| HORIBA ABX SAS Patent applications |
| Patent application number | Title | Published |
|---|
| 20110167029 | METHOD AND DEVICE FOR CLASSIFYING, DISPLAYING AND EXPLORING BIOLOGICAL DATA - The invention provides a method for use in an automated biological liquid analysis machine that measures at least four physical parameters for each cell detected, the method both performing classification, by discrimination and enumeration, into a set of at least three cell classes and also representing them. In this method, the following are stored and executed as required: mathematical transformations for transforming a plurality of n-tuples into m-tuples, m| 07-07-2011 | |
| 20110089340 | ELECTROOPTIC MEASUREMENT DEVICE AND METHOD INTENDED FOR CLASSIFYING AND COUNTING MICROSCOPIC ELEMENTS - The invention relaters to a device ( | 04-21-2011 |
| 20100062521 | PACKAGING DEVICE FOR BIOLOGICAL ANALYSIS - A subject of the invention is a packaging device for automated biological analyses, characterized in that it comprises the sample(s) to be analyzed, reagent(s), and the information necessary to carry out one (or more) analyse(s) of a sample of biological liquid and a location intended to receive the waste products from the analysis and optionally to treat them. | 03-11-2010 |
| 20090142844 | Automatic Method of Preparing Samples of Total Blood For Analysis, and an Automatic Device For Implementing the Method - The present invention relates to a method of preparing analyses of total blood samples and to a device that is useful for implementing the method, said samples being conserved in tubes including at least one identification means for identifying the sample, the device comprising:
| 06-04-2009 |
| 20080283754 | Device and Method for Multiparametric Analysis of Microscopic Elements - The invention concerns a device (DA) for analyzing microscopic elements, comprising firstly a measuring space (CM) for microscopic elements to be analyzed, secondly at least one source (S) delivering conjugated rays at the measuring space (CM), having at least two different analyzing wavelengths and designed to interact with the microscopic elements in the measuring space (CM) to form interacting rays, thirdly coding means (M) for encoding the rays upstream of the measuring space (CM) with different codes, fourthly optical filtering means (FO) for selectively filtering the interacting rays of fluorescence and/or diffusion depending on their wavelength, fifthly detecting means (DE, DF) for transforming into electric signals part at least of the interacting rays from the measuring space (CM), and sixthly analyzing means (MA) including decoding means (DRE, DRF) for decoding the electric signals to enable data representing the analyzed microscopic elements to be determined. | 11-20-2008 |
