摘要:
A system for asset tracking, comprising a universally accessible property tracking database. The database is based on an organization-property-individual model, and uses automatic close-match searching to match lost and found items. Any type of property can be reported found, registered, and reported lost, and recovered property can be returned to its owner. Embodiments of the system include on-line access that allows a user or organization to register an item, based upon the item's characteristics or an affixed label code. If the item is lost due to accident, theft, or damage, the system can be used to register the lost item and to generate reports and insurance claim information. A user who finds an item may register the item as a found item. When a match is found between a registered lost and registered found item the system may be used to return the item to the proper owner.
摘要:
Systems and methods that automatically compare sets of files to determine what has been copied even when sophisticated techniques for hiding or obscuring the copying have been employed. The file compare system comprises a file compare program that uses various operational data and user interface options to detect illicit copying, highlight and align matching lines, and to produced a formatted report. A discovered translations file is used to match translated tokens. Other operation data files specify rules that the file program then uses to improve its results. The generated report contains statistics and full disclosures of the discovered translations used and the other methods used in creating the exhibits. The system includes a bulk compare program that automatically detects likely file pairings and candidates for validation as suspected translations, which can be used on iterative runs. The user is given full control in the final output and the system automatically reforms the reports and recalculations the statistics for consistent and accurate final presentation.
摘要:
Systems and methods that automatically compare sets of files to determine what has been copied even when sophisticated techniques for hiding or obscuring the copying have been employed. The file compare system comprises a file compare program that uses various operational data and user interface options to detect illicit copying, highlight and align matching lines, and to produced a formatted report. A discovered translations file is used to match translated tokens. Other operation data files specify rules that the file program then uses to improve its results. The generated report contains statistics and full disclosures of the discovered translations used and the other methods used in creating the exhibits. The system includes a bulk compare program that automatically detects likely file pairings and candidates for validation as suspected translations, which can be used on iterative runs. The user is given full control in the final output and the system automatically reforms the reports and recalculations the statistics for consistent and accurate final presentation.
摘要:
Systems and methods that automatically compare sets of files to determine what has been copied even when sophisticated techniques for hiding or obscuring the copying have been employed. The file compare system comprises a file compare program that uses various operational data and user interface options to detect illicit copying, highlight and align matching lines, and to produced a formatted report. A known translations file is used to match translated tokens. Other operation data files specify rules that the file program then used to improve its results. The generated report contains statistics and full disclosures of the known translations used and the other methods used in creating the exhibits. The system includes a bulk compare program that automatically detects likely file pairings and candidates for validation as known translations, which can be used on iterative runs. The user is given full control in the final output and the system automatically reforms the reports and recalculations the statistics for consistent and accurate final presentation.
摘要:
A method of and system for transmitting video images preferably allows a specially trained individual to remotely supervise, instruct, and observe administration of medical tests conducted at remote locations. This system preferably includes a source device, a transmitting device, and at least one remote receiving device. The transmitting device, and the remote receiving device communicate over a network such as any appropriate data network. The transmitting device transmits the video images to the remote receiving device either for live display from the source device or for pre-recorded display from a video recorder device. The remote receiving device is also capable of communicating with the transmitting device while simultaneously receiving video images to provide remote control. The source device is preferably a medical test device such as an ultrasound, a sonogram, an echocardiogram, an angioplastigram, and the like. The transmitting device captures the video images in real-time from the source device and compresses these video images utilizing a compression method prior to transmitting data representing the video images to the remote receiving device. The compressor and compression method preferably utilize data structures comprising line number data structures and the repeat data structures. Remote users utilizing the remote receiving devices are capable of viewing a live stream of video and remotely controlling a number of parameters relating to the source device and the transmitting device. Such parameters include compression method, image quality, storage of the video images on the transmitting device, manipulating and controlling the source device, and the like.
摘要:
A graphical user interface (GUI) graphically corresponds to an image display window through which a single image or a stream of images or video frames are displayed. The GUI includes a zoom control box having an inner region positioned within an outer region. The size of the inner region relative to the outer region represents the magnification of the portion of the image being displayed within the image display window. The magnification of the image being displayed is increased by using a cursor control device to position a cursor within the inner region and clicking the cursor control device. The magnification of the image being displayed is decreased by using the cursor control device to position the cursor outside of the inner region but inside of the outer region and clicking the cursor control device. As the magnification is increased or decreased, the size of the inner region relative to the outer region is changed accordingly. A magnification factor is also displayed within the inner region to display a numeric representation of the current magnification. The position of the inner region within the outer region represents the portion of the entire image being displayed within the image display window. The portion of the image being displayed within the image display window is changed by clicking and dragging the inner region to the desired position within the outer region using the cursor control device.
摘要:
A method of and system for transmitting video images preferably allows a specially trained individual to remotely supervise, instruct, and observe administration of medical tests conducted at remote locations. This system preferably includes a source device, a transmitting device, and at least one remote receiving device. The transmitting device, and the remote receiving device communicate over a network such as any appropriate data network. The transmitting device transmits the video images to the remote receiving device either for live display from the source device or for pre-recorded display from a video recorder device. The remote receiving device is also capable of communicating with the transmitting device while simultaneously receiving video images to provide remote control. The source device is preferably a medical test device such as an ultrasound, a sonogram, an echocardiogram, an angioplastigram, and the like. The transmitting device captures the video images in real-time from the source device and compresses these video images utilizing a compression method prior to transmitting data representing the video images to the remote receiving device. The compressor and compression method preferably utilize data structures comprising line number data structures and the repeat data structures. Remote users utilizing the remote receiving devices are capable of viewing a live stream of video and remotely controlling a number of parameters relating to the source device and the transmitting device. Such parameters include compression method, image quality, storage of the video images on the transmitting device, manipulating and controlling the source device, and the like.
摘要:
A method of and apparatus for transmitting video images preferably allows a specially trained individual to remotely supervise, instruct, and observe administration of medical tests conducted at remote locations. This apparatus preferably includes a source device, a transmitting device, and at least one remote receiving device. Preferably, the transmitting device and the remote receiving device communicate over a network such as the Internet Protocol network. Alternatively, the transmitting device and the receiving device communicate over any appropriate data network. The transmitting device transmits the video images to the remote receiving device either for live display through the source device or for pre-recorded display through a video recorder device. The remote receiving device is also capable of communicating with the transmitting device while simultaneously receiving video images. The source device is preferably a medical test device such as an ultrasound, a sonogram, an echocardiogram, an angioplastigram, and the like. This medical test device preferably generates video images for the transmitting device. The transmitting device captures the video images in real-time from the source device and compresses these video images utilizing a compression algorithm prior to transmitting data representing the video images to the remote receiving device. Remote users utilizing the remote receiving devices are capable of remotely controlling a number of parameters relating to the source device and the transmitting device. Such parameters include image quality, storage of the video images on the transmitting device, manipulating and controlling the source device, and the like.
摘要:
A graphical user interface (GUI) graphically corresponds to an image display window through which a single image or a stream of images or video frames are displayed. The GUI includes a zoom control box having an inner region positioned within an outer region. The size of the inner region relative to the outer region represents the magnification of the portion of the image being displayed within the image display window. The magnification of the image being displayed is increased by using a cursor control device to position a cursor within the inner region and clicking the cursor control device. The magnification of the image being displayed is decreased by using the cursor control device to position the cursor outside of the inner region but inside of the outer region and clicking the cursor control device. As the magnification is increased or decreased, the size of the inner region relative to the outer region is changed accordingly. A magnification factor is also displayed within the inner region to display a numeric representation of the current magnification. The position of the inner region within the outer region represents the portion of the entire image being displayed within the image display window. The portion of the image being displayed within the image display window is changed by clicking and dragging the inner region to the desired position within the outer region using the cursor control device.