Abstract: An exemplary camera assembly includes a camera body, a camera lens, a cradle that communicates signals between the camera body and the camera lens, and a short wave infrared sensor module selectively received within the cradle.

Abstract: Provided is an electromagnetic radiation wavelength conversion module for a SLR camera body. The module can include a housing with a first end that can be releasably coupled to the SLR camera body and a second end that can be releasably coupled to a SLR lens. The module can also include an IR sensor disposed in the housing for converting an infrared radiation signature of an object into at least one digital signal and a display disposed within the module for rendering the at least one digital signal into a visible representation of the of the object that can be detected by a sensor of the SLR camera.

Abstract: An API call filtering system filters responses to API call requests received, via a network, from user devices. The API call filtering system is configured to require personalized API call requests wherein each API call (except for some minor exceptions) includes a unique endpoint identifier (“UEID”) of the user device making the request. Using the UEID, the web service or other service protected by the API call filtering system can be secured against excessive request iterations from a set of rogue user devices while allowing for ordinary volumes of requests of requests the user devices, wherein one or more boundaries between what is deemed to be an ordinary volume of requests and what is deemed to be excessive request iterations are determined by predetermined criteria.

Abstract: Screening methods for identifying compounds and compounds and pharmaceutical compositions for treating and preventing cancer are disclosed. The compounds affect signal transduction downstream of the MET receptor.

Abstract: A coupled set of servers in a server system protect an application programming interface (“API”) from unwanted automation facilitated by unauthorized reverse engineering of an endpoint app or communications channel used by the endpoint app. The server system comprises at least one secure app update server that transforms an app code object received from an enterprise app server into a transferred app code object, and at least one secure application programming interface (“API”) server that interacts with an endpoint device that executes the transformed app code object. The secure API is adapted to convert API requests made by the transformed app code object into renormalized API requests formatted for processing by an enterprise API server. The transforming of the app code object results in API requests from the client that would constitute invalid API requests if presented to the enterprise API server without renormalization.

Abstract: An illuminator comprising a short-wave infrared (SWIR) laser, a fiber optic, and a lens optic. The fiber optic is coupled to the SWIR laser for mixing the modes of a beam emitted by the SWIR laser. The lens optic is coupled to the fiber optic for shaping the beam into a top-hat beam profile. A method for creating SWIR illumination includes emitting a laser beam with multiple modes from a SWIR laser, transmitting the laser beam through a multi-mode fiber optic, and transmitting the laser beam through a lens optic. Transmitting the laser beam through the multi-mode fiber optic can including mixing modes of the laser beam thereby reducing speckle and constructive and destructive interference in the laser beam. Transmitting the laser beam through the lens optic can include generating a top-hat beam profile.

Abstract: A local service system receives a call from a local application. The local service system determines whether an acceptable result to return for the call is already stored in a local service cache. If not, the local service system calls a remote service system to obtain a result, it returns the result to the local application, and stores the result in the local service cache.

Abstract: An API call filtering system filters responses to API call requests received, via a network, from user devices. The API call filtering system is configured to require personalized API call requests wherein each API call (except for some minor exceptions) includes a unique endpoint identifier (“UEID”) of the user device making the request. Using the UEID, the web service or other service protected by the API call filtering system can be secured against excessive request iterations from a set of rogue user devices while allowing for ordinary volumes of requests of requests the user devices, wherein one or more boundaries between what is deemed to be an ordinary volume of requests and what is deemed to be excessive request iterations are determined by predetermined criteria.

Abstract: An API call filtering system filters responses to API call requests received, via a network, from UEs. The API call filtering system is configured to require personalized API call requests wherein each API call (except for some minor exceptions) includes a unique UE identifier (“UEIN”) of the UE making the request. Using the UEIN, the web service or other service protected by the API call filtering system can be secured against excessive request iterations from a set of rogue UEs while allowing for ordinary volumes of requests of requests the UEs, wherein one or more boundaries between what is deemed to be an ordinary volume of requests and what is deemed to be excessive request iterations are determined by predetermined criteria.

Abstract: An API call filtering system filters responses to API call requests received, via a network, from user devices. The API call filtering system is configured to require personalized API call requests wherein each API call (except for some minor exceptions) includes a unique endpoint identifier (“UEID”) of the user device making the request. Using the UEID, the web service or other service protected by the API call filtering system can be secured against excessive request iterations from a set of rogue user devices while allowing for ordinary volumes of requests of requests the user devices, wherein one or more boundaries between what is deemed to be an ordinary volume of requests and what is deemed to be excessive request iterations are determined by predetermined criteria.

Abstract: An illuminator comprising a short-wave infrared (SWIR) laser, a fiber optic, and a lens optic. The fiber optic is coupled to the SWIR laser for mixing the modes of a beam emitted by the SWIR laser. The lens optic is coupled to the fiber optic for shaping the beam into a top-hat beam profile. A method for creating SWIR illumination includes emitting a laser beam with multiple modes from a SWIR laser, transmitting the laser beam through a multi-mode fiber optic, and transmitting the laser beam through a lens optic. Transmitting the laser beam through the multi-mode fiber optic can including mixing modes of the laser beam thereby reducing speckle and constructive and destructive interference in the laser beam. Transmitting the laser beam through the lens optic can include generating a top-hat beam profile.

Abstract: The present invention relates to a flame-retardant mixture comprising (A) at least one polyurethane as component A, (B) at least one flame retardant selected from the group consisting of tallow, ammonium phosphate, ammonium polyphosphate, calcium carbonate, antimony oxide, zinc borate, clay, montmorillonite clay, metal oxides, metal hydroxides, organic phosphinate compounds, organic phosphate compounds, polyhydric alcohols, melamine compounds, chlorinated polyethylene, and mixtures thereof, as component B, and (C) at least one crosslinking reagent as component C, where the at least one crosslinking reagent is at least one isocyanate dissolved in at least one polyurethane, and also to a process for the production of a flame-retardant polyurethane, to the resultant flame-retardant polyurethane, and also to the use of a solution of at least one isocyanate in at least one polyurethane in the production of a flame-retardant polyurethane for increasing the mechanical stability of flame-retardant polyurethanes.

Abstract: The present invention relates to compositions comprising at least one thermoplastic polyurethane and at least one poly(meth)acrylate, where the at least one thermoplastic polyurethane is a polyurethane based on hexamethylene 1,6-diisocyanate (HDI), on at least one diol, and on at least one chain extender, selected from the group consisting of ethylene 1,2-glycol, 1,2-propanediol, 1,3-propanediol, 1,4-butanediol, 2,3-butanediol, 1,5-pentanediol, 1,6-hexanediol, diethylene glycol, dipropylene glycol, 1,4-cyclohexanediol, 1,4-dimethanolcyclohexane, and neopentyl glycol. The present invention further relates to moldings comprising the compositions of the invention, and also to the use of the compositions of the invention for producing a foil and for coating a molding.

Abstract: A user of a graphical visualization program controls what data is selectable through the program interface. Data for display may be grouped and assigned an opacity value. The opacity value may correspond to the number of data points within an n-dimensional grouping, a particular type or other grouping parameter. Two or more data groupings may overlap within the interface. The visualization program may set a threshold selectability level, for example based on user input. The input may be received based on an selection threshold slide bar within a graphical portion of the display. When a user selects a data grouping at a point where two or more data groupings overlap, the data groupings that satisfy the threshold selection level may be selected. Data groupings that do not satisfy the threshold selection level will not be selectable.

Abstract: A center of rotation may automatically be selected for graphically displayed data. The rotation center may be automatically selected based on what is determined to be of interest to the user, the current display of the data, and other parameters. For example, if a user has selected a portion of data, the center of rotation may be within the center of the selected data. If a user has positioned a cursor within a portion of displayed data, the center of rotation may be the center of the data portion including the cursor. If the data as a whole is approximately centered about the graphical coordinate origin, or within a threshold of the origin, the data may be rotated about the origin. If the data as a whole is approximately centered at least a certain distance away from the graphical coordinate origin, the data may be rotated about the center of the data as a whole.

Abstract: A data visualization system with the capability of viewing large amounts of data in a parallel coordinates system. Large amounts of data are displayed in parallel coordinates by grouping together data points by bins and representing grouped data with fewer graphical elements. The fewer graphical elements simplify the graphical representation of the data while still providing information about the density or volume of data occupying a particular space. Bins are determined for each axis. The volume of connections between a pair of neighboring pair of bins may be represented by modifying an aspect of the connection based on the volume.

Abstract: An illuminator includes a short wave infrared (SWIR) laser, a lens collimator, a first beam shaping diffuser, a second beam shaping diffuser, and a bandpass filter. The lens collimator is optically coupled to the laser for diverging a beam emitted by the laser. The first beam shaping diffuser is optically coupled to the lens collimator to diffuse a diverged beam produced by the lens collimator. The second beam shaping diffuser is optically coupled to the first beam shaping diffuser to further diffuse a diffused beam produced by the first beam shaping diffuser. The bandpass filter is optically connected to the second beam shaping diffuser configured to filter the emissions of a further diffused beam produced by the second beam shaping diffuser.

Abstract: A thermoplastic polyurethane is obtainable via reaction of the following components A, B, C, and, if appropriate, D and E (e) at least one aliphatic, organic diisocyanate, as component A, (f) at least one compound which is reactive toward component A and which has a weight-average molar mass of from 500 to 10 000 g/mol, as component B, (g) a mixture composed of alkanediols as chain extenders, comprising from 60 to 85 mol % of 1,6-hexanediol as main chain extender C1 and from 15 to 40 mol % of 1,3-propanediol as co-chain extender C2, as component C, (h) at least one catalyst, as component D, (i) conventional additives as component E.

Abstract: Screening methods for identifying compounds and compounds and pharmaceutical compositions for treating and preventing cancer are disclosed. The compounds affect signal transduction downstream of the MET receptor.

Abstract: Screening methods for identifying compounds and compounds and pharmaceutical compositions for treating and preventing cancer are disclosed. The compounds affect signal transduction downstream of the MET receptor.