METHOD AND SYSTEM FOR ORGANIZING DIGITAL FILES
A device for organizing digital files is provided, wherein tagging data is applied to a sequence of image files previously captured by and received from an imaging device. A tagging image having tagging data therein is preferably provided before or after the sequence, or both. A text recognizing technology may be used to extract the tagging data from a tagging image. For example, if a tagging image is taken on a camera prior to a sequence of images, the device may extract tagging data from the tagging image and apply such tagging data to the sequence of image files. Preferably, the device provides for renaming of the image files utilizing the tagging data.
The application is a continuation of U.S. application Ser. No. 14/563,947, which claims the benefit of U.S. Provisional Application No. 61/913,336, filed on Dec. 8, 2013, both of which are incorporated by reference herein in their entirety.
FIELD OF INVENTIONThe invention is related to a system and method for cataloging digital images.
BACKGROUND OF THE INVENTIONThe invention relates generally to a file organization system and method suitable for use in conjunction with digital cameras including digital still cameras, digital video cameras, mobile telephones having integrated digital cameras, and the like, and more particularly to a system and method for automatically creating meaningful filenames for digital files, such as digital image files. As digital cameras have become widely used, the demand on the user to retrieve and manage digital images has also increased. To retrieve and manage digital images, the user typically transfers image files stored in a camera to a computer, and renames or reorganizes each file based on categories, such as an event or date.
The user experience when transferring pictures from a digital camera to an external device, such as a personal computer, can be time consuming and tedious for several reasons. First, numerous steps are usually required to perform an image transfer including connecting the digital camera, initializing the computer, such as running a transfer application on the computer, choosing an album or destination directory for images, and renaming the files. This process becomes more difficult as the number of images captured and transferred to the computer increases. In particular, when multiple series of images are taken for different clients, scenes, objects, etc. before the images are uploaded to the computer, the process can be time consuming since a large number of images needs to be transferred and the transfer of images form a digital camera to an external device may not be consistent and the amount of time required may vary from session to session.
Presently, digital cameras typically employ a default file-naming scheme for identifying and tracking digital image files stored in memory or transferred to a digital image-processing device, such as a computer. Typically, a default file naming scheme is used, which employs a combination of letters and numbers, usually sequentially assigned to files stored in memory of the digital camera. For example, several common default naming schemes employ an identifier comprised of a series of letters (e.g. DSC, IMG, etc.), a sequential number (i.e. 0001, 0002, 0003, etc) that is appended to this identifier to separate one image file from another, and a file extension (i.e. JPG, TIFF, etc.) after the number to specify the file type.
These naming schemes typically do not provide information about the content in the digital image file and users have to view each image, one by one, to determine the contents of the file. This can be a time consuming and tedious process, especially for a series of images that are named using the same series of letters and combined with sequential numbering (i.e. DSC0001.jpg, DSC0002.jpg, etc.).
Furthermore, renaming files in a computer or other device may be cumbersome. Typically, the user must select and rename each file individually within the computer's file management program. The file management program may permit batch renaming, which requires each of the files to be renamed to be highlighted. However, one mis-click and the highlighted files may no longer be highlighted, or the order of file numbering may be different from what the user wants, etc.
Accordingly, it is desirable to provide an improved file organization system and method for cataloging digital images that overcomes drawbacks and inadequacies of known methods and systems.
SUMMARY OF THE INVENTIONSGenerally speaking, in accordance with an embodiment of the invention, an image processing system and method are provided for naming digital media files using data associated therewith via image and text recognition.
An embodiment of the system includes a processing device having a text recognition software for recognizing text in a digital image and extracting data from the text, then naming the subsequent image files based on the extracted data. Once a new image having text is recognized, data is extracted therefrom and the image files subsequent thereto are named according to the data extracted from the new image.
In accordance with one embodiment, the images from which text are to be recognized are identified automatically by a software on the imaging device or the computer or device to which the image files are to be transferred.
In accordance with one embodiment, the images from which text are to be recognized are identified manually by the user either on the imaging device or the computer or device to which the image files are to be transferred.
An embodiment of the invention is directed to a method of cataloging image files by providing one or more series of image files, the different series separated by image files having text. The image files with text are recognized, and the text recognized. Data is thus extracted from the image files with text. The image files subsequent to each image file with text but preceding the next image file with text are named or renamed using the data extracted from the appropriate image with text.
Hence, embodiments of the invention permit a user to associate meaningful information with an image to quickly and efficiently create annotated filenames for digital image files that convey meaningful information to the user (i.e. grouping images from an event by using the event name and using the same file name), which would then allow the user to classify and organize image files without opening, viewing, and manually renaming each individual file.
Another embodiment of the invention is directed to a system and method for naming a plurality of files wherein the user may enter the desired file name once per group of files, and the remaining files within the group are automatically named using the file name entered by the user.
An embodiment of the invention is directed to providing historical data regarding files, for example, previous file names and locations, dates on which the files were renamed, moved, etc. which are preferably searchable.
Still other objects and advantages of the invention will in part be obvious and will in part be apparent from the specification. Other features and advantages of this invention will become apparent in the following detailed description of exemplary embodiments of this invention with reference to the accompanying drawings.
For a fuller understanding of the invention, reference is made to the following description taken in connection with the accompanying drawing, in which:
The invention generally is directed to a method and system for automating the organization and cataloging a series of images captured by an imaging device. “Imaging device” and “camera” as used herein refer generally to devices that can capture a still image and/or video, such as digital still cameras, digital video cameras, devices for converting analog images into digital images, webcams, scanners, telephones or other devices having a mechanism for taking photos and/or videos, and the like. “Digital image” and “image” as used herein refer to still images, scanned images, videos, slideshows or other compilation of still images or videos, and the like. “User” as used herein refers generally to users of the system and/or method, such as a professional or non-professional photographer; a person taking photographs, recording videos, scanning images or organizing image files; a person who connects a source of image files, whether it be physically, wirelessly, or by any other means for transferring image files, to a computer or other processing device, such as a tablet, phone or other mobile device, local or remote servers, (generally referred to herein as “processing device”) or a storage medium; and a person who copies or transfers image files to a processing device or a storage medium. The invention is more particularly directed to a system, for example, an automated system, and method for organizing and cataloging digital image files.
A system and method are provided herein to facilitate cataloging and organizing digital images An embodiment of the invention provides a method for cataloging digital image files by capturing data from a digital image file, referred to herein as a “Tagging Image.” The Tagging Image may be a photograph taken of a document having information regarding the related images. For example, the photographer may write or type on a sheet of paper or other surface, the client's name, date, place, etc. of the images to be taken or already taken and take a photo of the information. Alternatively, if the imaging device can receive text input, the Tagging Image may be generated by the imaging device itself by having a user input the information into the imaging device. The Tagging image may then be identified and the data therein (“Tagging Data”) extracted, for example, the client's name, date and place. The image files may be segregated in the imaging device, processing device or storage medium according to their position with respect to the Tagging Images.
By way of non-limiting example, all the images between two consecutive Tagging Images may be grouped into a single series of image files. The Tagging Data from the Tagging Image preceding the series preferably is used to name the image files within the series and associated with such image files. Alternatively, the Tagging Data of the Tagging Image succeeding the series may be used in lieu of or in combination with the Tagging Data of the Tagging Image preceding the series of images. In accordance with one embodiment of the invention, if there are no image files between two consecutive Tagging Images, the Tagging Data of the first Tagging Image is associated with the series of image files preceding the Tagging Image, and the Tagging Data of the second Tagging Image is associated with the series of image files succeeding the Tagging Images.
In accordance with an embodiment of the invention, when two Tagging Images are used for a common series of image files, the Tagging Image preceding the series of images is “an Opening Tagging Image” and the Tagging image succeeding the series of images is “a Closing Tagging Image.” If the Tagging Data of the Closing Tagging Image includes only data not provided in the Opening Tagging Image, the data from the Closing Tagging Image will supplement the data of the Opening Tagging Image. Alternatively, if the Closing Tagging Image includes data for some of the same fields as the Opening Tagging Image, the Tagging Data of the Closing Tagging Image is preferably used in lieu of the conflicting Tagging Data of the Opening Tagging Image. Therefore, the user may correct errors or update information provided on the Opening Tagging Image by using a Closing Tagging Image.
By using Tagging Images throughout the process of capturing multiple images, the user may reduce the amount of time and effort required to catalog these image files. In addition, automating the process of cataloging said images may reduce the risk of incorrectly associating images with the incorrect client, event, date, etc. since the user need not rely on their memory or recollection, or what they were told by the person who took the photos or scanned the images. Automation may decrease the amount of time and effort necessary to deliver the captured images to a client, as well as increase the efficiency and speed of the services offered to their clients, so that clients can access the images and select images for services, such a retouching.
Tagging Image files preferably contain recognizable content, such as numbers, text, serial numbers, barcode, and/or QR code, which is generated to associate a series of digital images with data indicative of the content captured in the images.
Referring to
The system may include a user interface via which the user may, using an inputting device, identify a Tagging Image, select set of image files to be associated with data from the Tagging Image, change file names, create a list of file names that correspond to certain files, or initiate an automated computer program for renaming the files. Examples of the inputting device include, but are not limited to, a keyboard, mouse, touch screen, stylus, and the like. The process of associating the Tagging Data from a Tagging Image with digital image files is preferably automated by using image or text recognition software to search for text data in a set of images, extracting Tagging Data from each Tagging Image, and adding this information to populate certain fields, for example, file names and meta data. The Tagging Image may be identified automatically upon connecting the source of image files to the processing device. Preferably, the Tagging Data is extracted and associated to the image files automatically as well. Alternatively, the user may initiate identifying Tagging Images and/or the subsequent steps.
Alternatively, the user may perform one or more of the steps directly. For example, the user may select the Tagging Image from which to extract Tagging Data, and/or also select a group of image files to which such Tagging Data is to be associated. The user may then initiate an automated process of associating the Tagging Data to the group of image files. As one of ordinary skill in the art would understand, any combination of automated, user initiated and user performed steps are contemplated and included.
Tagging Data preferably includes a unique identifier used to create new file or folder names, such as serial numbers or appointment information. This preferably reduces the computational time required to resolve certain situations, such as the use of Tagging Data that is already the name of a file or folder on the system. Tagging data may also include, but is not limited to, QR codes (Quick Response Codes), barcodes, and/or other representations of information that is recognizable in images.
An exemplary embodiment of the invention includes identifying Tagging Images and associating text data contained in each Tagging Image with one or more digital images, preferably the images which follow the subject Tagging Image and before the subsequent Tagging Image The data extracted from the subsequent Tagging Image is preferably associated with the image files following the subsequent Tagging Image. Alternatively, an embodiment of the invention includes an automated system for naming one or more consecutive digital images based on the Tagging Data obtained from the Tagging Image immediately following the series of images
In another embodiment of the invention, the cataloging of digital images includes generating one or more new file folder names based on Tagging Data obtained from Tagging Image(s), creating these new file folders, and transferring the image files into the respective folders. Namely, the images are transferred into the new file folder associated with the same Tagging Data as the images.
In accordance with an embodiment of the invention, the Tagging Data obtained from the Tagging Image is obtained by recognized text of the Tagging Image using optical character recognition (OCR). OCR refers to computer technology that involves reading text from an image and translating the images into a form that the computer can manipulate (for example, into ASCII codes).
In one embodiment, an OCR module operates on the digital image files. The OCR module may identify the Tagging Image files by recognizing the text contained in each file and then search for Tagging Data in the content of the file.
By automating the process of generating meaningful file names, a user may significantly reduce the amount of time needed to catalog digital images. In particular, the user no longer needs to separate multiple series of images and rename each individual image in a series of images by using a common annotation or text data. In this manner, the user does not need to open each file to view the contents to create a meaningful file name. Similarly, automatically associating tagging data with digital images may be beneficial for organizing the files.
In the embodiment illustrated in
Images files may be stored on a server through a network, telecommunications, or wireless connections and service, as illustrated in
Information about the files may be stored in a database and the database may be searched before initiating a file upload or update, in the interest of reducing the size of data transmissions. Users may choose not to initiate a two-way sync across all devices and may place rules or limitations on syncing with the server based on the imaging device or processing device. This approach preferably allows users to reduce the storage required for select devices. For instance, a computing system may have a large amount of storage available, but a mobile device typically has limited storage capability and replicating the same files and folders on both devices would be restricted by the storage capabilities of the mobile device. In addition, syncing a large number of files on both devices may use up more storage space on the mobile device than is desired by the user. For example,
The system and method in accordance with an embodiment of the invention is preferably suitable for use with other file formats, and is not limited to image files. Additionally, the system and method is preferably applicable to files with or without Tagging Images. The files may be named or renamed individually, in a series, or in batches. A user interface may be implemented to rename files, which preferably facilitates the process. The user interface may take many forms, and may be accessed via mobile applications, servers, websites, etc.
For example,
A user interface may display multiple files for which a user may enter or select new file names, as shown in
The user interface may be used to identify the Tagging Images and OCR may be implemented to recognize the text in the selected image files before renaming a series of image files.
The user interface may display digital images, such as icons, to aid in the renaming of files. For example,
The user interface may also be used for rapidly renaming multiple series of files. In some embodiments, multiple files may be renamed by entering a new name in the data entry field corresponding to the first file in each series of files. For example,
Referring to the example shown in
Upon submitting the form, the file changes may be implemented immediately and directly by the system. Alternatively, the changes may be requested by the user and implemented by the system at a later time. The request may be sent to a third party service provider, a system queue for processing, or initiate a workflow.
The system may enable users to rename a subset of a series of files by providing a user interface wherein the user can identify a start point and end point for the file naming process. For instance,
For example, after previewing the changes via the embodiment of the user interface shown in
Another feature an embodiment of the invention provides is the ability to organize files more efficiently. The user may group, tag, or move a series of files using the common file name or by entering an alternative name. For instance, after a series of image files (I.e. A.JPG, B.JPG, and C.JPG) is renamed to christmas2014_1.jpg, christmas2014_2.jpg, and christmas2014_3.jpg, the user may request that a folder be created (i.e. Christmas2014) and automatically move these image files into the new folder.
In accordance with an embodiment of the system and method, a file queue may be used to organize and manage workloads. For instance, users may identify files that need to be edited, revised, updated or organized. These files may be moved to a queue folder, directory, or list until the user indicates that the file is complete or that the desired actions were performed. The file may then be returned to the original location or the user may select a new location for the file. A queue may also be used to upload files from multiple sources. For instance, files may be uploaded from various devices into a queue and the file data and source information may be logged by the system.
To make changes to files, users may be prompted to submit credentials to access files on the system or a third party server, and changes may be made immediately. Alternatively, requests may be sent to a third party server or service. In the example illustrated in
In certain embodiments, the system may log files as it is transmitted or stored on computing systems or other processing devices, and update the log to reflect any changes being made.
The user interface preferably presents user content (e.g. files) wherein files can be grouped by type, date, name, etc. Another novel feature of an embodiment of the invention is that it can display files with both current and historical information associated with user content. For example, the user may access historical data from logs and search all previous file names associated with the file.
The system preferably also provides a user interface via which user may organize, log, and process any files on the computing system. By processing file changes through the user interface, users can log and record all file changes for future reference. For instance, the user interface may access any file folder or directory available on a desktop computer and any changes made to the files in this folder can be logged by the system. Similarly, the user may use the user interface to access specific folders and search these folders for specific files or content using logic based rules. Users may also schedule file changes to be run at a later time.
When files are altered directly in the device in which they are stored, there is usually no log of the changes that have been implemented. For instance, if a file is moved from one folder to another folder and the user does not remember the new location of the file, there is no log that can be referenced to find the new file location. This may be especially problematic if the file is moved to the new location and then renamed, because the user will be unable to search for the file if he cannot recall the new file name or the new file location.
Implementing changes to files through the user interface preferably enables users to selectively log file changes. Selecting which changes are logged eliminates the need to record every change that occurs on an operating system, which is generally an infeasible option due to the large number of changes that occurs on a computing system as it is accessed by a user. Furthermore, since users generally are not interested in operating system changes, this may provide users with the ability to control the amount of data recorded on the computing system by capturing just the information that is of interest to the user.
An embodiment of the invention also enables users to capture a snap shot of all files on the computing system at a specific point in time, which can be referenced at a later point in time. This allows users to identify discrepancies and run reports of all the changes that may have occurred between two points in time.
The system may also provide access to historical information regarding file requests and changes made, through a user interface, website, or portal. The interface may provide options for displaying log data, which may include search method selections and/or historical information (i.e. changes or updates), as is shown in
Logs may enable users to search file histories based on a variety of file names, characteristics, and history as well as file-related events. For example,
In other embodiments, the logs may be searched using any field for which data is collected or recorded. For example, searches may be for specific data types, such as dates, as well as for search terms for a user specified field, as is shown in
The logs do not necessarily require the search functionality and may be for record keeping purposes. The logs may rather be displayed to the user without offering any further action to be taken by the user, as is shown in
The logs may record all the changes implemented for files, folders, directories, etc., which may be searched to find files based on current file names or file information as well as all past file names or file information.
The user interface preferably facilitates searching and/or browsing content of a plurality of devices via a single unified experience. The logs may store information about the file source, such as the name of a mobile device or personal computer. These logs may be referenced by the system to check for file or system changes to improve the upload, download, and synching of images across devices.
Preferably, the system can also distinguish between the historical or logged information and the content currently available on the system. The source logs may be searched to find information associated with the file, such as the original file name. The user may access a list of all available files via the user interface. For example,
File lists may also be used to create a unified view of various files from multiple locations (i.e. file directories or folders) without physically moving the files or committing any changes in the system. In addition, users may create multiple lists that associate files to a link or path to the same file rather than creating multiple copies of a file.
The file lists preferably also enable users to create portfolios with rule-based logic, access restrictions and security policies. File lists may also allow file name aliases to be displayed on the front end without changing file names on the back end. For example, a user may create a list of files that can be displayed through a web portal. The user may choose to enter file name aliases and hide the file names from public view. For example, if there are two files, XYZ.txt and ABC.txt, the user may enter aliases, File1.txt and File2.txt respectively, and hide the file location and file names without making any changes to the files themselves. This enables users to associate multiple file names to a single file without reproducing the file, thereby reducing the amount of disk storage and organization require managing the multiple instances of the same file. In addition to the file name aliases, the file lists may also include other information that is specific to that list, such as a file description.
By way of non-limiting example, in
In the example shown, File 1, File 2, File 3 and File 4 are provided an alias File A, File B, File C and File D, respectively. File 5 and File 6 are not provided with an alias. Once the user submits the changes, a confirmation page may be presented to the user to confirm the changes In the embodiment shown, both the File Names and List File Names appear along with the description, so that the user can compare and make sure the aliases were assigned to the proper files. For files for which no alias is provided, such as File 5 and File 6, the original file name appears under the List File Name column.
The system may also provide an option to preview the aliases after it is submitted by the user, as is shown in
Once the list is created, it may be visible and/or accessible to other users, such as clients, without the authority to make edits thereto. When a client clicks on the list name or open the list using any other suitable means, they are preferably presented with a user interface, for example, as shown in
Creating a file list may trigger another action as part of a workflow of process. For example,
In one embodiment of the invention, users may create an account to store and access the files transmitted to the server from one or more devices including a mobile phone, tablet, computer, camera, server, etc. Users may grant access to others, such as clients, by creating a workflow or process for client registration, such as implementing a web-based client registration form. In some cases, the registration form may include other workflow tasks, such as the option for the client to make an appointment with the user.
Upon submitting the appointment request form, the system may check whether the client is registered in the system, as shown in
The user may configure an appointment request process to automatically create appointments for a date/time requested by the client by referencing a source that contains information about the user's availability, such as a calendar. Alternatively, the user may configure the appointment request form to notify the user prior to creating the appointment. For example, in
Certain embodiments of the invention may include some or all of the features previously described. The features may not necessarily exist on the same computing system or server and it may be constructed with other servers and services. For example, the image files may be stored on a file repository that is separate from the system that processes the files. Alternatively, files may be stored with another service provider and accessed with API calls or by submitting credentials.
For example, in the embodiment of
The examples provided are merely exemplary, as a matter of application specific to design choice, and should not be construed to limit the scope of the invention in any way. For example, the processing device may be the imaging device, wherein the automatic naming of the image files and/or associating Tagging Data thereto is executed within the imaging device, rather than an external processing device. Additionally, the processing device preferably includes a display via which the names of the image files can be viewed. Preferably, the image files can also be viewed, permitting the user to confirm that the image files are named correctly.
Thus, while there have been shown and described and pointed out novel features of the invention as applied to preferred embodiments thereof, it will be understood that various omissions and substitutions and changes in the form and details of the disclosed invention may be made by those skilled in the art without departing from the spirit of the invention. For example, an additional digital image file, referred to herein as a “End Tagging Image” may be captured by the imaging device after a series of images have been captured to indicate the end of the series of images Similar to the Tagging Image, the End Tagging Image may be a photograph taken of a document having information regarding the related images or an image generated by the imaging device based on text inputted into the imaging device. Alternatively, the End Tagging Image may be of a specific image, text, symbol, etc. Furthermore, the End Tagging Image need not be an image file. By way of non-limiting example, the End Tagging Image may be a text file. In accordance with an embodiment, for example, wherein the image files are contained in a large storage unit, a database may be utilized to identify the last known image catalogued by the system, which may reduce the time and computing required. A database may also be used to catalog the default file name and the new file name for future reference.
In addition, Tagging Images may be identified and marked by the user using the software or hardware of the image capture device. This reduces the number of images that is processed by the computing system and limits the number of files that must be processed for text, barcode, QR code recognition. For instance, a user may capture an image of the tagging text using a digital image device and then mark the image as a tagging image by pushing a button (intended to mark tagging images) or by selecting an option on the device operating system.
Other alterations can be made without deviating from the scope of the invention. Accordingly, the system and method, the use, steps, order of steps, etc. may be varied as a matter of application specific design choice without deviating from the scope of the invention. It is the intention, therefore, to be limited only as indicated by the scope of the claims appended hereto.
It is also to be understood that the following claims are intended to cover all of the generic and specific features of the invention herein described and all statements of the scope of the invention which, as a matter of language, might be said to fall there between.
Claims
1. A data association device for associating data to image files, the device comprising:
- a file receiving mechanism configured to receive a plurality of image files previously captured by an imaging device;
- a storage medium configured to store one or more of said plurality of image files; and
- a processing mechanism configured to identify, among said plurality of image files, one or more tagging image files having a text image, wherein said text image comprises text including data for a set of image files; extract said data from the text; associate said data to said set of images files; and save said set of image files having said data associated therewith onto the storage medium.
2. The device of claim 1, wherein the processing mechanism names said image files based on said data.
3. The device of claim 1, wherein the processing mechanism is automated.
4. The device of claim 1, further comprising a display for displaying the contents of the storage mechanism.
5. The device of claim 1, wherein the processing mechanism changes the names of the set of image files from the initial file names retrieved by the receiving mechanism into file names based on said data.
6. The device of claim 1, further wherein the set of image files is a series of consecutive image files.
7. The device of claim 1, wherein the processing mechanism is further configured to identify a series of image files between two tagging image files.
8. The device of claim 1, wherein the processing mechanism associates data from a first tagging image file to a first set of image files, wherein the first set of image files immediately follows the first tagging image and precedes a second tagging image file.
9. The device of claim 1, wherein the processing mechanism
- identifies a first tagging image having a first data and a second tagging image having a second data, wherein the set of image files is preceded by the first tagging image and followed by the second tagging image; and
- associates the first data and the second data to the set of image files.
10. The device of claim 1, comprising a computer.
11. The device of claim 1, comprising an Internet-capable device.
12. The device of claim 1, comprising a user interface configured to permit a user to provide instructions for naming the image files.
13. A method of associating data to digital image files, the method comprising:
- receiving a plurality of digital image files in sequence, each digital image file having a file data, said plurality of digital image files having been previously captured by an imaging device;
- among said plurality of digital image files, identifying one or more tagging image files having an image of a text;
- recognizing said text; and
- applying at least a portion of said text to the file data of one or more digital image files proceeding said one or more tagging image files.
14. The method of claim 13, wherein applying a portion of said text to the file data includes naming the one or more digital image file.
15. The method of claim 13, further comprising receiving a naming convention from a user.
16. The method of claim 13, further comprising saving the one or more digital image files to a storage medium after applying said text to the file data.
Type: Application
Filed: Aug 14, 2017
Publication Date: Nov 30, 2017
Inventor: Jennifer Shin (New York, NY)
Application Number: 15/676,947