Abstract: A method of implementing administrative services for a compensation platform is disclosed. One or more interactive compensation representation views are generated based on an evaluation of mapping rules against a flexible ontology and current data state, the flexible ontology comprising customizable compensation components, relationships, and properties. One or more compensation representation views are dynamically updated in real-time in response to changes in compensation data, user context, or access permissions without requiring manual regeneration of the one or more compensation representations. The one or more interactive compensation representation views include a user interface element displayed in response to a user selection of compensation data, wherein the user interface element provides direct access to compensation information relevant to the selected compensation data without requiring a change to another screen or another user context.

Abstract: A method of generating customizable goal representation is disclosed. A request from a user to view a goal representation is received. A flexible goal ontology is accessed that comprises one or more goal entities, one or more goal relationships between the goal entities, or one or more goal properties, the one or more goal properties including one or more metadata attributes relating to the one or more goal entities. A set of mapping rules is obtained that defines mappings between one or more goals. The set of mapping rules is evaluated to assemble a customized goal representation tailored to the user. The customized goal representation is updated based on a revaluation of the mapping rules affected by changes to the one or more goal entities, the one or more goal relationships, or the one or more properties.

Abstract: Disclosed is a system and method for performing measurements on a biological subject, and in one particular example, to performing measurements of analytes in a biological subject by breaching a functional barrier of the subject using microstructures, wherein the one or more microstructures include an aptamer for binding one or more analytes.

Abstract: A nanocomposite coating composition for use in the mitigation of whisker growth from a metallic surface (82) includes a polymer matrix (86) comprising a base polymer and insulating material nanoplatelets (85), for example clay nanoplatelets, within the polymer matrix (86). A conformal coating (84) for application to a metal surface (82) is formed from the coating composition. The conformal coating mitigates the spontaneous growth of whiskers (83), in particular tin whiskers, from the coated surface (82), reducing the risk of short-circuits caused by such whiskers bridging gaps within electronic devices. Methods are provided for the preparation of coating compositions and coatings.

Abstract: Exemplary embodiments of the present disclosure are related to a distributed system in which wearable devices communicate with computing systems to implement one or more actions or operations and sensor data transmitted by the wearable devices to the computing systems can be utilized to determine information about tasks being performed by the wearers of the wearable devices after consent is given and verified. Embodiments of the distributed system can include the wearable devices, wireless receivers (or transceivers), and a computing system.

Abstract: Exemplary embodiments of the present disclosure are related to a distributed system in which wearable devices communicate with computing systems to implement one or more actions or operations and sensor data transmitted by the wearable devices to the computing systems can be utilized to determine information about tasks being performed by the wearers of the wearable devices after consent is given and verified. Embodiments of the distributed system can include the wearable devices, wireless receivers (or transceivers), and a computing system.

Abstract: Exemplary embodiments of the present disclosure are related to a distributed system in which wearable devices communicate with computing systems to implement one or more actions or operations and sensor data transmitted by the wearable devices to the computing systems can be utilized to determine information about tasks being performed by the wearers of the wearable devices. Embodiments of the distributed system can include the wearable devices, wireless receivers (or transceivers), and a computing system.

Abstract: A nanocomposite coating composition for use in the mitigation of whisker growth from a metallic surface (82) includes a polymer matrix (86) comprising a base polymer and insulating material nanoplatelets (85), for example clay nanoplatelets, within the polymer matrix (86). A conformal coating (84) for application to a metal surface (82) is formed from the coating composition. The conformal coating mitigates the spontaneous growth of whiskers (83), in particular tin whiskers, from the coated surface (82), reducing the risk of short-circuits caused by such whiskers bridging gaps within electronic devices. Methods are provided for the preparation of coating compositions and coatings.

Abstract: The present invention relates to methods comprising applying to a useful plant, the locus thereof or propagation material thereof a combination of abscisic acid and a fungicidally active compound, which fungicidally active compound is a succinate dehydrogenase inhibitor, in particular for increasing the potency of a fungicidally active compound. The invention also relates to compositions comprising abscisic acid and the fungicidally active compounds as well as seeds comprising the combinations.

Abstract: The present invention relates to methods comprising applying to a useful plant, the locus thereof or propagation material thereof a combination of abscisic acid and a fungicidally active compound, which fungicidally active compound is a succinate dehydrogenase inhibitor, in particular for increasing the potency of a fungicidally active compound. The invention also relates to compositions comprising abscisic acid and the fungicidally active compounds as well as seeds comprising the combinations.

Abstract: The invention provides a pharmaceutical composition that can be used for an efficient administration of a water-soluble polymer drug by a method other than injection, and a method for production of the pharmaceutical composition. The pharmaceutical composition contains a small particle comprised of (a) a water-soluble drug and (b) a pharmaceutically acceptable ionic crystalline compound which is solid at room temperature, wherein the ionic crystalline compound is crystallized in the small particle.

Abstract: The invention provides a pharmaceutical composition that can be used for efficient administration of low-molecular weight drugs and polymeric compounds such as peptides and proteins by methods other than injection, as well as a method for producing the composition. The pharmaceutical composition is for transmucosal administration and comprises (a) a drug having a positive or negative charge at a predetermined pH, (b) a pharmaceutically acceptable small particle and (c) a pharmaceutically acceptable surface-coating polymer capable of being electrically charged at the pH, wherein the surface of the small particle is coated by the surface-coating polymer, the drug is immobilized on the surface of the small particle via the surface-coating polymer, and a complex is formed by a noncovalent interaction between the small particle and the surface-coating polymer and a concurrent electrostatic interaction between the surface-coating polymer and the drug.