Abstract: A medical imaging system capable of acquiring medical imaging data of a patient includes a console coupled to the system, the console comprising a computer programmed to enable a first user to perform a first task on the system via the console, and enable a second user to perform a second task simultaneously with the first task via a remote device.

Abstract: A medical imaging system capable of acquiring medical imaging data of a patient includes a console coupled to the system, the console comprising a computer programmed to enable a first user to perform a first task on the system via the console, and enable a second user to perform a second task simultaneously with the first task via a remote device.

Abstract: A medical imaging system capable of acquiring medical imaging data of a patient includes a console coupled to the system, the console comprising a computer programmed to enable a first user to perform a first task on the system via the console, and enable a second user to perform a second task simultaneously with the first task via a remote device.

Abstract: A modular control system including a plurality of individual touch screen devices, each touch screen device including a display unit, a touch input, a computing device, a network connection, and a programming logic for controlling a remote system and displaying a status of the remote system on the touch screen device, the remote system having network connectivity to enable the remote system to exchange information with and respond to instructions from the touch screen devices, the touch screen devices configured for automatic self-synchronization based on a status of the remote system or a status of at least one of the touch screen devices.

Abstract: A modular control system including a plurality of individual touch screen devices, each touch screen device including a display unit, a touch input, a computing device, a network connection, and a programming logic for controlling a remote system and displaying a status of the remote system on the touch screen device, the remote system having network connectivity to enable the remote system to exchange information with and respond to instructions from the touch screen devices, the touch screen devices configured for automatic self-synchronization based on a status of the remote system or a status of at least one of the touch screen devices.

Abstract: A technique for selecting portions of a multi-resolution medical image data set to be stored and the portions of the multi-resolution medical image data set to be discarded in order to reduce the overall amount of image data that is stored for each image data set. The selection is based on the clinical purpose for obtaining the medical image data. The clinical purpose for obtaining the medical image is used to select a segmentation algorithm to segment the image data into several regions based on their relevance to the purpose for obtaining the image data. A mask is created from the segmented data. The mask is used to assign data compression quality factors to corresponding regions in the image data. The image data in each region is compressed based on their assigned quality factor. The image data that is highly relevant is compressed with lossless data compression. The image data in regions of lesser relevance are compressed with lossy data compression.

Abstract: A system and method includes transmission of a request over a wireless network for a first image having a first resolution from a server coupled to a medical image database, display of the first image on a GUI of a personal device, receipt of a command to modify the first image, and transmission of a request over the network to the server to generate a transient image responsive to the command, the transient image having a second resolution lower than the first resolution. The system also includes display of the transient image on the GUI and comparison of an inactive period with a threshold. If the inactive period exceeds the threshold, the system includes transmission of a request over the network to the server to generate a second image and display the second image on the GUI, the second image corresponding to the transient image and having the first resolution.

Abstract: A medical imaging system capable of acquiring medical imaging data of a patient includes a console coupled to the system, the console comprising a computer programmed to enable a first user to perform a first task on the system via the console, and enable a second user to perform a second task simultaneously with the first task via a remote device.

Abstract: A technique for selecting portions of a multi-resolution medical image data set to be stored and the portions of the multi-resolution medical image data set to be discarded in order to reduce the overall amount of image data that is stored for each image data set. The selection is based on the clinical purpose for obtaining the medical image data. The clinical purpose for obtaining the medical image is used to select a segmentation algorithm to segment the image data into several regions based on their relevance to the purpose for obtaining the image data. A mask is created from the segmented data. The mask is used to assign data compression quality factors to corresponding regions in the image data. The image data in each region is compressed based on their assigned quality factor. The image data that is highly relevant is compressed with lossless data compression. The image data in regions of lesser relevance are compressed with lossy data compression.

Abstract: An application programming interface (API) for enabling a business layer of a tiered DICOM application to talk to different implementations of a data management layer. The invention has particular application in a PACS view station. In particular, the invention is directed to an API that forms the seam between a business layer that requests DICOM service by synchronous messaging and a data management layer that passes on those requests to the service provider by asynchronous messaging. Thus, an application developer need not write code for the business layer that accounts for the DICOM callback mechanism, which confirms completion of a requested DICOM service. Instead the data management implementation, which is hidden from the user, handles the callback mechanism so that responses to requests for DICOM service appear instantaneous to the user.

Abstract: A programmable, medical imaging system which incorporates algorithms for enhancing the usability of the system for clinicians is described. With respect to programmability, and in one aspect, the present invention relates to a programmable system which includes a learn mode usable for script generation. In the learn mode, a user can rehearse a sequence of actions and save those actions to be replayed later. In another aspect, the present invention is directed to an algorithm which provides a non-blocking, synchronous interface to an underlying asynchronous architecture. Generally, the algorithm decouples the client-server portion of the application from the synchronous development environment. Using this algorithm, a programmer can develop a non-blocking, highly interactive, client-server application without having to resort to asynchronous programming techniques.

Abstract: A programmable, medical imaging system which incorporates algorithms for enhancing the usability of the system for clinicians is described. With respect to programmability, and in one aspect, the present invention relates to a programmable system which includes a learn mode usable for script generation. In the learn mode, a user can rehearse a sequence of actions and save those actions to be replayed later. In another aspect, the present invention is directed to an algorithm which provides a non-blocking, synchronous interface to an underlying asynchronous architecture. Generally, the algorithm decouples the client-server portion of the application from the synchronous development environment. Using this algorithm, a programmer can develop a non-blocking, highly interactive, client-server application without having to resort to asynchronous programming techniques.