Abstract: A method of determining signal quality in a cable network comprises the steps of: providing a network model (1) comprising an interconnection model (2) and component models (3), providing an input signal (IS), determining an output signal (OS) using the input signal and the network model, and determining the signal quality from the input signal (IS) and the output signal (OS). The input signal (IS) comprises multiple constituent signal components, each signal component representing a class of input signals. The step of determining the output signal involves determining intermodulations of the constituent signal components by effecting frequency domain convolutions of the spectra of the constituent signal components.

Abstract: The invention is directed to a solid, porous material, suitable for generating nitrogen gas, said material having a porosity of 20 to 75 vol. %, and a composition comprising, based on the weight of the material of 60 to 90 wt. % of sodium azide, 0.1 to 20 wt. % of an inert chemical coolant based on at least one inorganic salt having a heat capacity of at least 1400 J/K/kg, 0.1 to 20 wt. % of modifying agent selected from metal oxides and metal carbonates, and a binder, selected from the group consisting of at least one alkali metal silicate, preferably waterglass, or a poly-tetrazole, in an amount of between 3 and 15 wt. %.

Abstract: A method for layerwise production of a tangible object comprises repeatedly performing method cycles. Each method cycle comprises the steps of solidifying a predetermined area of an uppermost liquid layer (10) of a liquid (3) in a reservoir (2), so as to obtain a solid layer of the tangible object, and creating, above, parallel and adjacent to the solid layer, a successive uppermost liquid layer of the liquid. Said creating of the successive liquid layer is carried out by spraying such liquid onto upper parts of the contents in the reservoir. A height distribution over at least part of the surface of the uppermost liquid layer is measured by means of a measuring device (6). Based on the measured height distribution, the solidifying is carried out to compensate for unflatness of the measured height distribution.

Abstract: According to one aspect, the invention provides a method of placement of a component on a stretchable substrate, comprising the steps of providing a base substrate having a stretchable substrate layer, providing a flexible foil comprising an integral arrangement (20) of a multiple of flexible foil components; the flexible foil components each comprising component pads for electro/optical access to the flexible foil components, providing in plane interconnecting traces on the stretchable substrate layer in correspondence with the component pads in the integral arrangement; aligning the base substrate and the flexible foil so as to be used in a reel based manufacturing process; providing, through lamination of the base substrate and the flexible foil an electro/optical via connection between the traces and the component pads of the integral component arrangement; and mechanically separating the integral arrangement of flexible foil components to provide a multiple of mechanically separated components from each

Abstract: The invention relates to a method of guiding a salvo of guided projectiles to a target. The method comprises the steps of generating a beam defining a common reference coordinate system, determining the position of each projectile relative to the beam, and providing to each projectile: position information of other projectiles. Further, the method includes the step of associating dispersion parameters to the salvo of guided projectiles. In addition, the method comprises the step of determining numerical values of the dispersion parameters based on accuracy uncertainty. Also, the method includes the step of controlling the projectiles to an optimal dispersion by using a swarming technique based on the position information of the projectiles and on the numerical values of the dispersion parameters.

Abstract: Method, device and system for measuring a degree of torsion or bending of a joint. The method comprises the steps of attaching a sensor (56) to the limbs that are joined by the joint, measuring an output signal of the sensor during torsion or bending at the joint, and a final step of relating said output signal of the sensor to a degree of torsion or bending. The sensor comprises an electrically conductive loop (51), with loop parts that run from one limb to other and back in the loop, the area of said loop at least partially covering both limbs from one limb to the other. The limbs may be limbs of the human or animal body, for instance limbs at a knee. The sensor further comprises an output unit (57) for providing an output signal that is a measure for the inductance of the loop. Calibration data for the sensor may be determined by detecting the output signal of the sensor for a well defined degree of torsion or bending at said joint under static conditions and storing the calibration data.

Abstract: The invention relates to a method of manufacturing a support structure for supporting an article in a lithographic process, comprising: providing a substrate having an electrically conductive top layer provided on an insulator; patterning the conductive top layer to provide a patterned electrode structure; and oxidizing the conductive top layer, so as to provide a buried electrode structure having an insulating top surface. In this way a simple buried structure can be provided as electrode structure to conveniently provide an electrostatic clamp. The invention additionally relates to a correspondingly manufactured support structure for supporting an article in a lithographic process.

Abstract: The invention relates to a method of transferring data from at least a first communication module and a second communication module to, respectively, a first data processing centre and a second data processing centre via a circuit switched telecommunications network. A first and second connection request containing respective first and second pre-provisioned telephone numbers from the first and second communication modules are received in the network. The first and second telephone numbers are processed such that the network refrains from authenticating the first and second communication modules. Subsequently first and a second circuit switched data connections are established with the first and second communication modules for receiving data. The data can be routed from the first communication module to the first data processing centre and from the second communication module to the second data processing centre in accordance with the first and second telephone numbers, respectively.

Abstract: The invention relates to an apparatus for reactive ion etching of a substrate, comprising: a plasma etch zone including an etch gas supply and arranged with a plasma generating structure for igniting a plasma and comprising an electrode structure arranged to accelerate the etch plasma toward a substrate portion to have ions impinge on the surface of the substrate; a passivation zone including a cavity provided with a passivation gas supply; said supply arranged for providing a passivation gas flow from the supply to the cavity; the cavity in use being bounded by the injector head and the substrate surface; and a gas purge structure comprising a gas exhaust arranged between said etch zone and passivation zone; the gas purge structure thus forming a spatial division of the etch and passivation zones.

Abstract: The invention relates to the production of itaconic acid in micro-organisms by introducting into a suitable host cell a gene coding for the enzyme cis-aconitic acid decarboxylase, preferably derived from A. terreus. Further part of the invention are host cells, preferably from A. niger, provided with the above mentioned genes.

Abstract: The invention relates to a method of compensating sub-array or element failure in a phased array radar system. The method comprises the step of defining a virtual array comprising a multiple number of virtual transceiver tiles preferably arranged halfway all connection lines interconnecting a transmitter tile to a receiver tile. Further, the method comprises the steps of performing phased array radar measurements, and estimating radar data associated with a first transmitter/receiver combination by using radar data associated with a second transmitter/receiver combination, wherein the virtual transceiver tile of the first transmitter/receiver combination substantially coincides with the virtual transceiver tile of the second transmitter/receiver combination.

Abstract: A method of determining hyperparameters (HP) of a classifier (1) in a machine learning system (10) iteratively produces an estimate of a target hyperparameter vector. The method comprises the steps of selecting from the random sample the hyperparameter vector producing the best result in the present and any previous iterations, and updating the estimate of the target hyperparameter vector by using said selected hyperparameter vector. The random sample may be restricted by using the hyperparameter vector producing the best result in the present and any previous iterations.

Abstract: A method is described for providing a substrate foil (L0) with at least a laminating foil (L1) of material. The method comprises the steps of providing the substrate foil (L0) and the laminating foil (L1). And subsequently applying weakend portions (100) in the laminating foil (L1). The weakened portions extend in a direction transverse (Dtr) to a longitudinal direction of the laminating foil, and are spaced at intervals along the longitudinal direction. The weakened portions have a width (w) substantially smaller than the length (?) of said intervals, providing a tension to the laminating foil (L1) in the longitudinal direction (Dlong). Thereby the laminating foil (L1) is stretched in the weakened portions, attaching the stretched laminating foil (L1) to the substrate foil (L0).

Abstract: The invention relates to a marking system for marking objects wherein said system comprises a microparticle comprising a cross-linked polymer and a marker component wherein the release of said marker component is triggered by contact of the microparticle with an external stimulus and wherein said polymer is a carbohydrate or a protein.

Abstract: A method of identifying mobile devices (1,1?) capable of communicating (C) with each other comprises the steps of deriving, for each mobile device, movement information from movements (M) made by the mobile device within a respective time period, and communicating the movement information. The method comprises the further steps of comparing the movement information of the mobile device (1) with the movement information of at least one other mobile device (T), and identifying mobile devices having matching movement information. The step of deriving movement information is carried out using sensors mounted in the mobile device, such as acceleration sensors and/or optical sensors. The step of comparing the movement information may be carried in a mobile device (1) or in a central unit.

Abstract: A vehicle (2) comprises sensor units (10) for collecting sensor data, and a processing unit (11) for processing the sensor data. A method of providing driving assistance information comprises the steps of: determining the cost (c) of pairs (30, 31, 32) of acceleration values on the basis of the sensor data, each pair of acceleration values representing a longitudinal (a lon) and a lateral (a lat) acceleration of the vehicle, —selecting a pair (32) of least cost acceleration values, and—providing driving assistance information including the pair of least cost acceleration values. The processing unit (10) may be arranged for providing visible, audible and/or haptic driving assistance information to the driver of the vehicle, and/or for providing steering assistance.

Abstract: A leaky wave antenna has electrically conductive surfaces in parallel to each other. At one place a two-dimensional array of slots is provided in one of the surfaces. Elsewhere a feed structure is realized comprising one or more electrically conductive elements coupled between the first and second electrically conductive surface and configured to direct an electromagnetic wave pattern travelling between surfaces towards the array. In an embodiment the feed structure comprises a waveguide formed between walls connecting the surfaces. One of the walls is made to leak in order to feed the array of slots. In an embodiment the feed structure comprises a reflector comprising connections between the surfaces, to direct waves between the surfaces to the array of slots.

Abstract: The invention relates to a method of detecting pathogenic Legionella pneumophila strains by hybridizing genomic DNA of a sample suspected to contain Legionella to two or five specific sequence markers, as identified by MARKER NO. 1 through MARKER NO. 5 or homologues thereof. The invention further relates to a kit of parts comprising an array and reference materials for performing a method of the invention.

Abstract: A method of forming a high density structure may include the steps of providing a substrate wherein the high density structure is to be formed with a release liner, the release liner being self-removable; forming at least one cavity in the substrate through the release liner, the at least one cavity forming at least a part of the high density structure; at least partially filling the at least one cavity with a filler material; sintering the thus formed structure; and removing the release liner from the substrate.

Abstract: The invention is directed to a matrix material for MALDI mass spectrometry, to a matrix composition for MALDI mass spectrometry, in particular for aerosol MALDI mass spectrometry, to a MALDI mass spectrometry method, in particular an aerosol MALDI mass spectrometry method, to the use of a specific compound as a MALDI matrix material, and to the use of a MALDI matrix composition in a gas phase coating method. The matrix material of the invention comprises a 2-mercapto-4,5-dialkylthiazole according to formula (I), wherein X is chosen from S, O or N, and wherein R1 and R2 are independently chosen from hydrogen, methyl, methoxy, ethoxy, and propoxy, or wherein R1 and R2 are taken together to form an optionally substituted aromatic ring structure, optionally comprising one or more heteroatoms, or a tautomeric form thereof. A matrix composition preferably includes the matrix material and an alcohol. The alcohol can be halogenated.