Abstract: Systems, methods, and storage media for optimizing automated modelling of resource allocation are disclosed. Exemplary implementations include operations for: receive or retrieve by a computer system, operational information associated with a plurality of users; allocate, by the computer system, at least a first time portion to at least a first task associated with a first user of the plurality of users based on analysis of the operational information; and dynamically modify, by the computer system, the first time portion responsive to receiving or retrieving additional operational information over time.

Abstract: Methods of enhancing corn oil recovery from a bio-refinery using recycled by-products of the process including emulsifiers in the form of emulsions, defatted emulsions, precipitates thereof, and/or dried products thereof.

Abstract: Systems and methods for propagating at least one microorganism expressing one or more enzymes to mitigate mycotoxin contamination at a bioprocessing facility.

Abstract: Systems, methods, and storage media for optimizing automated modelling of resource allocation are disclosed. Exemplary implementations include operations for: receive or retrieve by a computer system, operational information associated with a plurality of users; allocate, by the computer system, at least a first time portion to at least a first task associated with a first user of the plurality of users based on analysis of the operational information; and dynamically modify, by the computer system, the first time portion responsive to receiving or retrieving additional operational information over time.

Abstract: Systems, methods, and storage media for optimizing automated modelling of resource allocation are disclosed. Exemplary implementations include operations for: receive or retrieve by a computer system, operational information associated with a plurality of users; allocate, by the computer system, at least a first time portion to at least a first task associated with a first user of the plurality of users based on analysis of the operational information; and dynamically modify, by the computer system, the first time portion responsive to receiving or retrieving additional operational information over time.

Abstract: A sample processing kit including a centrifugal microfluidic component and a collection component detachably fitted into the microfluidic component is provided. Upon the application of the sample processing kit, target molecules or cells may be separated and collected by the collection component for further experimentation.

Abstract: Systems, methods, and storage media for optimizing automated modelling of resource allocation are disclosed. Exemplary implementations include operations for: receive or retrieve by a computer system, operational information associated with a plurality of users; allocate, by the computer system, at least a first time portion to at least a first task associated with a first user of the plurality of users based on analysis of the operational information; and dynamically modify, by the computer system, the first time portion responsive to receiving or retrieving additional operational information over time.

Abstract: A sample processing kit including a centrifugal microfluidic component and a collection component detachably fitted into the microfluidic component is provided. Upon the application of the sample processing kit, target molecules or cells may be separated and collected by the collection component for further experimentation.

Abstract: Various affinity systems and methods are provided to enable the capture of unique end-to-end purchase information. In some embodiments, the data collected through affinity systems and methods can be used to develop insights into the purchase making decision processes of users at any point of a shopping experience. The systems can host interaction platforms to facilitate the exchange of information, opinion, and/or suggestions on products, recommendations, and/or opinions. Further embodiments provide analysis of the captured data to derive insights regarding the appeal of products/services and the qualitative opinions of the users about the products/services.

Abstract: The invention provides a microfluidic plate for various biological experiments and analyses. The microfluidic plate of the invention comprises one or more unit formed on or in the plate, wherein the unit comprises (a) a chamber; (b) a fluid channel adjacent to the chamber; (c) at least one microfluidic gap region connected between the chamber and the channel and in fluidic communication therewith; and (d) at least one opening located at the channel and connected with the gaps and in fluidic communication with the gaps.

Abstract: This invention provides a centrifugal microfluidic disk and methods for separating targets or cells and collecting the targets or cells in the centrifugal microfluidic disk by using the density gradient.

Abstract: Provided in some embodiments is a social platform for soliciting qualified opinions and facilitating shopping, engaging shoppers, and delivering feedback. The social platform can communicate or integrate with existing sites to provide options for interacting with other qualified users. The platform can improve engagement, and increase social interaction. In some embodiments, affinity/feedback systems are provided that generate feedback for shoppers during their shopping experience. In addition to providing real-time feedback and opinions to shoppers, affinity and feedback systems can be configured to analyze and stored information on a complete purchasing experience. The complete purchasing experience can include, for example, initial identification of interest (e.g.

Abstract: Various affinity systems and methods are provided to enable the capture of unique end-to-end purchase intent information. In some embodiments, the data collected through affinity systems and methods can be used to develop insights into the purchase making decision processes of users at any point of a shopping experience. The systems can host interaction platforms to facilitate the exchange of information, opinion, and/or suggestions on products, recommendations, and/or opinions. Further embodiments provide analysis of the captured data to derive insights regarding the appeal of products/services and the qualitative opinions of the users about the products/services.

Abstract: Various affinity systems and methods are provided to enable the capture of unique end-to-end purchase information. In some embodiments, the data collected through affinity systems and methods can be used to develop insights into the purchase making decision processes of users at any point of a shopping experience. The systems can host interaction platforms to facilitate the exchange of information, opinion, and/or suggestions on products, recommendations, and/or opinions. Further embodiments provide analysis of the captured data to derive insights regarding the appeal of products/services and the qualitative opinions of the users about the products/services.

Abstract: A fluid sample collection device for a disk-based fluid separation system is disclosed. The disk-based separation system includes a compact microfluidic disk with at least one flow channel pattern formed on a side surface of the disk. At least one orifice is formed on an outflow boundary of the disk and is designed in fluid communication with the flow channel pattern through a communication channel. The fluid sample collection device includes at least one collection tube having an open end serving as a fluid receiving end and corresponding to the orifice of the disk with a distance. When the disk is rotated, at least a portion of fluid sample in a sample processing reservoir formed on the disk is delivered by centripetal force through the communication channel and the orifice, and finally the expelling fluid sample is collected in the collection tube.

Abstract: A microscope apparatus is disclosed. The microscope apparatus comprises a microscope module and an image capture device. The microscope module comprises a housing, a lens element, a sampling assembly, and a light guide element. The lens element is mounted on the housing. The sampling assembly is accommodated in the housing. The light guide element is mounted in the sampling assembly. The sampling assembly is configured to sample a specimen and comprises a cover body and a base body received in the cover body. The cover body has a first top plate and a first anchoring structure connected to the top plate. The base body has a second opt plate and a second anchoring structure connected to the second top plate. The second top plate faces the first top plate to define a holding space for the specimen.

Abstract: A fluid sample collection device for a disk-based fluid separation system is disclosed. The disk-based separation system includes a compact microfluidic disk with at least one flow channel pattern formed on a side surface of the disk. At least one orifice is formed on an outflow boundary of the disk and is designed in fluid communication with the flow channel pattern through a communication channel. The fluid sample collection device includes at least one collection tube having an open end serving as a fluid receiving end and corresponding to the orifice of the disk with a distance. When the disk is rotated, at least a portion of fluid sample in a sample processing reservoir formed on the disk is delivered by centripetal force through the communication channel and the orifice, and finally the expelling fluid sample is collected in the collection tube.

Abstract: Disclosed is a method for separating immunomagnetic bead labeled particulates. A carrier board is formed with at least one flow channel structure, which includes an inner reservoir, an outer reservoir, and at least one micro flow channel in communication with the inner reservoir and the outer reservoir. The method includes labeling target particulates with immunomagnetic bead, introducing a sample fluid into the inner reservoir, and applying a magnetic force and a driving force, wherein the driving force drives the particulates not labeled with immunomagnetic bead to flow through the micro flow channel to the outer reservoir, while the magnetic force attracts the particulates labeled with the immunomagnetic bead to retain in the inner reservoir. The driving force may be centrifugal force, pressure, or surface tension.

Abstract: A fluid sample collection device for a disk-based fluid separation system is disclosed. The disk-based separation system includes a compact microfluidic disk with at least one flow channel pattern formed on a side surface of the disk. At least one orifice is formed on an outflow boundary of the disk and is designed in fluid communication with the flow channel pattern through a communication channel. The fluid sample collection device includes at least one collection tube having an open end serving as a fluid receiving end and corresponding to the orifice of the disk with a distance. When the disk is rotated, at least a portion of fluid sample in a sample processing reservoir formed on the disk is delivered by centripetal force through the communication channel and the orifice, and finally the expelling fluid sample is collected in the collection tube.

Abstract: A fluid sample collection device for a disk-based fluid separation system is disclosed. The disk-based separation system includes a compact microfluidic disk with at least one flow channel pattern formed on a side surface of the disk. At least one orifice is formed on an outflow boundary of the disk and is designed in fluid communication with the flow channel pattern through a communication channel. The fluid sample collection device includes at least one collection tube having an open end serving as a fluid receiving end and corresponding to the orifice of the disk with a distance. When the disk is rotated, at least a portion of fluid sample in a sample processing reservoir formed on the disk is delivered by centripetal force through the communication channel and the orifice, and finally the expelling fluid sample is collected in the collection tube.