Patent application number | Description | Published |
20110117865 | METHOD FOR CALIBRATING A TRANSMISSION LINE, AND CORRESPONDING COMPUTER SOFTWARE PRODUCT, STORAGE MEDIUM AND CALIBRATION DEVICE - A method and apparatus are provided for calibrating an information-signal transmission line that includes elements for generating a control signal and transmitting information signals controlled by the control signals, and an amplifier of the information signals. The amplifier can be configured according to at least a first gain configuration associated with a first gain value, and a second gain configuration associated with a second gain value. The method includes obtaining, for each of the first and second gain configurations, first and second sets of initial values of the control signal, that correspond to first and second sets of measured power that overlap, and selecting, for each power-recovery setpoint value to which corresponds a first measured-power value of the first set and a second measured-power value of the second set, from the first and second calibrated values of the control signal, the calibrated value that meets a predetermined criterion. | 05-19-2011 |
20110176625 | METHOD AND DEVICE FOR OBTAINING AT LEAST ONE CALIBRATION FREQUENCY FOR CALIBRATING A TRANSMISSION CHAIN, CORRESPONDING COMPUTER PROGRAM PRODUCT AND CORRESPONDING STORAGE DEVICE - A method is provided for obtaining a calibration frequency for calibrating a transmission chain that can transmit information signals on a frequency band comprising a plurality of channels. The chain includes an amplifier that can be configured according to at least one gain configuration. The method includes: obtaining an output power value of the amplifier; obtaining a frequency dispersion, based on the power value; detecting whether a constraint linked to said frequency dispersion is satisfied; and if the constraint is not satisfied, then obtaining a current frequency subband and a calibration frequency for said current frequency subband. | 07-21-2011 |
Patent application number | Description | Published |
20100331211 | METHOD FOR REAL-TIME DETECTION OF MICROORGANISMS IN A LIQUID CULTURE MEDIUM USING CELLULAR LYSIS - The present invention relates to a method for detecting at least one target microorganism that may be present in a sample, comprising the steps of:
| 12-30-2010 |
20110020861 | METHOD FOR THE REAL-TIME DETECTION OF MICROORGANISMS IN A LIQUID CULTURE MEDIUM BY AGGLUTINATION - A method for detecting at least one microorganism that may be present in a sample, comprising the steps of: | 01-27-2011 |
20130004989 | METHOD FOR ESTIMATING THE NUMBER OF MICROORGANISMS IN A SAMPLE AND DEVICE FOR IMPLEMENTING SAID METHOD - A method for counting microorganisms present in a biological sample in contact with a culture medium adapted to the growth of said microorganisms, characterized in that it includes the steps of:
| 01-03-2013 |
20130109047 | METHOD OF SAMPLING AND/OR DEPOSITING A SAMPLE OF BIOLOGICAL MATTER AND DEVICE IMPLEMENTING SUCH A METHOD | 05-02-2013 |
20130236883 | PROCESS OF DIRECTLY DETECTING AND IDENTIFYING A MICROORGANISM IN A BIOLOGICAL SAMPLE DILUTED IN AN ENRICHMENT BROTH - The present invention generally relates to the field of analysis for example biological analysis. More specifically, the present invention relates to a process of detecting at least one microorganism present in a sample placed in a closed container, said method comprising essentially the following steps:
| 09-12-2013 |
20140349280 | METHOD FOR DETECTING AND DIRECTLY IDENTIFYING A MICROORGANISM IN A BIOLOGICAL SAMPLE BY AN OPTICAL ROUTE - The present invention relates to the field of analysis, for example biological analysis. Specifically, the invention relates to a method for detecting at least one microorganism present in a sample, the method essentially including the following steps: a) in a first container, bringing the sample into contact with at least one culture medium, b) placing the first container in suitable conditions to permit growth of the microorganism or microorganisms, c) bringing some or all of the mixture being made of the sample and the culture medium into contact with a reaction mixture and a substrate for capturing the microorganism(s) in the first container or in a second container, the reaction mixture having a device for detecting the microorganism(s); d) detecting, within the first or second container, the presence of the microorganism or microorganisms detected by the detecting device and fixed on the capture substrate. | 11-27-2014 |
20150079597 | METHOD FOR CAPTURING AND CONCENTRATING A MICROORGANISM IN A BIOLOGICAL SAMPLE - The present invention relates generally to the field of analysis, for example biological analysis. More specifically, the present invention relates to a method for capturing and concentrating at least one microorganism or at least one protein secreted by a microorganism that may be present in the sample placed in a container, the method including the following steps: a) in the container, bringing the sample into contact with a culture medium and a sponge capable of capturing the microorganism(s) or the protein(s) secreted by at least one microorganism to be detected, functionalized with a binding partner of at least one microorganism or of at least one secreted protein; b) placing the container in suitable conditions allowing growth of the microorganism or microorganisms; and c) repeatedly compressing and decompressing the sponge while it remains in contact with the medium. | 03-19-2015 |
Patent application number | Description | Published |
20100051084 | ROLLABLE PHOTOVOLTAIC COMPOSITE AND A SOLAR PROTECTION DEVICE WITH SUCH A COMPOSITE - The subject matter of this present invention is a rollable photovoltaic composite, used in particular for solar protection, which includes at least one flexible photovoltaic panel and at least one textile panel, on the outside face of which is laminated the said photovoltaic panel by means of a first connecting layer, characterised in that, in the transverse direction to that in which it is to be rolled, and at any level of the photovoltaic panel, it has a thickness that is more-or-less constant, including one or more zones of reduced thickness, the said thickness corresponding to the thickness of the textile panel possibly covered with a film on its inside face, and in that the width is no more than 8 centimetres, so as to eliminate the formation of folds during rolling or in the deployed position. | 03-04-2010 |
20100051100 | PHOTOVOLTAIC WINDABLE COMPOSITE AND SOLAR PROTECTIVE DEVICE COMPRISING SUCH A COMPOSITE - The object of the present invention is a photovoltaic windable composite comprising at least one photovoltaic cell, a textile panel and a bond layer providing a bonding between said at least one photovoltaic cell and said textile panel. Typically, the exterior side of the textile panel comprises at least two electrically conductive areas separated by a non electrically conductive area, and the bond layer comprises at least two electrically conductive areas emerging on the exterior and interior sides of said bond layer and separated by a non conductive area. Both conductive areas of the bond layer are arranged between the photovoltaic cell and the superior side of the textile panel in order that the positive and negative poles said photovoltaic cell are in electrically conductive connection with both conductive areas of the textile panel. | 03-04-2010 |
20120073624 | AWNING TYPE SOLAR PROTECTION DEVICE EQUIPPED WITH AN ELECTRICAL POWER PRODUCTION SYSTEM - The invention relates to an awning type solar protection device equipped with an electrical power production system, the device including a flexible panel, at least one photovoltaic panel arranged on the outer face of the flexible panel, a furling tube onto which the flexible panel is rolled and a system for tensioning the flexible panel during its deployment or its furling. According to the invention, the proximal edge of the flexible panel is fixed to the furling tube by forming around said furling tube a portion which cannot be unrolled. In addition, electrical connection means are arranged in the interior of the furling tube and pass through said furling tube on the portion of the flexible panel which cannot be unrolled, said electrical connection means being hooked up to the at least one photovoltaic panel at the proximal edge of the flexible panel. | 03-29-2012 |
Patent application number | Description | Published |
20100166297 | Method for constructing prototype vectors in real time on the basis of input data of a neural process - The technical field of the invention is that of processing or generating image data, and it more particularly relates to a method for processing images consisting of pixels generated by an image sensor with a view to supplying input data to a simulated or wired neural process. The method is characterized in that it comprises a step of reading pixel-by-pixel in real time by processing means and a step of constructing prototype vectors during the pixel-by-pixel reading process on the basis of the values read, the prototype vectors constituting the input data of the neural process. It is intended for applications in global environmental perception and movement analysis. The method to which the invention relates may also be used for conventional image processing operations such as temporal filtering, and it makes it possible to save on computing time and memory space. | 07-01-2010 |
20110055129 | Process and device for representation of a scanning function - The invention concerns a process for the representation of a scanning function by means of a neuronal network and a device for the implementation of the process, whereby measurement values associated with a turbulent wave front, which contain phase information, are compared with reference values, with the result that the intermediate values thus obtained can be compared with comparison functions, in order, in the best case, to describe the measured pattern with a selection of comparison functions, whereby a neuronal network is trained in the comparison functions, so that the processing of the measured pattern can take place in near-real time. | 03-03-2011 |