Abstract: A method reduces false-positive particle counts detected by an interference particle sensor module, which has a laser and a light detector. The method including: emitting laser light; providing a high-frequency signal during the emission of the laser light, a modulation frequency of the high-frequency signal being between 10-500 MHz; detecting an optical response by the light detector in reaction to the emitted laser light while providing the high-frequency signal, which is arranged such that a detection signal caused by a macroscopic object positioned between a first and second distance is reduced in comparison to a detection signal caused by the macroscopic object at the same position without providing the high-frequency signal. The high-frequency signal is provided to a tuning structure of the particle sensor module which is arranged to modify a resonance frequency of an optical resonator comprised by the laser sensor module upon reception of the high-frequency signal.

Abstract: Systems and methods are described in the present disclosure for determining the location and orientation of an object placed on a surface. One such system, among others, includes an optical device physically supported by an object at a fixed position with respect to a reference point of the object. The system also includes a surface upon which the object can be placed. A reference pattern, which is applied to the surface, includes an array of markings visible to the optical device. The array of markings includes encoded location information and orientation information. In addition, the system includes a processing device in communication with the optical device. The processing device is configured to calculate the location and orientation of the reference point of the object with respect to the surface.

Abstract: Device for the air-conditioning and/or monitoring of building or warehouse areas, containing a housing consisting of plastic or composite material shaped as a hollow body and having air entry, air guidance and air exit sections, at least one fan roller provided with a plurality of profiled fins made of composite material or plastic, and drivable by at least one electric motor, the fan roller being positionable inside the housing, and a casing for the housing, formed by a flexible plastic or composite material panel that can be connected to the housing, wherein an end section of the casing can be releasably connected to a housing section, an approximately arc-shaped contour of the casing is formed by bending the casing lying outside the housing, and after further bending of the casing, the free end thereof can be releasably fastened to a different housing section.

Abstract: Systems and methods are described in the present disclosure for determining the location and orientation of an object placed on a surface. One such system, among others, includes an optical device physically supported by an object at a fixed position with respect to a reference point of the object. The system also includes a surface upon which the object can be placed. A reference pattern, which is applied to the surface, includes an array of markings visible to the optical device. The array of markings includes encoded location information and orientation information. In addition, the system includes a processing device in communication with the optical device. The processing device is configured to calculate the location and orientation of the reference point of the object with respect to the surface.

Abstract: Systems, methods, and associated software for providing a virtual reality experience for a user, particularly a virtual training experience, are described herein. A server associated with a virtual training system according to one embodiment, among others, comprises memory and a network interface. The memory is configured to store virtual training software and a simulation variations database. The virtual training software comprises training simulation logic adapted to provide a virtual training experience. The simulation variations database comprises data associated with preset variations to the virtual training experience. The network interface is configured to communicate with a remote client device within a network and is further configured to receive a first set of information from the client device associated with the virtual training software. Also, the network interface is further configured to transmit a second set of information to the client device associated with the virtual training software.

Abstract: Systems and methods for identifying thermal response of a test structure. An example of the system includes a device that generates a excitation beam, a scanning device that scans the thermal excitation beam over a test structure, and a detector that detects acoustic waves produced scanning by the test structure. The system also includes a display device that generates and displays an image based on the detected acoustic waves. A second detector detects a reflection of the beam off of the test structure and the display device generates and displays an image based on the detected reflection.

Abstract: Methods and systems that excite a test structure with an excitation beam and then sense the response of the test structure after some prescribed time interval with respect to the excitation. One or more detectors detect an emission from the test structure at a location of the test structure that is offset from a position on the test structure that is coincident with the excitation beam as the beam is scanned across the test structure.

Abstract: Systems and methods for modifying a medical model of a physical system is disclosed. One disclosed system includes a graphical user interface configured to display at least one parameter associated with the medical model and receive a modification of the at least one parameter. The system also includes a processor configured to receive the modification of the at least one parameter from the graphical user interface and execute a simulation of a part of the medical model including the modification of the at least one parameter.

Abstract: The invention relates to a door device (10) with at least one door (11), for opening and closing a passageway (27), such as used in stores, public buildings, or similar. The doors (11) may be displaced in a door frame (12), for example, by means of a rotational or longitudinal displaceable mounting. The door device (10) is further provided with at least one air curtain device (30), essentially running along the complete height of the passageway (27) and which generates an exiting air curtain (33), such that, with the door (11) open, the passageway (27) is screened by the air curtain (33). The generated air curtain (33) serves to reduce the energy losses which occur when air from the outside (28) of the door device (10) reaches the inside (29) of the door device (10), or vice versa.

Abstract: The invention concerns a sliding door device (10) comprising at least a mobile sliding door (11) and separating elements (12) for maintaining and guiding the mobile and removable sliding door (11). The latter enables automatic opening and closure of an opening (20) based on a command. Therefor, the edges of the sliding door are at least partly enclosed with a frame part (14), an air curtain (24) being produced in front of the passageway (20) by means of a fan (16). The invention is characterized in that the sliding door comprises on its free vertical sides a frame part (14) provided with a housing wherein is arranged a fan (16). The outlet (17) of said fan leads to a longitudinal opening in the form of a nozzle producing the air curtain (24) and extending over practically the entire length of the vertical side (13) of the door. Additionally an inlet (18) of the fan (16) is provided in the frame part (14).

Abstract: Methods and system for sensing dynamic failures in an electronic circuit. An exemplary system includes a drive source, a radiant energy source, and a signal comparator. The drive source supplies a dynamic input signal to the electronic circuit, thereby causing the electronic circuit to output a signal. The radiant energy source generates and directs radiant energy at the electronic circuit and thus induces localized changes in the output signal of the electronic circuit. The signal comparator compares the output signal to an expected output signal, thereby producing a comparison signal proportional to the match between the input and output signals. A data processing device generates an image based on the comparison signal and an image based on a reflection signal. A display device displays at least a portion of the generated images simultaneously.

Abstract: An apparatus comprises a manipulandum, a housing, a sensor and an actuator. The housing has a palpation region spaced apart from the manipulandum. The sensor is coupled to the palpation region of the housing. The sensor is configured to send a signal based on a palpation of the palpation region of the housing. The actuator is coupled to the manipulandum. The actuator is configured to send haptic output to the manipulandum based on the signal.

Abstract: Systems and methods for identifying thermal response of a test structure. An example of the system includes a device that generates a excitation beam, a scanning device that scans the thermal excitation beam over a test structure, and a detector that detects acoustic waves produced scanning by the test structure. The system also includes a display device that generates and displays an image based on the detected acoustic waves. A second detector detects a reflection of the beam off of the test structure and the display device generates and displays an image based on the detected reflection.

Abstract: Methods and systems that excite a test structure with an excitation beam and then sense the response of the test structure after some prescribed time interval with respect to the excitation. One or more detectors detect an emission from the test structure at a location of the test structure that is offset from a position on the test structure that is coincident with the excitation beam as the beam is scanned across the test structure.

Abstract: An intelligent electronic subrogation network (“ESN”) automates intra-organization workflow, inter-organization workflow and collaboration for insurance subrogation. This ESN is facilitated by a novel system architecture and process that includes an inter-organizational workflow management system, an inter-organizational transaction processing system, and a unique mechanism for optimizing and enriching web-based user interaction within any such system.

Abstract: The invention concerns a sliding door device (10) comprising at least a mobile sliding door (11) and separating elements (12) for maintaining and guiding the mobile and removable sliding door (11). The latter enables automatic opening and closure of an opening (20) based on a command. Therefor, the edges of the sliding door are at least partly enclosed with a frame part (14), an air curtain (24) being produced in front of the passageway (20) by means of a fan (16). The invention is characterized in that the sliding door comprises on its free vertical sides a frame part (14) provided with a housing wherein is arranged a fan (16). The outlet (17) of said fan leads to a longitudinal opening in the form of a nozzle producing the air curtain (24) and extending over practically the entire length of the vertical side (13) of the door. Additionally an inlet (18) of the fan (16) is provided in the frame part (14).

Abstract: A system and method for indicating real time focus information for a scanning microscope. The system includes a detector, one or more bandpass filters, and one or more power indicators associated with the one or more bandpass filters. The detector detects an electrical signal from the scanning microscope. The bandpass filters filter the detected electrical signal. The bandpass filters are tuned to a desired range of frequencies. The power indicators detect and display average power of the electrical signal filtered by the corresponding bandpass filter. The system also includes a focusing device that generates a focusing signal based on the detected average power and focuses the scanning microscope based on the generated focusing signal. The focusing device automatically focuses the scanning microscope.

Abstract: A method and circuit for integrated circuit analysis. The apparatus includes an irradiation component configured to irradiate an integrated circuit, a constant voltage source, one or more current chokes placed between the constant voltage source and one or more connections to the integrated circuit, and one or more voltage amplifiers. The irradiation component introduces changes in the electrical state of the integrated circuit. The one or more voltage amplifiers produces a state signal relating to the changes introduced by the irradiation component in the integrated circuit. The current choke separates the function, a DC function, of supplying a voltage bias to the integrated circuit from the function, an AC function, of signal generation. This allows separate optimization of the two functions—the ability to correctly bias the integrated circuit and obtain high signal-to-noise ratios for the resulting signal. This optimization improves the sensing abilities of the circuit.

Abstract: A method and circuit for integrated circuit analysis. The apparatus includes an irradiation component configured to irradiate an integrated circuit, a constant voltage source, one or more current chokes placed between the constant voltage source and one or more connections to the integrated circuit, and one or more voltage amplifiers. The irradiation component introduces changes in the electrical state of the integrated circuit. The one or more voltage amplifiers produces a state signal relating to the changes introduced by the irradiation component in the integrated circuit. The current choke separates the function, a DC function, of supplying a voltage bias to the integrated circuit from the function, an AC function, of signal generation. This allows separate optimization of the two functions—the ability to correctly bias the integrated circuit and obtain high signal-to-noise ratios for the resulting signal. This optimization improves the sensing abilities of the circuit.

Abstract: A system and method for indicating real time focus information for a scanning microscope. The system includes a detector, one or more bandpass filters, and one or more power indicators associated with the one or more bandpass filters. The detector detects an electrical signal from the scanning microscope. The bandpass filters filter the detected electrical signal. The bandpass filters are tuned to a desired range of frequencies. The power indicators detect and display average power of the electrical signal filtered by the corresponding bandpass filter. The system also includes a focusing device that generates a focusing signal based on the detected average power and focuses the scanning microscope based on the generated focusing signal. The focusing device automatically focuses the scanning microscope.