that a broadcast program received by the tuner 35 (see FIG.
- the digital camera 2 captures a bar code that encodes a word used in a file name and a folder name of a broadcast program recorded by the recording / reproducing apparatus 3, analyzes the obtained image data, and obtains code information (word information). ) Is obtained, and the obtained code information is transmitted to the recording / reproducing device 3 by wireless communication.
- the recording / reproducing device 3 which has received the code information from the digital camera 2, generates a file name or a folder name of each image file to be recorded by itself, based on the received code information. Thereby, the file name and the folder name of the image file of the broadcast program recorded in the recording / reproducing device 3 can be arbitrarily added.
- the digital camera 2 includes a CPU 10, a ROM 11, a RAM 12, a camera processing unit 13, a display unit 16, a recording medium 17, a code extraction unit 20, It has a decoder selection unit 21, a decoding unit 22, a communication interface 23 for communicating with the external recording / reproducing device 3, and the like, and these are mutually connected via a bus 19.
- the operation unit 18 includes a send button 18f and the like in addition to a name button 18c, a shutter button 18d, and an enter button 18e.
- the transmission button 18f is used, for example, to transmit the code information decoded by the decoding unit 22 to the communication interface 2.
- This button is used when transmitting from 3 to the recording / reproducing device 3.
- the camera processing unit 13 of the digital camera 2 performs predetermined processing on image data obtained by imaging by the camera unit (imaging unit) 13 a under the control of the CPU 10, and then performs code extraction via the bus 19. Transfer to Part 20.
- the code extraction unit 20 detects whether or not the image data transferred from the camera processing unit 13 includes a code coded by a predetermined process in advance, and determines whether or not the code is included in the image data. If detected, it operates as code acquisition means for acquiring the detected code, and transfers the acquired (extracted) code to the decoder selection unit 21 and the decoding unit 22.
- the digital camera 2 of the second embodiment includes a plurality of first decoders 22a and a second decoder as analysis means for analyzing the code extracted by the code extraction unit 20 to obtain code information.
- the decoder selecting section 21 operates as a selecting means for selecting a decoder capable of analyzing the code based on the code transferred from the code extracting section 20, and the CPU 10 selects the decoder selected by the decoder selecting section 21.
- the code extracted by the code extracting unit 20 is analyzed by the decoder. Thereby, the digital camera 2 can perform a decoding process using an appropriate decoder according to the type of the code extracted by the code extracting unit 20.
- the communication interface 23 analyzes the code extracted from the image data acquired by the camera unit 13a by an appropriate decoder of the decoding unit 22 and outputs the code information to an external recording / reproducing apparatus. It operates as a transmitting means for transmitting to 3. Further, the CPU 10 causes the display unit (display means) 16 to display the code information decoded by the appropriate decoder as described above, and the user determines whether or not the displayed code information is appropriately decoded. An instruction to transmit the displayed code information to the recording / reproducing device 3 is input by operating the transmission button 18f of the operation unit 18.
- the CPU 10 receives an instruction as to whether or not to transmit the code information displayed on the display unit 16 to the recording / reproducing apparatus 3 based on whether or not the transmission button 18f has been operated by the user.
- the transmission button 18f is operated by the user, the code information displayed on the display unit 16 is transmitted from the communication interface 23 to the external recording / reproducing device 3.
- transmission of the code information that has not been properly decoded to the recording / reproducing device 3 can be prevented.
- the recording medium 17 of the digital camera 2 stores, for each corresponding decoder, the code extracted by the code extracting unit 20 and the code information obtained by decoding this code by an appropriate decoder.
- the storage device operates as a storage unit. As a result, it is possible to reduce the processing load of the code once analyzed without having to perform the analysis process again.
- the recording / reproducing device 3 communicates with the CPU 30, the R31M 31, the RAM 32, the remote control receiver 34, the tuner 35, the DVD recorder 36, and the digital camera 2. And a connection section 38 for connection to a monitor device 38a such as a liquid crystal display television device via a video interface for video signals and an audio cable for audio signals, and the like, each of which is connected via a bus 39. Connected to each other.
- a monitor device 38a such as a liquid crystal display television device via a video interface for video signals and an audio cable for audio signals, and the like, each of which is connected via a bus 39. Connected to each other.
- the CPU 30 operates as a control center of the recording / reproducing device 3, controls each of the above-described hardware connected via the bus 39, and controls various kinds of software according to a control program stored in the ROM 31 in advance. Realize the functional functions.
- the ROM 31 stores various control programs necessary for operating the recording / reproducing apparatus 3 as the data storage device of the present invention in advance.
- the RAM 32 is composed of an SRAM, a flash memory, or the like, and temporarily stores data generated when the CPU 30 executes the control program.
- the remote control receiving unit 34 receives, for example, infrared light from a remote control device (hereinafter, referred to as a remote control device) 4, converts the infrared light into a predetermined electric signal, analyzes the obtained electric signal, and receives a signal from the remote control device. It detects the input control signal and notifies the CPU 30 of the detected control signal. As a result, the CPU 10 reads out a control program corresponding to the control signal acquired by the remote control receiving unit 34 from the ROM 31 to the RAM 32 and sequentially executes the control program.
- a remote control device hereinafter, referred to as a remote control device 4
- the remote control device 4 has a cursor key 40, an enter button 41, a return button 42, and the like.
- the return button 42 is used when the user is operating various operation buttons. This button is used when returning to.
- the recording / reproducing device 3 and the remote control device 4 are not limited to wireless communication conforming to the IrDA standard using infrared rays.
- wireless communication such as wireless LAN conforming to the IEEE 802.11b standard and wireless communication conforming to the Bluetooth standard are used. It may be possible.
- the CPU 30 is also connected to an operation unit 33 having various keys for directly operating the recording / reproducing apparatus 3 by a user.
- the operation unit 33 notifies the CPU 30 of a control signal corresponding to the operated key, and the CPU 30 transmits the control signal from the operation unit 33 in the same manner as the control signal acquired by the remote control reception unit 34.
- the control program corresponding to the transmitted control signal is read from the ROM 31 to the RAM 32 and sequentially executed.
- the tuner 35 is a tuner for receiving a UHF television broadcast signal, a VHF television broadcast signal, a BS broadcast signal, a CS broadcast signal, or the like, and receives a broadcast signal corresponding to a broadcast channel selected by a user. Input to the DVD recorder 36.
- DVD The recorder 36 is configured to be able to remove a writable DVD, and records a broadcast signal input from the tuner 35 on a DVD inserted at a predetermined position under the control of the CPU 30.
- the DVD recorder 36 stores the broadcast signal input from the tuner 35 as an image file managed for each folder set in advance to have a hierarchical structure.
- the digital camera 2 converts the code extracted from the image data acquired by the camera unit 13a into an appropriate decoder of the decoding unit 22.
- the recording / reproducing device 3 receives the code information from the digital camera 2 through the communication interface (receiving means) 37.
- the CPU 30 operates as a name generating means for generating a file name or a folder name of each broadcast program stored in the DVD recorder 36 based on the received code information.
- the code extracting unit 20 detects whether or not there is a code in the acquired image data, and when a code is detected in the image data, acquires the detected code from the image data and selects a decoder. Input to the section 21 and the decoding section 22. Further, the decoder selection unit 21 An appropriate decoder is selected based on the code input from the extraction unit 20, and the decoding unit 22 decodes the code input from the code extraction unit 20 by the decoder selected by the decoder selection unit 21. Further, CPU 10 causes display unit 16 to display the code information obtained by decoding by decoding unit 22.
- the user determines whether or not the code information displayed on the display unit 16 of the digital camera 2 is desired, and operates the transmission button 18f of the operation unit 18 when the code information is desired. Make. Thereby, the CPU 10 of the digital camera 2 transmits the code information displayed on the display unit 16 to the recording / reproducing device 3 from the communication interface 23.
- the CPU 30 connects the received code information to display the received code information in the name field of the name setting screen shown in Fig. 9 (b). It is sent from the unit 38 to the monitor device 38a.
- the user determines whether or not the file name (code information) displayed on the name setting screen is the desired one, and if so, the enter button 41 of the remote control device 40 Is operated, and if it is not the desired one, the return button 42 is operated.
- the CPU 30 of the recording / reproducing apparatus 3 sets the file name (code information) displayed in the name column of the name setting screen as the file name of the image file selected by the user. It is stored in the DVD recorder 36.
- an arbitrary file name such as “Mt. Fuji” in FIG. 9A can be given. Note that when a folder is selected in FIG. 9A, the code information acquired by the digital camera 1 becomes the folder name of the selected folder, and when a file is selected, the digital camera The code information obtained in line 1 becomes the file name of the selected file.
- the code extraction unit 20 of the digital camera 2 determines that the code cannot be detected in the image data acquired by the camera unit 13a in order to generate a folder name or a file name. Notify to In accordance with the notification from the code extracting unit 20, the CPU 10 displays on the display unit 16 a message indicating that the code cannot be detected from the captured image data and an arbitrary folder name or file name cannot be assigned, and notifies the user. .
- FIG. 11 and FIG. 12 are flowcharts showing a folder name or file name generation processing procedure by the digital camera 2 according to the second embodiment.
- the user when the user changes the file name or folder name of the image file recorded on the DVD recorder 36, the user operates a predetermined operation button of the remote control device 40 or a predetermined operation button of the operation section 33.
- the name setting screen shown in FIG. 9A is displayed on the monitor device 38a.
- the CPU 30 of the recording / reproducing device 3 reads out predetermined screen information from the ROM 31 and displays a name setting screen on the monitor device 38a (S31).
- the user operates the cursor keys 40 to select an image file whose name has been changed from the image file displayed on the name setting screen. Further, the user operates the determination button 41 to determine a desired image file.
- the CPU 30 determines whether or not the enter button 41 is turned on (S32). If it is determined that the enter button 41 is not turned on (S32: NO), the display of the name setting screen is continued ( S31) The image file selected according to the cursor key 40 operated by the user is changed. When the CPU 30 determines that the enter button 41 has been turned on (S32: YES), the CPU 30 displays a name field on the name setting screen as shown in FIG. 9B, and waits for the acquisition of a file name (folder name). (S33).
- the user turns on the name button 18c of the digital camera 2 to change the file name of the image file selected on the name setting screen.
- the CPU 10 determines whether or not the name button 18c of the operation unit 18 has been turned on (S34). If the CPU 10 determines that the name button 18c has not been turned on (S34: NO), The process waits until the name button 18c is turned on, and when it is determined that the name button 18c is turned on (S34: YES), it is determined whether or not the user has turned on the shutter button 18d (S35).
- the user turns on the shutter button 18d so that the desired code in the program name list sheet as shown in FIG. 10 is captured by the camera unit 13a, and the CPU 10 turns on the shutter button 18d. If it is determined that the shutter button is not present (S35: NO), the process waits until the shutter button 18d is turned on. When the CPU 10 determines that the shutter button 18d is turned on (S35: YES), the CPU 10 captures image data acquired by the camera unit 13a, here, image data obtained by capturing a desired code (S36), and executes camera processing. Code the image data output from part 13 Input to the extraction unit 20.
- the code extracting unit 20 extracts a code from the image data input from the camera processing unit 13.
- the extracted code is input to the decoder selecting unit 21 and the decoding unit 22.
- the code extracting unit 20 notifies the CPU 10 of that fact, and the CPU 10 determines whether the code extracting unit 20 has been able to extract the code based on the notification (S38). If the CPU 10 determines that the code cannot be extracted (S38: NO), a message indicating that the code cannot be extracted from the captured image data and an arbitrary file name cannot be generated is displayed on the display unit 16. To notify (S39) and end the process.
- the decoder selecting unit 21 specifies a corresponding decoder based on the code input from the code extracting unit 20 (S40), and decodes the code.
- the unit 22 analyzes the code input by the code extraction unit 20 using the decoder selected by the decoder selection unit 21 (S41).
- the CPU 10 displays the code information obtained by the analysis by the decoding unit 22 on the display unit 16 (S42), and determines whether or not the user has turned on the transmission button 18f (S43).
- the CPU 10 determines that the transmission button 18f has been turned on (S43: YES)
- the CPU 10 transmits the code information displayed on the display unit 16 from the communication interface 23 to the recording / reproducing device 3 (S44), and the transmission button 18f If it is determined that is not turned on (S43: NO), for example, if a cancel button (not shown) is turned on, the process ends.
- the CPU 10 records the code extracted in step S37 and the code information analyzed and obtained in step S41 on the recording medium 17 for each corresponding decoder.
- the CPU 30 displays the received code information in the name field of the name setting screen shown in FIG. It is determined whether or not the enter button 41 of the device 4 has been turned on (S46).
- the CPU 30 When determining that the determination button 41 has been turned on by the user (S46: YES), the CPU 30 changes the file name of the image file selected in step S32 (S47). If a folder is selected in step S32, change the folder name of the selected folder. On the other hand, if the CPU 30 determines that the user does not turn on the determination button 41 (S46: NO), that is, if the return button 42 is turned on, the display of the name field on the name setting screen is deleted. The process returns to step S33, and waits for the acquisition of the file name again (S33).
- the broadcast recorded in the recording / reproducing apparatus 3 is based on the code information obtained by analyzing the code captured by the camera unit 13a of the digital camera 2.
- An arbitrary folder name or file name can be given to the image file of the program. Therefore, it is not necessary to prepare the code information DB 14b as described in the first embodiment in advance.
- the configuration in which the barcode captured by the digital camera 2 is analyzed and the code information acquired is transmitted to the recording / reproducing device 3, but the remote controller 40 is provided with a camera unit.
- the remote controller 40 based on the code information generated from the image data captured by the remote control device 40 capable of remotely controlling the recording / reproducing device 3 without using the digital camera 2, the folder name of the image file recorded by the recording / reproducing device 3 and the You can generate a finale name.
- the information processing system according to the present invention includes a digital camera 2 (see FIG. 7) as an information transmitting device of the present invention, and a recording / reproducing device 3 (see FIG. 8) as an information processing device of the present invention. ing.
- the information processing system of the present invention can be realized by the same configuration as the data storage system of the second embodiment described above, and is described as being configured by the digital camera 2 and the recording / reproducing device 3 in the second embodiment. Is omitted.
- the recording / reproducing device 3 The received broadcast programs are recorded on the DVD recorder 36 as image files. Further, the recording / reproducing apparatus 3 is also configured so as to be able to perform a reservation recording process of the broadcast program in the DVD recorder 36. When is input, the acquired reservation information is stored in the RAM 32. Thereafter, when the recording start time indicated by the reservation information has elapsed, the recording / reproducing device 3 starts the recording processing of the broadcast signal corresponding to the set broadcast channel, and starts the recording processing when the recording end time has elapsed. finish.
- digital camera 2 captures a barcode obtained by coding the reservation information as described above, analyzes the obtained image data, and executes a code. It acquires the code information (reservation information) and transmits the acquired code information to the recording / reproducing device 3 by wireless communication.
- the recording / reproducing device 3 that has received the code information from the digital camera 2 stores the received code information in the RAM 32, and enters a state of waiting for the start of the recording process.
- the recording process performed by the recording / reproducing device 3 can be reserved by using the barcode, so that a complicated key operation by the user is not required.
- digital camera 2 of the third embodiment captures each barcode in a broadcast program list sheet as shown in FIG.
- the barcode in this broadcast program list sheet is obtained by encoding the broadcast channel, broadcast start time and broadcast end time in each broadcast program. Therefore, the user uses this barcode when reserving the recording of a broadcast program by the recording / reproducing device 3.
- the digital camera 2 has an "information import" button (not shown) instead of the name button 18c, and when the information import button is turned on by the user, the digital camera 2 operates as a camera.
- a code is extracted from the image data captured by the unit 13a, and a process of analyzing the extracted code and acquiring code information is executed.
- the code is extracted by the code extracting unit 20 from the image data obtained by the camera unit 13a capturing the bar code in the broadcast program list sheet, and the extracted code is decoded by the decoder selecting unit 21. And to the decoding unit 22.
- the digital camera 2 decodes the code extracted by the code extracting unit 20 by an appropriate decoder selected by the decoding selecting unit 21 and causes the display unit 16 to display the acquired code information.
- the digital camera 2 has, for example, “channel: 1, broadcast time: 17:00
- the code information (reservation information) of “18:00 Anime 1” is displayed on the display unit 16, and the code information displayed on the display unit 16 is recorded from the communication interface 23 when the transmission button 18f is turned on by the user.
- the recording / reproducing apparatus 3 receives the code information from the digital camera 2 through the communication interface (receiving means) 37, and the CPU 30 sets the reservation information indicated by the received code information, specifically, “channel: 1, broadcast time: 17:00 18:00 Reservation of animation 1 has been accepted. ", Etc., is displayed on the monitor device 38a to notify the user.
- the user determines whether or not the reservation information is the desired reservation record information in accordance with the reservation information confirmation screen displayed on the monitor device 38a, and if it is desired, the enter button 41 of the remote control device 40 Is operated, and if it is not the desired one, the return button 42 is operated.
- the enter button 41 the CPU 30 of the recording / reproducing apparatus 3 stores the displayed reservation information in the RAM 32 and operates as a processing means for making a reservation for recording the broadcast program on the DVD recorder 36. I do.
- FIG. 14 is a flowchart showing a reservation recording processing procedure for the recording / reproducing apparatus 3 by the digital camera 2 according to the third embodiment.
- the user turns on the information import button of the digital camera 2 when he / she wants to reserve the recording process to the DVD recorder 36.
- the CPU 10 determines whether or not the information capture button has been turned on (S51). If it is determined that the information capture button has not been turned on (S51: NO), the CPU 10 is turned on. Wait until. When determining that the information capture button has been turned on (S51: YES), the CPU 10 determines whether or not the user has turned on the shirt button 18d (S52).
- the user selects a desired code from the broadcast program list sheet shown in FIG. 13, and turns on a shutter button 18d in order for the camera unit 13a to capture the desired code.
- the CPU 10 waits until the shutter button 18d is turned on. If the CPU 10 determines that the shutter button 18d has been turned on (S52: YES), the CPU 10a obtains image data obtained by imaging.
- the code extracting unit 20 extracts a code from the image data acquired from the camera processing unit 13 (S53).
- the code extracting unit 20 inputs the extracted code to the decoder selecting unit 21 and the decoding unit 22. If the code cannot be extracted from the image data, the CPU 10 Notify to Based on this notification, the CPU 10 determines whether or not the code extraction unit 20 has successfully extracted the code (S55). If the CPU 10 determines that the code cannot be extracted (S55: NO), the CPU 10 extracts the code from the captured image data. A message indicating that it is not possible is displayed on the display unit 16 to notify the user (S56), and the process ends.
- the decoder selection unit 21 specifies a corresponding decoder based on the code input from the code extraction unit 20 (S57), and performs decoding.
- the unit 22 analyzes the code input by the code extraction unit 20 using the decoder selected by the decoder selection unit 21 (S58).
- the CPU 10 causes the display unit 16 to display the code information obtained by analysis by the decoding unit 22, that is, the reservation information of the recording process by the recording / reproducing apparatus 3 (S59). It is determined whether the switch has been turned on (S60). When the CPU 10 determines that the transmission button 18f has been turned on (S60: YES), the CPU 10 transmits the code information displayed on the display unit 16 from the communication interface 23 to the recording / reproducing device 3 (S61), and the transmission button 18f is turned on. If it is determined that there is no error (S60: NO), for example, if the cancel button is turned on, as shown in the figure, the process ends.
- the CPU 30 causes the monitor 38a to display a reservation information confirmation screen displaying the received code information (S62), and the user determines the remote control device 4 It is determined whether or not the button 41 has been turned on (S63).
- the CPU 30 stores the code information received from the digital camera 2 in the RAM 32 and executes a reservation process (S64).
- the CPU 30 determines that the determination button 41 has not been turned on by the user (S63: NO), that is, if the return button 42 has been turned on, the process ends.
- the user again captures the code in the broadcast program list sheet using the digital camera 2.
- the reservation of the recording process by the recording / reproducing apparatus 3 is made based on the code information obtained by analyzing the code captured by the camera unit 13a of the digital camera 2. Can do it. It should be noted that also in the third embodiment, the same modifications as those described in the first and second embodiments can be applied.
- FIG. 15 is a block diagram showing a configuration example of the mobile phone 5 and the computer 6 in the information processing system according to the present invention.
- the information processing system according to the fourth embodiment includes a mobile phone 5 as an information transmitting device of the present invention and a computer 6 as an information processing device of the present invention, each of which is connected via a network N such as the Internet. And can communicate.
- computer 6 is a server device that receives a travel application and manages the information of each accepted customer, and sends the travel application by e-mail via network N. Accepted. Further, the mobile phone 5 according to the fourth embodiment captures a barcode obtained by coding information on each trip, analyzes the obtained image data, acquires code information (information on travel), and acquires An e-mail is created based on the code information and sent to the computer 6.
- Computer 6 having received the e-mail from mobile phone 5 updates the travel information DB of HD61 based on the received e-mail. This allows the user of the mobile phone 5 to enter the travel information to be applied using a bar code without operating the operation unit 54 of the mobile phone 5 when applying for a trip, and complicated key operations by the user can be performed. It becomes unnecessary.
- the mobile phone 5 according to the fourth embodiment includes a CPU 50, a ROM 51, a RAM 52, a camera processing unit 53, a display unit 55, a code extraction unit 56, a decoder selection unit 57, a decoding unit 58, and a network N.
- a communication interface 59 and the like for communicating with external devices via the device are provided, and they are interconnected via a bus 50a.
- the CPU 50 operates as a control center of the mobile phone 5, controls each of the above-described hardware connected via the bus 50a, and performs various operations in accordance with a control program stored in the ROM 51 in advance.
- the ROM 51 includes various control programs necessary for operating the mobile phone 5 as the information transmitting device of the present invention, a mailer for transmitting / receiving electronic mail to / from an external device via the network N, and an encryption process. Programs and the like are stored in advance.
- the RAM 52 is composed of an SRAM, a flash memory, or the like, and temporarily stores data generated when the CPU 50 executes the control program.
- the CPU 50 operates as an encryption unit by reading the encryption processing program stored in the ROM 51 into the RAM 52 and sequentially executing the encryption processing program, and encrypts various data as necessary.
- the camera processing unit 53 is connected to the camera unit 53a, which is an imaging unit configured by a CCD or the like.
- the camera unit 53a captures image data at a timing in accordance with the control of the CPU 50 to acquire image data. After subjecting the image data to predetermined processing, the image data is input to the display unit 55 via the bus 50a and displayed. Further, the camera processing unit 53 inputs the image data acquired under the control of the CPU 50 to the code extraction unit 56.
- the display unit 55 is configured by a liquid crystal display (LCD), and displays the operation status of the mobile phone 5, information to be notified to the user, image data obtained by imaging by the camera unit 53a, and the like. .
- LCD liquid crystal display
- the CPU 50 is connected to the operation unit 54.
- the operation unit 54 includes various keys necessary for the user to operate the mobile phone 5, specifically, ten keys 54a, an information capture button 54b, a shutter button 54c, a transmission button 54d, and the like.
- the information capture button 54b is a button used to read predetermined information from image data obtained by imaging with the camera unit 53a.
- the shutter button 54c is a button for instructing a timing of capturing image data as a still image from image data sequentially acquired by the camera unit 13a.
- the transmission button 54d is a button for instructing transmission of an e-mail.
- the operation unit 54 sends a control signal corresponding to the operated key to the CPU 50, and the CPU 50 executes a process corresponding to the acquired control signal.
- the code extracting unit 56 detects whether or not the image data input from the camera processing unit 53 includes a code coded in advance by a predetermined process, and detects the code in the image data. In this case, it operates as code acquisition means for acquiring the detected code, and transfers the code acquired from the image data to the decoder selection unit 57 and the decoding unit 58.
- the mobile phone 5 of the fourth embodiment includes a plurality of first decoders 58a and a plurality of second decoders 58b as analysis means for analyzing the code extracted by the code extraction unit 56 to obtain code information.
- the decoder selecting section 57 operates as a selecting means for selecting a decoder capable of analyzing the code based on the code transferred from the code extracting section 56, and the CPU 50 operates the code by the decoder selected by the decoder selecting section 57.
- the code extracted by the extraction unit 56 is analyzed.
- the communication interface 59 transmits the code information obtained by analyzing the code extracted from the image data acquired by the camera unit 53a by an appropriate decoder of the decoding unit 58 to an external device as described above. It operates as transmitting means.
- the CPU 50 causes the display unit (display means) 55 to display the code information decoded by the appropriate decoder as described above, and allows the user to determine whether or not the displayed code information is appropriately decoded. Based on the above, an instruction as to whether or not the displayed code information is to be transmitted to the computer 6 is input by operating the transmission button 54d of the operation unit 54.
- the CPU 50 operates as an instruction receiving unit that receives an instruction as to whether or not to transmit the code information displayed on the display unit 55 to the computer 6, based on whether or not the transmission button 54d is operated by the user.
- the CPU 50 reads the encryption processing program from the ROM 51 into the RAM 52, and executes the encryption processing on the code information displayed on the display unit 55. Further, the CPU 50 creates an e-mail with the generated encrypted information as a text and transmits the e-mail from the communication interface 59 to a predetermined device via the network N.
- the computer 6 includes a CPU 60, a hard disk (hereinafter, referred to as HD) 61, a RAM 62, a communication interface 64 for communicating with an external device via the network N, and the like. And are interconnected via a bus 60a.
- the CPU 60 operates as a control center of the computer 6, and is connected via the bus 60a.
- various software functions are realized according to a control program stored in the HD 61 in advance.
- the HD 61 includes various control programs necessary for operating the computer 6 as the information processing device of the present invention, a mailer for transmitting / receiving electronic mail to / from an external device via the network N, and an encryption in the mobile phone 5.
- a decryption processing program for decrypting the encrypted cipher information, a travel information database (hereinafter referred to as a travel information DB) for managing information on various trips, and the like are stored in advance.
- the RAM 62 is composed of an SRAM, a flash memory, or the like, and temporarily stores data generated when the CPU 60 executes the control program.
- the CPU 60 is connected to an operation unit 63 including a keyboard, a mouse, and the like.
- an operation unit 63 including a keyboard, a mouse, and the like.
- the operation unit 63 sends a control signal corresponding to the operated key to the CPU 60, and the CPU 60 executes a process corresponding to the acquired control signal.
- the mobile phone 5 captures each barcode in the travel list sheet as shown in FIG. 16 by the camera unit 53a.
- the bar code in this trip list sheet is a code that encodes information about each trip, an e-mail address indicating the destination of the trip, and the like. Therefore, the user uses this barcode when applying for a trip in the trip list sheet shown in FIG.
- the user turns on the information capture button 54b of the operation unit 54 of the mobile phone 5, and captures the bar code in the travel list sheet shown in FIG. 16 with the camera unit 53a.
- the image data acquired by the camera unit 53a is input to the code extraction unit 56.
- the code extracting section 56 detects whether or not there is a code in the acquired image data, and if a code is detected in the image data, extracts the detected code from the image data and selects a decoder. It is input to the section 57 and the decoding section 58. Further, the decoder selecting unit 57 selects an appropriate decoder based on the code input from the code extracting unit 56, and the decoding unit 58 is input from the code extracting unit 56 by the decoder selected by the decoder selecting unit 57. Decode the code.
- the CPU 50 causes the display unit 55 to display the code information obtained by decoding by the decoding unit 58 as a user confirmation screen as shown in FIG.
- FIG. 17 is a schematic diagram showing a configuration example of the user confirmation screen.
- the user determines whether or not the displayed code information is desired according to a user confirmation screen displayed on the display unit 55 of the mobile phone 5, and if the code information is desired, the user operates the operation unit 54. Operate the send button 54d.
- the CPU 50 of the mobile phone 5 sets the information relating to the trip in the code information displayed on the display unit 55 to a text after adding the information, and sets the e-mail address in the obtained code information as the transmission destination.
- An e-mail is created, and the created e-mail is transmitted from the communication interface 59 to a predetermined destination.
- the computer 6 receives the e-mail transmitted by the mobile phone 5 through the communication interface (reception means) 64, and the CPU 60 reads the HD61 decryption processing program into the RAM 62 and executes it to thereby receive the e-mail. It decrypts the encrypted body of the e-mail and accepts an application for a predetermined trip according to the decrypted information. In this manner, by encrypting the transmitted e-mail and transmitting it, confidentiality of personal information and the like can be maintained.
- the code extraction unit 56 of the mobile phone 5 cannot detect a code in the image data acquired by the camera unit 53a, it notifies the CPU 50 of the fact. In accordance with the notification from the code extracting unit 56, the CPU 50 displays a message on the display unit 55 indicating that the code could not be detected from the captured image data and failed to acquire the travel information, and notifies the user.
- FIG. 18 is a flowchart showing a travel application processing procedure by the mobile phone 5 according to the fourth embodiment.
- the CPU 50 determines whether or not the information capture button 54b is turned on (S71). If the CPU 50 determines that the information capture button 54b is not turned on (S71: NO), the CPU 50 is turned off. Wait until it is done. When determining that the information capture button 54b has been turned on (S71: YES), the CPU 50 determines whether or not the user has turned on the shutter button 54c (S7). 2).
- the user selects a desired trip from the travel list sheet shown in FIG. 16, and turns on a shutter button 54c so that the camera unit 53a captures a code corresponding to the desired trip. If the CPU 50 determines that the shutter button 54c has not been turned on (S72: NO), the CPU 50 waits until the shutter button 54c is turned on, and determines that the shutter button 54c has been turned on (S72: YES). ), And captures image data obtained by the camera unit 53a (S7
- the code extracting unit 56 extracts a code from the image data output from the camera processing unit 53 (S74).
- the code extracting unit 56 inputs the extracted code to the decoder selecting unit 57 and the decoding unit 58, and if the code cannot be extracted from the image data, the CPU 50 informs the CPU 50 in that case. Notice.
- the CPU 50 determines whether or not the code extraction unit 56 has been able to extract the code based on the notification (S75). If the CPU 50 determines that the code cannot be extracted (S75: NO), the captured image data Then, a message indicating that the code cannot be extracted from is displayed on the display unit 55 for notification (S76), and the process ends.
- the decoder selecting unit 57 specifies the corresponding decoder based on the code input from the code extracting unit 56 (S77), and decodes the code.
- the unit 58 analyzes the code input by the code extraction unit 56 using the decoder selected by the decoder selection unit 57 (S78).
- the CPU 50 causes the display unit 55 to display the code information obtained by analysis by the decoding unit 58, in this case, a user confirmation screen showing each piece of travel information as shown in a travel list sheet (S79), and transmits the user information. It is determined whether or not the button 54d has been turned on (S80).
- the CPU 50 determines that the send button 54d has been turned on (S80: YES)
- the CPU 50 obtains the information related to the trip in the code information displayed on the display unit 55 after converting the information into a text.
- An e-mail with the e-mail address in the code information as a destination is created (S81), and the created e-mail is transmitted from the communication interface 59 to a predetermined destination (S82).
- the send button 54d is not turned on (S80: NO)
- the cancel button is turned on, as shown in the figure, the process ends.
- the CPU 60 In the computer 6 that has received the e-mail from the mobile phone 5, the CPU 60 The encrypted body of the e-mail is decrypted, and a predetermined travel reservation is made according to the decrypted information (S83). Specifically, the e-mail address of the sender of the received e-mail and the name and address entered by the sender are registered in the travel information DB of HD61.
- a travel application can be made based on the code information obtained by analyzing the code captured by the camera unit 53a of the mobile phone 5.
- the information processing system of the present invention is not limited to the application for travel, and can make reservations for various tickets, for example.
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Abstract
Description
Claims
Priority Applications (2)
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US10/583,273 US20070130190A1 (en) | 2003-12-19 | 2004-06-28 | Data storage device, information transmitter, data storage system and information processing system |
JP2005516415A JP4439472B2 (ja) | 2003-12-19 | 2004-06-28 | データ記憶装置、情報送信装置、データ記憶システム及び情報処理システム |
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JP2003423735 | 2003-12-19 | ||
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US (1) | US20070130190A1 (ja) |
JP (1) | JP4439472B2 (ja) |
CN (1) | CN1894676A (ja) |
TW (1) | TWI251773B (ja) |
WO (1) | WO2005062186A1 (ja) |
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2007140745A3 (de) * | 2006-06-02 | 2008-03-06 | Gavitec Ag | System und verfahren zum bild- und datenupload mit mobilem endgerät |
JP2008078817A (ja) * | 2006-09-19 | 2008-04-03 | Ricoh Co Ltd | 撮像装置 |
JP2008134723A (ja) * | 2006-11-27 | 2008-06-12 | Ricoh Co Ltd | 文書登録システム及び文書登録方法 |
JP2013186804A (ja) * | 2012-03-09 | 2013-09-19 | Casio Comput Co Ltd | データ保存装置、データ保存方法及びプログラム |
US10218873B2 (en) | 2015-01-16 | 2019-02-26 | Canon Kabushiki Kaisha | Apparatus and method that process image data by using code, and storage medium |
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Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US8499248B1 (en) * | 2004-04-29 | 2013-07-30 | Paul Erich Keel | Methods and apparatus for managing and exchanging information using information objects |
KR100754630B1 (ko) * | 2004-10-18 | 2007-09-05 | 삼성전자주식회사 | 정보 단말기에서 사용되는 컨텐츠 데이터를 관리하는 장치및 방법 |
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Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2002073652A (ja) * | 2000-09-04 | 2002-03-12 | Ainitsukusu Kk | 記録情報処理方法 |
JP2002229840A (ja) * | 2001-02-06 | 2002-08-16 | Yoshiaki Hattori | 情報配信装置 |
JP2003037770A (ja) * | 2001-07-24 | 2003-02-07 | Casio Comput Co Ltd | 電子カメラ、電子カメラの制御方法、動画カメラ及び動画カメラの制御方法 |
JP2003177987A (ja) * | 2001-12-10 | 2003-06-27 | Seiko Epson Corp | Ftp端末、ftpを用いたファイル転送方法およびそのプログラム |
JP2003179843A (ja) * | 2001-12-12 | 2003-06-27 | Nikon Gijutsu Kobo:Kk | デジタルカメラ |
Family Cites Families (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
DE69635101T2 (de) * | 1995-11-01 | 2006-06-01 | Canon K.K. | Verfahren zur Extraktion von Gegenständen und dieses Verfahren verwendendes Bildaufnahmegerät |
US6438320B1 (en) * | 1996-10-16 | 2002-08-20 | Canon Kabushiki Kaisha | File management system for managing data of photographed images |
JP3229856B2 (ja) * | 1998-08-26 | 2001-11-19 | 三洋電機株式会社 | ディジタルカメラ |
JP3495687B2 (ja) * | 2000-06-02 | 2004-02-09 | 三洋電機株式会社 | ディジタルカメラ |
JP2002278996A (ja) * | 2001-03-22 | 2002-09-27 | Sony Corp | 記録装置および記録方法、並びに記録媒体 |
JP4066794B2 (ja) * | 2001-12-28 | 2008-03-26 | カシオ計算機株式会社 | 画像データ記憶方法、画像データ記憶・再生方法及び撮像装置 |
JP3982686B2 (ja) * | 2002-11-21 | 2007-09-26 | 株式会社リコー | 符号生成装置、符号生成プログラム、および記憶媒体 |
JP2004213616A (ja) * | 2002-12-16 | 2004-07-29 | Konica Minolta Holdings Inc | データ管理構造書換プログラム |
-
2004
- 2004-06-28 WO PCT/JP2004/009107 patent/WO2005062186A1/ja active Application Filing
- 2004-06-28 US US10/583,273 patent/US20070130190A1/en not_active Abandoned
- 2004-06-28 JP JP2005516415A patent/JP4439472B2/ja not_active Expired - Fee Related
- 2004-06-28 CN CNA2004800376870A patent/CN1894676A/zh active Pending
- 2004-06-30 TW TW093119563A patent/TWI251773B/zh not_active IP Right Cessation
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2002073652A (ja) * | 2000-09-04 | 2002-03-12 | Ainitsukusu Kk | 記録情報処理方法 |
JP2002229840A (ja) * | 2001-02-06 | 2002-08-16 | Yoshiaki Hattori | 情報配信装置 |
JP2003037770A (ja) * | 2001-07-24 | 2003-02-07 | Casio Comput Co Ltd | 電子カメラ、電子カメラの制御方法、動画カメラ及び動画カメラの制御方法 |
JP2003177987A (ja) * | 2001-12-10 | 2003-06-27 | Seiko Epson Corp | Ftp端末、ftpを用いたファイル転送方法およびそのプログラム |
JP2003179843A (ja) * | 2001-12-12 | 2003-06-27 | Nikon Gijutsu Kobo:Kk | デジタルカメラ |
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2007140745A3 (de) * | 2006-06-02 | 2008-03-06 | Gavitec Ag | System und verfahren zum bild- und datenupload mit mobilem endgerät |
US8238885B2 (en) | 2006-06-02 | 2012-08-07 | Neomedia Europe Gmbh | System and method for image and data upload by means of a terminal |
JP2008078817A (ja) * | 2006-09-19 | 2008-04-03 | Ricoh Co Ltd | 撮像装置 |
JP2008134723A (ja) * | 2006-11-27 | 2008-06-12 | Ricoh Co Ltd | 文書登録システム及び文書登録方法 |
JP2013186804A (ja) * | 2012-03-09 | 2013-09-19 | Casio Comput Co Ltd | データ保存装置、データ保存方法及びプログラム |
US10218873B2 (en) | 2015-01-16 | 2019-02-26 | Canon Kabushiki Kaisha | Apparatus and method that process image data by using code, and storage medium |
Also Published As
Publication number | Publication date |
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CN1894676A (zh) | 2007-01-10 |
TWI251773B (en) | 2006-03-21 |
TW200527282A (en) | 2005-08-16 |
US20070130190A1 (en) | 2007-06-07 |
JP4439472B2 (ja) | 2010-03-24 |
JPWO2005062186A1 (ja) | 2007-12-13 |
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