Abstract: Described herein are systems and methods for hybrid denture fabrication. The systems and methods improve the efficiency of the fabrication process for both the dental service provider (e.g., dentist, dental surgeon, etc.) and the patient. A permanent hybrid prosthesis (e.g., the bridge and its reinforcing bar) can be fabricated within 24 hours of the surgical procedure using the systems and methods described herein. This makes it possible to deliverer the permanent hybrid prosthesis within 48 hours (or even within 24 hours) of the surgical procedure. Additionally, the system and methods eliminate the need to provide the patient with a temporary denture following the surgery. Further, the systems and methods substantially reduce the patients chair-time and/or the number of patient visits.

Abstract: A deployable vehicle rear wing conforms closely to the styled surface of the vehicle body in a retracted, or stowed, position while adaptively changing its cross section in a deployed position so as to provide a highly efficient airfoil section, with an integrated Gurney flap. Additionally, the adaptive cross section changes and Gurney flap deployment is provided via a linkage that utilizes a drive mechanism of a main deployment system.

Abstract: A method and system for providing a seamless transition between applications is disclosed. The system includes a framework which includes an application manager for managing operations of the system, a component retriever in communications with the application manager for retrieving components associated with the applications, a data retriever in communications with the application manager for retrieving data associated with the applications, a memory for storing the retrieved components or data, and a service group including one or more services associated with applications.

Abstract: Bead removal apparatus and methods of separating beads from glass sheets with glass engaging units are disclosed. The bead removal apparatus includes a forming body from which a continuous glass ribbon is drawn in a draw direction and a bead removal station adjacent to and laterally offset from the forming body. The bead removal station includes a heating element configured to heat a desired line of bead separation of a glass sheet to a temperature within a range of about 400° C. to about 600° C., and a crack initiation device configured to initiate a crack in the glass sheet at the desired line of bead separation. The bead removal apparatus further includes a glass engaging unit configured to move the glass sheet from the continuous glass ribbon to the bead removal station.

Abstract: Flow measurement inserts replace standard orifice plates within single or dual-chamber orifice fittings. Flow measurement inserts are described which have insert bodies are shaped and sized to reside within the flow bore insert chamber of standard orifice fittings. An exemplary flow measurement insert includes an insert body with an opening formed therein which will align with the flow bore of the orifice fitting when the flow measurement insert is disposed within the chamber.

Abstract: A deployable vehicle rear wing conforms closely to the styled surface of the vehicle body in a retracted, or stowed, position while adaptively changing its cross section in a deployed position so as to provide a highly efficient airfoil section, with an integrated Gurney flap. Additionally, the adaptive cross section changes and Gurney flap deployment is provided via a linkage that utilizes a drive mechanism of a main deployment system.

Abstract: Disclosed herein are examples of ladar systems and methods where data about a plurality of ladar returns from prior ladar pulse shots gets stored in a spatial index that associates ladar return data with corresponding locations in a coordinate space to which the ladar return data pertain. This spatial index can then be accessed by a processor to retrieve ladar return data for locations in the coordinate space that are near a range point to be targeted by the ladar system with a new ladar pulse shot. This nearby prior ladar return data can then be analyzed by the ladar system to help define a control parameter for use by the ladar receiver with respect to the new ladar pulse shot.

Abstract: Disclosed herein are examples of ladar systems and methods where data about a plurality of ladar returns from prior ladar pulse shots gets stored in a spatial index that associates ladar return data with corresponding locations in a coordinate space to which the ladar return data pertain. This spatial index can then be accessed by a processor to retrieve ladar return data for locations in the coordinate space that are near a range point to be targeted by the ladar system with a new ladar pulse shot. This nearby prior ladar return data can then be analyzed by the ladar system to help define a shot energy for use by the ladar system with respect to the new ladar pulse shot.

Abstract: Systems and methods are disclosed where a ladar system synthetically fills a ladar frame. A ladar transmitter can employ compressive sensing to interrogate a subset of range points in a field of view. Returns from this subset of range points correspond to a sparse ladar frame, and interpolation can be performed on these returns to synthetically fill the ladar frame.

Abstract: Systems and methods are disclosed where a ladar system synthetically fills a ladar frame. A ladar transmitter can employ compressive sensing to interrogate a subset of range points in a field of view. Returns from this subset of range points correspond to a sparse ladar frame, and interpolation can be performed on these returns to synthetically fill the ladar frame.

Abstract: Disclosed herein is a ladar system that includes a ladar transmitter, ladar receiver, and camera, where the camera that is co-bore sited with the ladar receiver, the camera configured to generate image data corresponding to a field of view for the ladar receiver. In an example embodiment, a mirror can be included in the optical path between a lens and photodetector in the ladar receiver, where the mirror (1) directs light within the light from the lens that corresponds to a first light spectrum in a first direction for reception by the camera and (2) directs light within the light from the lens that corresponds to a second light spectrum in a second direction for reception by the photodetector, wherein the second light spectrum includes ladar pulse reflections for processing by the ladar system.

Abstract: Disclosed herein are examples of ladar systems and methods where data about a plurality of ladar returns from prior ladar pulse shots gets stored in a spatial index that associates ladar return data with corresponding locations in a coordinate space to which the ladar return data pertain. This spatial index can then be accessed by a processor to retrieve ladar return data for locations in the coordinate space that are near a range point to be targeted by the ladar system with a new ladar pulse shot. This nearby prior ladar return data can then be analyzed by the ladar system to help define a parameter value for use by the ladar system with respect to the new ladar pulse shot. Examples of such adaptively controlled parameter values can include shot energy, receiver parameters, shot selection, camera settings, and others.

Abstract: Disclosed herein are examples of ladar systems and methods where data about a plurality of ladar returns from prior ladar pulse shots gets stored in a spatial index that associates ladar return data with corresponding locations in a coordinate space to which the ladar return data pertain. This spatial index can then be accessed by a processor to retrieve ladar return data for locations in the coordinate space that are near a range point to be targeted by the ladar system with a new ladar pulse shot. This nearby prior ladar return data can then be analyzed by the ladar system to help define a control setting for use by a ladar system camera.

Abstract: A ladar system can estimate intra-frame motion for an object within a field of view of the ladar system using a tight cluster of ladar pulses. For example, ladar pulses in a cluster can be spaced apart but overlapping with at least one of the other ladar pulses in that cluster at a specified distance in the field of view. A ladar receiver can then process the reflections from the cluster to computer intra-frame motion data, such as intra-frame velocity and intra-frame acceleration for an object.

Abstract: Disclosed herein are examples of ladar systems and methods where data about a plurality of ladar returns from prior ladar pulse shots gets stored in a spatial index that associates ladar return data with corresponding locations in a coordinate space to which the ladar return data pertain. This spatial index can then be accessed by a processor to retrieve ladar return data for locations in the coordinate space that are near a range point to be targeted by the ladar system with a new ladar pulse shot. This nearby prior ladar return data can then be analyzed by the ladar system to help define a parameter value for use by the ladar system with respect to the new ladar pulse shot. Examples of such adaptively controlled parameter values can include shot energy, receiver parameters, shot selection, camera settings, and others.

Abstract: A compressible stop for use in a crane has a housing, a rod slidably mounted within the housing, a floating piston, and a valve assembly. The floating piston divides the housing into a gas portion biasing the floating piston towards an end of the housing and a liquid portion containing a hydraulic fluid. The valve assembly divides the liquid portion into a support portion and a reserve portion. The valve assembly includes a check valve allowing a liquid to flow from the reserve portion into the support portion, a pressure sensitive valve inhibiting the liquid from flowing from the support portion into the reserve portion unless the pressure is above a threshold pressure, and a frangible divider configured to rupture when the liquid pressure exceeds a rupture pressure.

Abstract: Flow measurement inserts replace standard orifice plates within single or dual-chamber orifice fittings. Flow measurement inserts are described which have insert bodies are shaped and sized to reside within the flow bore insert chamber of standard orifice fittings. An exemplary flow measurement insert includes an insert body with an opening formed therein which will align with the flow bore of the orifice fitting when the flow measurement insert is disposed within the chamber.

Abstract: A method and system for providing a seamless transition between applications is disclosed. The system includes a framework which includes an application manager for managing operations of the system, a component retriever in communications with the application manager for retrieving components associated with the applications, a data retriever in communications with the application manager for retrieving data associated with the applications, a memory for storing the retrieved components or data, and a service group including one or more services associated with applications.

Abstract: Disclosed herein are examples of ladar systems and methods where data about a plurality of ladar returns from prior ladar pulse shots gets stored in a spatial index that associates ladar return data with corresponding locations in a coordinate space to which the ladar return data pertain. This spatial index can then be accessed by a processor to retrieve ladar return data for locations in the coordinate space that are near a range point to be targeted by the ladar system with a new ladar pulse shot. This nearby prior ladar return data can then be analyzed by the ladar system to help adapt a shot selection for use by the ladar system with respect to new ladar pulse shots.