Robert Bosch GmbH patent applications on April 24th, 2025
Patent Applications by Robert Bosch GmbH on April 24th, 2025
Robert Bosch GmbH: 37 patent applications
Robert Bosch GmbH has applied for patents in the areas of B81B3/00 (2), G01C21/00 (2), H04L12/40 (2), G06F8/41 (2), H01M8/10 (2) A01M7/0089 (1), G06N5/04 (1), G06F11/1044 (1), G06F11/3612 (1), G06F11/3668 (1)
With keywords such as: signal, based, map, vehicle, contact, sensor, data, code, device, and unit in patent application abstracts.
Patent Applications by Robert Bosch GmbH
Inventor(s): Hans-Arndt Freudigmann of Tuebingen DE for robert bosch gmbh, Johanna Link-Dolezal of Denkendorf DE for robert bosch gmbh
IPC Code(s): A01M7/00, G06V20/10
CPC Code(s): A01M7/0089
Abstract: a method for applying at least one spray product to agricultural land having crop plants and weeds. the crop plants and weeds can be assigned to a cotyledon class of monocotyledons or to a cotyledon class of dicotyledons. the at least one spray product is applied to the acquired field section of the agricultural land by means of at least one spray nozzle unit of an agricultural spraying device depending on the cotyledon class of the crop plants and a first ascertained weed identification number and/or a second ascertained weed identification number.
Inventor(s): Florian Haag of Ellhofen DE for robert bosch gmbh, Markus Schuster of Helmstadt DE for robert bosch gmbh, Martin Marquart of Ludwigsburg DE for robert bosch gmbh, Nikolas Loeffelmann of Dielheim DE for robert bosch gmbh
IPC Code(s): B60T8/1755, B60T8/171, B60T13/66
CPC Code(s): B60T8/1755
Abstract: a brake system for a motor vehicle. the brake system includes an actuating apparatus including a brake pedal for detecting an actuation value specified by a driver of the motor vehicle, at least one wheel brake assigned to a wheel of the motor vehicle, and at least one controllable actuator apparatus using which a braking force of the wheel brake can be adjusted. the actuator apparatus is coupled to the actuating apparatus via at least one signal connection in order to adjust the braking force in accordance with an actuation value of the actuating apparatus. it is provided that the signal connection is designed to transmit the actuation value from the actuating apparatus to the actuator apparatus in encrypted form. a method for operating a brake system is also described.
20250128688. Brake System for a Vehicle_simplified_abstract_(robert bosch gmbh)
Inventor(s): Armin Frueh of Bietigheim-Bissingen DE for robert bosch gmbh, Frank Baehrle-Miller of Schoenaich DE for robert bosch gmbh, Matthias Vieth of Besigheim DE for robert bosch gmbh, Otmar Bussmann of Abstatt DE for robert bosch gmbh, Tobias Putzer of Flein DE for robert bosch gmbh
IPC Code(s): B60T13/68, B60T7/04, B60T8/40, B60T13/14, B60T13/58, B60T13/62
CPC Code(s): B60T13/686
Abstract: a brake system for a vehicle comprising brakes respectively associated with two axles of the vehicle, wherein the brake system is actuated by means of a primary controller and a secondary controller. the system is configured such that in the event of an error of the primary controller, the supply of a hydraulic fluid to brakes of one of the axles is interrupted. a method for operating such a brake system, a computer program product for carrying out the method, and a vehicle having such a brake system is described.
Inventor(s): Xiaolong Yuan of Suzhou CN for robert bosch gmbh, Qicheng Ge of Suzhou CN for robert bosch gmbh, Thomas Brettschneider of Stuttgart DE for robert bosch gmbh, Yueming Zhi of Suzhou CN for robert bosch gmbh
IPC Code(s): B60W30/12, B60W30/14, B60W50/14
CPC Code(s): B60W30/12
Abstract: a lateral interference prevention module includes a memory, a processor, and a communication interface configured to be communicatively connected to a related system of a vehicle. this module is configured to obtain lateral interference-related information and vehicle-related information, determine a pre-deviation direction based on direction information of a lateral interference, and obtain a pre-deviation quantity by querying a comparison table or calculation based on parameter information of the lateral interference and the vehicle-related information. the table reflects correspondence between the parameter information of the lateral interference or a lateral acting force calculated from the parameter information, speed of the vehicle, and the pre-deviation quantity. the calculation calculates the pre-deviation quantity based on the lateral acting force, and plans a pre-deviation path, based on the pre-deviation quantity and the pre-deviation direction, including determining a starting distance from a position of the lateral interference and a deviation trajectory within the starting distance.
Inventor(s): Paul Fehling of Tuebingen DE for robert bosch gmbh, Sujaya Jayadevaiah Umesh of Reutlingen DE for robert bosch gmbh
IPC Code(s): B81B3/00
CPC Code(s): B81B3/0021
Abstract: a method for sensor state detection of an environmental sensor for measuring at least one physical environmental variable of an ambient medium. the method includes providing the environmental sensor including a micromechanical sensor structure that can be deflected depending on the environmental variable, is exposed to the ambient medium and on which at least one interfering deposit entering via the ambient medium can be deposited and further comprising a converter unit for providing a measured variable depending on the deflection of the sensor structure, detecting an existing deposit of this type on the sensor structure by means of an excitation deviating from the environmental variable, wherein the excitation is a mechanical excitation acting externally on the environmental sensor, via which the deposit moves with an excitation movement on the sensor structure. an environmental sensor system and a mobile consumer device are also described.
Inventor(s): Tobias Kohler of Reutlingen DE for robert bosch gmbh, Martin Schubert of Stuttgart DE for robert bosch gmbh, Stefan Henneck of Leonberg DE for robert bosch gmbh, Andreas Harzer of Schwieberdingen DE for robert bosch gmbh
IPC Code(s): C08G77/04, C08G77/06, C08G77/18, C08K3/22, C09D7/40, C09D7/61, C09D183/04
CPC Code(s): C08G77/045
Abstract: a composite composition for forming a composite, for example for potting electronics and/or electrics, in particular power electronics. the composite composition comprises, relative to the total weight of the composite composition, ≥10 wt. % to ≤95 wt. % of at least one filler and ≥1 wt. % to ≤20 wt. % of at least one oligomeric and/or polymeric silanol and/or silsesquioxane prepolymer, in particular polysilsesquioxane prepolymer and/or ≥1 wt. % to ≤20 wt. % of at least one oligomeric and/or polymeric silanol precursor having hydrolyzable groups and/or ≥1 wt. % to ≤20 wt. % of at least one silanol having hydrolyzable groups. a method for the preparation thereof, preparation methods for preparing silane compounds and/or silane compositions therefor, corresponding silane compounds and/or compositions, a correspondingly prepared composite and/or silsesquioxane, and the use thereof are also described.
Inventor(s): Jan Rohde of Stuttgart DE for robert bosch gmbh, Benedikt Loesch of Stuttgart DE for robert bosch gmbh, Steffen Bucher of Leonberg DE for robert bosch gmbh
IPC Code(s): G01C21/34, H04W4/029, H04W4/40
CPC Code(s): G01C21/3407
Abstract: a method for operating a surroundings acquisition device of a vehicle. an evaluation unit of the vehicle receives an external acquisition request that contains at least one request assignment in which a request enable signal is assigned to a specific region of a map and a specific time-of-day interval, wherein the evaluation unit uses the map to ascertain whether the vehicle is in the specific region during the time-of-day interval, and wherein the surroundings acquisition device is activated by means of the evaluation unit using the request enable signal when the vehicle is in the specific region during the time-of-day interval.
Inventor(s): Dan-Teodor Onica of CLUJ-NAPOCA RO for robert bosch gmbh, Mihai Barbulescu of CLUJ-NAPOCA RO for robert bosch gmbh
IPC Code(s): G01C21/00, G06V20/56
CPC Code(s): G01C21/3826
Abstract: a method for assisting in the creation of an elevation map. the method includes: detecting a surroundings of a land vehicle, in particular a motor vehicle or rail vehicle, and ascertaining image data based on the detection by means of a camera of a land vehicle; ascertaining an elevation of a location in the surroundings of the land vehicle relative to a reference location based on the image data; sending the ascertained elevation of the location via a communication network to a remote map server, in order to assist it in the creation of the elevation map. an apparatus for assisting in the creation of an elevation map, a land vehicle, a map server for creating an elevation map, a method for creating an elevation map, a computer program, and a machine-readable storage medium are also described.
Inventor(s): Anping Mao of Suzhou CN for robert bosch gmbh, Yin Cheng of Suzhou CN for robert bosch gmbh, Shaokun Sui of Suzhou CN for robert bosch gmbh, Yue Li of Suzhou CN for robert bosch gmbh
IPC Code(s): G01C21/00, G05B17/02
CPC Code(s): G01C21/3837
Abstract: a map service providing method and a map service providing system based on autonomous driving simulation testing is disclosed. the method includes: building a test scenario using an emulator and converting the test scenario to a first format of map data; uploading the first format of map data to a map server; downloading, by a server, the first format of map data from the map server in the case that the server requires to access to the first format of map data; uploading, by the emulator, own-vehicle positioning information to the server; obtaining, by a map engine, the own-vehicle positioning information from the server and obtaining own-vehicle surrounding road network information according to parsing of the own-vehicle positioning information and the first format of map data; generating, by the map engine, a planning path according to a simulation origin and a simulation endpoint; converting, by the map engine, the own-vehicle surrounding road network information and the planning path to a second format of map data and returning the second format of map data to the server; and obtaining, by the server, the second format of map data and providing the second format of map data as a map service to the emulator.
Inventor(s): Daniel Schindler of Korntal-Münchingen DE for robert bosch gmbh, Tobias Schmid of Fluorn-Winzeln DE for robert bosch gmbh, Benedikt Loesch of Stuttgart DE for robert bosch gmbh, Johannes Fink of Karlsruhe DE for robert bosch gmbh, Werner Soergel of Pforzheim DE for robert bosch gmbh
IPC Code(s): G01S7/40, G01S13/00
CPC Code(s): G01N21/6456
Abstract: a computer device and method for examining a radar system equipped with at least two transmitting and receiving units, each having at least two antenna elements. the method includes: selecting a first radar signal, emitted by a first transmitting and receiving unit of the radar system and received by a second transmitting and receiving unit of the radar system, and a second radar signal, which is emitted by the second transmitting and receiving unit and received by the first transmitting and receiving unit, ascertaining a phase difference between the first radar signal and the second radar signal and specifying alignment information with regard to a relative tilt of the first transmitting and receiving unit in relation to the second transmitting and receiving unit, taking into account the ascertained phase difference.
Inventor(s): Yafei Chang of Shanghai CN for robert bosch gmbh, Hanyang Zhang of Shanghai CN for robert bosch gmbh, Kai Wang of Shanghai CN for robert bosch gmbh, Liyun Fu of Shanghai CN for robert bosch gmbh, Ze Chen of Shanghai CN for robert bosch gmbh
IPC Code(s): G01N27/02, H01M8/04664, H01M8/10
CPC Code(s): G01N27/026
Abstract: an eis-based gas starvation fault diagnosis method for a fuel cell stack is disclosed. the method includes (s) collecting, in real time, an impedance modulus at a first characteristic frequency of the fuel cell stack, (s) comparing the impedance modulus to a modulus reference value, and (s) determining whether an absolute value of a difference between the impedance modulus and the modulus reference value is greater than a first threshold, if yes, identifying that a gas starvation fault occurs to the fuel cell stack, and if no, returning to step (s) to continuously collect the impedance modulus at the characteristic frequency of the fuel cell stack. the gas starvation fault diagnosis method is capable of quickly and reliably obtaining diagnostic results and is capable of differentiating between hydrogen starvation and air starvation through different parameters.
Inventor(s): Alice Lanniel of Pliezhausen DE for robert bosch gmbh, Tobias Maier of Stuttgart DE for robert bosch gmbh, Yunan Fu of Stuttgart DE for robert bosch gmbh
IPC Code(s): G01R27/26, B81B7/02, G01C19/60, G01D5/24, G01P15/125
CPC Code(s): G01R27/2605
Abstract: a circuit for operating a capacitive sensor which can be operated in first to third modes. a gm stage receives a sensor voltage applied to a sensor output of the capacitive sensor and outputs a current. an integrator integrates the current over a time course and outputs an output voltage resulting therefrom. the circuit provides the output voltage to an analog-to-digital converter. in the first and second modes, the output voltage is provided to the capacitive sensor as a feedback voltage. in the first mode, an offset correction is further performed in the gm stage and the integrator. in the second mode, the sensor output of the capacitive sensor is switched to high impedance. in the third mode, a reference voltage is provided to the capacitive sensor.
Inventor(s): Joerg Schneider of Ludwigsburg DE for robert bosch gmbh, Christel Sarfert of Korntal-Muenchingen DE for robert bosch gmbh, Christoph Kroener of Freiberg Am Neckar DE for robert bosch gmbh, Ganesh Susmitha of Bengaluru IN for robert bosch gmbh, Holavanahalli Shashank of Stuttgart DE for robert bosch gmbh, Johannes Swoboda of Stuttgart DE for robert bosch gmbh, Johannes Maximilian Nipper of Stuttgart DE for robert bosch gmbh, Olivier Cois of Kernen DE for robert bosch gmbh, Peter Kohn of Stuttgart DE for robert bosch gmbh, Triantafyllos Zafiridis of Heilbronn DE for robert bosch gmbh, Venkatrao Desai of Kalaburagi IN for robert bosch gmbh, Vincent Scharff of Ludwigsburg DE for robert bosch gmbh
IPC Code(s): G01R31/396, B60L58/12, G01R31/3842, G01R31/389, H01M10/48
CPC Code(s): G01R31/396
Abstract: the invention relates to a method for determining the state of charge of an electric energy store comprising electric energy store cells and at least one sensor,
20250130310. RADAR SENSOR_simplified_abstract_(robert bosch gmbh)
Inventor(s): Manuel Simon Reiter of Stuttgart DE for robert bosch gmbh, Christian Hollaender of Rheinstetten DE for robert bosch gmbh, Gustav Klett of Moessingen DE for robert bosch gmbh
IPC Code(s): G01S7/03, G01S7/02, G01S13/931
CPC Code(s): G01S7/03
Abstract: a radar sensor. the radar sensor has a waveguide antenna, a radome, a housing to which the radome is fastened, and a printed circuit board in which the waveguide antenna is positioned. the waveguide antenna and the radome are connected to each other in a form-fitting manner.
Inventor(s): Felix Berkel of Schifferstadt DE for robert bosch gmbh, Kim Peter Wabersich of Schwaebisch Gmuend DE for robert bosch gmbh, Maximilian Steeb of Weinstadt DE for robert bosch gmbh, Sven Reimann of Renningen DE for robert bosch gmbh
IPC Code(s): G05B13/04
CPC Code(s): G05B13/042
Abstract: a method for calculating a parameterization of a controller for a technical system. the method includes: determining a characteristic of the controller, wherein the characteristic includes at least a description of a structure of the controller and at least one differential equation to represent a dynamic behavior of the technical system; defining an objective function which is based on at least one requirement for a safety characteristic and/or for a performance characteristic of the controller and/or of the technical system; formulating an optimization problem, wherein the optimization problem is formulated on the basis of the objective function and at least one additional condition, wherein the at least one additional condition ensures at least one restriction of at least one state of the technical system; calculating the parameterization of the controller based on the determined optimization problem.
Inventor(s): Kevin Schmidt of Herrenberg DE for robert bosch gmbh, Nicola Henkelmann of Vaihingen/Enz DE for robert bosch gmbh, Ranbir Singh of Brackley GB for robert bosch gmbh, Stefan Gruener of Auenwald DE for robert bosch gmbh
IPC Code(s): G05B19/042
CPC Code(s): G05B19/042
Abstract: a method for determining system excitation by at least one input signal for model-based control of a technical system includes (i) providing the at least one input signal, wherein the at least one input signal physically affects at least one parameter of the technical system, (ii) defining at least one distribution assumption for the at least one parameter, (iii) defining a target function for optimizing the at least one input signal taking into account the at least one defined distribution assumption, the target function optimizing the at least one input signal at least based on a weighting of a sensitivity of the input signal, (iv) determining a numerical algorithm for solving the defined target function and an uncertainty quantification method for determining the sensitivity of the at least one input signal, (v) optimizing the defined target function based on the determined numerical algorithm and the determined uncertainty quantification method, and (vi) determining the system excitation based on the optimized target function. a computer program, a device, and a storage medium for this purpose are also disclosed.
Inventor(s): Arthur Mutter of Neuhausen DE for robert bosch gmbh, Florian Hartwich of Reutlingen DE for robert bosch gmbh
IPC Code(s): G06F1/3209, G06F13/42, H04L12/40
CPC Code(s): G06F1/3209
Abstract: a transmitting/receiving device for selectively waking up a subscriber station of a serial bus system. the transmitting/receiving device has a transmitting module for transmitting a transmission signal created for communication in the bus system based on a frame, as an analog signal to a bus, a receiving module for receiving an analog signal from the bus and for generating a digital received signal from the analog signal received from the bus, and a wake-up module for waking up the subscriber station after the subscriber station has been put to sleep to save energy. the wake-up module is configured to evaluate at least one wake-up condition to decide whether or not the digital received signal corresponds to a wake-up frame which sends instructions to activate the transmitting module to wake up the subscriber station.
Inventor(s): Christopher Huth of Heilbronn DE for robert bosch gmbh, Jesko Hecking-Harbusch of Leonberg DE for robert bosch gmbh, Jochen Quante of Ludwigsburg DE for robert bosch gmbh, Matthias Woehrle of Bietigheim-Bissingen DE for robert bosch gmbh, Maximilian Schlund of Stuttgart DE for robert bosch gmbh, Sebastian Ernesto Sierra Loaiza of Stuttgart DE for robert bosch gmbh
IPC Code(s): G06F8/41, G06F8/35
CPC Code(s): G06F8/4434
Abstract: a method for improving the memory allocation of code generated using a language model. the method includes: providing a program code generated using a language model, if a new version of the program code is available; generating an executable file using compilation and instrumentation, wherein a memory sanitizer inserts instructions into the program code and/or the executable file; execution of fuzzing by a fuzzer, wherein the fuzzer injects inputs into the executable file; monitoring the memory performance and optionally runtime information, the behavior and/or the output of the executable file; storing metadata generated from the allocated and freed memory in a memory metadata database, wherein the metadata are based on the instructions and are stored when the executable file is generated and/or when the fuzzing is executed; outputting the program code if no memory performance degradation or other errors are found.
[[20250130856. APPARATUS AND COMPUTER-IMPLEMENTED METHOD FOR ALLOCATING COMPUTING RESOURCES IN A METHOD FOR PROTECTING A COMPUTER-AIDED DEVELOPMENT ENVIRONMENT IN A DISTRIBUTED DEVELOPMENT PROCESS FROM DAMAGE AND THREATS_simplified_abstract_(robert bosch gmbh)]]
Inventor(s): Christian Zimmermann of Stuttgart DE for robert bosch gmbh, Christopher Huth of Heilbronn DE for robert bosch gmbh, Fredrik Kamphuis of Weeze DE for robert bosch gmbh, Markus Schweizer of Vaihingen/Enz DE for robert bosch gmbh, Max Camillo Eisele of Ludwigsburg DE for robert bosch gmbh, Paulius Duplys of Markgroeningen DE for robert bosch gmbh, Peter Munk of Renningen DE for robert bosch gmbh, Tobias Gehrmann of Stuttgart DE for robert bosch gmbh
IPC Code(s): G06F9/50, G06F8/41
CPC Code(s): G06F9/5016
Abstract: an apparatus and computer-implemented method for allocating computing resources in a method for protecting a computer-aided development environment in a distributed development process from damage and threats. in the method for protecting, multiple methods for identifying damage and/or a threat in the computer-aided development environment are carried out, wherein a metric which quantifies a quality and/or informative value of the method is determined for each method, wherein a respective offer for allocating computing resources for the execution of the respective method is determined for the methods depending on said metric, wherein the computing resources are allocated to the methods depending on the respective offer.
Inventor(s): Andreas Achtzehn of Oberstenfeld DE for robert bosch gmbh
IPC Code(s): G06F9/54
CPC Code(s): G06F9/543
Abstract: a method for processing a first and a second computing operation in a computing unit. first and second time intervals are provided for processing the first and second computing operations in the computing unit. the method comprises a step of recognizing that the second computing operation has been completed in the second time interval at a completion time before an end of the second time interval. the method includes a step of executing the first computing operation in the second time interval after the completion time. in addition or as an alternative, the method includes a step of recognizing that the first computing operation has been completed in the first time interval at a completion time before an end of the first time interval and a step of executing the second computing operation in the first time interval after the completion time.
Inventor(s): Axel Aue of Korntal-Muenchingen DE for robert bosch gmbh, Matthias Schreiber of Vaihingen/Enz DE for robert bosch gmbh
IPC Code(s): G06F11/10
CPC Code(s): G06F11/1044
Abstract: a method for repairing faulty memory locations of a memory while a program from the memory is being executed by a computer. the program controls a technical device. when the program is being executed, addresses of faulty memory locations in the memory and correct values of the faulty memory locations are detected. the program provides time periods for repairing the faulty memory locations. the time periods are selected such that the control of the technical device is not hindered. for the repair, the correct values are written to the faulty memory locations.
Inventor(s): Christopher Huth of Heilbronn DE for robert bosch gmbh, Jesko Hecking-Harbusch of Leonberg DE for robert bosch gmbh, Jochen Quante of Ludwigsburg DE for robert bosch gmbh, Matthias Woehrle of Bietigheim-Bissingen DE for robert bosch gmbh, Maximilian Schlund of Stuttgart DE for robert bosch gmbh, Sebastian Ernesto Sierra Loaiza of Stuttgart DE for robert bosch gmbh
IPC Code(s): G06F11/36
CPC Code(s): G06F11/3612
Abstract: a method for verifying static warnings of code generated by a language model includes (i) providing an executable file from a program code generated by a language model, (ii) providing warning points in the program code originating from static testing, (iii) performing directed fuzzing by a fuzzer, wherein the fuzzer injects inputs into the executable file to reach a warning point, (iv) monitoring the behavior and output of the executable file, and (v) rating the warning point based on the behavior and the output.
Inventor(s): Christopher Huth of Heilbronn DE for robert bosch gmbh, Jesko Hecking-Harbusch of Leonberg DE for robert bosch gmbh, Jochen Quante of Ludwigsburg DE for robert bosch gmbh, Matthias Woehrle of Bietigheim-Bissingen DE for robert bosch gmbh, Maximilian Schlund of Stuttgart DE for robert bosch gmbh, Sebastian Ernesto Sierra Loaiza of Stuttgart DE for robert bosch gmbh
IPC Code(s): G06F11/36, G06F8/30
CPC Code(s): G06F11/3668
Abstract: a method for checking the dynamic behavior of code generated using a language model. th method includes: providing a first executable file from a program code generated using a language model; providing a second executable file, wherein the second executable file is a previous first executable file or is an original source code of the program code; executing differential fuzzing using a fuzzer, wherein the fuzzer injects identical inputs into the first executable file and into the second executable file; monitoring the behavior and the output of the first executable file and the second executable file; outputting the program code if the fuzzing found no inconsistencies, no errors and/or no worse runtime behavior of the first executable file compared to the second executable file.
Inventor(s): Jesko Hecking-Harbusch of Leonberg DE for robert bosch gmbh, Jochen Quante of Ludwigsburg DE for robert bosch gmbh, Matthias Woehrle of Bietigheim-Bissingen DE for robert bosch gmbh, Maximilian Schlund of Stuttgart DE for robert bosch gmbh, Sebastian Ernesto Sierra Loaiza of Stuttgart DE for robert bosch gmbh
IPC Code(s): G06F11/3668
CPC Code(s): G06F11/3684
Abstract: a computer-implemented method for the automated generation of test code for testing software. the method includes generating, via a machine learning model, at least one test case and/or a test code at least based on a code of the software and a prompt; and evaluating the at least one test case and/or the test code, wherein an evaluation result is obtained. a computer-implemented method for further training a machine learning model and/or further machine learning model is also described. the machine learning model configured to generate at least one test case and/or a test code for testing software at least based on a code of the software and a prompt, and the further machine learning model is designed to generate a test code for testing the software at least based on at least one test case and a further prompt.
Inventor(s): Holger Niemann of Ludwigsburg DE for robert bosch gmbh, Paulius Duplys of Markgroeningen DE for robert bosch gmbh
IPC Code(s): G06F21/57
CPC Code(s): G06F21/577
Abstract: a method for verifying the information technology security of a computing unit system which includes at least one computing unit. the method includes: providing an information technology model of at least a part of the computing unit system; carrying out at least one information security test attack on the model; receiving data from the model that characterizes a response of the model to the information security test attack; determining at least one parameter in accordance with the received data; evaluating the at least one parameter and assessing the information security-related security of the computing unit system in accordance with the evaluation.
Inventor(s): Maximilian Steeb of Weinstadt DE for robert bosch gmbh
IPC Code(s): G06F30/20
CPC Code(s): G06F30/20
Abstract: a method for validating a design model for a technical system includes (i) providing the design model, wherein the design model models the technical system, and wherein the design model indicates an allowable range for at least one parameter of the technical system and for at least one disturbance variable, (ii) initiating an application of a test signal to the technical system, (iii) initiating a capture of an output of the technical system triggered by the test signal, (iv) determining a state of the technical system based on the test signal and the captured output, a respective value for the at least one parameter of the technical system being determined based on the state, (v) determining a disturbance in the technical system based on the test signal, the captured output, and the determined state, wherein a respective value for the at least one disturbance variable is determined, and (vi) validating the design model for the technical system, wherein the respective value for the at least one parameter of the technical system and the respective value for the at least one disturbance variable are compared with the allowable range of the design model. a computer program, a device, and a storage medium for this purpose is also disclosed.
Inventor(s): Marc Patrick Zapf of Reutlingen DE for robert bosch gmbh, Jia Hu of Suzhou CN for robert bosch gmbh, Jinyao Liang of Shanghai CN for robert bosch gmbh, Joachim Boerger of Stuttgart DE for robert bosch gmbh
IPC Code(s): G06N5/04
CPC Code(s): G06N5/04
Abstract: a processing system, a processing unit and a processing method for processing object detection results based on sensor visibilities are provided. the processing unit includes (i) an acquisition module configured to acquire sensor data that is output when one or more sensors detect an ambient environment, (ii) a preprocessing module configured to calculate a set of detection results based on the acquired sensor data, wherein each detection result contains a detection object and the position information thereof, (iii) a creation module configured to create a visibility map based on the acquired sensor data and the calculated detection results, wherein the visibility map comprises a plurality of grid cells of the ambient environment and the visibility probabilities of the grid cells, (iv) an assignment module configured to assign the confidences of the detection results based on the visibility probabilities of grid cells associated with the detection objects of the detection results in terms of position, and (v) a decision-making module configured to determine whether to remove the detection results from the set of detection results based on the confidences of the detection results and a threshold predetermined for the set of detection results.
Inventor(s): Maxim Tatarchenko of Berlin DE for robert bosch gmbh, Melis Oecal of Amsterdam NL for robert bosch gmbh, Sezer Karaoglu of Amsterdam NL for robert bosch gmbh, Theo Gevers of Amsterdam NL for robert bosch gmbh
IPC Code(s): G06T7/50, G06N3/08
CPC Code(s): G06T7/50
Abstract: a device and computer implemented method for training a model, in particular a neural network for determining a shape of an object. the method includes determining a first point cloud representation of the object which includes points that represent a first view of the object, determining a second point cloud representation of the object including points that represent a second view of the object, determining a first voxel representation of the object depending on the first point cloud representation which includes voxels that represent the first view, mapping the first voxel representation with the model to a voxel representation of the shape, providing a ground truth for training the model depending on the first and second point cloud representations or depending on the first and a second voxel representation, the second voxel representation being determined depending on the second point cloud representation.
20250131818. METHOD FOR DETECTING A TRAFFIC JUNCTION_simplified_abstract_(robert bosch gmbh)
Inventor(s): Mihai Barbulescu of Cluj-Napoca RO for robert bosch gmbh, Bogdan-Alexandru Kandra of Cluj-Napoca RO for robert bosch gmbh, Cristiana-Mirela Lupu of Cluj-Napoca RO for robert bosch gmbh, Manuel Geffken of Braunschweig DE for robert bosch gmbh, Michael Goerlich of Hildesheim DE for robert bosch gmbh
IPC Code(s): G08G1/01
CPC Code(s): G08G1/0129
Abstract: a method for detecting a traffic junction. the method includes: receiving position data describing a respective position history of motor vehicles traveling on roads which include the traffic junction and traveling through said traffic junction; ascertaining a respective curvature progression of the position histories; ascertaining a respective derivative, in particular a numerical derivative, of the curvature progressions to obtain a respective change in the curvature progressions over the respective position history; detecting the traffic junction based on the respective ascertained derivatives of the curvature progressions. a device, a computer program, and a machine-readable storage medium are also described.
20250132282. CONTACT DEVICE AND POWER MODULE ARRANGEMENT_simplified_abstract_(robert bosch gmbh)
Inventor(s): Alexander Kaiser of Schoerzingen DE for robert bosch gmbh, Stephan Eisenlauer of Oberriexingen DE for robert bosch gmbh
IPC Code(s): H01L23/00, H01L23/538, H01L25/07
CPC Code(s): H01L24/40
Abstract: a contact device for electrically contacting at least two electrical functional components within a connection interface. the contact device includes at least one busbar which extends from a first to a second contact region. when the functional component is electrically contacted by different contact regions of the busbar, a current path can be formed within the busbar between the first and the second contact region. each contact region has at least one contact connection lug for integral connection to an external contact surface. the electrical contacting of at least one contact connection lug with an external contact surface of one of the functional components is formed via an integral bond. the integral bond is interrupted by at least one through-opening in the contact connection lug such that at least two contact elements which exclusively have portions of the formed integral bond are formed on the contact connection lug.
Inventor(s): Jonas Breitinger of Stuttgart DE for robert bosch gmbh, Helerson Kemmer of Vaihingen DE for robert bosch gmbh, Mark Hellmann of Korntal DE for robert bosch gmbh
IPC Code(s): H01M8/04858, H01M8/04119, H01M8/04223, H01M8/04492, H01M8/04828, H01M8/10
CPC Code(s): H01M8/0491
Abstract: a method for drying a fuel cell () for generating electrical energy for a consumer (), in particular for a vehicle (), in which an anode gas having a first reactant is supplied to an anode (), and a cathode gas having a second reactant is supplied to a cathode (), and the reactants are converted into electricity along a flow path () in the fuel cell () by means of an electrochemical reaction, the method having the following steps:
20250132532. CONTACT DEVICE AND POWER MODULE ARRANGEMENT_simplified_abstract_(robert bosch gmbh)
Inventor(s): Irfan Aydogmus of Nuertingen DE for robert bosch gmbh
IPC Code(s): H01R25/16, H02M7/00
CPC Code(s): H01R25/162
Abstract: a contact device. the contact device includes at least a first and a second busbar, which are arranged at a distance from one another in an electrically insulated manner. each busbar includes at least a first and a second contact region, each of which has at least one contact element. the contact device is configured such that, when the functional elements are electrically contacted with, in each case, two busbars on contact elements of different contact regions in switching operation, a current path is formed in each case between the first and the second contact region within the two busbars. the electrical contacting of the contact element of at least one contact region with at least one contact surface of a functional element can be formed in the form of a force-loaded galvanic system contact.
Inventor(s): Alessandro Moia of Holzgerlingen DE for robert bosch gmbh, Silas Klug of Magstadt DE for robert bosch gmbh
IPC Code(s): H02P3/22, B60L7/02
CPC Code(s): H02P3/22
Abstract: a vehicle, in particular a two-wheeler or three-wheeler. the vehicle includes at least one electric motor which is provided for decelerating the vehicle and/or at least one vehicle wheel of the vehicle during a braking operation, and at least one vehicle battery which is functionally coupled to the electric motor. the vehicle has a braking chopper unit which is operatively connected to the electric motor and the vehicle battery, has at least one braking resistor, and is provided for dissipating excess energy generated by the electric motor during the braking operation.
Inventor(s): Guido De Sandre of Brugherio IT for robert bosch gmbh, Raik Fiedler of Peitz DE for robert bosch gmbh
IPC Code(s): H03F3/45, B81B3/00, H03F1/02
CPC Code(s): H03F3/45668
Abstract: a control circuit for a microelectromechanical sound generator with a first center connector, a second center connector, a first external connector, and a second external connector. the control circuit includes a differential amplifier which comprises a first output connector coupled to the first external connector and a second output connector coupled to the second external connector and is configured to control the first external connector and the second external connector with a differential signal that corresponds to an input signal. the control circuit includes a first voltage generator circuit, which is configured to provide the first center connector with a predetermined first dc voltage in relation to a common-mode voltage of the differential amplifier, and a second voltage generator circuit, which is configured to provide the second center connector with a predetermined second dc voltage in relation to the common-mode voltage of the differential amplifier.
Inventor(s): Arthur Mutter of Neuhausen DE for robert bosch gmbh, Florian Hartwich of Reutlingen DE for robert bosch gmbh
IPC Code(s): H04L12/40, H04L25/49, H04L67/12
CPC Code(s): H04L12/40039
Abstract: a transmitting/receiving device for selectively waking up a subscriber station of a serial bus system. the transmitting/receiving device has: a transmitting module for transmitting a transmission signal, which is created for communication in the bus system based on a frame, as an analog signal to a bus; a receiving module for receiving an analog signal from the bus and for generating a digital reception signal from the analog signal received from the bus; and a wake-up module for waking up the subscriber station after the subscriber station has been put to sleep to save energy, wherein the wake-up module is designed to serially carry out at least two different evaluations in order to decide whether or not the digital reception signal corresponds to a wake-up frame which gives instructions to activate the transmitting module to wake up the subscriber station.
20250132963. METHOD AND APPARATUS FOR PROCESSING DATA_simplified_abstract_(robert bosch gmbh)
Inventor(s): Maximilian Stark of Hamburg DE for robert bosch gmbh, Khaled Shawky Hassan of Sarstedt DE for robert bosch gmbh
IPC Code(s): H04L27/26, H04L27/34, H04W64/00
CPC Code(s): H04L27/2613
Abstract: a computer-implemented method of processing data associated with at least one component of a wireless communications system. the method includes: modifying at least one of a) a mapping from bits associated with data to be transmitted over the wireless communications system to symbols, b) a mapping of symbols to resources of the wireless communications system, based on at least one of: c1) a first parameter characterizing at least one performance indicator associated with a data transmission over the wireless communications system, c2) a second parameter characterizing at least one performance indicator associated with a positioning technique associated with the data transmission using the wireless communications system.
- Robert Bosch GmbH
- A01M7/00
- G06V20/10
- CPC A01M7/0089
- Robert bosch gmbh
- B60T8/1755
- B60T8/171
- B60T13/66
- CPC B60T8/1755
- B60T13/68
- B60T7/04
- B60T8/40
- B60T13/14
- B60T13/58
- B60T13/62
- CPC B60T13/686
- B60W30/12
- B60W30/14
- B60W50/14
- CPC B60W30/12
- B81B3/00
- CPC B81B3/0021
- C08G77/04
- C08G77/06
- C08G77/18
- C08K3/22
- C09D7/40
- C09D7/61
- C09D183/04
- CPC C08G77/045
- G01C21/34
- H04W4/029
- H04W4/40
- CPC G01C21/3407
- G01C21/00
- G06V20/56
- CPC G01C21/3826
- G05B17/02
- CPC G01C21/3837
- G01S7/40
- G01S13/00
- CPC G01N21/6456
- G01N27/02
- H01M8/04664
- H01M8/10
- CPC G01N27/026
- G01R27/26
- B81B7/02
- G01C19/60
- G01D5/24
- G01P15/125
- CPC G01R27/2605
- G01R31/396
- B60L58/12
- G01R31/3842
- G01R31/389
- H01M10/48
- CPC G01R31/396
- G01S7/03
- G01S7/02
- G01S13/931
- CPC G01S7/03
- G05B13/04
- CPC G05B13/042
- G05B19/042
- CPC G05B19/042
- G06F1/3209
- G06F13/42
- H04L12/40
- CPC G06F1/3209
- G06F8/41
- G06F8/35
- CPC G06F8/4434
- G06F9/50
- CPC G06F9/5016
- G06F9/54
- CPC G06F9/543
- G06F11/10
- CPC G06F11/1044
- G06F11/36
- CPC G06F11/3612
- G06F8/30
- CPC G06F11/3668
- G06F11/3668
- CPC G06F11/3684
- G06F21/57
- CPC G06F21/577
- G06F30/20
- CPC G06F30/20
- G06N5/04
- CPC G06N5/04
- G06T7/50
- G06N3/08
- CPC G06T7/50
- G08G1/01
- CPC G08G1/0129
- H01L23/00
- H01L23/538
- H01L25/07
- CPC H01L24/40
- H01M8/04858
- H01M8/04119
- H01M8/04223
- H01M8/04492
- H01M8/04828
- CPC H01M8/0491
- H01R25/16
- H02M7/00
- CPC H01R25/162
- H02P3/22
- B60L7/02
- CPC H02P3/22
- H03F3/45
- H03F1/02
- CPC H03F3/45668
- H04L25/49
- H04L67/12
- CPC H04L12/40039
- H04L27/26
- H04L27/34
- H04W64/00
- CPC H04L27/2613