Patent Applications by Robert Bosch GmbH on December 26th, 2024

Robert Bosch GmbH: 25 patent applications

Robert Bosch GmbH has applied for patents in the areas of B81B3/00 (3), A61B5/00 (2), G06N3/084 (2), H01M8/1044 (1), G06V10/26 (1) A61B5/0024 (1), G01S5/0244 (1), H04B7/22 (1), H02P23/0018 (1), H02N1/006 (1)

With keywords such as: data, element, sensor, speed, device, electrode, time, phase, vehicle, and structure in patent application abstracts.

Patent Applications by Robert Bosch GmbH

20240423472. BODY AREA NETWORK WITH TRANSMIT-ONLY DEVICES_simplified_abstract_(robert bosch gmbh)

Inventor(s): Vivek JAIN of Sunnyvale CA (US) for robert bosch gmbh, Kaustubh GANDHI of Filderstadt (DE) for robert bosch gmbh, Sushanta Mohan RAKSHIT of Milpitas CA (US) for robert bosch gmbh, Abhinav KUNCHAMWAR of Stuttgart (DE) for robert bosch gmbh

IPC Code(s): A61B5/00, H04W4/38, H04W84/18

CPC Code(s): A61B5/0024

Abstract: configuring and utilizing a body area network (ban) is provided. in a configuration phase, configuration messages are sent for scheduling a plurality of transmit-only devices such that during a data collection phase each of the plurality of transmit-only devices is configured to transmit in an individually-assigned time slot. in the data collection phase, a data collector device receives, from the plurality of transmit-only devices, sensor data messages including sensor data from the transmit-only devices, the sensor data messages being scheduled according to the configuration phase.

20240424939. Electric Vehicle Charging Optimization Through Charging Perturbation Across On-Road EV Fleets_simplified_abstract_(robert bosch gmbh)

Inventor(s): Nikhil Ravi of Redwood City CA (US) for robert bosch gmbh, Reinhardt Klein of Mountain View CA (US) for robert bosch gmbh, Maksim Subbotin of San Carlos CA (US) for robert bosch gmbh, Camille Usubelli of San Jose CA (US) for robert bosch gmbh, Ravin Singh of Sunnyvale CA (US) for robert bosch gmbh

IPC Code(s): B60L53/66, B60L53/30, B60L53/62, H02J7/00

CPC Code(s): B60L53/66

Abstract: systems and methods are disclosed for optimizing charging protocols across the fleet of electric vehicles over time. in particular, a cloud backend generates one or more alternative or experimental charging protocols by perturbing a baseline charging profile of a baseline charging protocol. the ‘perturbed’ charging protocol(s) are deployed to a subset of the fleet of electric vehicles. as the subset of the fleet of electric vehicles charge their batteries using the perturbed charging protocol(s), the cloud backend observes, based on battery data received from the subset of the fleet of electric vehicles, an impact of the perturbed charging protocol(s) on battery aging and charging times. based on these battery data, the cloud backend revises and improves the baseline charging protocol that is deployed to the entire fleet of electric vehicles.

20240425046. METHOD FOR DETERMINING A MAXIMUM END SPEED_simplified_abstract_(robert bosch gmbh)

Inventor(s): Florian Ott of Weinsbreg (DE) for robert bosch gmbh

IPC Code(s): B60W30/14

CPC Code(s): B60W30/143

Abstract: a method for determining a maximum end speed of a motor vehicle before the start of a speed limit area. the method includes determining a current motor vehicle speed, a speed limit value of an upcoming speed limit area, and a distance to the start of the speed limit area. a time is estimated to the speed limit area on the basis of the previously determined values. a speed increase with respect to the current motor vehicle speed is determined, dependent on the time to the speed limit area. a deceleration is estimated, so that based on the current motor vehicle speed, the speed increase, and the distance to the start of the speed limit area, the speed limit value is present at the start of the speed limit are. the determined speed increase is reduced if the estimated deceleration is greater than a deceleration limit value.

20240425049. CONTROLLER AND CONTROL METHOD_simplified_abstract_(robert bosch gmbh)

Inventor(s): Shoichiro Kaneko of Kanagawa (JP) for robert bosch gmbh, Yuya Oikawa of Kanagawa (JP) for robert bosch gmbh

IPC Code(s): B60W30/18, B60W30/045

CPC Code(s): B60W30/18145

Abstract: the present invention obtains a controller and a control method capable of appropriately adjusting drive power of a lean vehicle.

20240425049. CONTROLLER AND CONTROL METHOD_simplified_abstract_(robert bosch gmbh)

Inventor(s): Shoichiro Kaneko of Kanagawa (JP) for robert bosch gmbh, Yuya Oikawa of Kanagawa (JP) for robert bosch gmbh

IPC Code(s): B60W30/18, B60W30/045

CPC Code(s): B60W30/18145

Abstract: in a controller and the control method according to the present invention, an execution section of the controller executes drive power adjustment operation for adjusting drive power generated to a lean vehicle according to wheel behavior or body behavior of the lean vehicle , and the execution section executes the drive power adjustment operation on the basis of turning posture information of the lean vehicle and a height direction acceleration index value as an index value of height direction acceleration generated to the lean vehicle

20240425081. Method and Apparatus for Generating at Least One Training Travel Trajectory for Training a Driving Mode of a Self Driving Vehicle_simplified_abstract_(robert bosch gmbh)

Inventor(s): Martin Stoll of Renningen (DE) for robert bosch gmbh, Markus Mazzola of Tuebingen (DE) for robert bosch gmbh, Maxim Dolgov of Renningen (DE) for robert bosch gmbh

IPC Code(s): B60W60/00, B60W40/04

CPC Code(s): B60W60/0015

Abstract: a method is for generating at least one training travel trajectory for training a driving mode of a self driving vehicle. the method includes reading in a possible travel trajectory of a vehicle and a safety time parameter representing a time period within which a safety distance to an assumed vehicle in front is to be maintained again after a deviation of a position and/or speed of the vehicle on the travel trajectory, and determining position deviation data and/or speed deviation data to change an assumed position and/or speed of the vehicle on the travel trajectory at a specific and/or predefined time. the method further includes determining the training travel trajectory using the travel trajectory, the safety time parameter, the position deviation data and/or the speed deviation data.

20240425135. CONTROLLER AND CONTROL METHOD_simplified_abstract_(robert bosch gmbh)

Inventor(s): Yoshihide Igari of Kanagawa (JP) for robert bosch gmbh

IPC Code(s): B62J45/20

CPC Code(s): B62J45/20

Abstract: the present invention obtains a controller and a control method capable of improving safety of a lean vehicle.

20240425135. CONTROLLER AND CONTROL METHOD_simplified_abstract_(robert bosch gmbh)

Inventor(s): Yoshihide Igari of Kanagawa (JP) for robert bosch gmbh

IPC Code(s): B62J45/20

CPC Code(s): B62J45/20

Abstract: according to a controller () and a control method of the present invention, an execution section of the controller () executes a first operation. the first operation is an operation causing the lean vehicle () to execute a cruise control based on a positional relationship information that is information about a positional relationship between the lean vehicle () and a preceding vehicle preceding the lean vehicle (). when a specified operation is performed by a rider of the lean vehicle () while the first operation is enabled by the rider, the execution section executes a second operation, the second operation is an operation that automatically stops the lean vehicle () regardless of the positional relationship information.

20240425351. MICROELECTROMECHANICAL DEVICE, MICROELECTROMECHANICAL PRESSURE SENSOR, MICROELECTROMECHANICAL MICROPHONE AND MICROELECTROMECHANICAL COMBINATION SENSOR ELEMENT._simplified_abstract_(robert bosch gmbh)

Inventor(s): Christoph Schelling of Stuttgart (DE) for robert bosch gmbh, Jochen Reinmuth of Reutlingen (DE) for robert bosch gmbh

IPC Code(s): B81B3/00, G01L9/00

CPC Code(s): B81B3/0021

Abstract: a microelectromechanical device for capacitive fluid pressure measurement. the microelectromechanical device has a first electrode and a second electrode forming a counter-electrode. the device has a cavity formed between a first boundary layer and a second boundary layer or a substrate, in which cavity the first electrode is arranged and movably mounted, wherein the first boundary layer and/or the second boundary layer can be deflected by a fluid pressure and wherein the first boundary layer and/or the second boundary layer is or are coupled to the first electrode by a first coupling element for transmitting a deflection movement to the movably mounted first electrode. a microelectromechanical pressure sensor, a microelectromechanical microphone, and a microelectromechanical combination sensor element, are also disclosed.

20240425356. MICROMECHANICAL DEVICE WITH A MECHANICAL STOP_simplified_abstract_(robert bosch gmbh)

Inventor(s): Jochen Reinmuth of Reutlingen (DE) for robert bosch gmbh, Ralf Boessendoerfer of Dinkelsbuehl (DE) for robert bosch gmbh, Robert Maul of Reutlingen (DE) for robert bosch gmbh

IPC Code(s): B81B3/00, G01P15/125

CPC Code(s): B81B3/0051

Abstract: a micromechanical device having a substrate with a main extension plane, a thin first functional layer over the substrate, and a thick second functional layer over the first functional layer. a fixed functional element and a movable functional element are formed in the second functional layer, the movable functional element is able to deflect in a first direction parallel to the main extension plane. the micromechanical device has a fixed stop element in the first functional layer, the movable functional element is also formed in the first functional layer and has a movable stop element there. the movable stop element can be applied to the fixed stop element when the movable functional element is deflected in the first direction.

20240425358. MICROELECTROMECHANICAL DEVICE AND MICROELECTROMECHANICAL LOUDSPEAKER_simplified_abstract_(robert bosch gmbh)

Inventor(s): Anton Melnikov of Dresden (DE) for robert bosch gmbh, Jens Schindele of Kirchentellinsfurt (DE) for robert bosch gmbh

IPC Code(s): B81B3/00

CPC Code(s): B81B3/0072

Abstract: a microelectromechanical device for generating a fluid pressure. the microelectromechanical device includes a displacement structure, wherein the displacement structure has a movable membrane which can be deflected to generate the fluid pressure by means of a drivable connection structure acting on the membrane, and wherein the connection structure has a drive element and a deflection element connecting the membrane to the drive element. the deflection element has a lower flexural rigidity than the drive element and is elastically deformable when the membrane is deflected. a microelectromechanical loudspeaker having such a microelectromechanical device is also described.

20240425362. MICROMECHANICAL COMPONENT WITH EXTERNAL CONTACTING_simplified_abstract_(robert bosch gmbh)

Inventor(s): Benjamin Biasi of Stuttgart (DE) for robert bosch gmbh, Timo Giesselmann of Stuttgart (DE) for robert bosch gmbh

IPC Code(s): B81B7/00

CPC Code(s): B81B7/008

Abstract: a micromechanical component with an arrangement of external electrical contacts for contacting on a printed circuit board. the component is contactable in a first soldering configuration. the component is contactable in at least one second soldering configuration, and a calibration data set s configurable for the first soldering configuration or the second soldering configuration.

20240426379. SEAL ARRANGEMENT IN THE COOLING CIRCUIT OF AN E-AXLE MODULE_simplified_abstract_(robert bosch gmbh)

Inventor(s): Daniel Schwartz of Wiernsheim (DE) for robert bosch gmbh, Markus Feigl of Markgroeningen (DE) for robert bosch gmbh, Philipp Breinlinger of Karlsruhe (DE) for robert bosch gmbh, Theresa Sophia Staron of Stuttgart (DE) for robert bosch gmbh

IPC Code(s): F16J15/3204

CPC Code(s): F16J15/3204

Abstract: the invention relates to a seal arrangement () in the cooling circuit of an e-axle module () comprising at least one electric machine () and at least one power electronics system (). the seal arrangement () comprises a tubular insert () on which a first sealing element () is arranged and which has an associated further sealing element () on one of its end sides (). an overflow opening () is located between the sealing elements (). the invention also relates to the use of the seal arrangement () in the cooling circuit between an electric machine () and a power electronics system () of an e-axle module () of an electrically driven vehicle.

20240426643. SENSOR MODULE_simplified_abstract_(robert bosch gmbh)

Inventor(s): Frank Kursawe of Untergruppenbach (DE) for robert bosch gmbh

IPC Code(s): G01D21/00, B60T7/04, F16D66/00

CPC Code(s): G01D21/00

Abstract: a sensor module. the sensor module includes at least two sensor units; a control device configured to adjust an electrical supply voltage for the sensor units; and a sensor signal output. the sensor units can be electrically connected to or electrically disconnected from the control device and are electrically connected to the sensor signal output. a first sensor unit, during a normal operation, provides a first output signal through the sensor signal output, and a second sensor unit, during an energy-saving operation, provides a second output signal through the sensor signal output. a decision unit is associated with the control device, and electrically connects or disconnects the first or second sensor unit to the control device depending on the adjusted electrical supply voltage. the control device is configured to, during the energy-saving operation, change the supply voltage when the output signal reaches a defined threshold value.

20240426675. METHOD AND CIRCUIT ARRANGEMENTS FOR DETERMINING A BARRIER-LAYER TEMPERATURE OF A SEMICONDUCTOR COMPONENT HAVING AN INSULATED GATE_simplified_abstract_(robert bosch gmbh)

Inventor(s): Manuel Riefer of Reutlingen (DE) for robert bosch gmbh, Jonathan Winlker of Sonnenbuehl (DE) for robert bosch gmbh

IPC Code(s): G01K7/01, G01K7/42, G01R31/26

CPC Code(s): G01K7/015

Abstract: methods and circuit arrangement for ascertaining a barrier-layer temperature of a semiconductor component having an insulated gate. a method for ascertaining the barrier-layer temperature of the semiconductor component has the following steps: controlling a gate of the semiconductor component having an insulated gate by means of a predefined inrush current at a first switch-on phase time through a current-controlled gate driver in order to begin a switching-on process of the semiconductor component; starting a switch-on phase time measurement at the first switch-on phase time; ascertaining a second switch-on phase time, which represents a threshold voltage of the semiconductor component being reached, by detecting a rising current edge in a load path of the semiconductor component; and ascertaining a current barrier-layer temperature of the semiconductor component on the basis of a time difference between the second switch-on phase time and the first switch-on phase time.

20240426962. DEVICE AND METHOD FOR OPERATING A COMMUNICATION SYSTEM_simplified_abstract_(robert bosch gmbh)

Inventor(s): Johannes Von Hoyningen-Huene of Mielkendorf (DE) for robert bosch gmbh, Andreas Mueller of Waiblingen (DE) for robert bosch gmbh, Heidrun Grob-Lipski of Starzach (DE) for robert bosch gmbh

IPC Code(s): G01S5/02, H04W64/00

CPC Code(s): G01S5/0244

Abstract: a device and method for operating a communication system.

20240428076. TORCHDEQ: A LIBRARY FOR DEEP EQUILIBRIUM MODELS_simplified_abstract_(robert bosch gmbh)

Inventor(s): Zhengyang Geng of Pittsburgh PA (US) for robert bosch gmbh, Jeremy Kolter of Pittsburgh PA (US) for robert bosch gmbh, Ivan Batalov of Pittsburgh PA (US) for robert bosch gmbh, Joao Semedo of Pittsburgh PA (US) for robert bosch gmbh

IPC Code(s): G06N3/084

CPC Code(s): G06N3/084

Abstract: methods and systems are disclosed that allows users to define, train, and deploy deep equilibrium models. decoupled and structured interfaces allow users to easily customize deep equilibrium models. disclosed systems support a number of different forward and backward solvers, normalization, and regularization approaches.

20240428606. DEVICE AND COMPUTER-IMPLEMENTED METHOD FOR MACHINE LEARNING_simplified_abstract_(robert bosch gmbh)

Inventor(s): Nelson Higuera of Wien (AT) for robert bosch gmbh, Johannes Oetsch of Wien (AT) for robert bosch gmbh, Thomas Eiter of Wien (AT) for robert bosch gmbh

IPC Code(s): G06V30/422, G01C21/34, G05B13/02, G06T7/00, G06T7/73, G06V10/26, G06V30/19

CPC Code(s): G06V30/422

Abstract: a device and computer-implemented method for machine learning. the method includes: providing an input, in particular a digital image or a symbolic description of a graph, wherein the input includes a first node, a first name, a second node, and a second name, and an edge between the first node and the second node; determining, with a first model an expression that associates the edge with the first node and the second node; determining with a second model an expression that associates the first node with the first name and an expression that associates the second node with the second name; providing a question that includes the first name and the second name; determining, with a third model, depending on the question an expression that includes the first name and the second name, and determining an answer to the question depending on the expressions.

20240429124. ELECTRONIC MODULE COMPRISING AT LEAST ONE POWER SEMICONDUCTOR, AND METHOD FOR PRODUCING SAME_simplified_abstract_(robert bosch gmbh)

Inventor(s): Arne Stephen Fischer of Leinfelden-Echterdingen (DE) for robert bosch gmbh, Hartmut Wayand of Pfullingen (DE) for robert bosch gmbh, Johannes Meckbach of Tuebingen (DE) for robert bosch gmbh, Lukas Loeber of Ludwigsburg (DE) for robert bosch gmbh, Thomas Kiedrowski of Sersheim (DE) for robert bosch gmbh

IPC Code(s): H01L23/46, H01L21/48, H01L23/00, H01L23/367, H01L23/495

CPC Code(s): H01L23/46

Abstract: an electronic module. the electronic module includes at least one power semiconductor electrically connected to a contacting arrangement, and at least one cooling element for at least indirectly cooling the at least one power semiconductor.

20240429419. REVERSIBLE SHUNTS FOR OVERCHARGE PROTECTION IN POLYMER ELECTROLYTE MEMBRANE FUEL CELLS_simplified_abstract_(robert bosch gmbh)

Inventor(s): Jake CHRISTENSEN of Elk Grove CA (US) for robert bosch gmbh

IPC Code(s): H01M8/1067, H01M8/10, H01M8/1004, H01M8/103, H01M8/1032, H01M8/1044

CPC Code(s): H01M8/1067

Abstract: an electrochemical cell includes a fuel source; an oxidation source; a positive electrode exposed to an electrolyte membrane; a negative electrode exposed to the electrolyte membrane; and the electrolyte membrane positioned between the positive and negative electrodes, the electrolyte membrane including an electron donor material and a shunt material comprising one or more electroactive polymers that become electronically conductive at a specific shunting onset potential below the cell's open circuit potential, the one or more electroactive polymers including a diketopyrrolopyrrole (dpp) polymer or a derivative thereof.

20240429475. METHOD FOR MONITORING AN ENERGY STORE IN A MOTOR VEHICLE_simplified_abstract_(robert bosch gmbh)

Inventor(s): Alexander Uwe Schmid of Budapest (HU) for robert bosch gmbh, Philipp Schroeer of Althengstett (DE) for robert bosch gmbh, Christel Sarfert of Korntal-Muenchingen (DE) for robert bosch gmbh, Martin Andreas Lohrmann of Bietigheim-Bissingen (DE) for robert bosch gmbh, Joerg Poehler of Korntal-Muenchingen (DE) for robert bosch gmbh

IPC Code(s): H01M10/48, G01R31/389

CPC Code(s): H01M10/48

Abstract: a method for monitoring an energy store in a motor vehicle, wherein the energy store supplies at least one, in particular safety-relevant, consumer, preferably for an automated driving function. at least one characteristic variable of the energy store is predicted. the characteristic variable is predicted as a function of a ratio of an internal resistance and a polarization resistance of the energy store.

20240429507. Battery Pack comprising a Seal Unit_simplified_abstract_(robert bosch gmbh)

Inventor(s): Peter Kunert of Lichtenstein (DE) for robert bosch gmbh, Stefan Schmid of Sindelfingen (DE) for robert bosch gmbh, Thilo Koeder of Gerlingen (DE) for robert bosch gmbh, Thorsten Droigk of Tuebingen (DE) for robert bosch gmbh

IPC Code(s): H01M50/184, H01M50/119, H01M50/121

CPC Code(s): H01M50/184

Abstract: a battery pack, in particular to an interchangeable battery pack includes a housing. the housing includes at least two housing portions and a sealing unit for sealing the housing. the sealing unit includes at least one sealing element received in a receiving space between the housing portions. the sealing element includes exactly two seal lips.

20240429836. MICROELECTROMECHANICAL ACTUATOR STRUCTURE, COMPONENT_simplified_abstract_(robert bosch gmbh)

Inventor(s): Andreas Winden of Reutlingen (DE) for robert bosch gmbh, Anton Melnikov of Dresden (DE) for robert bosch gmbh, Ardeshir Moeinian of Ulm (DE) for robert bosch gmbh, Peter Engelhart of St. Johann (DE) for robert bosch gmbh

IPC Code(s): H02N1/00, F04B53/14, F16K99/00, H04R19/02

CPC Code(s): H02N1/006

Abstract: a microelectromechanical actuator structure including a microelectromechanical chip having a chip frame and a drive structure. the drive structure includes a first drive unit and a second drive unit. the first drive unit includes a first substrate and a first electrode structure. the first substrate has a first doping. the first electrode structure has a doping inverse to the first doping. the second drive unit includes a second substrate having a second doping and a second electrode structure having a doping inverse to the second doping. a pn junction is therefore formed between the substrates and the second electrode structures. the first electrode structure includes at least two first electrodes. the second electrode structure includes at least one second electrode. the first electrodes are arranged flat next to one another in a first electrode plane. the second electrode is arranged flat in a second electrode plane.

20240429845. Parameter Identification Method for Synchronous Motor Based on Neural Network_simplified_abstract_(robert bosch gmbh)

Inventor(s): Yu Chen of Hubei (CN) for robert bosch gmbh, Siyu Tong of Hubei (CN) for robert bosch gmbh, Xiaoyun Zang of Shanghai (CN) for robert bosch gmbh

IPC Code(s): H02P23/00, G06N3/045, G06N3/084, H02P23/14

CPC Code(s): H02P23/0018

Abstract: a parameter identification method for a synchronous motor based on a neural network is disclosed. a method for parameter identification of synchronous motors based on neural networks includes: s) establishing and training a first neural network model to determine intermediate results of the parameters to be identified for the synchronous motor, s) forming a second neural network model by adding a compensation module to the trained first neural network model, s) training the second neural network model based on the intermediate results of the parameters to be identified, and determining the final results of the parameters to be identified using the trained second neural network model. also disclosed is a device and a computer program product for parameter identification of synchronous motors based on neural networks.

20240430000. BODY AREA NETWORK WITH BISTATIC WIRELESS BACKSCATTERING DEVICES_simplified_abstract_(robert bosch gmbh)

Inventor(s): Vivek JAIN of Sunnyvale CA (US) for robert bosch gmbh, Kaustubh GANDHI of Filderstadt (DE) for robert bosch gmbh, Sushanta Mohan RAKSHIT of Milpitas CA (US) for robert bosch gmbh, Abhinav KUNCHAMWAR of Stuttgart (DE) for robert bosch gmbh

IPC Code(s): H04B7/22, A61B5/00, H04B7/26

CPC Code(s): H04B7/22

Abstract: configuring and utilizing a body area network (ban) is provided. in a configuration phase, configuration messages are sent for scheduling a plurality of backscatter devices such that during a data collection phase each of the plurality of backscatter devices is configured to transmit in an individually-assigned time slot. in the data collection phase, a data collector device receives, from the plurality of backscatter devices, sensor data messages including sensor data from the backscatter devices, the sensor data messages being scheduled according to the configuration phase.

20240430072. COMPUTER-IMPLEMENTED METHODS FOR TRANSMITTING OR RECEIVING DATA, DEVICES FOR TRANSMITTING OR RECEIVING DATA_simplified_abstract_(robert bosch gmbh)

Inventor(s): Jens Boettcher of Wien (AT) for robert bosch gmbh, Christian Brinkmann of Bietigheim-Bissingen (DE) for robert bosch gmbh

IPC Code(s): H04L7/04, H04L7/00

CPC Code(s): H04L7/04

Abstract: a computer-implemented method for receiving data. data are received in a bit stream asynchronously and serially via a transmission medium, wherein the data are received in frames that include a respective portion of the data, wherein the frames include a respective synchronization bit, wherein consecutively received frames have alternating values of the synchronization bits. a start of the consecutive frames is determined depending on the values of the bits of the frames. the portions of the data from consecutive frames are compiled without the synchronization bit to form the data. a computer-implemented method for transmitting data, a device, and a computer-implemented method for transmitting the data, are also described.

Robert Bosch GmbH patent applications on December 26th, 2024