An embodiment of the invention relates to systems and methods for detecting the orientation of sample carriers using two or more RFID tags. One or two dimensional matrix of equally spaced RFID reader antennas may be positioned beneath or within an area on which racks are placed. The first RFID tag defines the origin of the sample carrier and its geometry. The second and additional RFID tags define the orientations of the sample carrier relative to the matrix of the RFID reader antennas. At least two of the tag antennas on the rack align uniquely with two antennas on the reader matrix. The system energizes each reader antenna and associates the RFID tags aligned with them to the RFID reader antenna's physical position.

Disclosed herein is a system and computer implemented method for detecting extraordinary demand of a consumable(s) for processing biological samples by laboratory instrument(s) in a plurality of laboratories based on exceptional deviations from usual demand levels of trigger laboratories in the proximity of a target laboratory.

The present invention relates to devices and methods for measuring the quantity of multiple analytes in a sample. The device is designed such that each of the analyte sensing elements is configured to measure the quantity of a predetermined analyte and where the machine executable instructions are configured to select the proper analyte sensing element corresponding to the analyte to be measured.

An automatic sample preparation system is disclosed. The automatic sample preparation system integrates sample pretreatment, extraction, quantitation, and solution preparation into one system. A replacement of manual operations with an automatic system can reduce time and labor costs, reduce human errors, and reduce contamination risk.

A specimen collection assembly and method for detecting the same are disclosed. The specimen collection assembly includes a specimen collection container having an open top end, a closed bottom end, and a sidewall extending therebetween defining an interior adapted to receive a biological specimen. The specimen collection container also includes first indicia containing information. The assembly further includes a cap having thereon second indicia, the cap being removably engagable with the open top end of the container. The second indicia contains the same information as the first indicia.

The present invention is directed generally to devices and methods for manipulating laboratory pipettes in a programmable manner. The present invention is directed to an apparatus and methods for allowing a user to instruct the device to perform a specific process; identifying the type, location and identity of the consumables to be used; manipulating a plurality of pipettes for performing the liquid handling; monitoring the process during and after its execution; generating a detailed report for the plurality of actions. Other aspects of this invention include optimization of the liquid dispensing performances of a pipette; monitoring and controlling individual actions by means of vision; virtualization of the protocol definition by means of a reality augmented software interface; integration of the system in a conventional laboratory environment workflow.

A control device for wireless tags which are respectively attached to a plurality of articles supported respectively on a plurality of support portions and respectively store identification numbers of the articles, includes positioning portions that are respectively provided corresponding to the plurality of support portions, and input devices that are positioned respectively in the positioning portions. The input devices are individually controllable and each is configured to switch a flag status of one of the wireless tags.

An in-vitro diagnostic apparatus includes a loading unit which receives a test medium including a test object; a first clock including first time information that is set as a standard clock time and used to determine whether an expiration date of the test medium has passed; a second clock including second time information that can be set as an arbitrary time; a sensor which acquires the expiration date of the test medium; a controller which determines whether the expiration date of the test medium has passed, based on the first time information; and an analyzer which analyzes the test object based on the second time information when it is determined that the expiration date of the test medium has not yet passed.

A sample analyzer including: a first reagent container holding unit; a second reagent container holding unit being arranged on one side of the first reagent container holding portion; a reagent information reading unit; and a control unit. The reagent information reading unit includes an electric wave emitting portion, which is arranged on the other side of the first reagent container holding unit, for emitting a plurality of electric waves having mutually differing reaching ranges, and the control unit controls the reagent information reading unit to switch the electric wave emitted from the electric wave emitting portion in accordance with a read target being the first electronic tag or the second electronic tag.

An embodiment of the invention relates to systems and methods for detecting the orientation of sample carriers using two or more RFID tags. One or two dimensional matrix of equally spaced RFID reader antennas may be positioned beneath or within an area on which racks are placed. The first RFID tag defines the origin of the sample carrier and its geometry. The second and additional RFID tags define the orientations of the sample carrier relative to the matrix of the RFID reader antennas. At least two of the tag antennas on the rack align uniquely with two antennas on the reader matrix. The system energizes each reader antenna and associates the RFID tags aligned with them to the RFID reader antenna's physical position.