DEVICE AND COMPUTER-IMPLEMENTED METHOD FOR CARRYING OUT AN EXPERIMENT USING A TECHNICAL SYSTEM OR USING A MODEL OF A TECHNICAL SYSTEM

Organization Name

Robert Bosch GmbH

Inventor(s)

Martin Schiegg of Korntal-Muenchingen (DE)

Sebastian Gerwinn of Leonberg (DE)

DEVICE AND COMPUTER-IMPLEMENTED METHOD FOR CARRYING OUT AN EXPERIMENT USING A TECHNICAL SYSTEM OR USING A MODEL OF A TECHNICAL SYSTEM - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240012962 titled 'DEVICE AND COMPUTER-IMPLEMENTED METHOD FOR CARRYING OUT AN EXPERIMENT USING A TECHNICAL SYSTEM OR USING A MODEL OF A TECHNICAL SYSTEM

Simplified Explanation

The patent application describes a device and method for conducting experiments using a technical system or a model of a technical system. The method involves using a predefined set of input data points for the experiment and determining a second set of input data points as a function of the first set. A substitute model for the technical system is configured to predict the result of the experiment based on the second set of input data points.

• The invention is a device and method for conducting experiments using a technical system or a model of a technical system.
• The method involves using a predefined set of input data points for the experiment.
• A second set of input data points is determined as a function of the first set of input data points.
• A substitute model for the technical system is configured to predict the result of the experiment based on the second set of input data points.

Potential applications of this technology:

• Scientific research: This technology can be used in scientific research to conduct experiments and make predictions about the results.
• Engineering design: Engineers can use this technology to simulate and predict the performance of technical systems before building them.
• Quality control: This technology can be used in manufacturing processes to predict the outcome of experiments and ensure product quality.

Problems solved by this technology:

• Cost and time efficiency: By using a substitute model and predefined input data points, experiments can be conducted more quickly and at a lower cost compared to using the actual technical system.
• Risk reduction: The ability to predict the outcome of experiments before conducting them on the actual technical system reduces the risk of failure or damage.
• Optimization: This technology allows for the optimization of experiments by determining the most effective set of input data points to achieve desired results.

Benefits of this technology:

• Improved decision-making: The ability to predict experiment results allows for better decision-making in various fields, such as research, engineering, and manufacturing.
• Resource savings: By using a substitute model and predefined input data points, resources such as time, money, and materials can be saved.
• Increased efficiency: This technology enables faster and more efficient experimentation and optimization processes.

Original Abstract Submitted

a device and computer-implemented method for carrying out an experiment using a technical system or using a model of a technical system. a first set of input data points for the experiment is predefined. a second set of input data points for the experiment is determined as a function of the first set of input data points. a substitute model for the technical system is configured to determine, as a function of the second set of input data points, predictions for a result of the experiment for a first prediction statistic, which is to be expected for the second set of input data points when carrying out the experiment using the technical system or using the model for the technical system.