59results about How to "Region can be great" patented technology

The invention relates to an anchoring element for securing a rod of a device for adjusting a human or animal vertebral column on a vertebra, comprising a retaining means (10) for receiving the rod, a safety element (26) placed on the retaining means and working against the rod, a securing element (14) which can be placed on the body of the vertebra, and a clamping device (12) which is arranged between the retaining means (10) and the securing element (14), comprising a ring-shaped mount (32), a partially conical-segment shaped bearing (28) and an intermediate element (30) which is embedded in the mount (32) and which engages the bearing, whereby the mounting (32) is moveable in a removed state in relation to the bearing (28), whereas the mount (32) is maintained in a clamped state on the bearing (28) by means of the intermediate element (30). The mount (32) is rigidly connected to the retaining means (10) and the bearing (28) is rigidly connected to the securing element (14). In order to enable said type of anchoring element, despite the fact that it is displaceably retained, to transmit relatively large amounts of force from the rod to the body of the vertebra without causing slipping, the bearing (28) comprises flat guiding surfaces (38, 40) which are formed laterally on two opposite sides (34, 36), and the intermediate element (30) is provided with corresponding counter surfaces (50, 52).

Stent delivery under direct visualization utilizing an imaging hood is described herein. A stent may be delivered and placed in or around lesions, e.g., ostial lesions, through a delivery catheter while being directly visualized via an imaging hood. A pre-delivery assessment probe may also be advanced to the desired site for accurate placement of the stent.

The present invention provides a novel method of contoured-anatomy dose repositioning (CADR) as a means to automatically reposition a patient to better recover the planned dose distribution without reoptimize the treatment plan. Specifically, CADR utilizes planning CT images, the planned dose distribution, and on-line images for repositioning dose distribution on a given day. Contours are also placed upon the images using manual, automatic, template-based, or other techniques. CADR then optimizes the rigid-body repositioning of the patient so that the daily dose distribution closely matches the planned dose distribution. The present invention also provides a method of multiple-margin optimization with daily selection (MMODS) to improve radiation delivery without reoptimization. During the initial optimization procedure, plans are optimized for several margins of various contours (e.g., tight, medium, loose, etc.), or with different objectives (e.g., aggressive treatment, sensitive structure sparing, etc.). Similarly, if multiple patient image sets are available, plans can be optimized for the different anatomical layouts, either using current information, or accumulated information regarding the superposition of organ locations in the combination of images. A user can then choose in real time from a variety of optimized plans, generally with different margins, during the treatment process, and thereby compensate for a recognized change in size or position of the tumor or neighboring tissue.

A method for automatic identification of a hair region is provided wherein edges are identified from an original image including a face and hair, the direction and length of the lines which form each individual edge are stored, line bundles in which lines of the same direction are gathered are searched, the color of the line bundles is established to be the hair color, line tracing is performed to identify lines which connect to line bundles and also have afore-mentioned hair color, and the pixels on the identified lines are established to be the hair region. A hair color simulation image is formed by changing the hair region, automatically identified in this manner, to a specified hair color.

An object of the present invention is to provide a solid oxide fuel cell assembled with an internal reforming mechanism stable and efficient over a long period. To achieve the object, in the present invention, a fuel-electrode layer 3 and an air-electrode layer 4 are disposed on both surfaces of a solid electrolyte layer 2; a fuel-electrode-side porous metal 6 and an air-electrode-side porous metal 7 are disposed on the outer surfaces of the fuel-electrode layer 3 and the air-electrode layer 4, respectively; and a separator 8 is disposed on each of the outer surfaces of the fuel-electrode-side porous metal 6 and the air-electrode-side porous metal 7. Then, the solid oxide fuel cell is constructed by closely adhering them all. The pores 6a in the fuel-electrode-side porous metal 6 is partially or fully filled with a hydrocarbon reforming catalyst 10, and reforming reaction is driven by the reforming catalyst 10 before a fuel gas reaches the fuel-electrode layer 3.

An optical microscope is provided with an adjustable optical phase ring. The adjustable ring provides a way to compensate for distortion in the visible phase ring before the light reaches the sample. In an inverted microscope, when observing transparent cells under a liquid, the visible light phase ring is distorted. By the use of a Liquid Crystal Display (LCD) in place of a fixed ring, the projected ring is adjusted to realign the light and produce phase. In a typical micro plate, the meniscus formed produces a lens effect that is realigned by providing changes in the position and pattern, to allow phase imaging over a wider portion of the well. The realignment of the ring can be manual or automated and can be dynamically adjusted based upon an observed image of the sample.

A method for gathering information relating to at least one object positioned on a patient positioning device of a medical imaging device is provided. The method includes the following steps:

• • gathering by optical means of 3-D image data relating to the object positioned on the patient positioning device by means of a 3-D image data recording unit,
  • transferring the gathered 3-D image data from the 3-D image data recording unit to an evaluating unit,
  • determining information relating to the object positioned on the patient positioning device based on the 3-D image data by means of the evaluating unit,
  • generating output information based on the determined information relating to the object positioned on the patient positioning device, and
  • outputting the output information relating to the object positioned on the patient positioning device.

A personal care article (20) has a longitudinal-direction (22); a relatively shorter, lateral cross-direction (24); a first end-edge (74); a longitudinally-opposed second end-edge (78); a first side-edge (62); and a laterally-opposed second side-edge (64). The article includes a liquid-permeable topsheet layer (26), and a backsheet layer (28) operatively connected in facing relation with the topsheet layer. A first end-notch (80) is formed to extend inward from the first end-edge (74), and a second end-notch (82) is formed to extend inward from the second end-edge (78). In a particular aspect, at least a first, end-line of bending weakness (88) extends from an inboard, apex end region of the first end-notch (80). In other aspects, a first side-notch (66) can be formed to extend inward from the first side-edge (62), and a second side-notch (70) can be formed to extend inward from the second side-edge (64).

An imprint apparatus includes a dispenser, a detector configured to detect an alignment mark located on a pattern surface of a template, and a controller. The pattern surface includes a first region including a pattern corresponding to the resin pattern, and a second region including the alignment mark, and is formed such that a second time when a recess in the second region is filled with the uncured resin is later than a first time when a recess in the first region is filled with the uncured resin. The controller causes the dispenser to dispense, on the substrate, the uncured resin that has an amount such that the recesses in the first and second regions are filled with the uncured resin and causes the detector to detect the alignment mark between the first time and the second time.

Pliers for pressing work pieces such as mountings, electric contacts, cable lugs and fittings include a first hand lever and a second hand lever. The hand levers are movable with respect to one another. The pliers also include a head and at least two pressing jaws being located in the region of the pliers head and approaching one another during a working stroke of the pressing pliers to press a work piece. The working stroke includes a first partial stroke and a second partial stroke. The pliers also include a first transfer mechanism and second transfer mechanism.

The invention relates to a radar sensor (10) for use with automobiles. Said radar sensor emits pulsed radiation. The radar sensor is characterized in that it comprises an antenna with at least one layer-structured block (34) consisting of metal layers (36, 38, 40, 42) which are arranged according to the Yagi principle and which are respectively separated from each other by a dielectric intermediary layer (46, 48, 50). At least one of the metal layers (36, 38, 40, 42) is excited by a supply system (18) with a radar frequency.

A whiteboard view camera, which in one embodiment is mounted on a boom, which is fixed above the whiteboard. However, the whiteboard view camera can also be wall or table mounted. The whiteboard view camera differs from an ordinary camera by allowing the lens to tilt with respect to the sensor plane, and shift with respect to the central ray. When the tilt angle α is zero, then the resolution of whiteboard is uniform (e.g., the top and bottom of the whiteboard have the same resolution). In addition, the focus plane is equal to the whiteboard plane, so depth of field issues are not a problem (e.g., a large aperture can be used). Hence, no image noise is introduced. A key contribution of the whiteboard view camera configuration according to the invention is the use of a view camera to capture whiteboard images at uniform resolutions. One embodiment of the whiteboard view camera employs a microphone array of the invention and uses a computer to optimize the image data and audio signals.

An actinium-227 production device having a plurality of metallic or ceramic caplets, each enclosing a radium-226 compound in redundantly nested sealed cylinders. The radium-226 compound is compacted into a disk and diluted with heat transporting ceramic materials. A thermal neutron shield including spectrum shaping materials to protect actinium-227 produced from exposure to thermal neutrons is included along with a strong neutron absorber to shape the neutron spectrum such that radium-226 nuclei are exposed to neutrons in the higher epithermal energy groups upon entry into the target with an energy of between 20 eV and 1 KeV.

System and method for progressive stereo matching of digital images representing a scene. In general, the progressive stereo matching system includes an initialization module, that obtains a set of previous unambiguous matches of pixels within the digital images, and a search range module, that determines a search range in the first and second digital images to look for a candidate pixel match. The progressive stereo matching system also includes a correlation module, that computes a correlation score between the candidate pixel match, and a classification module, that classifies the pixel match based on its correlation score.

A locating device, in particular a hand locating apparatus, comprises a locating unit which has at least one antenna. The antenna is of planar construction.

A solid-state imaging device including: a semiconductor substrate of a first conductivity type, having a fixed electric potential; a dark-current drain region of a second conductivity type, formed on a portion of the semiconductor substrate; a connection region of the first conductivity type, formed on another portion of the semiconductor substrate where the dark-current drain region is not formed; a well region of the first conductivity type, covering the dark-current drain region and the connection region; and a first region and a second region, formed within the well region and constituting a part of a read transistor that reads signal charge generated by photoelectric conversion. The well region is maintained at a fixed electric potential by being connected to the semiconductor substrate via the connection region.

Composite nanoparticles can be produced by a processing apparatus comprising a source of charged, moving nanoparticles or a first material and a first size, apparatus for imposing a like potential in a region lying in the path of the nanoparticles, and a physical vapour deposition source of a second material directed toward the region, thereby to produce nanoparticles of a second and greater size being a composite of the first and second materials. The apparatus for imposing a like potential can comprise one or more conductive rings surrounding the path of the nanoparticles, each at a successively lower potential. The physical vapour deposition source can be one or more of a sputter target, or an evaporative source, or another PVD source. There can be a plurality of physical vapour deposition sources, thereby allowing a larger region in which the shell is deposited. All of the physical vapour deposition sources can deposit the same material, for a uniform shell. Alternatively, different sources could allow for multiple shells or alloy shells.

Method and a system for correlating pixels between two digital images. In general, the present invention uses a progressive iterative technique that finds generally unambiguous pixel matches by beginning with a few reliable pixel matches and finding progressively more unambiguous pixel matches. Unambiguous pixel matches in the current iteration then are found using the correlation technique and based on a correlation score associated with a pixel match. The search range is capable of being rotated, and is part of a novel correlation technique of the present invention that provides a more robust estimate of pixel match reliability. Potential pixel matches found in the search ranges are tested for ambiguity and any unambiguous matches are selected and added to the set of reliable pixel matches. The ambiguity testing includes determining a correlation score for the pixel match and classifying the match based on the correlation score.

A method of fabricating a semiconductor device having a silicon layer disposed on an insulating film. Oxygen ions are implanted into selected parts of the silicon layer, which are then oxidized to form isolation regions dividing the silicon layer into a plurality of mutually isolated active regions. As the oxidation process does not create steep vertical discontinuities, fine patterns can be formed easily on the combined surface of the active and isolation regions. The implanted oxygen ions cause oxidation to proceed quickly, finishing before a pronounced bird's beak is formed. The isolation regions themselves can therefore be narrow and finely patterned.