Abstract: A closed-loop control system for stereoscopic video capture is provided. At least two motorized lenses are positioned in accordance with specified parameters to capture spatially-disparate images of a scene. The motorized lenses focus light on a corresponding one of the at least two sensors, which generate image streams. One or more processors execute instructions to provide a stream analyzer and a control module. The stream analyzer receives the image streams from the sensors and analyzes the image streams and the specified parameters in real time; the stream analyzer then modifies the image streams and generates metadata. The control module then receives and analyzes the image streams and metadata and transmits updated parameters to a control mechanism that is coupled to the at least two motorized lenses. The control mechanism then modifies operation of the at least two motorized lenses in real time in accordance with the updated parameters.

Abstract: A process for the preparation of a polymer nanoparticle by a photoinduced emulsion polymerization includes preparing an emulsion comprising at least one surfactant, a dispersed phase and a continuous phase. The dispersed phase comprises at least one polymerizable monomer and the continuous phase comprises water and at least one photoinitiator. The at least one polymerizable monomer is polymerized by exposing the emulsion to an electromagnetic radiation having a wavelength so as to induce a generation of radicals from the at least one photoinitiator.

Abstract: In an animation processing system, generating images to be viewable on a display using a computer that are generated based on scene geometry obtained from computer readable storage and animation data representing changes over time of scene geometry elements, but also images can be modified to include shading that is a function of positions of objects at other than the current instantaneous time for a frame render such that the motion effect shading would suggest motion of at least one of the elements to a viewer of the generated images. Motion effects provide, based on depiction parameters and/or artist inputs, shading that varies for at least some received animation data, received motion depiction parameters, for at least one pixel, a pixel color is rendered based on motion effect program output and at least some received scene geometry, such that the output contributes to features that would suggest the motion.

Abstract: The invention relates to a method for spatially manipulating a microscopic object including providing a cantilever (12) having a tip with an opening (19) and a microchannel (15) extending through the cantilever (12) in its longitudinal direction. A suspension means is provided for holding the cantilever (12) and spatially moving the cantilever along a predetermined spatial path. A pressurizing means is provided for applying a predetermined pressure to the microchannel (15) and the cantilever (12) is moved with its tip to the microscopic object to be spatially manipulated. At least a part of the microscopic object is picked up with said cantilever (12) by reducing the pressure within the microchannel (15) relative to the pressure outside the tip of the cantilever (12). The microscopic object is then moved along a predetermined spatial path by means of the cantilever (12).

Abstract: Methods and systems for generating stereoscopic content with granular control over binocular disparity based on multi-perspective imaging from representations of light fields are provided. A reference image, a three-dimensional (“3D”) representation of a light field corresponding to the reference image, and a goal disparity image that indicates a goal binocular disparity for one or more pixels of the reference image may be received. For each pixel of an output image corresponding to the reference image, a point within the light field that is a closest match for the goal binocular disparity of a corresponding pixel of the goal disparity image may be determined. A stereoscopic image pair including the reference image and the output image may be generated.

Abstract: Systems and methods are used to store an electronic record of all product ion spectra of all detectable compounds of a sample. A plurality of product ion scans are performed on a tandem mass spectrometer one or more times in a single sample analysis across a mass range using a plurality of mass selection windows. All sample product ion spectra of all detectable compounds for each mass selection window are produced. All sample product ion spectra for each mass selection window are received from the tandem mass spectrometer using a processor. All sample product ion spectra for each mass selection window are stored as an electronic record of all detectable compounds of the sample using the processor. The electronic record is used to characterize compounds known at the time the electronic record is stored or to characterize compounds that became known after the electronic record was stored.

Abstract: Methods and apparatus are provided concerning the control of photobleaching of fluorescent labels during the study of samples by fluorescence microscopy. A method is described for operating fluorescence microscopy apparatus to analyse a sample (114), the apparatus including input, processing, sample irradiating and detection arrangements (110, 112; 104; 100; 122), and the method including the steps of: receiving parameters in the processing arrangement via the input arrangement, wherein the parameters relate to an experiment to be conducted using the apparatus and include at least one parameter relating to a fluorescent label present in the sample; and determining with the processing arrangement an excitation procedure to be carried out during the experiment having regard to the inputted parameters and the rate of photobleaching of the fluorescent label desired during the experiment.

Abstract: The present invention relates to a turbocharged reciprocating piston engine, and to a method for operating said engine. The combustion chamber includes at least one inlet valve (10), one outlet valve (13) and at least one additional charging valve (11), for the additional feed of compressed air to bridge the turbo lag, that are each operatively connected to the crankshaft via a camshaft and the operative connection of the charging valves to the crankshaft can be deactivated, with the result that the at least one charging valve (11) remains closed. An approximately stoichiometric combustion mixture is achieved by a turbocharger (4) and a throttle valve (8). By displacement of the opening instant of the charging valves (11), air can be pumped from the cylindrical combustion chambers into the compressed air tank (14). An additional compressor (24) can likewise deliver air into the compressed air tank (14).

Abstract: The invention relates to a probe arrangement (10g) for exchanging in a controllable way liquids with micro-sized samples of material like biological cells, especially in connection with an scanning probe microscope, said probe arrangement (10g) comprising a probe holder (11) with at least one embedded first channel (18) and a cantilever (12) with at least one embedded second channel (15) and being provided to be attached to said probe holder (11) in a way that at least one aperture (19) of the first channel (18) is connected to at least one aperture (17) of the second channel (15) in a way that permits the liquid-tight transfer of a liquid between said first and second channels (15, 18). A safe and easy use of the probe arrangement is achieved by having the cantilever (12) permanently attached to said probe holder (11) to form a prefabricated probe unit (10g).

Abstract: A method for image processing in video conferencing, for correcting the gaze of an interlocutor in an image or a sequence of images captured by at least one real camera, comprises the steps of the at least one real camera acquiring an original image of the interlocutor; synthesizing a corrected view of the interlocutor's face as seen by a virtual camera, the virtual camera being located on the interlocutor's line of sight and oriented towards the interlocutor; transferring the corrected view of the interlocutor's face from the synthesized view into the original image, thereby generating a final image; at least one of displaying the final image and transmitting the final image.

Abstract: A system and a method for the production of recombinant N-glycosylated target proteins. The system comprises a prokaryotic organism (e.g. Escherichia coli) into which is introduced a genetic information encoding for a metabolic apparatus capable of carrying out the requested N-glycosylation of the target protein. Said prokaryotic organism also contains the genetic information required for the expression of one or more recombinant target proteins. The metabolic apparatus preferably comprises specific glycosyltransferases for the assembly of the oligosaccharide on a lipid carrier and an OTase that covalently links this oligosaccharide to specific residues of the desired protein.

Abstract: The present invention relates to recombinant N-glycosylated proteins, comprising one or more introduced N-glycosylated optimized amino acid sequence(s), nucleic acids encoding these proteins as well as corresponding vectors and host cells. In addition, the present invention is directed to the use of said proteins, nucleic acids, vectors and host cells for preparing medicaments. Furthermore, the present invention provides methods for producing said proteins.

Abstract: This invention relates to a method of determining presence, amount and/or activity of a clostridial neurotoxin in a sample, the method comprising or consisting of the following steps: (a) bringing said sample into contact with a liposome, said liposome comprising (aa) at least one receptor on its outer surface, said receptor being capable of binding said neurotoxin and comprising or consisting of (i) a glycolipid and (ii) a peptide or protein; and (ab) a substrate in its interior, said substrate (i) being cleavable by the peptidase comprised in said neurotoxin and (ii) generating a detectable signal upon cleavage, said detectable signal preferably being generated by (1) the donor of a FRET pair, said donor exhibiting increased fluorescence upon cleavage by said peptidase, (2) a luminescent compound formed upon said cleavage, or (3) an enzyme formed upon said cleavage; and (b) determining whether an increase in signal occurs as compared to the absence of said sample, wherein such increase is indicative of the

Abstract: The invention relates to a process for separating a dispersed phase from a continuous phase comprising the steps of i) contacting said phases with an effective amount of nanoparticles; ii) applying a magnetic field gradient to the obtained system; iii) separating the obtained phases wherein said nanoparticles are of the core shell type, said core consists of a metal or alloy having soft magnetic properties and said shell contains a graphene layers which are optionally functionalized; to new nanoparticles and method of manufacturing such nanoparticles.

Abstract: A mass spectrometry system based on the general principle of accelerator mass spectrometry (AMS) is disclosed. An ion source (10) generates a beam (B) of ions having a negative charge state. A first mass analyzer (20) transmits only ions having a predetermined mass. The ions are passed through a stripper target (80) comprising helium and/or hydrogen as a stripping gas to change the charge state of said ions from negative to positive charge and to dissociate molecular ions by collisions. A second mass analyzer (110, 130) transmits ions in charge state 1+ having the predetermined mass, which are detected by a detector (140). By using helium and/or hydrogen gas and detecting ions in charge state 1+, it becomes possible to use kinetic energies below 200 keV without excessive transmission losses due to angular straggling. At sufficiently low energies, no additional acceleration is required after ions have been extracted from the ion source.

Abstract: The extreme ultraviolet light source comprises a production site capable of producing extreme ultraviolet radiation in a laser-produced plasma (3), and a collector optics (6) for collimating the extreme ultraviolet radiation. A pressurized influx of gas forms a gas curtain between the production site and the collector optics (6) in order to protect the collector optics (6) from debris (4) generated at the production site. The gas influx is directed in a way that it follows the surface of the collector optics (6). By thus shielding the collector optics (6) from the debris (4) its lifetime is enhanced. The shielding gas can further be used for cooling the collector optics (6).

Abstract: A system and a method for the production of recombinant N-glycosylated target proteins. The system comprises a prokaryotic organism (e.g. Escherichia coli) into which is introduced a genetic information encoding for a metabolic apparatus capable of carrying out the requested N-glycosylation of the target protein. Said prokaryotic organism also contains the genetic information required for the expression of one or more recombinant target proteins. The metabolic apparatus preferably comprises specific glycosyltransferases for the assembly of the oligosaccharide on a lipid carrier and an OTase that covalently links this oligosaccharide to specific residues of the desired protein.

Abstract: A method for communicating between a first device and a second device is shown. The devices are structured and configured for communicating via a communication channel by exchanging messages.

Abstract: The invention relates to a method for spatially manipulating a microscopic object (20,23,33), said method comprising the steps of providing a cantilever (12) having a tip with an opening (19) and a microchannel (15) extending through the cantilever (12) in its longitudinal direction, said microchannel (15) being fluidly connected to the opening (19) at the tip of the cantilever; providing suspension means for holding the cantilever (12) and spatially moving the cantilever along a predetermined spatial path; providing pressurizing means for applying a predetermined pressure to the microchannel (15) within the cantilever; moving the cantilever (12) with its tip to the microscopic object (20,23,33) to be spatially manipulated, such that the opening (19) of the tip is adjacent to the microscopic object (20,23,33); picking up, with said cantilever (12), a part of the microscopic object (20,23,33) or the microscopic object (20,23,33) as a whole by reducing the pressure within the microchannel (15) relative to the p

Abstract: Catalytic methods for the production of saturated hydrocarbons with 2 to 5 carbon atoms per molecule by conversion of small hydrocarbon halides and/or hydrogenation of carbonaceous material are disclosed that result in high yield of saturated C2 to C5 hydrocarbons at reduced corrosion of the reactors and in good lifetime of the catalyst. The methods are performed in the presence of a Lewis acid comprising catalyst and in the absence of oxygen or oxygen containing compounds, whereby an upper limit of at most 50 parts per million mass of oxygen or oxygen containing compounds can be tolerated.