Crocoll

Christoph Crocoll, Jena DE

Patent application number	Description	Published
20110225682	POLYNUCLEOTIDES ENCODING CARYOPHYLLENE SYNTHASE AND USES THEREOF - Described are polynucleotides encoding a caryophyllene synthase. Also described are recombinant nucleic acid molecules and vectors comprising said polynucleotide as well as to host cells genetically engineered with said polynucleotides. Further described are caryophyllene synthase polypeptides encoded by said polynucleotides as well as binding molecules specifically recognizing said polypeptide. Additionally, described are transgenic plant cells, plant tissues and plants genetically engineered with the caryophyllene synthase-encoding polynucleotide, corresponding methods for the production of said transgenic plant cells, plant tissues and plants and corresponding uses and methods using said polynucleotide for establishing or enhancing resistance against a herbivore, preferably a root-damaging insect in plants, particularly resistance against the corn rootworm in maize plants.	09-15-2011

Patent application number	Description	Published
20110180657	TWO-MOTION WING-FOLD MECHANISM WITH INDEPENDENT LOAD PATH - An aircraft wing folding system folds an outboard wing section relative to an inboard wing section between a deployed position and a stored position in two discrete motions where each motion has an independent load path separate of the loading of the wing experienced by in-flight aerodynamic forces. The wing-fold mechanism of the present invention includes a fold assembly comprising a twist component and a fold component operable to fold the outboard wing section from the deployed position to the stored position that remains substantially unloaded with respect to in-flight aerodynamic forces when the wing is in the deployed or flight configuration.	07-28-2011

Patent application number	Description	Published
20100268519	Simulation Cache to Expedite Complex Modeling and Simulation Processes - A method is provided for determining optimum positions in a region for a plurality of sensors that are capable of detecting occurrence of a hazard in the region. The hazard may be a chemical, biological, and/or radiological hazard in solid, liquid or gas form. A “simulation cache” is provided that stores data representing interaction of the hazard with sensors at each of the plurality of candidate locations in the region for each of the plurality of sensor types. Data is then retrieved from the simulation cache as needed for evaluation a particular candidate sensor solution comprising one or more sensors of one or more sensor types at corresponding ones of the candidate locations. An optimization algorithm may be used to select a candidate sensor solution. The data that is retrieved from the simulation cache for a selected candidate sensor solution is evaluated with respect to certain performance criteria. The simulation cache greatly reduces the time required to generate an optimum sensor layout because it separates the hazard modeling and sensor performance modeling from the optimization algorithm. By capturing this data at one time for storage in the simulation cache, it is not necessary to re-run the hazard simulations for each candidate sensor location generated by the optimization algorithm.	10-21-2010