Patent application number | Description | Published |
20090006472 | Automatic Designation of XBRL Taxonomy Tags - The embodiments described herein generally relate to new and alternate systems and methods to associate XBRL tags with financial data. A business user creates a design template that can be used one or more times to create an instance of an XBRL document. A user can select a user interface element to have a system automatically map the XBRL taxonomy tags with portions of financial information. Upon selecting the user interface element, the system determines the best matches for the financial information and the XBRL taxonomy. The matches are recorded or stored in the design template. | 01-01-2009 |
20100121883 | REPORTING LANGUAGE FILTERING AND MAPPING TO DIMENSIONAL CONCEPTS - Architecture that translates a complex dimensional hierarchy (e.g., XBRL) into an understandable member picker which removes the complexities that the user would otherwise have to face. Using a building block metaphor, the architecture provides element and dimension tagging. The building blocks can include rows, columns, and optional trees. Building blocks are selected and grouped into a report definition, which definition is utilized to retrieve and process basis data into fact data in the final reports. The reporter mechanism removes the complexities in both the XBRL standard and XML, and ensures that the user associates the information appropriately within the report definition. The architecture extends the building block metaphor to include dimension tagging. A portion of the information from each building block is used to produce a fully qualified dimension context and logical validation is performed to ensure accuracy. | 05-13-2010 |
20100121888 | AUTOMATIC DESIGNATION OF FOOTNOTES TO FACT DATA - Architecture where footnotes can be tied directly to fact data on a line-by-line basis, for example, and presented to a consumer of the data in a desired language. A reporter mechanism is provided for associating footnotes to fact data at report preparation time. Using a report/building block metaphor, the architecture provides the ability to tie footnotes to one or many fact data. In the context of financial data, building blocks are rows (which usually define account information), columns (which usually define book codes and reporting periods) and optional trees (which define departmental structure for a report). Once the footnote or multiple footnotes are associated with a building block or logical operations on building blocks (e.g., intersection), the footnotes are also auto-generated for each report, and at the desired block locations. Moreover, the user can select one or more languages in which to present the footnotes. | 05-13-2010 |
Patent application number | Description | Published |
20150265985 | MIXING CONTAINER AND MIXING SYSTEM - A mixing container has a wall enclosing a mixing volume, an anchor fixed at the wall of the mixing container inside the mixing volume, and at least one mixing plate movably mounted to the anchor to allow a relative movement of the at least one mixing plate along a stir direction perpendicular to the extension of the mixing plate. Each of the at least one mixing plates is provided with at least one magnet. | 09-24-2015 |
20150265986 | SYSTEM, CONTAINER, DEVICE, AND METHOD FOR MIXING - A system for mixing content of a container comprises a container includes an interior mixing element, an exterior drive system and a mixing device comprising an exterior bearing for coupling the exterior drive system to the interior mixing element of the container. The exterior bearing provides a driven non-rotating, nutating motion that drives the interior mixing element of the container so that it performs a mixing motion inside the container. | 09-24-2015 |
20160073626 | SYSTEMS AND METHODS FOR FREEZING, STORING AND THAWING BIOPHARMACEUTICAL MATERIALS - A system for using freezing, storing and thawing biopharmaceutical materials which includes a holder and a container for holding biopharmaceutical materials therein. The holder has a cavity and the container is received in the cavity. The holder includes a first portion and second portion. The container is received between the first portion and the second portion to connect the container to the holder. The holder includes an interior cradle having a bottom and edges extending from the bottom. The cradle bounds the cavity. An outer rim is connected to the cradle and separated from the cavity. The bottom includes an inner surface facing the cavity receiving the container and an outer surface. The outer surface of the bottom is recessed relative to an outer surface of the outer rim. | 03-17-2016 |
Patent application number | Description | Published |
20090158755 | SYSTEMS AND METHODS FOR FREEZING, STORING AND THAWING BIOPHARMACEUTICAL MATERIALS - A system for using freezing, storing and thawing biopharmaceutical materials which includes a holder and a container for holding biopharmaceutical materials therein. The holder has a cavity and the container is received in the cavity. The holder includes a first portion and second portion. The container is received between the first portion and the second portion to connect the container to the holder. The holder includes an interior cradle having a bottom and edges extending from the bottom. The cradle bounds the cavity. An outer rim is connected to the cradle and separated from the cavity. The bottom includes an inner surface facing the cavity receiving the container and an outer surface. The outer surface of the bottom is recessed relative to an outer surface of the outer rim. | 06-25-2009 |
20100072216 | SYSTEMS AND METHODS FOR FREEZING, STORING AND THAWING BIOPHARMACEUTICAL MATERIALS - A system for use in storing biopharmaceutical materials includes a holder and a container for holding biopharmaceutical materials therein. The container includes a storage portion and a sampling portion connected to each other by a connecting portion. The holder has a storage cavity receiving the storage portion and a sampling cavity receiving the sampling portion. The holder includes a first portion and second portion. The container is received between the first portion and the second portion to connect the container to the holder. The holder includes an interior storage cradle bounding the storage cavity of the holder. The holder includes an interior sampling cradle bounding the sampling cavity. The sampling cradle is separated from the storage cradle and connected to the storage cradle by a passage receiving the connecting portion connecting the storage portion to the sampling portion. An outer rim of the holder is connected to the cradle and separated from the cavity. | 03-25-2010 |
20110120151 | SYSTEMS AND METHODS FOR USE IN FREEZING, THAWING, AND STORING BIOPHARMACEUTICAL MATERIALS - A system for use in freezing, thawing, transporting or storing biopharmaceutical materials which includes a container, a holder and plurality of heat transfer members. The container is configured to hold biopharmaceutical materials therein. The holder has a cavity for receiving the container and includes an interior surface bounding the cavity. A plurality of pockets contact outer surfaces of the container and is received in the cavity. Each pocket of the plurality of pockets includes a pocket cavity. A heat transfer member actively controls the temperature of biopharmaceutical materials held in the container and is received in the pocket cavity. | 05-26-2011 |
20110120667 | SYSTEMS AND METHODS FOR USE IN FREEZING, THAWING, AND STORING BIOPHARMACEUTICAL MATERIALS - A system for use in freezing, thawing, transporting or storing biopharmaceutical materials which includes a container, a holder and plurality of heat transfer members. The container is configured to hold biopharmaceutical materials therein. The holder has a cavity for receiving the container and includes an interior surface bounding the cavity. A plurality of pockets contact outer surfaces of the container and is received in the cavity. Each pocket of the plurality of pockets includes a pocket cavity. A heat transfer member actively controls the temperature of biopharmaceutical materials held in the container and is received in the pocket cavity. | 05-26-2011 |
20110247349 | SYSTEMS AND METHODS FOR FREEZING, STORING AND THAWING BIOPHARMACEUTICAL MATERIALS - A system for using freezing, storing and thawing biopharmaceutical materials which includes a holder and a container for holding biopharmaceutical materials therein. The holder has a cavity and the container is received in the cavity. The holder includes a first portion and second portion. The container is received between the first portion and the second portion to connect the container to the holder. The holder includes an interior cradle having a bottom and edges extending from the bottom. The cradle bounds the cavity. An outer rim is connected to the cradle and separated from the cavity. The bottom includes an inner surface facing the cavity receiving the container and an outer surface. The outer surface of the bottom is recessed relative to an outer surface of the outer rim. | 10-13-2011 |
20120073312 | SYSTEMS AND METHODS FOR USE IN FREEZING OR THAWING BIOPHARMACEUTICAL MATERIALS - A system for use in freezing or thawing a biopharmaceutical material includes a container means and a support member. The container means has a receiving cavity receiving the biopharmaceutical material therein. The support member is connected to and supported by the container means. A transmitter is configured to propagate an ultrasonic pulse into the biopharmaceutical material and is located in a support member cavity of the support member. An ultrasonic sensor is configured to sense a reflection of the pulse in the biopharmaceutical material and is located in the support member cavity. A controller is coupled to the transmitter and the sensor. The controller is configured to determine a phase change of the biopharmaceutical material based on the propagation of the pulse by the transmitter and the sense of the reflection by the sensor. | 03-29-2012 |
20120199614 | SYSTEMS AND METHODS FOR USE IN STORING BIOPHARMACEUTICAL MATERIALS - A system for storing biopharmaceutical materials includes a plurality of flexible walls bounding an interior for holding biopharmaceutical materials therein. At least one port is connected to a first wall of the walls and provides fluid communication between the interior and an exterior to allow a draining of the interior. A collapsible conduit includes a plurality of perforations along the conduit. The plurality of perforations is configured to allow flow of the biopharmaceutical materials from the exterior to the interior of the conduit. The conduit has a cross-sectional area transverse to a length of the conduit and the conduit extends from one of the at least one port toward an opposite end of the interior. The conduit is collapsible by the flexible walls and forms a reduced cross-sectional area to allow a flow of the biopharmaceutical materials through and/or along the conduit to the port. | 08-09-2012 |