Patent application number | Description | Published |
20130246148 | METHOD AND SYSTEM FOR PROVIDING CUSTOMERS OF A RETAIL ENTERPRISE WITH EARNABLE REWARDS - A shopper reward server includes a communication module to receive purchase transaction data from a plurality of purchase interfaces of a retail enterprise, a database having stored therein a plurality of shopper purchase histories each including purchase transaction data for item purchases made over time by a different one of a corresponding plurality of shoppers, a transaction module to store purchase transaction data for each shopper in a corresponding shopper purchase history, and a shopper reward module to selectively generate for any of the shoppers at least one earn requirement, based on that shopper's purchase history, that must be satisfied by the shopper via at least one purchase made via any of the purchase interfaces in order to earn a corresponding discount reward redeemable against at least one specified item via any of the purchase interfaces. | 09-19-2013 |
20150194023 | METHODS AND SYSTEM FOR PROCESSING CUSTOMERS THROUGH A POINT-OF-SALE SYSTEM HAVING A MULTIPLE-ITEM PRICE SCANNING APPARATUS - A system for processing customers of a retail establishment through a point-of-sale system at which multiple items can be simultaneously scanned for purchase may include a conveyance path to transport items for purchase from the retail establishment, a multiple-item scanner to substantially simultaneously price scan multiple items grouped together on the conveyance path as the conveyance path transports the multiple items thereby, a plurality of separate item collection areas coupled to the conveyance path, each of the plurality of item collection areas configured to selectively receive items from the conveyance path after price scanning by the multiple-item scanner, and a plurality of customer payment interfaces each positioned at a different one of the plurality of item collection areas and each configured to process customer payment for purchase of items routed only to the one of the plurality of item collection areas at which that customer payment station is positioned. | 07-09-2015 |
20150242969 | SYSTEM AND METHOD FOR WIRELESSLY ACTIVATING AN ELECTROMECHANICALLY CONTROLLED FUEL DISPENSER - A system and method are provided for remotely activating electromechanically controlled fuel dispensers. Each fuel dispenser is associated in a database with a unique identification code, and a first code is associated with an electronic payment system pre-identified by a fuel purchasing customer for automatic payment processing during fuel purchase transactions. In response to a wirelessly received identification code, the fuel dispenser associated in the database with the identification code that matches the wirelessly received identification code is identified, the identified fuel dispenser is activated to an active state in which the identified fuel dispenser is enabled to dispense fuel if the first code in the database matches a wirelessly received second code, and payment for the purchase of fuel dispensed from the identified fuel dispenser is automatically processed following activation thereof using the pre-identified electronic payment system associated with the first code in the database. | 08-27-2015 |
Patent application number | Description | Published |
20110275055 | THERMAL UNIFORMITY FOR THERMAL CYCLER INSTRUMENTATION USING DYNAMIC CONTROL - A method for performing polymerase chain reactions (PCR) for improving thermal non-uniformity is provided. The method includes measuring a first temperature, by a first sensor, of a first sample block sector of a sample block and measuring a second temperature, by a second sensor, of a second sample block sector of the sample block that is adjacent to the first sample block sector. The method further includes calculating, by a thermoelectric controller, a difference in temperature between the first temperature and the second temperature and adjusting, by the thermoelectric controller, the first temperature of the first sample block sector based on the difference in temperature by using one or more thermoelectric coolers. The one or more thermoelectric coolers is configured to heat or cool the first sample block sector by adjusting power output from the thermoelectric controller. | 11-10-2011 |
20140248623 | System and Method for Determining Copies-per-Unit-Volume Using PCR and Flow Control of Droplets - Methods and systems for quantification of a target nucleic acid in a sample are provided. The method includes forming a plurality of discrete sample portions. Each of the plurality of discrete sample portions comprising a portion of the sample, and a reaction mixture. The method further includes amplifying the plurality of discrete sample portions to form a plurality of discrete processed sample portions. At least one discrete processed sample portion containing nucleic acid amplification reaction products. Fluorescence signals are detected from the at least one of the plurality of discrete processed sample portions to determine a presence of the at least one target nucleic acid. The method also includes determining the respective volumes of the plurality of the plurality of discrete processed sample portions, and estimating the number of copies-per-unit-volume of the at least one target nucleic acid in the sample. Estimating the number of copies-per-unit-volume is based on the number of discrete processed sample portions determined to contain the at least one target nucleic acid therein. | 09-04-2014 |
20150044686 | Systems and Methods for Containing Biological Samples - An article for holding a plurality of biological samples includes a substrate a substrate comprising a first surface and an opposing second surface and a plurality of reaction sites in the substrate. Each of the reaction sites extends from an opening in the first surface to an opening in the second surface. The reaction sites comprise a hexagonal shape and are configured to provide sufficient surface tension by capillary action to hold respective biological samples. The reaction sites have a density over at least a portion of the surfaces that is at least 170 holes per square millimeter. At least one of the surfaces may have a surface roughness characterized by an arithmetic average roughness (Ra) that is less than or equal to 5 nanometers. | 02-12-2015 |
Patent application number | Description | Published |
20080285879 | Methods, Software, and Apparatus for Focusing an Optical System Using Computer Image Analysis - Methods, software, and apparatus for focusing an image in biological instrument are disclosed. Focusing elements are moved to various focus positions within a focus element travel range, and sample images are captured at the various focus positions. The sample images are resolved into subregions and an optimal focus position is determined based on the image intensity statistical dispersions within the identified subregions. | 11-20-2008 |
20090143244 | System and apparatus for sequential processing of analytes - An apparatus and system are provided for simultaneously analyzing a plurality of analytes anchored to microparticles. Microparticles each having a uniform population of a single kind of analyte attached are disposed as a substantially immobilized planar array inside of a flow chamber where steps of an analytical process are carried out by delivering a sequence of processing reagents to the microparticles by a fluidic system under microprocessor control. In response to such process steps, an optical signal is generated at the surface of each microparticle which is characteristic of the interaction between the analyte carried by the microparticle and the delivered processing reagent. The plurality of analytes are simultaneously analyzed by collecting and recording images of the optical signals generated by all the microparticles in the planar array. A key feature of the invention is the correlation of the sequence of optical signals generated by each microparticle in the planar array during the analytical process. | 06-04-2009 |
20130184162 | SYSTEM AND APPARATUS FOR SEQUENTIAL PROCESSING OF ANALYTES - An apparatus and system are provided for simultaneously analyzing a plurality of analytes anchored to microparticles. Microparticles each having a uniform population of a single kind of analyte attached are disposed as a substantially immobilized planar array inside of a flow chamber where steps of an analytical process are carried out by delivering a sequence of processing reagents to the microparticles by a fluidic system under microprocessor control. In response to such process steps, an optical signal is generated at the surface of each microparticle which is characteristic of the interaction between the analyte carried by the microparticle and the delivered processing reagent. The plurality of analytes are simultaneously analyzed by collecting and recording images of the optical signals generated by all the microparticles in the planar array. A key feature of the invention is the correlation of the sequence of optical signals generated by each microparticle in the planar array during the analytical process. | 07-18-2013 |
20140203169 | Flat-Field Imaging System and Methods of Use - A method of aligning a plurality of targets is provided. The method includes generating a plurality of targets. A third phase includes the plurality of targets. The method further includes combining a first phase, a second phase, and the third phase in a volume. The first phase, the second phase, and the third phase are substantially immiscible, and the third phase is in fluid communication with the first phase and the second phase, and the first phase, the second phase, and the third phase are operable to be in a configuration of the third phase between the first phase and the second phase in the volume. | 07-24-2014 |
20140213464 | SYSTEM AND APPARATUS FOR SEQUENTIAL PROCESSING OF ANALYTES - An apparatus and system are provided for simultaneously analyzing a plurality of analytes anchored to microparticles. Microparticles each having a uniform population of a single kind of analyte attached are disposed as a substantially immobilized planar array inside of a flow chamber where steps of an analytical process are carried out by delivering a sequence of processing reagents to the microparticles by a fluidic system under microprocessor control. In response to such process steps, an optical signal is generated at the surface of each microparticle which is characteristic of the interaction between the analyte carried by the microparticle and the delivered processing reagent. The plurality of analytes are simultaneously analyzed by collecting and recording images of the optical signals generated by all the microparticles in the planar array. A key feature of the invention is the correlation of the sequence of optical signals generated by each microparticle in the planar array during the analytical process. | 07-31-2014 |
20150051118 | Coated Substrate for Biological Reaction Systems - An apparatus for biological reactions is provided. The apparatus includes a substrate and a plurality of reaction sites within the substrate. A surface of the substrate is configured to have a first hydrophilicity and each surface of the plurality of reaction sites is configured to have a second hydrophilicity to load a substantial number of reaction sites with a sample volume. The sample volume of each loaded reaction site is substantially confined to its respective reaction site. The sample volume is configured to undergo a biological reaction within the reaction site. | 02-19-2015 |
20150072897 | Systems and Methods for Loading Liquid Samples - A sample loader for loading a liquid sample into a plurality of reaction sites within a substrate is provided. The sample loader includes a first blade, and a second blade coupled to the first blade. The sample loader further comprises a flow path between the first blade and second blade configured to dispense a liquid sample to a substrate including a plurality of reaction sites. Further, in various embodiments the liquid sample has an advancing contact angle of 85+/−15 degrees with the first and second blade. Furthermore, loading of the liquid sample dispensed from the flow path to the plurality of reaction sites may be based on capillary action. | 03-12-2015 |
20150080247 | Systems and Methods for Biological Analysis - A system for performing biological reactions is provided. The system includes a chip including a substrate and a plurality of reaction sites. The plurality of reaction sites are each configured to include a liquid sample of at most one nanoliter. Further, the system includes a control system configured to initiate biological reactions within the liquid samples. The system further includes a detection system configured to detect biological reactions on the chip. According to various embodiments, the chip includes at least 20000 reaction sites. In other embodiments, the chip includes at least 30000 reaction sites. | 03-19-2015 |