Abstract: Systems, apparatus, interfaces, methods, and articles of manufacture that provide for product configuration.

Abstract: One or more techniques and/or systems described herein provide for examining an object (e.g., a tumor in a patient) and subsequently treating the object. The examination and treatment generally occur very close to one another in time, with the patient remaining on a support article (e.g., on a bed or in a chair) during both the examination and the treatment. In this way, a position of the tumor and/or orientation of the tumor relative to the patient is substantially fixed during both the examination and the treatment. In one embodiment, a support article is configured to rotate during the examination and/or treatment. In this way, the object can be examined (e.g., and volumetric data related to the object can be acquired) and/or treated without moving portions of the imaging and/or treatment apparatus, for example.

Abstract: A fluid delivery system for use with an endoscope. Certain embodiments of the invention include a single, large fluid source and pump installed upon an operator console, in combination with a small fluid reservoir and pump installed within a proximal connector of the imaging endoscope, multiple fluid sources that feed a common fluid channel that are pressurized by a common pump, multiple fluid sources that feed dedicated fluid channels that are pressurized by dedicated pumps, and a small fluid reservoir and pump installed within a handheld manual controller of the imaging endoscope. The fluid delivery endoscopic systems of the present invention provide the user with the flexibility of changing fluids either in advance of a procedure or on-the-fly as needed, instead of relying on fixed fluid sources only.

Abstract: An apparatus includes an ultrasound portion configured to acquire an image of a region of interest of a subject. The apparatus further includes an instrument carrying portion configured to carry and employ an instrument to perform a procedure at the region of interest based on the image. The ultrasound and instrument carrying portions are enclosed in the same enclosure. The apparatus, including both the ultrasound portion and instrument carrying portion, is configured to be transported and operated via at least a single hand of a user of the apparatus.

Abstract: One or more techniques and/or systems are described herein for cleaning a portion of a radiographic examination apparatus whereon debris may accumulate. Typically, the portion being cleaned is within a scanning field of the radiographic examination device (e.g., within a portion of the radiographic examination device through which radiation traverses). Activation of a cleaning mechanism, or a portion thereof, may be timed to miss radiation emitted during a scan, and thus not interfere with a scan. Also, the cleaning mechanism, or a portion thereof, may be located so as to not attenuate radiation. If radiation is attenuated by the cleaning mechanism corrective techniques can be implemented to account for such attenuation.

Abstract: Systems, apparatus, methods, and articles of manufacture that provide for outputting and utilization of risk zone information are provided. In some embodiments, risk zone information may be utilized to select, price, and/or manage an insurance policy.

Abstract: Business insurance clients select parameters and/or preferences for monitoring in vehicle fleets using one or more telematics devices. The parameters and/or preferences may comprise an operating characteristic associated with fleet vehicles associated with a business insurance product. Selection and measurement of parameters and/or preferences may result in lower insurance premiums. In one embodiment, an apparatus causes, based on a user selection of at least one of a plurality of menu-selectable options, a remotely programmable memory of at least one monitoring device to store an indication of the monitoring parameters and/or preferences represented by the user selection.

Abstract: A fluid delivery system for use with an endoscope. Certain embodiments of the invention include a single, large fluid source and pump installed upon an operator console, in combination with a small fluid reservoir and pump installed within a proximal connector of the imaging endoscope, multiple fluid sources that feed a common fluid channel that are pressurized by a common pump, multiple fluid sources that feed dedicated fluid channels that are pressurized by dedicated pumps, and a small fluid reservoir and pump installed within a handheld manual controller of the imaging endoscope. The fluid delivery endoscopic systems of the present invention provide the user with the flexibility of changing fluids either in advance of a procedure or on-the-fly as needed, instead of relying on fixed fluid sources only.

Abstract: A hybrid MRI-particle-based therapy system can include as components both a particle radiation therapy system configured to apply a charged particle beam to a region of application in a predetermined direction and also a MRI system including a magnetic field generator for generating a magnetic field in an imaging volume which includes the region of application at the same time that the charged particle beam is applied. The MRI system can be configured with two torroidal magnets or a magnet having apertures to provide access to the region of application for the charged particle beam, and to provide a homogeneous magnetic field in the region of application of the charged particle beam. The particle beam can be positioned to pass through a relatively low-strength portion of the main magnetic B0 field of the MRI system. Related methods of image-guided therapy are also provided by embodiments of the present disclosure.

Abstract: Systems, methods, and products made by a deposition process are shown and described. A work piece is supported in a main deposition chamber so that the work piece is positioned above each container of deposition material as the container is moved into and out of the deposition chamber. One or more containers are sequentially moved from each of a plurality of auxiliary chambers into and out of the deposition chamber so as to deposit material from each of the containers onto the work piece in a sequential manner.

Abstract: An operation room may comprise both an object scanning apparatus for examining an object using x-ray radiation and an irradiation component for treating an object using particle radiation. A support article upon which the object may reside during (both) the examination and treatment may be configured to rotate about an axis substantially perpendicular to a plane through which x-ray radiation travels, may be configured to tilt with respect to the axis, and/or may be configured to yaw with respect to the axis. In this way, the relative orientation of the support article and the object remain substantially constant during the examination and treatment to facilitate treating a desired area of the object.

Abstract: A package that resists creation of particles in a package cavity. A package according to one embodiment of the present invention contains a mechanical device attached to the floor of the package substrate. Epoxy typically is used to attach the device. Electrical connections are provided by bond wires connecting bond pads on the substrate with bond pads on the device. A window is attached to the substrate to form a cavity around the device. A thin masking layer on portions of the package cavity surface prevents the surface from generating particles. The thin masking layer may be any material that resists particle generation. The masking layer on the cavity walls optionally extends out of the cavity and onto the upper surface of the package.

Abstract: A process and system for managing business, technical and operational data uses a single interface in a shared space environment over the Internet, including a common authentication and environment. A supplier portal creates a central repository for registration process information, company information, and user information, making this information available to all applications that open into the supplier portal.

Abstract: A method and mechanism for cooling a display device, having an extremely bright light focused on its surface and is mounted inside a closed chassis, by conducting heat from the device directly to the chassis walls, where the heat is then transferred to the lower temperature air of the ambient surroundings. The mechanism uses an adjustable mechanical linkage to close the gap and make a good thermal contact between the projection device package or heat sink stud and the chassis wall. This approach reduces the requirements for large heat sinks and noisy cooling fans found in many conventional projection systems.

Abstract: A package that resists creation of particles in a package cavity. A package according to one embodiment of the present invention contains a mechanical device attached to the floor of the package substrate. Epoxy typically is used to attach the device. Electrical connections are provided by bond wires connecting bond pads on the substrate with bond pads on the device. A window is attached to the substrate to form a cavity around the device. A thin masking layer on portions of the package cavity surface prevents the surface from generating particles. The thin masking layer may be any material that resists particle generation. The masking layer on the cavity walls optionally extends out of the cavity and onto the upper surface of the package.

Abstract: A method and mechanism for cooling a display device 200, having an extremely bright light focused on its surface and is mounted inside a closed chassis, by conducting heat 220 from the device directly to the chassis walls 212, where the heat is then transferred 222 to the lower temperature air of the ambient surroundings. The mechanism uses an adjustable mechanical linkage 208 to close the gap 214 and make a good thermal contact between the projection device package 200 or heat sink stud 206 and the chassis wall 212. This approach reduces the requirements for large heat sinks and noisy cooling fans found in many conventional projection systems.

Abstract: A package that resists creation of particles in a package cavity. The package is ideally suited for use with microelectromechanical devices. A package according to one embodiment of the present invention contains a mechanical device (302), for example a micromirror device, attached to the floor (304) of the package substrate (306). Epoxy (308) typically is used to attach the device (302). Electrical connections are provided by bond wires (310) connecting bond pads (312) on the substrate (306) with bond pads on the device (302). A window (314) is attached to the substrate (306) to form a cavity (316) around the device. A thin masking layer (318) on portions of the package cavity surface prevents the surface from generating particles. The thin masking layer (318) may be any material that resists particle generation. Malleable metals are ideal.

Abstract: A process and system for managing business, technical and operational data uses a single interface in a shared space environment over the Internet, including a common authentication and environment. A supplier portal creates a central repository for registration process information, company information, and user information, making this information available to all applications that open into the supplier portal.

Abstract: A coating composition comprising a glue, a particulate material and a solvent, which imparts a surface microstructure to a coated object (29) is disclosed. The particulate material projects above the glue line (28) of the coated object creating the microstructure which provides boiling heat transfer enhancement. A horizontally oriented, rectangular surface immersed in FC-72, indicates up to an 85% decrease in incipient superheat, a 70% to 80% reduction in nucleate boiling superheats, and a .about.109% increase in the critical heat flux (CHF), beyond that of the non-painted surface. The enhanced surface heat transfer coefficients are four to nine times higher than those from the reference surface. The coatings are applicable to electronic component surfaces. A coated silicon test chip tested at subcooled (45.degree. C. conditions using FC-72 had heat dissipation rates of .about.100 W/cm.sup.2 at junction temperatures of .about.85.degree. C., and the highest CHF observed was 159 W/cm.sup.

Abstract: During ion implantation, beam heating of the substrates must be reduced to eliminate self-annealing of the wafers during implant and to eliminate damager to masking materials, principally photoresist, that is mounted on the surface of the wafers. In this work, we describe a technique which may be used with both single-wafer and batch ion implantation systems to reduce transient wafer temperatures during implant.