US20010012062A1 - System and method for automatic analysis and categorization of images in an electronic imaging device - Google Patents
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- US20010012062A1 US20010012062A1 US09/121,760 US12176098A US2001012062A1 US 20010012062 A1 US20010012062 A1 US 20010012062A1 US 12176098 A US12176098 A US 12176098A US 2001012062 A1 US2001012062 A1 US 2001012062A1
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N1/00—Scanning, transmission or reproduction of documents or the like, e.g. facsimile transmission; Details thereof
- H04N1/21—Intermediate information storage
- H04N1/2104—Intermediate information storage for one or a few pictures
- H04N1/2112—Intermediate information storage for one or a few pictures using still video cameras
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F16/00—Information retrieval; Database structures therefor; File system structures therefor
- G06F16/50—Information retrieval; Database structures therefor; File system structures therefor of still image data
- G06F16/58—Retrieval characterised by using metadata, e.g. metadata not derived from the content or metadata generated manually
- G06F16/583—Retrieval characterised by using metadata, e.g. metadata not derived from the content or metadata generated manually using metadata automatically derived from the content
- G06F16/5838—Retrieval characterised by using metadata, e.g. metadata not derived from the content or metadata generated manually using metadata automatically derived from the content using colour
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N23/00—Cameras or camera modules comprising electronic image sensors; Control thereof
- H04N23/60—Control of cameras or camera modules
- H04N23/63—Control of cameras or camera modules by using electronic viewfinders
- H04N23/631—Graphical user interfaces [GUI] specially adapted for controlling image capture or setting capture parameters
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N23/00—Cameras or camera modules comprising electronic image sensors; Control thereof
- H04N23/60—Control of cameras or camera modules
- H04N23/63—Control of cameras or camera modules by using electronic viewfinders
- H04N23/633—Control of cameras or camera modules by using electronic viewfinders for displaying additional information relating to control or operation of the camera
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N2101/00—Still video cameras
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N2201/00—Indexing scheme relating to scanning, transmission or reproduction of documents or the like, and to details thereof
- H04N2201/32—Circuits or arrangements for control or supervision between transmitter and receiver or between image input and image output device, e.g. between a still-image camera and its memory or between a still-image camera and a printer device
- H04N2201/3201—Display, printing, storage or transmission of additional information, e.g. ID code, date and time or title
- H04N2201/3225—Display, printing, storage or transmission of additional information, e.g. ID code, date and time or title of data relating to an image, a page or a document
- H04N2201/3226—Display, printing, storage or transmission of additional information, e.g. ID code, date and time or title of data relating to an image, a page or a document of identification information or the like, e.g. ID code, index, title, part of an image, reduced-size image
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N2201/00—Indexing scheme relating to scanning, transmission or reproduction of documents or the like, and to details thereof
- H04N2201/32—Circuits or arrangements for control or supervision between transmitter and receiver or between image input and image output device, e.g. between a still-image camera and its memory or between a still-image camera and a printer device
- H04N2201/3201—Display, printing, storage or transmission of additional information, e.g. ID code, date and time or title
- H04N2201/3225—Display, printing, storage or transmission of additional information, e.g. ID code, date and time or title of data relating to an image, a page or a document
- H04N2201/325—Modified version of the image, e.g. part of the image, image reduced in size or resolution, thumbnail or screennail
Definitions
- This invention relates generally to electronic data processing, and relates more particularly to a system and method for the automatic analysis and categorization of images in an electronic imaging device.
- the present invention comprises a system and method for the automatic analysis and categorization of images in an electronic imaging device, such as a digital camera.
- a digital camera captures a selected image as CCD raw data, stores the raw data as image data into an individual image file, and then propagates the image file through the digital camera for processing and formatting of the image data.
- the image data is initially converted into an RGB format, and then, selected analysis modules may connect through an RGB insertion point to advantageously analyze the image data at an RGB transition point, in accordance with the present invention.
- a particular analysis module analyzes the final line of the image data, then that analysis module preferably generates any appropriate category tags and stores the generated category tags into a blank category tag location in the image file.
- the digital camera may then subsequently access the stored category tags to automatically categorize and utilize the individual stored images (which each correspond to a separate image file).
- another image processing module preferably performs gamma correction and color space conversion on the image data.
- the image processing module also preferably converts the color space format of the image data.
- the image data is converted into YCC 444 format.
- analysis modules may be plugged into a YCC insertion point to analyze the image data at a YCC transition point, in accordance with the present invention.
- a particular analysis module analyzes the final line of the image data
- that analysis module preferably generates any appropriate category tags and stores the generated category tags into a blank category tag location in the image file for subsequent use by the camera to automatically categorize captured images.
- analysis modules may readily analyze image data at any other time or insertion point within the camera.
- an image processing module preferably performs a sharpening procedure on the image data, and also may perform a variety of other processing options. Then, an image processing module preferably decimates the image data, and the image data is compressed into a final image format (preferably JPEG.) Next, a file formatter preferably formats the compressed image file, and the resulting image file is finally saved into a removable memory device.
- a final image format preferably JPEG.
- the image file thus includes any appropriate category tags, and the camera may then subsequently utilize the category tags to automatically access selected images, in accordance with the present invention.
- the present invention therefore provides an efficient system and method for automatically analysis and categorization of captured images in an electronic imaging device.
- FIG. 1 is a block diagram of one embodiment for a digital camera, according to the present invention.
- FIG. 2 is a block diagram of one embodiment for the imaging device of FIG. 1, according to the present invention.
- FIG. 3 is a block diagram of one embodiment for the camera computer of FIG. 1;
- FIG. 4 is a rear elevation view of one embodiment for the FIG. 1 digital camera
- FIG. 5 is a diagram one embodiment for the non-volatile memory of FIG. 3, according to the present invention.
- FIG. 6 is a diagram of one embodiment for the dynamic random-access memory of FIG. 3, according to the present invention.
- FIG. 7 is a diagram of one embodiment for a single analysis module of FIG. 6, according to the present invention.
- FIG. 8 is a diagram of one embodiment for an image file, in accordance with the present invention.
- FIG. 9 is a diagram of one embodiment for the image tags of FIG. 8.
- FIG. 10 is a flowchart for one embodiment of method steps to automatically analyze and categorize images, according to the present invention.
- the present invention relates to an improvement in digital imaging devices, including digital cameras.
- digital imaging devices including digital cameras.
- the following description is presented to enable one of ordinary skill in the art to make and use the invention and is provided in the context of a patent application and its requirements.
- the present invention will be described in the context of a digital camera, various modifications to the preferred embodiment will be readily apparent to those skilled in the art and the generic principles herein may be applied to various other embodiments. That is, any imaging device, which captures image data, could incorporate the features described hereinbelow and that device would be within the spirit and scope of the present invention.
- the present invention is not intended to be limited to the embodiment shown, but is to be accorded the widest scope consistent with the principles and features described herein.
- the present invention comprises one or more analysis modules that examine captured image files for selected criteria.
- the analysis modules then responsively generate and store appropriate category tags along with the image file to advantageously enable the imaging device to subsequently access the stored category tags and thereby automatically access desired categories of captured images.
- Camera 110 preferably comprises an imaging device 114 , a system bus 116 , and a camera computer 118 .
- Imaging capture device 114 may be optically coupled to an object 112 and electrically coupled via system bus 116 to camera computer 118 .
- camera computer 118 commands imaging capture device 114 via system bus 116 to capture raw image data representing object 112 .
- the captured raw image data is transferred over system bus 116 to camera computer 118 , which performs various image-processing functions on the image data.
- System bus 116 also passes various status and control signals between imaging capture device 114 and camera computer 118 .
- Imaging device 114 preferably comprises a lens 220 having an iris (not shown), a filter 222 , an image sensor 224 , a timing generator 226 , an analog signal processor (ASP) 228 , an analog-to-digital (A/D) converter 230 , an interface 232 , and one or more motors 234 to adjust focus of lens 220 .
- a lens 220 having an iris (not shown), a filter 222 , an image sensor 224 , a timing generator 226 , an analog signal processor (ASP) 228 , an analog-to-digital (A/D) converter 230 , an interface 232 , and one or more motors 234 to adjust focus of lens 220 .
- ASP analog signal processor
- A/D analog-to-digital
- Imaging capture device 114 captures an image of object 112 via reflected light impacting image sensor 224 along optical path 236 .
- Image sensor 224 which is preferably a charged-coupled device (CCD) responsively generates a set of raw image data in CCD format representing the captured image 112 .
- the raw image data is then routed through ASP 228 A/D converter 230 , and interface 232 .
- Interface 232 has outputs for controlling ASP 228 , motors 234 and timing generator 226 . From interface 232 , the raw image data passes over system bus 116 to camera computer 118 .
- System bus 116 provides communication between imaging capture device 114 , electrically-erasable programmable read-only memory (EEPROM) 341 , optional power manager 342 , central processing unit (CPU) 344 , dynamic random-access memory (DRAM) 346 , camera input/output (I/O) 348 , non-volatile memory 350 , and buffers/connector 352 .
- Removable memory 354 connects to system bus 116 via buffers/connector 352 .
- camera 110 may also readily be implemented without removable memory 354 or buffers/connector 352 .
- Power manager 342 communicates via line 366 with power supply 356 and coordinates power management operations for camera 110 .
- CPU 344 preferably includes a processor device for controlling the operation of camera 110 .
- CPU 344 is capable of concurrently running multiple software routines to control the various processes of camera 110 within a multi-threading environment.
- DRAM 346 is a contiguous block of dynamic memory, which may be selectively allocated to various storage functions.
- LCD controller 390 accesses DRAM 346 and transfers processed image data to LCD screen 302 for display.
- Camera I/O 348 is an interface device allowing communications to and from camera computer 118 .
- camera I/O 348 permits an external host computer (not shown) to connect to and communicate with camera computer 118 .
- Camera I/O 348 may also interface with a plurality of buttons and/or dials 304 , and an optional status LCD 306 , which, in addition to LCD screen 302 , are the hardware elements of the camera's user interface 308 .
- Non-volatile memory 350 which preferably comprises a conventional read-only memory or flash memory, stores a set of computer-readable program instructions to control the operation of camera 110 .
- Removable memory 354 serves as an additional image data storage area and is preferably a non-volatile device, readily removable and replaceable by a camera user via buffers/connector 352 . Thus, a user who possesses several removable memories 354 may replace a full removable memory 354 with an empty removable memory 354 to effectively expand the picture-taking capacity of camera 110 .
- removable memory 354 is preferably implemented using a flash disk.
- Power supply 356 provides operating power to the various components of camera 110 via main power bus 362 and secondary power bus 364 .
- the main power bus 362 provides power to imaging capture device 114 , camera I/O 348 , non-volatile memory 350 and removable memory 354
- secondary power bus 364 provides power to power manager 342 , CPU 344 and DRAM 346 .
- Power supply 356 is connected to main batteries 358 and also to backup batteries 360 . Camera 110 user may also connect power supply 356 to an optional external power source. During normal operation of power supply 356 , main batteries 358 provide operating power to power supply 356 which then provides the operating power to camera 110 via both main power bus 362 and secondary power bus 364 . During a power failure mode where main batteries 358 have failed (i.e., when their output voltage has fallen below a minimum operational voltage level), backup batteries 360 provide operating power to power supply 356 which then provides operating power only to the secondary power bus 364 of camera 110 .
- FIG. 4 a rear elevation view of one embodiment for camera 110 of FIG. 1 is shown.
- the FIG. 4 representation depicts hardware components of user interface 308 of camera 110 , showing LCD screen 302 , user interface 308 , a four-way navigation control button 409 , an overlay button 412 , a menu button 414 , and a set of programmable soft keys 416 .
- User interface 308 includes several operating modes for supporting various camera functions.
- operating modes may include capture mode, review mode, play mode, and PC-connect mode.
- capture mode menu options are available to set-up the categories used during image capture. The user preferably switches between the camera modes by selecting a mode dial (not shown).
- FIG. 5 a diagram one embodiment for the non-volatile memory 350 of FIG. 3 is shown.
- the FIG. 5 diagram includes control application 500 , toolbox 502 , drivers 504 , kernel 506 , and system configuration 508 .
- Control application 500 comprises program instructions for controlling and coordinating the various functions of camera 110 .
- Toolbox 502 contains selected function modules including image processing backplane 510 , image processing modules 512 , menu and dialog manager 514 , and file formatter 516 .
- Image processing backplane 510 includes software routines that coordinate the functioning and communication of various image processing modules 512 and handle the data flow between the various modules.
- Image processing modules 512 preferably include selectable plug-in software routines that manipulate captured image data in a variety of ways, depending on the particular modules selected.
- Menu and dialog manager 514 includes software routines which provide information for controlling access to camera control menus and camera control menu items for access to features in camera 1 10 .
- File formatter 516 includes software routines for creating an image file from the processed image data.
- Drivers 504 control various hardware devices within camera 110 (for example, motors 234 ).
- Kernel 506 provides basic underlying services for the camera 110 operating system.
- System configuration 508 performs initial start-up routines for camera 110 , including the boot routine and initial system diagnostics.
- DRAM 346 includes RAM disk 532 , system area 534 , analysis modules 540 and working memory 530 .
- RAM disk 532 is a memory area used for storing raw and compressed image data and is organized in a “sectored” format similar to that of conventional hard disk drives.
- a conventional and standardized file system permits external host computer systems, via I/O 348 , to recognize and access the data stored on RAM disk 532 .
- System area 534 stores data regarding system errors (e.g., why a system shutdown occurred) for use by CPU 344 to restart computer 118 .
- Working memory 530 includes stacks, data structures and variables used by CPU 344 while executing the software routines used within camera computer 118 .
- Working memory 530 also includes input buffers 538 for initially storing sets of image data received from imaging device 114 for image conversion, and frame buffers 536 for storing data to display on LCD screen 302 .
- analysis modules 540 preferably each include one or more software routines for automatically analyzing and categorizing images.
- analysis modules 540 may be loaded into RAM 346 from removable memory 354 or another external source. Analysis modules 540 further discussed below in conjunction with FIGS. 7 through 10.
- Analysis module 540 includes text category list 610 , combination logic 615 , analysis algorithms 630 , and parametric control 635 .
- Text category list 610 is a listing of the various possible image categories available for a given analysis module 540 .
- Combination logic 615 determines how to resolve the results of the image analysis when multiple analysis algorithms 630 are utilized.
- Parametric control 635 is used to control settable parameters for analysis module 540 .
- analysis module may be turned on/off, or sensitivity settings for analysis module 540 may be controlled with parametric control 635 .
- Analysis algorithms 630 are a series of software routines ranging from analysis algorithm 1 ( 620 ) through analysis algorithm n ( 625 .) Analysis algorithms 630 are each designed to allow analysis module 540 to access and analyze images at various stages in the processing chain of camera 110 , in order to gather information about the image for later categorization.
- each analysis algorithm 630 is designed to detect at least one image category.
- individual analysis algorithms 630 may be designed to detect a person or groups of people based on characteristics like substantial amounts of flesh tones within the image.
- Individual analysis algorithms 630 may likewise be designed to detect nature scenes from characteristics like substantial green content in the image combined with the relative lack of hard edges.
- categories like city images, water images or indoor images may be detected by characteristic features contained in those images.
- image file 835 includes a header 805 , image data 810 , a screennail 815 , a thumbnail 820 , and image tags 825 .
- Header 805 preferably includes information that identifies and describes the various contents of image file 835 .
- Image data 810 contains actual captured image data. Image data 810 exists in whichever format that is appropriate for the current location of image file 835 within the image processing chain of camera 110 .
- Screennail 815 and thumbnail 820 are each different versions of image data 810 that have varying degrees of reduced resolution for a number of special viewing applications.
- Image tags 825 includes various types of information that correspond and relate to particular captured image data 810 . Image tags 825 are further discussed below in conjunction with FIG. 9.
- image tags 825 include capture information tags 710 , user tags 715 , product tags 720 , and category tags 735 .
- Capture information tags 710 preferably include various types of information that correlate with the captured image data 810 (FIG. 8). For example, capture information tags 710 may indicate focus setting, aperture setting, and other relevant information that may be useful for effectively processing or analyzing the corresponding image data 810 . User tags 715 and product tags 720 typically contain various other information that may be needed for use with camera 110 .
- Category tags 735 are each preferably generated by analysis modules 540 after analysis modules 540 individually examine image data 810 from image file 835 , in accordance with the present invention. Camera 110 may thus advantageously access and utilize category tags 735 to identify one or more categories to which a given set of image data 810 may likely relate. As discussed above in conjunction with FIG. 7, category tags 735 may correspond to a wide variety of possible image categories. In the preferred embodiment, image tags 825 initially contains sixteen empty locations to which various analysis modules 540 may write appropriate category tags 735 for automatically categorizing the corresponding image data 810 , in accordance with the present invention.
- FIG. 10 a flowchart is shown for one embodiment of method steps to automatically analyze and categorize images, according to the present invention.
- FIG. 10 also details the operation of a series of plug-in image processing modules 512 for processing and formatting image data 810 .
- plug-in image processing modules 512 for processing and formatting image data 810 .
- various other modules may readily be substituted or added to those modules discussed in below conjunction with the FIG. 10 embodiment.
- camera 110 preferably captures a selected image as CCD raw data, stores the raw data as image data 810 into image file 835 , and then propagates image file 835 through camera 110 for processing and formatting of the image data 810 .
- an image processing module 512 preferably replaces any defective pixels in image data 810 , and also performs white balance and color correction on image data 810 .
- step 925 another image processing module 512 preferably performs interpolation (edge enhancement) on image data 810 , and then converts image data 810 into an intermediate format.
- step 925 converts image data 810 into an RGB (Red, Blue, Green) format.
- selected analysis modules 540 may be plugged into an RGB insertion point 940 to advantageously analyze image data 810 at RGB transition point 930 , in accordance with the present invention.
- One, some, or all of the analysis modules 540 may analyze image data 810 at RGB transition point 930 .
- analysis modules 540 are selected for optimal compatibility and effectiveness with the current format of image data 810 at RGB transition point 930 .
- that analysis module 540 preferably generates any appropriate category tags 735 and stores the generated category tags 735 into a blank category tag location in image file 835 .
- camera 110 may subsequently access the stored category tags 735 to automatically categorize and utilize the individual stored images (which each correspond to a separate image file 835 ).
- step 945 another image processing module 512 preferably performs gamma correction and color space conversion on image data 810 .
- the image processing module 512 also preferably converts the color space format of image data 810 .
- image data 810 is converted to YCC 444 (Luminance, Chrominance-red, and Chrominance-blue) format.
- selected analysis modules 540 may be plugged into a YCC insertion point 960 to analyze image data 810 at YCC transition point 950 , in accordance with the present invention.
- One, some, or all of the analysis modules 540 may analyze image data 810 at YCC transition point 950 .
- that analysis module 540 preferably generates any appropriate category tags 735 and stores the generated category tags 735 into a blank category tag location in image file 835 for subsequent use by camera 110 to automatically categorize captured images.
- analysis modules 540 may readily analyze image data 810 at any other time or insertion point within camera 110 .
- analysis modules 540 may readily be configured to examine image data 810 at capture time, and to specifically recognize and identify the capture of any image that matches one or more selectable parameters.
- analysis modules 540 may advantageously access image files 835 that have been processed and stored onto removable memory 354 . Analysis modules 540 may then automatically categorize the image files 835 by analyzing image data 810 and responsively generating corresponding category tags 735 , in accordance with the present invention.
- an image processing module 512 preferably performs a sharpening procedure on image data 810 , and also may perform a variety of other processing options. Then, in step 970 , an image processing module 512 preferably decimates image data 810 . In the preferred embodiment, the decimation process reduces image resolution by decimating the YCC 444 image data to produce YCC 422 or YCC 411 image data
- step 975 the image data 810 is preferably compressed into a final image format (preferably JPEG.)
- file formatter 516 preferably formats the compressed image file 835 , and the resulting image file 835 is finally saved into removable memory 354 in step 985 .
- image file 835 thus includes any appropriate category tags which camera 110 may then subsequently automatically access to sort selected images, in accordance with the present invention.
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Abstract
Description
- This application is related to co-pending U.S. patent application Ser. No. 08/735,705, entitled “System And Method For Correlating Processing Data And Image Data Within A Digital Camera Device,” filed on Oct. 23, 1996, which is hereby incorporated by reference. The related applications are commonly assigned.
- 1. Field of the Invention
- This invention relates generally to electronic data processing, and relates more particularly to a system and method for the automatic analysis and categorization of images in an electronic imaging device.
- 2. Description of the Background Art
- The efficient manipulation of captured image data is a significant consideration for designers, manufacturers, and users of electronic imaging devices. Contemporary imaging devices such as digital cameras effectively enable users to capture images, assemble or edit the captured images, exchange the captured images electronically, or print a hard copy of the captured images.
- As a camera user captures a number of digital images, it typically becomes necessary to sort and categorize the digital images. In some systems, a camera user must resort to the cumbersome and time-consuming task of individually viewing each captured image, identifying various groupings of image categories, and somehow manually tagging each image to specify the particular image category. For example, inParulski, U.S. Pat. No. 5,633,678, a camera user manually selects a category for a group of images prior to the capture of the images. The camera user must select a new category for each new group of images. Such a manual categorization system is awkward to use and, therefore, does not provide as efficient an imaging device as a camera that features an automatic categorization system.
- In other systems, software programs are available to permit the user to create thumbnails (smaller renditions of the captured image) and to place the thumbnails, with references to the original images, into various libraries or category systems. This process may also become very time consuming, especially as the number of captured images or the variety of category types increases.
- From the preceding discussion, it becomes apparent that an electronic imaging system that manually analyzes and categorizes any significant number of captured images does not achieve an acceptable degree of efficiency. Therefore, an electronic imaging device that automatically analyzes captured images, and then responsively categorizes the analyzed images into one or more selected image groupings, would clearly provide a significant improvement in efficient functionality for various contemporary electronic imaging technologies.
- For all the foregoing reasons, an improved system and method are needed for the automatic analysis and categorization of images in an electronic imaging device.
- The present invention comprises a system and method for the automatic analysis and categorization of images in an electronic imaging device, such as a digital camera. In the preferred embodiment, a digital camera captures a selected image as CCD raw data, stores the raw data as image data into an individual image file, and then propagates the image file through the digital camera for processing and formatting of the image data.
- In the preferred embodiment, the image data is initially converted into an RGB format, and then, selected analysis modules may connect through an RGB insertion point to advantageously analyze the image data at an RGB transition point, in accordance with the present invention. Once a particular analysis module analyzes the final line of the image data, then that analysis module preferably generates any appropriate category tags and stores the generated category tags into a blank category tag location in the image file. The digital camera may then subsequently access the stored category tags to automatically categorize and utilize the individual stored images (which each correspond to a separate image file).
- Next, another image processing module preferably performs gamma correction and color space conversion on the image data. The image processing module also preferably converts the color space format of the image data. In the preferred embodiment, the image data is converted into YCC444 format.
- After the image data is converted into YCC444 format, selected analysis modules may be plugged into a YCC insertion point to analyze the image data at a YCC transition point, in accordance with the present invention. As discussed above, once a particular analysis module analyzes the final line of the image data, then that analysis module preferably generates any appropriate category tags and stores the generated category tags into a blank category tag location in the image file for subsequent use by the camera to automatically categorize captured images. In other embodiments of the present invention, analysis modules may readily analyze image data at any other time or insertion point within the camera.
- Next, an image processing module preferably performs a sharpening procedure on the image data, and also may perform a variety of other processing options. Then, an image processing module preferably decimates the image data, and the image data is compressed into a final image format (preferably JPEG.) Next, a file formatter preferably formats the compressed image file, and the resulting image file is finally saved into a removable memory device.
- The image file thus includes any appropriate category tags, and the camera may then subsequently utilize the category tags to automatically access selected images, in accordance with the present invention. The present invention therefore provides an efficient system and method for automatically analysis and categorization of captured images in an electronic imaging device.
- FIG. 1 is a block diagram of one embodiment for a digital camera, according to the present invention;
- FIG. 2 is a block diagram of one embodiment for the imaging device of FIG. 1, according to the present invention;
- FIG. 3 is a block diagram of one embodiment for the camera computer of FIG. 1;
- FIG. 4 is a rear elevation view of one embodiment for the FIG. 1 digital camera;
- FIG. 5 is a diagram one embodiment for the non-volatile memory of FIG. 3, according to the present invention;
- FIG. 6 is a diagram of one embodiment for the dynamic random-access memory of FIG. 3, according to the present invention;
- FIG. 7 is a diagram of one embodiment for a single analysis module of FIG. 6, according to the present invention;
- FIG. 8 is a diagram of one embodiment for an image file, in accordance with the present invention;
- FIG. 9 is a diagram of one embodiment for the image tags of FIG. 8; and
- FIG. 10 is a flowchart for one embodiment of method steps to automatically analyze and categorize images, according to the present invention.
- The present invention relates to an improvement in digital imaging devices, including digital cameras. The following description is presented to enable one of ordinary skill in the art to make and use the invention and is provided in the context of a patent application and its requirements. Although the present invention will be described in the context of a digital camera, various modifications to the preferred embodiment will be readily apparent to those skilled in the art and the generic principles herein may be applied to various other embodiments. That is, any imaging device, which captures image data, could incorporate the features described hereinbelow and that device would be within the spirit and scope of the present invention. Thus, the present invention is not intended to be limited to the embodiment shown, but is to be accorded the widest scope consistent with the principles and features described herein.
- The present invention comprises one or more analysis modules that examine captured image files for selected criteria. The analysis modules then responsively generate and store appropriate category tags along with the image file to advantageously enable the imaging device to subsequently access the stored category tags and thereby automatically access desired categories of captured images.
- Referring now to FIG. 1, a block diagram of one embodiment for a
digital camera 110 is shown.Camera 110 preferably comprises animaging device 114, asystem bus 116, and acamera computer 118.Imaging capture device 114 may be optically coupled to anobject 112 and electrically coupled viasystem bus 116 tocamera computer 118. Once a user has focusedimaging capture device 114 onobject 112 and instructedcamera 110 to capture an image ofobject 112,camera computer 118 commandsimaging capture device 114 viasystem bus 116 to capture raw imagedata representing object 112. The captured raw image data is transferred oversystem bus 116 tocamera computer 118, which performs various image-processing functions on the image data.System bus 116 also passes various status and control signals betweenimaging capture device 114 andcamera computer 118. - Referring now to FIG. 2, a block diagram of one embodiment for
imaging device 114 of FIG. 1 is shown.Imaging device 114 preferably comprises alens 220 having an iris (not shown), afilter 222, animage sensor 224, atiming generator 226, an analog signal processor (ASP) 228, an analog-to-digital (A/D)converter 230, aninterface 232, and one ormore motors 234 to adjust focus oflens 220. -
Imaging capture device 114 captures an image ofobject 112 via reflected light impactingimage sensor 224 alongoptical path 236.Image sensor 224, which is preferably a charged-coupled device (CCD), responsively generates a set of raw image data in CCD format representing the capturedimage 112. The raw image data is then routed through ASP 228 A/D converter 230, andinterface 232.Interface 232 has outputs for controllingASP 228,motors 234 andtiming generator 226. Frominterface 232, the raw image data passes oversystem bus 116 tocamera computer 118. - Referring now to FIG. 3, a block diagram of one embodiment for
camera computer 118 of FIG. 1 is shown.System bus 116 provides communication betweenimaging capture device 114, electrically-erasable programmable read-only memory (EEPROM) 341,optional power manager 342, central processing unit (CPU) 344, dynamic random-access memory (DRAM) 346, camera input/output (I/O) 348,non-volatile memory 350, and buffers/connector 352.Removable memory 354 connects tosystem bus 116 via buffers/connector 352. In alternate embodiments,camera 110 may also readily be implemented withoutremovable memory 354 or buffers/connector 352. -
Power manager 342 communicates vialine 366 withpower supply 356 and coordinates power management operations forcamera 110.CPU 344 preferably includes a processor device for controlling the operation ofcamera 110. In the preferred embodiment,CPU 344 is capable of concurrently running multiple software routines to control the various processes ofcamera 110 within a multi-threading environment.DRAM 346 is a contiguous block of dynamic memory, which may be selectively allocated to various storage functions.LCD controller 390 accessesDRAM 346 and transfers processed image data toLCD screen 302 for display. - Camera I/
O 348 is an interface device allowing communications to and fromcamera computer 118. For example, camera I/O 348 permits an external host computer (not shown) to connect to and communicate withcamera computer 118. Camera I/O 348 may also interface with a plurality of buttons and/or dials 304, and anoptional status LCD 306, which, in addition toLCD screen 302, are the hardware elements of the camera'suser interface 308. -
Non-volatile memory 350, which preferably comprises a conventional read-only memory or flash memory, stores a set of computer-readable program instructions to control the operation ofcamera 110.Removable memory 354 serves as an additional image data storage area and is preferably a non-volatile device, readily removable and replaceable by a camera user via buffers/connector 352. Thus, a user who possesses severalremovable memories 354 may replace a fullremovable memory 354 with an emptyremovable memory 354 to effectively expand the picture-taking capacity ofcamera 110. In the preferred embodiment of the present invention,removable memory 354 is preferably implemented using a flash disk. -
Power supply 356 provides operating power to the various components ofcamera 110 viamain power bus 362 andsecondary power bus 364. Themain power bus 362 provides power toimaging capture device 114, camera I/O 348,non-volatile memory 350 andremovable memory 354, whilesecondary power bus 364 provides power topower manager 342,CPU 344 andDRAM 346. -
Power supply 356 is connected tomain batteries 358 and also tobackup batteries 360.Camera 110 user may also connectpower supply 356 to an optional external power source. During normal operation ofpower supply 356,main batteries 358 provide operating power topower supply 356 which then provides the operating power tocamera 110 via bothmain power bus 362 andsecondary power bus 364. During a power failure mode wheremain batteries 358 have failed (i.e., when their output voltage has fallen below a minimum operational voltage level),backup batteries 360 provide operating power topower supply 356 which then provides operating power only to thesecondary power bus 364 ofcamera 110. - Referring now to FIG. 4, a rear elevation view of one embodiment for
camera 110 of FIG. 1 is shown. The FIG. 4 representation depicts hardware components ofuser interface 308 ofcamera 110, showingLCD screen 302,user interface 308, a four-waynavigation control button 409, anoverlay button 412, amenu button 414, and a set of programmablesoft keys 416. -
User interface 308 includes several operating modes for supporting various camera functions. In the preferred embodiment, operating modes may include capture mode, review mode, play mode, and PC-connect mode. Within capture mode, menu options are available to set-up the categories used during image capture. The user preferably switches between the camera modes by selecting a mode dial (not shown). - Referring now to FIG. 5, a diagram one embodiment for the
non-volatile memory 350 of FIG. 3 is shown. The FIG. 5 diagram includescontrol application 500,toolbox 502,drivers 504,kernel 506, andsystem configuration 508.Control application 500 comprises program instructions for controlling and coordinating the various functions ofcamera 110.Toolbox 502 contains selected function modules includingimage processing backplane 510,image processing modules 512, menu anddialog manager 514, andfile formatter 516. -
Image processing backplane 510 includes software routines that coordinate the functioning and communication of variousimage processing modules 512 and handle the data flow between the various modules.Image processing modules 512 preferably include selectable plug-in software routines that manipulate captured image data in a variety of ways, depending on the particular modules selected. Menu anddialog manager 514 includes software routines which provide information for controlling access to camera control menus and camera control menu items for access to features incamera 1 10.File formatter 516 includes software routines for creating an image file from the processed image data. -
Drivers 504 control various hardware devices within camera 110 (for example, motors 234).Kernel 506 provides basic underlying services for thecamera 110 operating system.System configuration 508 performs initial start-up routines forcamera 110, including the boot routine and initial system diagnostics. - Now referring to FIG. 6, a diagram of one embodiment for dynamic random-access-memory (DRAM)346 is shown.
DRAM 346 includesRAM disk 532,system area 534,analysis modules 540 and workingmemory 530. - In the preferred embodiment,
RAM disk 532 is a memory area used for storing raw and compressed image data and is organized in a “sectored” format similar to that of conventional hard disk drives. A conventional and standardized file system permits external host computer systems, via I/O 348, to recognize and access the data stored onRAM disk 532.System area 534 stores data regarding system errors (e.g., why a system shutdown occurred) for use byCPU 344 to restartcomputer 118. - Working
memory 530 includes stacks, data structures and variables used byCPU 344 while executing the software routines used withincamera computer 118. Workingmemory 530 also includes input buffers 538 for initially storing sets of image data received fromimaging device 114 for image conversion, andframe buffers 536 for storing data to display onLCD screen 302. - In accordance with the present invention,
analysis modules 540 preferably each include one or more software routines for automatically analyzing and categorizing images. In the FIG. 6 embodiment,analysis modules 540 may be loaded intoRAM 346 fromremovable memory 354 or another external source.Analysis modules 540 further discussed below in conjunction with FIGS. 7 through 10. - Referring now to FIG. 7, a diagram of one embodiment for a
single analysis module 540 of FIG. 6 is shown.Analysis module 540 includestext category list 610,combination logic 615,analysis algorithms 630, andparametric control 635. -
Text category list 610 is a listing of the various possible image categories available for a givenanalysis module 540.Combination logic 615 determines how to resolve the results of the image analysis whenmultiple analysis algorithms 630 are utilized.Parametric control 635 is used to control settable parameters foranalysis module 540. For example, analysis module may be turned on/off, or sensitivity settings foranalysis module 540 may be controlled withparametric control 635. -
Analysis algorithms 630 are a series of software routines ranging from analysis algorithm 1 (620) through analysis algorithm n (625.)Analysis algorithms 630 are each designed to allowanalysis module 540 to access and analyze images at various stages in the processing chain ofcamera 110, in order to gather information about the image for later categorization. - Typically, each
analysis algorithm 630 is designed to detect at least one image category. For example,individual analysis algorithms 630 may be designed to detect a person or groups of people based on characteristics like substantial amounts of flesh tones within the image.Individual analysis algorithms 630 may likewise be designed to detect nature scenes from characteristics like substantial green content in the image combined with the relative lack of hard edges. Similarly, categories like city images, water images or indoor images may be detected by characteristic features contained in those images. Once the last line of image data from a given image is processed,analysis module 540 then preferably generates one or more category tags that correspond to the particular image, and the generated category tags are stored as part of the image file. A user ofcamera 110 may thus readily utilize the category tags to efficiently access and sort images into selected categories. - Referring now to FIG. 8, a diagram of one embodiment for an
image file 835 is shown, in accordance with the present invention. In the FIG. 8 embodiment,image file 835 includes aheader 805,image data 810, ascreennail 815, athumbnail 820, and image tags 825. -
Header 805 preferably includes information that identifies and describes the various contents ofimage file 835.Image data 810 contains actual captured image data.Image data 810 exists in whichever format that is appropriate for the current location ofimage file 835 within the image processing chain ofcamera 110.Screennail 815 andthumbnail 820 are each different versions ofimage data 810 that have varying degrees of reduced resolution for a number of special viewing applications. - Image tags825 includes various types of information that correspond and relate to particular captured
image data 810. Image tags 825 are further discussed below in conjunction with FIG. 9. - Referring now to FIG. 9, a diagram of one embodiment for the image tags of FIG. 8 is shown. In the FIG. 9 embodiment, image tags825 include capture information tags 710, user tags 715,
product tags 720, and category tags 735. - Capture information tags710 preferably include various types of information that correlate with the captured image data 810 (FIG. 8). For example, capture information tags 710 may indicate focus setting, aperture setting, and other relevant information that may be useful for effectively processing or analyzing the
corresponding image data 810. User tags 715 andproduct tags 720 typically contain various other information that may be needed for use withcamera 110. - Category tags735 are each preferably generated by
analysis modules 540 afteranalysis modules 540 individually examineimage data 810 fromimage file 835, in accordance with the present invention.Camera 110 may thus advantageously access and utilizecategory tags 735 to identify one or more categories to which a given set ofimage data 810 may likely relate. As discussed above in conjunction with FIG. 7, category tags 735 may correspond to a wide variety of possible image categories. In the preferred embodiment, image tags 825 initially contains sixteen empty locations to whichvarious analysis modules 540 may write appropriate category tags 735 for automatically categorizing thecorresponding image data 810, in accordance with the present invention. - Referring now to FIG. 10, a flowchart is shown for one embodiment of method steps to automatically analyze and categorize images, according to the present invention. FIG. 10 also details the operation of a series of plug-in
image processing modules 512 for processing andformatting image data 810. However, in other embodiments ofcamera 110, various other modules may readily be substituted or added to those modules discussed in below conjunction with the FIG. 10 embodiment. - Initially, in
step 910,camera 110 preferably captures a selected image as CCD raw data, stores the raw data asimage data 810 intoimage file 835, and then propagatesimage file 835 throughcamera 110 for processing and formatting of theimage data 810. Instep 920, animage processing module 512 preferably replaces any defective pixels inimage data 810, and also performs white balance and color correction onimage data 810. - Next, in
step 925, anotherimage processing module 512 preferably performs interpolation (edge enhancement) onimage data 810, and then convertsimage data 810 into an intermediate format. In the preferred embodiment, step 925 convertsimage data 810 into an RGB (Red, Blue, Green) format. - In the FIG. 10 embodiment, following
step 925, selectedanalysis modules 540 may be plugged into anRGB insertion point 940 to advantageously analyzeimage data 810 atRGB transition point 930, in accordance with the present invention. One, some, or all of theanalysis modules 540 may analyzeimage data 810 atRGB transition point 930. Preferably,analysis modules 540 are selected for optimal compatibility and effectiveness with the current format ofimage data 810 atRGB transition point 930. Once aparticular analysis module 540 analyzes the final line ofimage data 810, then thatanalysis module 540 preferably generates any appropriate category tags 735 and stores the generated category tags 735 into a blank category tag location inimage file 835. Then,camera 110 may subsequently access the stored category tags 735 to automatically categorize and utilize the individual stored images (which each correspond to a separate image file 835). - Next, in
step 945, anotherimage processing module 512 preferably performs gamma correction and color space conversion onimage data 810. Duringstep 945, theimage processing module 512 also preferably converts the color space format ofimage data 810. In the FIG. 10 embodiment,image data 810 is converted to YCC 444 (Luminance, Chrominance-red, and Chrominance-blue) format. - In the FIG. 10 embodiment, following
step 945, selectedanalysis modules 540 may be plugged into aYCC insertion point 960 to analyzeimage data 810 atYCC transition point 950, in accordance with the present invention. One, some, or all of theanalysis modules 540 may analyzeimage data 810 atYCC transition point 950. As discussed above, once aparticular analysis module 540 analyzes the final line ofimage data 810, then thatanalysis module 540 preferably generates any appropriate category tags 735 and stores the generated category tags 735 into a blank category tag location inimage file 835 for subsequent use bycamera 110 to automatically categorize captured images. - This discussion of the FIG. 10 embodiment specifically refers only
RGB insertion point 940 andYCC insertion point 960. However, in other embodiments of the present invention,analysis modules 540 may readily analyzeimage data 810 at any other time or insertion point withincamera 110. For example, in an alternate embodiment,analysis modules 540 may readily be configured to examineimage data 810 at capture time, and to specifically recognize and identify the capture of any image that matches one or more selectable parameters. - Furthermore, in another embodiment,
analysis modules 540 may advantageously access image files 835 that have been processed and stored ontoremovable memory 354.Analysis modules 540 may then automatically categorize the image files 835 by analyzingimage data 810 and responsively generating corresponding category tags 735, in accordance with the present invention. - In
step 965, animage processing module 512 preferably performs a sharpening procedure onimage data 810, and also may perform a variety of other processing options. Then, instep 970, animage processing module 512 preferably decimatesimage data 810. In the preferred embodiment, the decimation process reduces image resolution by decimating the YCC 444 image data to produce YCC 422 or YCC 411 image data - In
step 975, theimage data 810 is preferably compressed into a final image format (preferably JPEG.) Next, instep 980,file formatter 516 preferably formats thecompressed image file 835, and the resultingimage file 835 is finally saved intoremovable memory 354 instep 985. As discussed above,image file 835 thus includes any appropriate category tags whichcamera 110 may then subsequently automatically access to sort selected images, in accordance with the present invention. - The invention has been explained above with reference to a preferred embodiment. Other embodiments will be apparent to those skilled in the art in light of this disclosure. For example, the present invention may readily be implemented using configurations other than those described in the preferred embodiment above. Additionally, the present invention may effectively be used in conjunction with systems other than the one described above as the preferred embodiment. Therefore, these and other variations upon the preferred embodiments are intended to be covered by the present invention, which is limited only by the appended claims.
Claims (42)
Priority Applications (10)
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AU51036/99A AU5103699A (en) | 1998-07-23 | 1999-07-14 | System and method for automatic analysis and categorization of images in an electronic imaging device |
US09/430,235 US6914625B1 (en) | 1998-07-23 | 1999-10-29 | Method and apparatus for managing image categories in a digital camera to enhance performance of a high-capacity image storage media |
US11/156,044 US7567276B2 (en) | 1998-07-23 | 2005-06-17 | Method and apparatus for managing categorized images in a digital camera |
US11/158,658 US7602424B2 (en) | 1998-07-23 | 2005-06-21 | Method and apparatus for automatically categorizing images in a digital camera |
US12/576,702 US8350928B2 (en) | 1998-07-23 | 2009-10-09 | Method and apparatus for automatically categorizing images in a digital camera |
US13/401,462 US8531555B2 (en) | 1998-07-23 | 2012-02-21 | Method and apparatus for automatically categorizing images in a digital camera |
US14/017,087 US8836819B2 (en) | 1998-07-23 | 2013-09-03 | Method and apparatus for automatically categorizing images in a digital camera |
US14/465,572 US9363408B2 (en) | 1998-07-23 | 2014-08-21 | Method and apparatus for automatically categorizing images in a digital camera |
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Also Published As
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US7567276B2 (en) | 2009-07-28 |
AU5103699A (en) | 2000-02-14 |
WO2000005875A1 (en) | 2000-02-03 |
US6914625B1 (en) | 2005-07-05 |
US20050231611A1 (en) | 2005-10-20 |
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