Abstract: A system and method for diagnosing problems in a medical imaging system. In some implementations, problems with the medical imaging system are determined by encoding information into an image relating to system settings or other data, and using the information to diagnose possible problems with the image and/or the medical imaging system.

Abstract: An adjustable suspended seat apparatus having a tuned frequency-tailored damping through stratified seat structure is described. The damping seat structure includes: a first material of a plurality of materials having a first characteristic to provide a first damping effect in a first layer. A second material of the plurality of materials based on a second characteristic to provide a second damping effect in a second layer, the first material or the second material having an adjustable damping characteristic. The suspended seat apparatus includes a seat base configured to have the seat coupled thereto; a suspension system coupled to the seat base, the suspension system comprising: an adjustment feature configured to adjust operation of the suspension system; and a chassis mount coupled to the suspension system, the chassis mount configured to be coupled to a vehicle.

Abstract: A multi-function cable, and more particularly, a multi-function cable having components permitting its interchangeable use with a variety of modules, the modules including endoscopes, cameras input units and display units. The multi-function cable is capable of receiving inputs from multiple different types of modules having diverse data and signal formats and may generate diverse output signals compatible with differing modules. The multi-function cable is used in a medical operating room.

Abstract: A modular video imaging system, and more particularly, a modular video imaging system having a control module connectable to multiple input modules. The input modules each capable of receiving differing types of image data from different types of cameras and processing the image data into a format recognizable by the control module. The control unit providing general functions such as user interface and general image processing that is not camera specific.

Abstract: A modular video imaging system, and more particularly, a modular video imaging system having a control module connectable to multiple input modules. The input modules each capable of receiving differing types of image data from different types of cameras and processing the image data into a format recognizable by the control module. The control unit providing general functions such as user interface and general image processing that is not camera specific.

Abstract: An example method of generating three-dimensional objects based on two-dimensional images of at least part of the object may include: receiving, from a mobile computing device, a notification indicating that a plurality of images depicting an object have been uploaded to a first storage location; transmitting, to a rendering application, a rendering request specifying the first storage location; receiving, from the rendering application, a rendering response indicating that a polygonal mesh representing the images of the object has been stored at a second storage location; transmitting, to an interactive video gaming device, a notification of comprising an identifier of the third second storage location; and making a file comprising the polygonal mesh available for download by the interactive video gaming device.

Abstract: An example method of generating three-dimensional objects based on two-dimensional images of at least part of the object may include receiving a rendering transaction request. The method may further include transmitting, to the requestor, a rendering transaction response identifying a first storage location. The method may further include receiving, from the requestor, a notification indicating that images depicting an object have been uploaded to the first storage location. The method may further include transmitting, to a rendering application, a rendering request. The method may further include receiving, from the rendering application, a rendering response indicating that a polygonal mesh representing the images has been stored at a second storage location. The method may further include producing, using the polygonal mesh, a preview image and storing the preview image at a third storage location.

Abstract: An example method of generating three-dimensional objects based on two-dimensional images of at least part of the object may include receiving a rendering transaction request. The method may further include transmitting, to the requestor, a rendering transaction response identifying a first storage location. The method may further include receiving, from the requestor, a notification indicating that images depicting an object have been uploaded to the first storage location. The method may further include transmitting, to a rendering application, a rendering request. The method may further include receiving, from the rendering application, a rendering response indicating that a polygonal mesh representing the images has been stored at a second storage location. The method may further include producing, using the polygonal mesh, a preview image and storing the preview image at a third storage location.

Abstract: In a first exemplary embodiment of the present invention, an automated, computerized method is provided for processing an image. According to a feature of the present invention, the method comprises the steps of, at a computer system, receiving an image recorded at and transmitted from a remote source, at the computer system, processing the transmitted image, for segregation of the transmitted image into a corresponding intrinsic image and, at the computer system, processing the corresponding intrinsic image to perform a preselected task, for a result. As a further feature of the first exemplary embodiment of the present invention, the remote source comprises a cell phone or remote computer system.

Abstract: A toilet seat covering device includes a panel of flexible, water impermeable material having a top side, a bottom side and a perimeter edge. The perimeter edge includes a rear edge, a front edge, a first lateral edge and a second lateral edge. The panel has an aperture extending through the top and bottom sides having a size and shape to be aligned with an opening in a toilet seat. The aperture is positioned nearer to the rear edge than the front edge. A distance from the front edge to the aperture is greater than 12.0 inches. The panel has a perforated line therein extending between the first and second lateral edges. The perforated line is positioned between the aperture and the front edge to facilitate removal of an end portion of the panel to define a mat.

Abstract: A system for capturing image data including a control module having a control switch and a processor, the processor being adapted for white balance control and the control switch being adapted to initiate white balance control, at least one input module connected to the control module, the input module providing white balance calibration, and at least one camera coupled to the input module. One or more of the at least one input module are configured as active input modules, each active input module having an active camera generating an image signal. The control module detects the one or more active input modules and controls one of the one or more active input modules, selected based on user feedback, to calibrate white balance of the image signal of the active camera coupled to the selected input module and to transmit the calibrated image signal to the control module for display.

Abstract: A video imaging system, and more particularly, a modular video imaging system having a control module connectable to multiple input modules. The input modules each capable of receiving differing types of image data from different types of cameras including stereoscopic camera configurations and processing the image data into a format recognizable by the control module. The control unit providing general functions such as user interface and general image processing that is not camera specific including the generation of a 3D image stream formed by combining two image streams.

Abstract: An endoscopic video system with still image capture stabilization, including a processor, an image capture device capturing a plurality of still images at a time interval, an image buffer temporarily storing a portion of the still images, and software executing on the processor for retrieving, upon receiving an image capture instruction, a first one of the still images from the image buffer, the first one of the still images representative of a still image captured a first length of time prior to the image capture instruction.

Abstract: Still image display of a recent video image of tissue as a reference still image prior to a switch in the mode of illumination of the tissue. The still image is displayed concurrently with live video of the tissue under a different mode of illumination, to facilitate discrimination between healthy and diseased tissue, and further facilitate therapeutic intervention. The reference still image may be displayed either as an insert (picture-in-picture), side-by-side, or the like concurrently with the live video image. In some embodiments, when a practitioner switches a light source from “excitation-light” to “white light”, the “excitation-light” video may be frozen/captured and displayed as a reference still image as a PIP, and the “white-light” live video is displayed concurrently. When the source is switched again, the “white-light” video may be frozen/captured and displayed as a reference still image, and the “excitation-light” live video is displayed concurrently.

Abstract: Still image display of a recent video image of tissue as a reference still image prior to a switch in the mode of illumination of the tissue. The still image is displayed concurrently with live video of the tissue under a different mode of illumination, to facilitate discrimination between healthy and diseased tissue. When a practitioner switches a light source from a “first light” to a “second light”, the second light video may be frozen/captured and displayed as a reference still image as a PIP, and the second light live video is displayed concurrently. The second light can be infrared and/or near infrared light. The second light can include structured light to project a structured light pattern to facilitate structure measurements. The second light source is configured with a numerical aperture greater than the first light source.

Abstract: A multi-function high definition (HD) cable, and more particularly, a multi-function cable having components permitting its interchangeable use with a variety of modules, the modules including endoscopes, cameras input units and display units. The multi-function cable is capable of receiving inputs from multiple different types of modules having diverse data and signal formats and may generate diverse output signals compatible with differing modules. The multi-function cable is used in a medical operating room.

Abstract: An automated, computerized method is provided for processing an image. The method includes the steps of providing an image file depicting an image, in a computer memory, performing an image segregation operation on the image file to generate a set of intrinsic images corresponding to the image, modifying a preselected one of the set of intrinsic images according to a set of preselected operations and merging the modified one of the set of intrinsic images relative to the set of intrinsic images to provide a modified output image.

Abstract: A system and method for diagnosing problems in a medical imaging system. In some implementations, problems with the medical imaging system are determined by encoding information into an image relating to system settings or other data, and using the information to diagnose possible problems with the image and/or the medical imaging system.

Abstract: An automated, computerized method is provided for processing an image. The method includes the steps of providing an image file depicting an image, in a computer memory, performing an image segregation operation on the image file to generate a set of intrinsic images corresponding to the image, modifying a preselected one of the set of intrinsic images according to a set of preselected operations and merging the modified one of the set of intrinsic images relative to the set of intrinsic images to provide a modified output image.

Abstract: A multi-function cable, and more particularly, a multi-function cable having components permitting its interchangeable use with a variety of modules, the modules including endoscopes, cameras input units and display units. The multi-function cable is capable of receiving inputs from multiple different types of modules having diverse data and signal formats and may generate diverse output signals compatible with differing modules. The multi-function cable is used in a medical operating room.