Abstract: A cover (1) for a pressure relief valve assembly (2) of a vehicle, wherein the cover (1) comprises a base body (19) made of a sound-absorbing material which is uniform in terms of the material composition, wherein the base body as such is designed to be self-supporting and is in particular connectable to an edge region (4) of a pressure relief valve assembly (2).

Abstract: A cover (1) for a pressure relief valve assembly (2) of a vehicle, wherein the cover (1) comprises a base body (19) made of a sound-absorbing material which is uniform in terms of the material composition, wherein the base body as such is designed to be self-supporting and is in particular connectable to an edge region (4) of a pressure relief valve assembly (2).

Abstract: An interior component of a vehicle includes a basic body (10) on which there is arranged a decorative element (14) which is produced in an extrusion process and which has a different surface nature than the basic body (10).

Abstract: Methods for optimizing energy savings and reducing cycle time for mutating an industrial robotic path when a collision is detected. A method includes initializing a plurality of clone paths where a collision was detected, wherein a clone path is a clone of the initial path and the initial path comprises a source location, a plurality of intermediate locations, and a target location; for each clone path, determining a candidate path to store in a population, determining an optimal breed comprising the candidate path with an optimal rating, wherein the optimal rating is determined by the lowest breed rating in the population, and returning the optimal breed.

Abstract: Various disclosed embodiments include methods, systems, and computer-readable media for identifying a motion path for an industrial robot. According to one embodiment, a method includes identifying a plurality of points at which at least one component of the industrial robot is positioned during performance of a task. The identified points include at least a starting point and an ending point of the component for performing the task. The method also includes generating one or more motion paths for the industrial robot to perform the task based on the identified points. The method further includes identifying and predicting energy consumption by the industrial robot for the one or more generated motion paths. The method also includes selecting the motion path for the industrial robot based on the identified energy consumption. Additionally, the method includes storing information about the energy consumption by the industrial robot for the selected motion path.

Abstract: A method for the prediction of hybrid traits in plants and animals, wherein sRNA molecules which are associated with a hybrid trait are identified and parent lines which are suitable for the production of hybrids are analyzed for the level of an expression of the identified sRNA molecules. The invention allows the selection of suitable organisms for the production of plant and animal hybrids having an increased hybrid vigor respectively heterosis for one or more hybrid traits, such as yield, fertility, stress resistance, etc.

Abstract: Methods for optimizing energy savings and reducing cycle time for mutating an industrial robotic path when a collision is detected. A method includes initializing a plurality of clone paths where a collision was detected, wherein a clone path is a clone of the initial path and the initial path comprises a source location, a plurality of intermediate locations, and a target location; for each clone path, determining a candidate path to store in a population, determining an optimal breed comprising the candidate path with an optimal rating, wherein the optimal rating is determined by the lowest breed rating in the population, and returning the optimal breed.

Abstract: Various disclosed embodiments include methods, systems, and computer-readable media for identifying a motion path for an industrial robot. According to one embodiment, a method includes identifying a plurality of points at which at least one component of the industrial robot is positioned during performance of a task. The identified points include at least a starting point and an ending point of the component for performing the task. The method also includes generating one or more motion paths for the industrial robot to perform the task based on the identified points. The method further includes identifying and predicting energy consumption by the industrial robot for the one or more generated motion paths. The method also includes selecting the motion path for the industrial robot based on the identified energy consumption. Additionally, the method includes storing information about the energy consumption by the industrial robot for the selected motion path.