Robert Bosch GmbH patent applications on September 5th, 2024
Patent Applications by Robert Bosch GmbH on September 5th, 2024
Robert Bosch GmbH: 13 patent applications
Robert Bosch GmbH has applied for patents in the areas of G06V10/84 (2), B25F5/00 (1), G06V10/74 (1), H01M8/1004 (1), C25B9/63 (1) B25F5/006 (1), B60T17/222 (1), B60W30/06 (1), C02F1/4691 (1), G01S7/52001 (1)
With keywords such as: data, signal, graph, unit, vehicle, partial, gnss, brake, power, and fluid in patent application abstracts.
Patent Applications by Robert Bosch GmbH
20240293925. Hand-Held Processing Tool_simplified_abstract_(robert bosch gmbh)
Inventor(s): Lars Schmid of Nuertingen (DE) for robert bosch gmbh, Joerg Kaiser of Markgroeningen (DE) for robert bosch gmbh, Tobias Bayha of Walddorfhaeslach (DE) for robert bosch gmbh
IPC Code(s): B25F5/00, B23B45/02
CPC Code(s): B25F5/006
Abstract: a hand-held processing tool with a housing that includes at least two housing parts is disclosed. the housing parts each have a side edge which are directly adjacent to one another in the assembled state of the housing. a recess is provided in at least one partial region of the side edges of at least one of the two housing parts such that the side edges of the at least two housing parts are spaced apart from one another in the at least one partial region.
Inventor(s): Herbert Vollert of Vaihingen/Enz (DE) for robert bosch gmbh, Ralf Kinder of Auenstein (DE) for robert bosch gmbh
IPC Code(s): B60T17/22, B60T13/66, F15B13/042
CPC Code(s): B60T17/222
Abstract: venting a cylinder of a piston-cylinder unit of a power brake pressure generator of a hydraulic power brake system for a motor vehicle. a piston in the cylinder is displaced from a forward-displaced position back into a home position and subsequently forward again. when the piston is displaced back, a connection valve is closed so that the piston sucks brake fluid from a brake fluid container, the brake fluid flowing over a lip seal acting in the manner of a pressure relief valve as the first piston seal. during the forward stroke, the piston pushes brake fluid through the then open connection valve into the brake fluid container. any air contained in the cylinder is pushed with the brake fluid from the cylinder and separates from the brake fluid in the brake fluid container.
20240294165. CONCEPT FOR ASSISTING A MOTOR VEHICLE_simplified_abstract_(robert bosch gmbh)
Inventor(s): Andreas Lehn of Ostfildern (DE) for robert bosch gmbh, Felix Hess of Benningen (DE) for robert bosch gmbh
IPC Code(s): B60W30/06, H04W4/44
CPC Code(s): B60W30/06
Abstract: a system for infrastructure-based assistance of a motor vehicle guided in an at least partially automated manner within a parking lot. the system includes: first and second base units arranged spaced apart from one another within the parking lot and interconnected in series. the first and second base units are respectively connected to at least one environment sensor that is arranged within the parking lot, in the respective environment of the corresponding base unit, and detects an area of the parking lot. the first and second base units are respectively configured to ascertain infrastructure assistance data for infrastructure-based assistance of the motor vehicle within the parking lot, based on environment sensor data of the respective at least one environment sensor that represent the respective detected area. at least one wireless communication interface is configured to transmit the ascertained infrastructure assistance data to the motor vehicle.
20240294408. DESALINATION DEVICE_simplified_abstract_(robert bosch gmbh)
Inventor(s): Soo KIM of Cambridge MA (US) for robert bosch gmbh, Michael METZGER of Sunnyvale CA (US) for robert bosch gmbh, Jonathan MAILOA of Cambridge MA (US) for robert bosch gmbh, Mordechai KORNBLUTH of Brighton MA (US) for robert bosch gmbh, Georgy SAMSONIDZE of San Francisco CA (US) for robert bosch gmbh, Saravanan KUPPAN of Sunnyvale CA (US) for robert bosch gmbh, Sondra HELLSTROM of East Palo Alto CA (US) for robert bosch gmbh, Boris KOZINSKY of Waban MA (US) for robert bosch gmbh, Nathan CRAIG of Santa Clara CA (US) for robert bosch gmbh, Jake CHRISTENSEN of Elk Grove CA (US) for robert bosch gmbh
IPC Code(s): C02F1/469, B01D61/42, B01D61/48, C02F103/08
CPC Code(s): C02F1/4691
Abstract: a desalination battery cell includes a first compartment separated by an anion exchange membrane from a second compartment, each of the first and second compartments containing a saline water solution having a concentration of dissolved salts cand first and second intercalation host electrodes, respectively, in fluid communication with the solution, a voltage source supplying electric current to the first and second intercalation host electrodes to release cations into the solution, and a controller programmed to adjust an amount of the electric current being supplied to change direction of anions in the solution passing through the anion exchange membrane between the compartments such that the first and second compartments alternately collect and disperse salt from the solution and release desalinated water solution having a concentration cof dissolved salts and a brine solution having a concentration cof dissolved salts such that c>c>c.
Inventor(s): Andre Gerlach of Leonberg-Hoefingen (DE) for robert bosch gmbh, Jona Eisele of Kornwestheim (DE) for robert bosch gmbh
IPC Code(s): G01S7/52, G01S15/02
CPC Code(s): G01S7/52001
Abstract: a method for classifying an object to be detected with at least one ultrasonic sensor. the method includes: transmitting a first signal using the ultrasonic sensor to the object; receiving a second signal using the ultrasonic sensor, wherein the second signal is a backscattered signal from the object; processing the second signal into a digital signal; extracting a selected signal portion from the digital signal, the selected signal portion representing a relevant and time-limited time segment from the digital signal; transforming the selected signal portion into a two-dimensional feature vector; feeding the two-dimensional feature vector into a neural network as at least one input variable; determining object class information for the object using the neural network, wherein, based on the at least one input variable, the neural network produces an output variable which indicates a probability value for at least one defined object class for the one object.
Inventor(s): Markus Langer of Sachsenheim (DE) for robert bosch gmbh, Thomas Speth of Denkendorf (DE) for robert bosch gmbh, Kosmas Knoedler of Bad Wimpfen (DE) for robert bosch gmbh, Marco Limberger of Appenweier-Urloffen (DE) for robert bosch gmbh
IPC Code(s): G01S19/05, G01S19/07
CPC Code(s): G01S19/05
Abstract: a method for operating a gnss-based navigation module in a vehicle during a starting phase of the vehicle is disclosed. the method includes a) requesting initial gnss navigation data from an external data source which provides data at a data rate which is greater than a data provision rate of a regular data source of a gnss system for gnss navigation data, and receiving the initial gnss navigation data from this external data source, b) requesting initial gnss correction data from an external data source which provides data at a data rate which is greater than a data provision rate of a regular data source of a gnss system for gnss correction data, and receiving the initial gnss correction data from this external data source, and c) determining at least one initial output parameter on the basis of the initial gnss navigation data and the initial gnss correction data.
Inventor(s): Andre Guntoro of Weil Der Stadt (DE) for robert bosch gmbh, Michael Beyer of Stuttgart (DE) for robert bosch gmbh
IPC Code(s): G06F7/544, G06F7/50, G06F7/53
CPC Code(s): G06F7/5443
Abstract: a multiply-accumulate circuit for processing numerical values that are present as input words, each of which is formed from at least two partial words. the circuit is configured, corresponding to a permutation selected from a plurality of permutation possibilities implemented by the multiply-accumulate circuit, to form product partial words as products of in each case one partial word of the first input word with one partial word of the second input word, wherein in the products, the partial words of the first input word are permutated relative to their original order corresponding to the selected permutation; and to add the product partial words with an accumulation word, which is formed from one or more partial words, to determine an updated accumulation word in which product partial words are in each case added to one of the one or more partial words of the accumulation word.
Inventor(s): Benedikt Sebastian Staffler of Muenchen (DE) for robert bosch gmbh, Jan Hendrik Metzen of Boeblingen (DE) for robert bosch gmbh
IPC Code(s): G06N7/01, G06V10/84
CPC Code(s): G06N7/01
Abstract: a method for creating a machine learning system, which can be configured for segmentation and object detection. the method includes: providing a directed graph, selecting one or more paths through the graph, wherein at least one additional node is selected from a subset, and a path through the graph from an input node along the edges via the additional node to an output node is selected; finding the optimal input nodes from a plurality of input nodes for each output of the directed graph.
Inventor(s): Piyush Chawla of Columbus OH (US) for robert bosch gmbh, Liang Gou of San Jose CA (US) for robert bosch gmbh, Huan Song of San Jose CA (US) for robert bosch gmbh, Thang Doan of Santa Clara CA (US) for robert bosch gmbh, Liu Ren of Saratoga CA (US) for robert bosch gmbh
IPC Code(s): G06V10/82, G06V10/74, G06V10/84
CPC Code(s): G06V10/82
Abstract: a method for training a model for determining graph similarity is disclosed. the method comprises receiving a first graph and a second graph as training inputs, the first graph and the second graph each including nodes connected by edges. the method further comprises applying a model to the first graph and the second graph to determine (i) pairs of aligned nodes between the first graph and the second graph and (ii) a first training loss. the method further comprises generating a first augmented graph by modifying the first graph depending on the pairs of aligned nodes. the method further comprises applying the model to the first graph and the first augmented graph to determine a second training loss. the method further comprises refining the model based on the first training loss and the second training loss.
Inventor(s): Andreas Ringk of Bamberg (DE) for robert bosch gmbh, Anton Ringel of Bamberg (DE) for robert bosch gmbh
IPC Code(s): H01M8/1004, C25B9/63, C25B9/75, C25B9/77, H01M8/2404, H01M8/242
CPC Code(s): H01M8/1004
Abstract: a method for producing an electrochemical cell unit for converting electrochemical energy into electrical energy as fuel cell unit and/or for converting electrical energy into electrochemical energy as electrolysis cell unit comprising stacked electrochemical cells, the method comprising the following steps: making available layered components () of the electrochemical cells, namely preferably proton-exchange membranes, anodes, cathodes, preferably membrane electrode arrangements (), preferably gas diffusion layers () and bipolar plates (), stacking the layered components () to form electrochemical cells and to form a stack of the electrochemical cell unit, the bipolar plates () being made available such that at least one suction opening () is formed in each of the bipolar plates () and components () of the electrochemical cells are brought by suction by means of a reduced pressure in the suction openings () during production, such that the components () brought to the suction openings () by suction are fixed to the bipolar plates () by means of the reduced pressure.
Inventor(s): Ralph Glemser of Brackenheim (DE) for robert bosch gmbh, Markus Schmitt of Tamm (DE) for robert bosch gmbh, Silvio Grund of Wurzen (DE) for robert bosch gmbh
IPC Code(s): H01M50/507, H01M10/42, H01M50/204
CPC Code(s): H01M50/507
Abstract: a method for forming an electrically conductively formed connection between a first power bus, which is electrically conductively connectable or connected to a voltage tap of a terminally arranged battery cell of a plurality of electrically conductively interconnected battery cells, and a second power bus, which is electrically conductively connected to a control unit of a battery module. the plurality of battery cells, the control unit, and the first power bus and the second power bus are accommodated in a housing of the battery module. an opening is provided in the housing, and an assembly aid is inserted into the opening. a connecting element is accommodated in the mounting aid, and a mechanical connection is formed between the first power bus and the second power bus by the connecting element, such that an electrically conductively formed connection is formed between the first power bus and the second power bus.
Inventor(s): Dirk Wolf of Renningen (DE) for robert bosch gmbh, Oliver Blum of Renningen (DE) for robert bosch gmbh
IPC Code(s): H02J7/00, B60L53/16, B60L53/66
CPC Code(s): H02J7/0029
Abstract: the invention provides a device and a method for contact-connecting an electric vehicle to a charging station and to a corresponding charging station. the electric vehicle can be contact-connected to the charging station by automatically lowering contact elements of the electric vehicle onto corresponding contact pads of the charging station. there is provision for additional measurement contacts in order to check reliable contact-connection of the electric vehicle to the charging station. these measurement contacts can be used to check reliable contact-connection of the connections of the electric vehicle to the contact pads of the charging station before the charging process is approved.
Inventor(s): Tobias FRYE of Braunschweig (DE) for robert bosch gmbh, Holger Mindt of Steinheim A. D. Murr (DE) for robert bosch gmbh
IPC Code(s): H04W28/04, H04L1/08
CPC Code(s): H04W28/04
Abstract: a method for securing communication between a roadside radio unit and vehicles in the surroundings of the roadside radio unit. the method includes: broadcasting a sequence of radio signals to the surroundings by means of the roadside radio unit, wherein the radio signals each have a temporal assignment; receiving a response signal from a vehicle or a stationary monitoring unit, wherein the response signal represents at least the temporal assignment of a radio signal that was faulty or not received by the vehicle or by the monitoring unit; and broadcasting a repeated signal by means of the roadside radio unit as a function of the received response signal, wherein the repeated signal represents the faulty or not-received radio signal and is in particular characterized as a repeated signal.
Robert Bosch GmbH patent applications on September 5th, 2024
- Robert Bosch GmbH
- B25F5/00
- B23B45/02
- CPC B25F5/006
- Robert bosch gmbh
- B60T17/22
- B60T13/66
- F15B13/042
- CPC B60T17/222
- B60W30/06
- H04W4/44
- CPC B60W30/06
- C02F1/469
- B01D61/42
- B01D61/48
- C02F103/08
- CPC C02F1/4691
- G01S7/52
- G01S15/02
- CPC G01S7/52001
- G01S19/05
- G01S19/07
- CPC G01S19/05
- G06F7/544
- G06F7/50
- G06F7/53
- CPC G06F7/5443
- G06N7/01
- G06V10/84
- CPC G06N7/01
- G06V10/82
- G06V10/74
- CPC G06V10/82
- H01M8/1004
- C25B9/63
- C25B9/75
- C25B9/77
- H01M8/2404
- H01M8/242
- CPC H01M8/1004
- H01M50/507
- H01M10/42
- H01M50/204
- CPC H01M50/507
- H02J7/00
- B60L53/16
- B60L53/66
- CPC H02J7/0029
- H04W28/04
- H04L1/08
- CPC H04W28/04
