Robert Bosch GmbH patent applications on April 17th, 2025
Patent Applications by Robert Bosch GmbH on April 17th, 2025
Robert Bosch GmbH: 20 patent applications
Robert Bosch GmbH has applied for patents in the areas of B60W60/00 (2), G01L27/00 (2), G01C21/00 (2), B60W30/06 (1), G06V10/774 (1) G01L27/007 (2), G01S7/4091 (1), H01M16/006 (1), H01M8/0675 (1), G06V10/774 (1)
With keywords such as: device, data, element, training, duty, vehicle, having, receiving, determining, and based in patent application abstracts.
Patent Applications by Robert Bosch GmbH
Inventor(s): Rolf Nicodemus of Bietigheim-Bissingen DE for robert bosch gmbh, Stefan Nordbruch of Leonberg DE for robert bosch gmbh
IPC Code(s): B60W30/06, B60W30/09, G08G1/16
CPC Code(s): B60W30/06
Abstract: a method for checking an infrastructure avp system of a parking lot. the infrastructure avp system is checked using an avp reference system installed at least partially within the parking lot. an avp reference system, a computer program, and a machine-readable storage medium are also described.
Inventor(s): Hans-Juergen Siehr of Altensteig DE for robert bosch gmbh
IPC Code(s): B60W30/18, B60W60/00
CPC Code(s): B60W30/18159
Abstract: a method and device for operating an automated vehicle at a traffic intersection. the method includes detecting surrounding area data values, determining a configuration of the traffic intersection, determining a movement behavior of the objects, determining a first driving strategy for the automated vehicle for passing through the traffic intersection, determining a second driving strategy for another automated vehicle, operating the automated vehicle, depending on the first driving strategy, and providing the second driving strategy for the other automated vehicle.
Inventor(s): Joerg Strecker of Schwaebisch Gmuend - Grossdein DE for robert bosch gmbh, Martin Pfeil of Aalen DE for robert bosch gmbh
IPC Code(s): B62D5/04
CPC Code(s): B62D5/0472
Abstract: a method is for compensating an oscillation in a steering system of a vehicle without a mechanical connection between a control unit of the steering system and the steered wheels. a speed of the vehicle is determined. as a function of the speed, an estimated frequency and an estimated bandwidth of the oscillation are determined. a signal characterizing an estimated or measured force or an estimated or measured torque on a toothed rod or tie rod of the steering system is estimated. the oscillation in the signal is compensated as a function of the estimated frequency and the estimated bandwidth.
Inventor(s): Andreas Menzel of Reutlingen DE for robert bosch gmbh, Bora Ersoez of Leinfelden-Echterdingen DE for robert bosch gmbh, David Thissen of Tuebingen DE for robert bosch gmbh, Joachim Kreutzer of Stuttgart DE for robert bosch gmbh, Lucas Middelburg of Pfronstetten DE for robert bosch gmbh
IPC Code(s): B81C99/00, G01D11/24, G01D11/30
CPC Code(s): B81C99/002
Abstract: a mounting device for a micromechanical structural element, such as a sensor element. the mounting device includes at least one flexible carrier element, the structural element, and a stiffening element. the structural element is applied to a first side of the flexible carrier element in a first region, the stiffening element is provided on the opposite second side of the carrier element in a second region, and the flexible carrier element can be electrically connected, as a result of which compact and flexible installation of the sensor structure is made possible.
Inventor(s): Giovanni Cornetti of Weil Der Stadt DE for robert bosch gmbh, Gabriele Sgroi of OSTFILDERN DE for robert bosch gmbh, Holger Kauss of WERNAU DE for robert bosch gmbh, Horst Mueller of Sachsenheim DE for robert bosch gmbh, Moritz Hoess of Bietigheim-Bissingen DE for robert bosch gmbh, Samuel Weinbrenner of Boeblingen DE for robert bosch gmbh
IPC Code(s): F02P5/152, F02D19/02, F02D41/10
CPC Code(s): F02P5/1521
Abstract: a method for controlling a turbocharged hydrogen engine for burning an air-hydrogen mixture having an air-hydrogen ratio a greater than 1. the hydrogen engine is configured to assume steady operating states and transient operating states, wherein ignition timings are more retarded in the transient operating states than in the steady operating states.
20250122914. ELECTROMECHANICAL DRUM BRAKE_simplified_abstract_(robert bosch gmbh)
Inventor(s): Juergen Hilzinger of Renningen DE for robert bosch gmbh, Laszlo Boros of Ludwigsburg DE for robert bosch gmbh, Rainer Walter of Pleidelsheim DE for robert bosch gmbh, Simon Peter of Weil Der Stadt DE for robert bosch gmbh
IPC Code(s): F16D65/09, F16D65/40
CPC Code(s): F16D65/09
Abstract: an electromechanical drum brake for a motor vehicle. the electromechanical drum brake includes a drum, in which brake shoes are arranged, and an adjusting device, which is arranged between the brake shoes and driven by a drive unit and via which the brake shoes can be spread for braking. an end of each brake shoe that faces the adjusting device is supported on a support element cooperating with the adjusting device, movably in relation to the support element, wherein a spreading force of the adjusting device is transferable to the brake shoes via the support element.
20250123116. METHOD AND DEVICE FOR CREATING A DIGITAL MAP_simplified_abstract_(robert bosch gmbh)
Inventor(s): David Oertel of Hannover DE for robert bosch gmbh, Hans-Georg Raumer of Hildesheim DE for robert bosch gmbh, Max Kirstein of Hohenhameln - Ot Bruendeln DE for robert bosch gmbh, Thomas Wenzel of Hamburg DE for robert bosch gmbh, Thorben Funke of Sarstedt DE for robert bosch gmbh
IPC Code(s): G01C21/00, G06V10/82
CPC Code(s): G01C21/3833
Abstract: a method and device for creating a digital map. the method includes: receiving first training data sets; generating second training data sets by means of a generative neural network by determining a second, perturbed image of the same surrounding area in each case for each first image, wherein each second training data set represents the second image of the corresponding first image; training a further neural network; receiving surrounding area data sets, which in each case represent a surrounding area image of a vehicle surrounding area, wherein these surrounding area data sets comprise a position description of the corresponding vehicle surrounding area; creating the digital map by merging the surrounding area images, depending on the position description, by means of a scan matching method, wherein the scan matching method includes at least the further neural network, and a step of providing the digital map.
Inventor(s): Shehabeldin Abdelgawad of Stuttgart DE for robert bosch gmbh, Vladislav Tananaev of Sindelfingen DE for robert bosch gmbh, Danny Hiendriana of Ludwigsburg DE for robert bosch gmbh, Manuel Stuebler of Stuttgart DE for robert bosch gmbh, Borislav Antic of Heidelberg DE for robert bosch gmbh, Benjamin Hoeferlin of Pleidelsheim DE for robert bosch gmbh
IPC Code(s): G01C21/00, B60W60/00
CPC Code(s): G01C21/3859
Abstract: a method is for checking whether a digital road map correctly reproduces actual circumstances visible from at least one predefined pose. the method includes procuring observations of a scenario from the at least one predefined pose, determining an actual behavior of one or more other road users from the procured observations, and determining a reference behavior of the one or more other road users based on one or more features of the digital road map. the method further includes, in response to the determined actual behavior being consistent with the determined reference behavior, establishing that the digital road map correctly reproduces the actual circumstances visible from the at least one predefined pose at least with regard to the one or more features from which the reference behavior was determined.
Inventor(s): Karl Oberdieck of Neckartenzlingen DE for robert bosch gmbh, Manuel Riefer of Reutlingen DE for robert bosch gmbh, Sebastian Strache of Wannweil DE for robert bosch gmbh, Stephan Schwaiger of Bodelshausen DE for robert bosch gmbh
IPC Code(s): G01K7/01
CPC Code(s): G01K7/01
Abstract: a method and a circuit arrangement for ascertaining a junction temperature of a semiconductor component including an insulated gate. the method includes: recharging an input capacitance of the semiconductor component using a current-controlled gate driver at a predefined first time, and ascertaining a junction temperature of the semiconductor component based on information about a voltage-dependent behavior of the input capacitance of the semiconductor component and based on a level of an internal gate resistor of the semiconductor component at a second time which follows the first time, at which a current build-up phase of a gate current generated by the gate driver for recharging the input capacitance has ended and at which a substantially constant gate current is present.
Inventor(s): Paul Fehling of Tuebingen DE for robert bosch gmbh, Alexander Schoenhals of Gomaringen DE for robert bosch gmbh, Sujaya Jayadevaiah Umesh of Reutlingen DE for robert bosch gmbh
IPC Code(s): G01L27/00, G01L19/00
CPC Code(s): G01L27/007
Abstract: a method for detecting contamination of a measuring device by a fluid and/or particles for an electronic system, in particular contamination of a barometric pressure sensor for a consumer electronics device having a vibration mechanism, and to an electronic system. the method includes: generating a mechanical stimulus for accelerating the measuring device; determining a signal response of the measuring device in response to the mechanical stimulus; and comparing the signal response with a predetermined reference response with respect to the stimulus, wherein possible contamination of the measuring device causes a deviation of the signal response from the reference response.
Inventor(s): Alexander Schoenhals of Gomaringen DE for robert bosch gmbh, Paul Fehling of Tuebingen DE for robert bosch gmbh
IPC Code(s): G01L27/00, G01L19/06
CPC Code(s): G01L27/007
Abstract: a method for detecting contamination in a pressure sensor comprising at least two pressure detection membranes whose electrostatic and/or electrodynamic state depends on the external pressure. the method includes: detecting a membrane state by each of the at least two pressure detection membranes; comparing one or more state differences between each value of the detected membrane states with a predetermined threshold value; if at least one of the state differences exceeds the predetermined threshold value, outputting that at least one of the membranes is contaminated.
Inventor(s): Benedikt Loesch of Stuttgart DE for robert bosch gmbh, Arthur Hipke of Leonberg DE for robert bosch gmbh
IPC Code(s): G01S7/40, G01S13/02, G01S13/42
CPC Code(s): G01S7/4091
Abstract: a method for detecting erroneous antenna signals from a radar sensor having a plurality of antennas. a subset of the antenna signals is formed by omitting at least one antenna signal from a complete set of the antenna signals. a direction to an object is estimated using the subset and an antenna pattern of the radar sensor and, in so doing, a correlation value of the subset of the antenna signals with the antenna pattern in the estimated direction is determined. the at least one omitted antenna signal for the subset is classified as erroneous if the correlation value satisfies a selection condition.
20250123367. Laser Range Finder_simplified_abstract_(robert bosch gmbh)
Inventor(s): David Kapfenberger of Stuttgart DE for robert bosch gmbh, Paul Schliffke of Bietigheim-Bissingen DE for robert bosch gmbh, Florian Giesen of Ostfildern DE for robert bosch gmbh
IPC Code(s): G01S7/481
CPC Code(s): G01S7/4816
Abstract: a laser range finder is disclosed having an optics housing, a transmitting optics for emitting at least one laser beam and receiving optics for receiving a reflected laser beam. the optics housing at least partially accommodates the transmitting optics and/or the receiving optics. the receiving optics includes a receiving lens and a photodetector. the receiving lens is arranged within the optics housing at a predefined distance from the photodetector.
Inventor(s): Michael Andreas Gerlach of Marbach A.N. DE for robert bosch gmbh, Vedant Pramod Paithankar of München DE for robert bosch gmbh
IPC Code(s): G06F11/07, G06F11/30, G06F11/34
CPC Code(s): G06F11/0751
Abstract: a method for determining whether in a communication channel within at least one multicore processor or multicore microcontroller, particularly within a vehicle, an anomaly is present. the at least one multicore processor or multicore microcontroller includes a plurality of cores. a communication between at least two of the plurality of cores is monitored, and based on a monitoring result, it is decided whether the anomaly is present or not.
Inventor(s): Luca BONDI of Pittsburgh PA US for robert bosch gmbh, Mohammad Ali VOSOUGHI of Rochester NY US for robert bosch gmbh, Ho-Hsiang WU of Morrisville NC US for robert bosch gmbh, Samarjit DAS of Wexford PA US for robert bosch gmbh
IPC Code(s): G06N3/084
CPC Code(s): G06N3/084
Abstract: a method of machine learning network includes receiving one or more sound segments and one or more associated text labels indicating captions associated with the sound segments, generating, utilizing a large language model of the machine learning network, one or more counterfactual captions associated with the one or more sound segments, wherein the one or more counterfactual captions are adversarial captions, determining a loss associated with the one or more sound segments, one or more associated text labels, and one or more counterfactual captions, updating parameters associated with an audio encoder or text encoder of the machine learning network, in response to falling below a threshold, repeating steps list above, and in response to meeting the threshold and utilizing a ranking, updating final parameters associated with the machine learning network.
Inventor(s): Aikaterini GRATSEA of Los Angeles CA US for robert bosch gmbh, Georgy SAMSONIDZE of San Francisco CA US for robert bosch gmbh
IPC Code(s): G06N10/80, G06N10/20
CPC Code(s): G06N10/80
Abstract: in some implementations, the device may include generating, by a classical computer, a quantum circuit having: a subset of qubits including at least three of the qubits arranged to execute a linear string of gates; a first layer having a vertically centered arrangement of at least three ry gates on each of the linear strings of gates for each of the subset of qubits; a second layer having a sequence of entangling gate followed by an single qubit gate on each linear string of gates where each entangling gate entangles the linear string of gates of the subsequent qubit; a third layer having the step shape of the second layer; receiving parameters associated with a physical environment. the device may execute the vqe algorithm based on the quantum circuit and the parameters of the physical environment. the method may further output an approximation of a base state of the physical environment.
Inventor(s): Clint Sebastian of Stuttgart DE for robert bosch gmbh, Deepthi Sreenivasaiah of Erlangen DE for robert bosch gmbh, Laura Beggel of Stuttgart DE for robert bosch gmbh, Thi Phuong Nhung Ngo of Karlsruhe-Neureut DE for robert bosch gmbh
IPC Code(s): G06V10/774, G06T7/10, G06V10/764, G06V20/70
CPC Code(s): G06V10/774
Abstract: a method for providing a combined training data set for a machine learning model includes (i) providing image data, wherein the image data comprises a non-labelled portion and a labelled portion, (ii) training a base machine learning model based on the non-labelled portion of the image data to provide a generalized model, (iii) training the generalized model based on the labelled portion of the image data to provide a semantic segmentation model, (iv) analyzing a training data set with the semantic segmentation model to provide a semantics for the training data set, (v) analyzing the training data set with a zero-shot segmentation model to provide segmentation for the training data set, (vi) providing the combined training data set based on a combination of the provided semantics and the provided segmentation of the training data set. a computer program, a device, and a storage medium for this purpose are also disclosed.
Inventor(s): Jan FLORENSKI of Stuttgart DE for robert bosch gmbh, Mordechai KORNBLUTH of Brighton MA US for robert bosch gmbh
IPC Code(s): H01M8/0662, H01M8/12
CPC Code(s): H01M8/0675
Abstract: a solid oxide fuel cell (sofc) system includes a sofc stack, a component located upstream from the sofc stack and downstream from a heat exchanger, the component including a bulk portion; and a surface portion directly adjacent the bulk portion and having a combination of a sulfur getter material and a chromium getter material, the sulfur and chromium getter materials having different chemical compositions, the chromium getter being an absorber of hexavalent gaseous chromium and the sulfur getter being an absorber of sulfur-containing gaseous species.
Inventor(s): Zhao Yan of Suzhou CN for robert bosch gmbh, Guangtu Zhang of Suzhou CN for robert bosch gmbh, Dongsheng Chen of Shanghai CN for robert bosch gmbh
IPC Code(s): H01M16/00, H01M8/04858
CPC Code(s): H01M16/006
Abstract: a power transmission unit and a method for controlling the current flowing through it are disclosed. the power transmission unit includes a first switch which is turned on and off at a first duty cycle; a second switch which is turned on and off at a second duty cycle that is less than the first duty cycle; an inductive element connected between the first switch and the second switch, with its current associated with the first and second duty cycles; and a controller configured to determine a total duty cycle as the sum of the first and second duty cycles based on an actual phase current and a desired phase current of the inductive element, and to adjust the first and second duty cycles based on the determined total duty cycle. embodiments of the present disclosure adjust both the first and second duty cycles through the total duty cycle, which changes with the total duty cycle, allowing both the first and second duty cycles to be adjusted to appropriate values. this ensures that the current flowing through the inductive element reaches an appropriate value, thereby enabling small current control.
Inventor(s): Josef Novak of Zwiesel DE for robert bosch gmbh, Florian Maier of Straubing DE for robert bosch gmbh, Thomas Koppera of Zachenberg DE for robert bosch gmbh
IPC Code(s): H04W76/10, H04W4/80, H04W8/22
CPC Code(s): H04W76/10
Abstract: a method for unlocking a function on a device, wherein an intermediate device comprising an unlocking arrangement uses a first communication link for communication, wherein the intermediate device comprising the device uses a second communication link for communication, wherein the device comprising the unlocking arrangement exchanges unlocking communication data via the first and second communication link so that the function on device is enabled, wherein the second communication link is achieved via an nfc interface between the intermediate device and the device.
- Robert Bosch GmbH
- B60W30/06
- B60W30/09
- G08G1/16
- CPC B60W30/06
- Robert bosch gmbh
- B60W30/18
- B60W60/00
- CPC B60W30/18159
- B62D5/04
- CPC B62D5/0472
- B81C99/00
- G01D11/24
- G01D11/30
- CPC B81C99/002
- F02P5/152
- F02D19/02
- F02D41/10
- CPC F02P5/1521
- F16D65/09
- F16D65/40
- CPC F16D65/09
- G01C21/00
- G06V10/82
- CPC G01C21/3833
- CPC G01C21/3859
- G01K7/01
- CPC G01K7/01
- G01L27/00
- G01L19/00
- CPC G01L27/007
- G01L19/06
- G01S7/40
- G01S13/02
- G01S13/42
- CPC G01S7/4091
- G01S7/481
- CPC G01S7/4816
- G06F11/07
- G06F11/30
- G06F11/34
- CPC G06F11/0751
- G06N3/084
- CPC G06N3/084
- G06N10/80
- G06N10/20
- CPC G06N10/80
- G06V10/774
- G06T7/10
- G06V10/764
- G06V20/70
- CPC G06V10/774
- H01M8/0662
- H01M8/12
- CPC H01M8/0675
- H01M16/00
- H01M8/04858
- CPC H01M16/006
- H04W76/10
- H04W4/80
- H04W8/22
- CPC H04W76/10