Abstract: Various methods and devices are provided for allowing multiple surgical instruments to be inserted into sealing elements of a single surgical access device. The sealing elements can be movable along predefined pathways within the device to allow surgical instruments inserted through the sealing elements to be moved laterally, rotationally, angularly, and vertically relative to a central longitudinal axis of the device for ease of manipulation within a patient's body while maintaining insufflation.

Abstract: A method is provided for processing sensor data associated with a formation. The sensor data is obtained and divided into a plurality of voxels in a three-dimensional environment. Each voxel corresponds to a location in the formation surrounding a wellbore. A selection of a first point in the three-dimensional environment corresponding to a first position along the wellbore is received. A selection of a first two-dimensional shape intersecting the first point is received. A selection of a second point corresponding to a second position different from the first position along the wellbore is received. A three-dimensional volume containing a subset of the plurality of voxels of sensor data is generated. The three-dimensional volume is bound at least by the first point and the first two-dimensional shape at a first end and by the second point at a second end. The generated three-dimensional volume is rendered for output on a display.

Abstract: A method is provided for processing sensor data associated with a formation. The sensor data is obtained and divided into a plurality of voxels in a three-dimensional environment. Each voxel corresponds to a location in the formation surrounding a wellbore. A selection of a first point in the three-dimensional environment corresponding to a first position along the wellbore is received. A selection of a first two-dimensional shape intersecting the first point is received. A selection of a second point corresponding to a second position different from the first position along the wellbore is received. A three-dimensional volume containing a subset of the plurality of voxels of sensor data is generated. The three-dimensional volume is bound at least by the first point and the first two-dimensional shape at a first end and by the second point at a second end. The generated three-dimensional volume is rendered for output on a display.

Abstract: A method is provided for processing resistivity data associated with a formation. The resistivity data relating to the formation proximate to a wellbore is obtained. The resistivity data is divided in to a preconfigured plurality of bins, wherein the resistivity data associated with each bin is measured in the direction or the range of directions corresponding to the bin. A rose diagram is generated for a portion of the resistivity data associated with a measured depth of the wellbore. The rose diagram includes a circle divided into a plurality of sectors, wherein each sector corresponds to a bin. Each sector visually represents the resistivity data relating to the formation in a direction or range of directions from the wellbore corresponding to the bin. The generated rose diagram is rendered for display. The rendered rose diagram displays the resistivity data in a cross-section perpendicular to the wellbore at the corresponding measured depth.

Abstract: The present invention is a system that offers a capability to concentrate light from a large focal point onto a small spot on a detector. The system also offers off-axis capability should the system be moved, poorly pointed, off axis or jostled while in use. As designed, the present invention includes a half-ball lens having a front end and a back end, a compound parabolic concentrator (CPC) having a front end and a back end, wherein the front end of said CPC is adjacent to the back end of the half-ball lens such that the CPC is centered against the back end of the half-ball lens, and a detector, wherein the detector is adjacent to the back end of the CPC.

Abstract: An improved computer-implemented graphic user interface comprising a first platform representing a first level of data organization and having a front surface and a top surface, a second platform representing a second level of data organization within the first level of data organization and having a front surface and a top surface, the second platform stacked on the first platform and scaled relative to the first platform such that the top surface of the second platform is smaller than the top surface of the first platform. The interface may further comprise a third platform representing the second layer of data organization within the first level of data organization and having a front surface and a top surface, the second platform and the third platform stacked on the first platform, and the second platform and the third platform scaled relative to the first platform such that the top surfaces of the second and the third platforms are smaller than the top surface of the first platform.