Patent Applications by Robert Bosch GmbH on August 22nd, 2024

Robert Bosch GmbH: 29 patent applications

Robert Bosch GmbH has applied for patents in the areas of H01M8/1004 (2), B25F5/00 (2), H01M4/86 (2), H04L12/40 (2), B23Q11/00 (1) B23Q11/0046 (1), G06F11/1458 (1), H04L49/901 (1), H04L47/83 (1), H04L45/24 (1)

With keywords such as: data, region, surface, further, transmission, vehicle, electrode, device, based, and power in patent application abstracts.

Patent Applications by Robert Bosch GmbH

20240278371. Accessory for a Hand-Held Power Tool and Power Tool System Comprising a Hand-Held Power Tool and Such an Accessory_simplified_abstract_(robert bosch gmbh)

Inventor(s): Andre Ullrich of Leinfelden-Echterdingen (DE) for robert bosch gmbh, Holger Froehling of Stuttgart (DE) for robert bosch gmbh

IPC Code(s): B23Q11/00

CPC Code(s): B23Q11/0046

Abstract: an accessory, in particular a suction device, for fixing to a hand-held power tool, on which a battery pack can be arranged for supplying power to a drive motor, includes a battery protection element designed to enclose the battery pack arranged on the hand-held power tool at least in sections and to protect the battery pack in the event of impact pulses occurring.

20240278404. Overload Clutch for a Hand-Held Power Tool_simplified_abstract_(robert bosch gmbh)

Inventor(s): Maximilian Weinbrecht of Altdorf (DE) for robert bosch gmbh, Michael Haigis of Merklingen (DE) for robert bosch gmbh, Selim Mustafa of Waiblingen (DE) for robert bosch gmbh, Thomas Duerr of Asperg (DE) for robert bosch gmbh

IPC Code(s): B25D16/00, B25F5/00

CPC Code(s): B25D16/003

Abstract: an axial bearing for reducing wear is provided in an overload clutch for arrangement between a drive unit and a power take-off unit of a hand-held power tool in order to enable decoupling of the drive unit from the power take-off unit in the hand-held power tool when a limit torque is exceeded.

20240278411. Hand-Held Power Tool_simplified_abstract_(robert bosch gmbh)

Inventor(s): Peter Stierle of Pliezhausen (DE) for robert bosch gmbh, Thomas Schomisch of Filderstadt (DE) for robert bosch gmbh, Rico Unger of Neustadt (DE) for robert bosch gmbh

IPC Code(s): B25F5/00, B24B23/02, B24B55/05

CPC Code(s): B25F5/008

Abstract: a hand-held power tool, more particularly angle grinder, includes a cooling unit for cooling the hand-held power tool, a machine housing for receiving the cooling unit, and an air inlet opening for admitting an air flow. the hand-held power tool has a dust protection unit for reducing, especially without using a filter, dust particles in the air flow.

20240278412. Hand-Held Power Tool with a Fastening Region for a Safety Loop_simplified_abstract_(robert bosch gmbh)

Inventor(s): Michael Haigis of Merklingen (DE) for robert bosch gmbh, Andre Ullrich of Leinfelden-Echterdingen (DE) for robert bosch gmbh, Maximilian Weinbrecht of Altdorf (DE) for robert bosch gmbh, Michael Weiss of Stuttgart (DE) for robert bosch gmbh, Nadine Mutlu of Weil Im Schoenbuch (DE) for robert bosch gmbh, Selim Mustafa of Waiblingen (DE) for robert bosch gmbh, Vincent Hasenmayer of Stuttgart (DE) for robert bosch gmbh

IPC Code(s): B25F5/02

CPC Code(s): B25F5/02

Abstract: a hand-held power tool includes a housing in which a drive unit for actuating a tool holder is arranged. the housing forms a handle for holding the hand-held power tool. at least one fastening region is associated with the housing to which a safety loop for securing the hand-held power tool against falling can be fastened. the at least one fastening region has an optical and/or haptic marking element for marking the at least one fastening region.

20240278766. Method for Operating a Vehicle Operating Device, and Vehicle Operating Device_simplified_abstract_(robert bosch gmbh)

Inventor(s): Thomas Werner of Aalen (DE) for robert bosch gmbh, Nicolas Boos of Mutlangen (DE) for robert bosch gmbh, Stefan Kanngiesser of Schwaebisch Gmuend (DE) for robert bosch gmbh

IPC Code(s): B60W10/20, B60K26/02

CPC Code(s): B60W10/20

Abstract: a method is for operating a vehicle operating device. the vehicle operating device is for influencing a longitudinal and/or lateral movement of a vehicle. the vehicle operating device includes at least one operating unit, which can be manually actuated for controlling multiple vehicle functions. in at least one actuation state, in which one of the vehicle functions is actively controlled by the operating unit, at least one control variable of a non-actively controlled vehicle function is modified, such that an unintentional actuation and/or activation of the non-actively controlled vehicle function is impeded and/or prevented.

20240278789. Method and Device for Determining the Vital Functions of a Vehicle Occupant_simplified_abstract_(robert bosch gmbh)

Inventor(s): Tino Fuchs of Tuebingen (DE) for robert bosch gmbh, Hans-Joachim Bieg of Weil Im Schoenbuch (DE) for robert bosch gmbh, Robert Roelver of Calw-Stammheim (DE) for robert bosch gmbh

IPC Code(s): B60W40/08, B60W50/00

CPC Code(s): B60W40/08

Abstract: a method for determining the vital functions of a vehicle occupant enables precise measurements and is easy to use without negatively affecting the vehicle occupant. the method includes determining the vital functions of the vehicle occupant using a sensor device integrated in a vehicle seat of a motor vehicle, and acquiring measurement signals of the vehicle occupant from which cardiogram signals are acquired. the method further includes using an evaluation unit to ascertain the vital functions of the vehicle occupant from the cardiogram signals. the sensor device is a magnetic field sensor device, and the cardiogram signals are magnetic cardiogram signals.

20240278808. Method for Behavior Planning of an Ego Vehicle as Part of a Traffic Scene_simplified_abstract_(robert bosch gmbh)

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

IPC Code(s): B60W60/00, G01C21/34

CPC Code(s): B60W60/0027

Abstract: a computer-implemented method is for planning the behavior of an ego vehicle as part of a traffic scene. the ego vehicle is equipped with an in-vehicle sensor system whose visual range is influenced by a respective current traffic scene. the method includes generating a scene representation of the current traffic scene using scene-specific sensor data captured by the in-vehicle sensor system, and predicting a future development of the traffic scene based on the generated scene representation. the method further includes planning driving maneuvers taking into account the prediction of the future development of the traffic scene. the method predicts the effects of the future development of the traffic scene on the visual range of the in-vehicle sensor system.

20240278873. Modification of a Rider's Torque Signal to Optimize the Start-up Behavior of a Pedelec_simplified_abstract_(robert bosch gmbh)

Inventor(s): Joseph Reck of Weil Im Schoenbuch (DE) for robert bosch gmbh, Daniel Baumgaertner of Neustetten (DE) for robert bosch gmbh, Merlin Martin Manewald of Reutlingen (DE) for robert bosch gmbh, Michael Zegowitz of Rottenburg Am Neckar (DE) for robert bosch gmbh

IPC Code(s): B62M6/50

CPC Code(s): B62M6/50

Abstract: a control device of a drive of an electric bicycle is disclosed. the control device is designed to (i) receive and/or retrieve a rider's input torque applied by a rider of the electric bicycle, (ii) determine an output torque based on the rider's input torque in a first value range of the rider's input torque according to a first rule, in a second value range of the rider's input torque according to a second rule and in a third value range of the rider's input torque according to a third rule, (iii) determine a supporting torque based on the output torque, and (iv) control the drive in accordance with the supporting torque. the second value range directly adjoins the first value range and the third value range. the first rule and the second rule and the third rule are different from one another. and the second rule is a continuous function with the rider's input torque as input parameter.

20240278925. Mid-Transit Refueling Sensor System_simplified_abstract_(robert bosch gmbh)

Inventor(s): Daniel Newkirk of Owatonna MN (US) for robert bosch gmbh

IPC Code(s): B64D39/00, B64D47/08

CPC Code(s): B64D39/00

Abstract: a mid-transit refueling system to be embodied upon a refueling vessel and utilized to refuel a receiving vessel during transit of the receiving vessel. the mid-transit refueling system comprises a boom arm extending a probe that engages with a receptacle of the receiving vessel. once engaged, fuel is delivered through a conduit of the boom arm and the probe into the receiving vessel. a number of sensors are utilized to generate sensor data depicting the conditions of the mid-transit refueling. a human-machine interface (hmi) is utilized to permit a user to observe the refueling operation and provide inputs to control elements of the mid-transit refueling system during the operation.

20240280626. Computer-Implemented Method for Optimizing a Detection Threshold of a Prediction Model_simplified_abstract_(robert bosch gmbh)

Inventor(s): Daniel Zander of Oberriexingen (DE) for robert bosch gmbh, Anton Iakovlev of Boeblingen (DE) for robert bosch gmbh, Damir Shakirov of Niefern-Oeschelbronn (DE) for robert bosch gmbh, David Schoenleber of Karlsruhe (DE) for robert bosch gmbh, Erin Sebastian Schmidt of Heimsheim (DE) for robert bosch gmbh, Jonas Bergdolt of Bietigheim-Bissingen (DE) for robert bosch gmbh, Jonathan Levin of Reutlingen (DE) for robert bosch gmbh, Matthias Werner of Stuttgart (DE) for robert bosch gmbh, Stefan Patrick Lindt of Ettlingen (DE) for robert bosch gmbh, Timo Pfrommer of Stuttgart (DE) for robert bosch gmbh, Uwe Lehmann of Dresden (DE) for robert bosch gmbh

IPC Code(s): G01R31/26

CPC Code(s): G01R31/2601

Abstract: a computer-implemented method for optimizing a detection threshold of a prediction model used to determine an anomaly of a component is disclosed. the detection threshold indicates the criterion above which the prediction model classifies a component as anomalous. the method includes (i) providing the prediction model, (ii) providing a plurality of pre-test results determined for a plurality of test parameters for a plurality of components, respectively, (iii) providing a final test result for each of the plurality of components, wherein the respective final test result indicates whether the respective component has an anomaly in a final test, (iv) calculating a respective anomaly result for each of the plurality of components by evaluating the respective pre-test results by the prediction model, (v) calculating a respective explainability value for each of the plurality of test parameters for each of the plurality of components by the prediction model, and (vi) optimizing the detection threshold based on the calculated anomaly results, the calculated explainability values and the final test results provided.

20240280636. METHOD FOR MONITORING SHORT CIRCUIT SWITCHING PROCESSES OF A CIRCUIT OF A CONTROL DEVICE_simplified_abstract_(robert bosch gmbh)

Inventor(s): Frank Hettrich of Eberdingen (DE) for robert bosch gmbh, Andreas Schwaerzle of Stuttgart (DE) for robert bosch gmbh, Siyun Chu of Ludwigsburg (DE) for robert bosch gmbh

IPC Code(s): G01R31/327

CPC Code(s): G01R31/327

Abstract: a method for monitoring short circuit switching processes of a circuit, in particular an output stage circuit of a control device. information relating to the control device is acquired and evaluated to determine whether a short circuit switching process has occurred, in the course of which the circuit carries out a switching process during a short circuit. if it is recognized in the course of the evaluation that a short circuit switching process has occurred, a counter reading which characterizes the number of short circuit switching processes carried out over the service life of the circuit is updated.

20240280708. Operating Method for Determining Navigation Data, Navigation Module, Computer Program Product and Machine-Readable Storage Medium_simplified_abstract_(robert bosch gmbh)

Inventor(s): Markus Langer of Sachsenheim (DE) for robert bosch gmbh, Alexander Metzger of Rottenacker (DE) for robert bosch gmbh

IPC Code(s): G01S19/39, G01S19/40

CPC Code(s): G01S19/393

Abstract: an operating method for determining navigation data based on global navigation satellite system (“gnss”) data in a navigation module includes receiving gnss data, and determining navigation data with the gnss data using stored parameters that are saved in a memory of the navigation module and that have been ascertained from gnss data using at least one filter. the method further includes extracting a criterion from the navigation data or from another data source, which criterion identifies a special situation in which reception of gnss data is influenced by an error situation that is constantly present at least temporarily or has at least one constant component. the method also includes performing updates and/or corrections to stored parameters using the at least one filter for subsequent determinations of navigation data.

20240280710. Method for Position Determination by Tracking GNSS Satellites Using Vector Tracking Loops_simplified_abstract_(robert bosch gmbh)

Inventor(s): Christian Skupin of Garbsen (DE) for robert bosch gmbh, David Oertel of Hannover (DE) for robert bosch gmbh, Nikolay Mikhaylov of Hildesheim (DE) for robert bosch gmbh, Vishwanath Malipatil of Heilbronn (DE) for robert bosch gmbh

IPC Code(s): G01S19/49, G01S19/47

CPC Code(s): G01S19/49

Abstract: a method is disclosed for position determination by receiving gnss signals using a gnss receiver including a plurality of channels, which can be connected in a data-conducting manner to a common kalman filter to form a plurality of vector tracking loops such that each received gnss signal can be processed in an iterative manner using a corresponding vector tracking loop while taking into account the measurements returned by the common kalman filter. the method includes (a) receiving gnss signals, (b) processing a received gnss signal using a corresponding vector tracking loop such that the information contained in the gnss signal is determined while taking into account a virtual value, wherein the virtual value is generated such that measurements to be returned by the common kalman filter are aggregated to this virtual value for a predefined number of iterations, (c) entering the information determined from the gnss signal into the common kalman filter, (d) determining the position using the common kalman filter based on the information determined from the gnss signal, and (e) repeating steps (a) to (d) for subsequent iterations.

20240280825. DEVICE FOR PRECISELY ALIGNING A PROJECTION MODULE RELATIVE TO A PROJECTION SURFACE, METHOD FOR PRODUCING THE DEVICE_simplified_abstract_(robert bosch gmbh)

Inventor(s): Florian Grabmaier of Tuebingen (DE) for robert bosch gmbh, Joerg Carls of Altdorf (DE) for robert bosch gmbh

IPC Code(s): G02B27/01, G02B27/62

CPC Code(s): G02B27/0176

Abstract: a device for precisely aligning a projection module relative to a projection surface. the device includes a bracket and a front. the bracket is designed to support the projection module. the front is designed to support the projection surface. the device further includes a compensating element for precisely aligning the projection module relative to the projection surface. the compensating element produces a firmly bonded connection between the bracket and the front or between the bracket and the projection module. a method for producing the device is also described.

20240281319. METHOD FOR OPERATING A SAFETY-CRITICAL COMPUTER SYSTEM_simplified_abstract_(robert bosch gmbh)

Inventor(s): Frank Traenkle of Erdmannhausen (DE) for robert bosch gmbh, Panagiotis Kosioris of Urbach (DE) for robert bosch gmbh

IPC Code(s): G06F11/07

CPC Code(s): G06F11/0793

Abstract: a method for operating a safety-critical computer system which has at least two redundant channels for processing a calculation task. the channels generate results for the calculation task independently of one another. the health status of each individual channel is monitored separately. a separate decider for enabling or blocking output of the results is connected downstream of each channel. depending on the health status of the channels, at most one of these channels is enabled for output of the results. it is ensured with the aid of a token that output of the results is blocked for all other channels.

20240281339. METHOD FOR PROVIDING A SECONDARY BACKUP APPLICATION AS A BACKUP FOR A PRIMARY APPLICATION_simplified_abstract_(robert bosch gmbh)

Inventor(s): Dakshina Narahari Dasari of Renningen (DE) for robert bosch gmbh, Anthony Rowe of Pittsburgh PA (US) for robert bosch gmbh, Arne Hamann of Ludwigsburg (DE) for robert bosch gmbh

IPC Code(s): G06F11/14

CPC Code(s): G06F11/1458

Abstract: a method for providing a secondary backup application as a backup for a primary application, particularly for a predictive standby in distributed systems. the method includes the following steps are carried out by a predictive standby manager: receiving application-specific state data, the application-specific state data being obtained from monitoring a state of the primary application; receiving platform-specific state data, the platform-specific state data being obtained from monitoring a state of at least one platform that executes the primary application; initiating a backup process for using the secondary backup application based on the received application-specific state data and the platform-specific state data.

20240281655. RAPID ESTIMATION OF THE UNCERTAINTY OF THE OUTPUT OF A NEURAL TASK NETWORK_simplified_abstract_(robert bosch gmbh)

Inventor(s): Lydia Gauerhof of Sindelfingen (DE) for robert bosch gmbh, Bangyu Zhu of Leonberg (DE) for robert bosch gmbh, Christoph Schorn of Benningen Am Neckar (DE) for robert bosch gmbh

IPC Code(s): G06N3/08

CPC Code(s): G06N3/08

Abstract: a method for training a measurement network which ascertains the uncertainty of an already trained task network. in the method: each training record of measurement data from a training data set is fed to a plurality of modifications of a deterministic task network, or fed multiple times to a probabilistic task network, and thus mapped onto a plurality of outputs; each training record is fed to the measurement network and mapped onto a prediction of the distribution of the plurality of outputs, wherein the processing chain of the measurement network includes a part of the processing chain of the task network; a predefined cost function evaluates the extent to which the prediction of the distribution is consistent with the outputs; and network parameters which characterize the behavior of that part of the measurement network that does not belong to the processing chain of the task network are optimized.

20240282151. METHOD FOR DETECTING AN APPLICATION PROGRESS AND HANDLING AN APPLICATION FAILURE IN A DISTRIBUTED SYSTEM_simplified_abstract_(robert bosch gmbh)

Inventor(s): Dakshina Narahari Dasari of Renningen (DE) for robert bosch gmbh, Arne Hamann of Ludwigsburg (DE) for robert bosch gmbh, Nuno Pereira of Pittsburgh PA (US) for robert bosch gmbh

IPC Code(s): G07C5/00

CPC Code(s): G07C5/008

Abstract: a method for detecting an application progress and handling an application failure in a distributed system. the method includes: monitoring an interaction between modules of at least one application, the at least one application being deployed across different physical nodes, the interaction being carried out by exchanging messages between the modules using a message broker, the monitoring being carried out at least partially using the message broker; detecting the application progress based on the monitoring; initiating a failure handling based on the detecting.

20240282190. Movement Prediction for Road Users_simplified_abstract_(robert bosch gmbh)

Inventor(s): Faris Janjos of Stuttgart (DE) for robert bosch gmbh, Maxim Dolgov of Renningen (DE) for robert bosch gmbh

IPC Code(s): G08G1/01, G06V10/82, G06V20/58

CPC Code(s): G08G1/0125

Abstract: a method is for predicting movement of at least one traffic-related object based on observations of the surroundings of the object. the method includes mapping an observation of the surroundings at a first time by a trained encoder network to a representation with reduced dimensionality. the method also includes, based on a first action performed by the object at the first time and the representation, using at least one trained prediction network to determine a first representation prediction of the representation to which a future observation is likely to be mapped by the trained encoder network at a first future time, and/or determine a first action prediction of a second action that the object is likely to perform at the first future time. the method also includes determining a first dynamic state prediction for a dynamic state of the object at the first future time.

20240282527. CAPACITOR, IN PARTICULAR DC LINK CAPACITOR FOR A MULTI-PHASE SYSTEM_simplified_abstract_(robert bosch gmbh)

Inventor(s): Johannes Ruthardt of Stuttgart (DE) for robert bosch gmbh

IPC Code(s): H01G4/228, H01G4/38, H05K7/20

CPC Code(s): H01G4/228

Abstract: a capacitor including a surface electrode and a further surface electrode. a first capacitor structure is arranged between a first region of the surface electrode and a further first region of the further surface electrode. the first capacitor structure is electrically connected to the first region of the surface electrode and to the further first region of the further surface electrode. the first region of the surface electrode is arranged on a base side of the capacitor. the further first region of the further surface electrode is arranged on an upper side of the capacitor facing away from the base side. a second capacitor structure is arranged between a second region of the surface electrode and a further second region of the further surface electrode. the second capacitor structure is electrically connected to the second region of the surface electrode and the further second region of the further surface electrode.

20240282602. ELECTRICAL ARRANGEMENT WITH A POSITIONING AID, AND PRODUCTION METHOD_simplified_abstract_(robert bosch gmbh)

Inventor(s): Gerhard Braun of Rottenburg (DE) for robert bosch gmbh, Wolfram Kienle of Magstadt (DE) for robert bosch gmbh

IPC Code(s): H01L21/67, H01L21/44, H01L21/48

CPC Code(s): H01L21/67144

Abstract: a production method and an electrical arrangement () are proposed. the electrical arrangement () comprises a power substrate () with an electrical conductive track (), an insulating structure () and a sheet metal conducting structure () having a first contact region (), a connection region () and a first connecting region () between the first contact region () and the connection region (), wherein the contact region () is connected to the electrical conductor track () electrically, in particular with a material bond, in a recess () in the insulating structure (), merges into the connecting region () at an angle along an edge () running in an x direction and has a lug () for positioning the conducting structure (), which lug extends in a y direction over an imaginary extension of the edge ().

20240282978. CELL ASSEMBLY FOR CONTROLLED GUIDING OF REACTIVE FLUIDS_simplified_abstract_(robert bosch gmbh)

Inventor(s): Erhard Hirth of Ellhofen (DE) for robert bosch gmbh, Harald Bauer of Ehningen (DE) for robert bosch gmbh

IPC Code(s): H01M4/86, C25B9/75, C25B9/77, C25B11/032, H01M4/90, H01M8/1004

CPC Code(s): H01M4/8657

Abstract: the presented invention relates to a cell assembly () for the controlled guiding of reactive fluids, wherein: the cell assembly () comprises a membrane (), which has a first side and a second side opposite from the first side; on each of the first side and the second side, a catalyst layer () and a microporous layer () are disposed; the microporous layer () and/or the catalyst layer () of at least one side is profiled in such a way that the surface roughness of the catalyst layer () differs from the surface roughness of the microporous layer (), so that the catalyst layer () and the microporous layer () fit together in parts.

20240283224. PRECHAMBER SPARK PLUG HAVING IMPROVED IGNITION PROPERTIES_simplified_abstract_(robert bosch gmbh)

Inventor(s): Matthias Blankmeister of Heiligenhaus (DE) for robert bosch gmbh, Thomas Steidten of Ludwigsburg (DE) for robert bosch gmbh

IPC Code(s): H01T13/54, H01T21/02

CPC Code(s): H01T13/54

Abstract: a prechamber spark plug. the prechamber spark plug includes a housing having an external thread with a start of thread, a central electrode and a ground electrode, the central electrode and the ground electrode being arranged in a prechamber, and a cap that closes the prechamber in the direction of a combustion chamber, through-holes for a connection between the prechamber and an outer side of the prechamber spark plug being configured in the housing.

20240283683. METHOD AND SENSOR BUS SYSTEM_simplified_abstract_(robert bosch gmbh)

Inventor(s): Albrecht Klotz of Leonberg (DE) for robert bosch gmbh, Balint Nagy of Asperg (DE) for robert bosch gmbh, Dirk Schmid of Simmozheim (DE) for robert bosch gmbh, Michael Schumann of Stuttgart (DE) for robert bosch gmbh, Torsten Reiner of Aichtal (DE) for robert bosch gmbh

IPC Code(s): H04L27/20, H04L12/40, H04L12/44

CPC Code(s): H04L27/2014

Abstract: a method for transmitting data in a sensor bus system and a sensor bus system. the sensor bus system includes an electronic controller, a plurality of sensors, and a twisted two-wire line between the electronic controller and the sensors, wherein the electronic controller is designed to supply electrical energy to the sensors via the twisted two-wire line, and the sensors are designed to transmit received information to the electronic controller in an i/q-modulated manner via the twisted two-wire line.

20240283730. ADAPTIVE MULTIPATH SCHEDULER_simplified_abstract_(robert bosch gmbh)

Inventor(s): Marie-Theres Suer of Braunschweig (DE) for robert bosch gmbh

IPC Code(s): H04L45/24, H04L45/00, H04L45/12

CPC Code(s): H04L45/24

Abstract: a method for the adaptive selection of a scheduling scheme for a data packet transmission in a multipath communication system. the method includes determining at least two transmission path parameters for each transmission path of at least two transmission paths of two or more transmission paths for a multiplicity of data packets, the multiplicity of data packets being transmitted via the two or more transmission paths; determining a correlation between at least one transmission path parameter of at least two transmission path parameters of a transmission path and a corresponding transmission path parameter of at least two transmission path parameters of one or more other transmission paths from the two or more transmission paths for the multiplicity of data packets; and adaptive selection of a scheduling scheme for a data packet transmission via the two or more transmission paths based on the determined transmission path parameters and the correlation.

20240283750. METHOD FOR PREDICTING RESOURCE USAGE FOR APPLICATIONS IN A DISTRIBUTED SYSTEM_simplified_abstract_(robert bosch gmbh)

Inventor(s): Anthony Rowe of Pittsburg PA (US) for robert bosch gmbh, Carlee Joe-Wong of Pittsburg PA (US) for robert bosch gmbh, Michael Pressler of Karlsruhe (DE) for robert bosch gmbh, Nuno Pereira of Pittsburg PA (US) for robert bosch gmbh, Tianshu Huang of Pittsburg PA (US) for robert bosch gmbh

IPC Code(s): H04L47/70, H04L41/16, H04L47/80

CPC Code(s): H04L47/83

Abstract: a method for predicting resource usage for applications in a distributed system. the method includes: obtaining resource usage data, the resource usage data resulting from measuring the resource usage of different applications on different devices of the distributed system; detecting, by an orchestrator, a change and/or an event in the distributed system that requires a re-configuration of the distributed system; predicting, by the orchestrator, the resource usage of at least one application when deployed on one or different devices of the distributed system, the predicting being carried out based on the obtained resource usage data; initiating the required re-configuration based on the detecting and the predicting.

20240283755. METHOD FOR TRANSMITTING STRUCTURED DATA_simplified_abstract_(robert bosch gmbh)

Inventor(s): Santiago Pagani of Karlsruhe (DE) for robert bosch gmbh, Benedikt Mendorf of Herrenberg (DE) for robert bosch gmbh, Lutz Bornmann of Renningen (DE) for robert bosch gmbh, Peter Hrenka of Reutlingen (DE) for robert bosch gmbh, Peter Holtwick of Renningen (DE) for robert bosch gmbh, Steffen Koenig of Leinfelden-Echterdingen (DE) for robert bosch gmbh

IPC Code(s): H04L49/901, H04L12/40, H04L49/9015

CPC Code(s): H04L49/901

Abstract: a method for transmitting structured data between a data-transmitting module and a data-receiving module. the structured data are structured as data blocks. the method uses a memory region for storing the data using the data-transmitting module and for reading the data using the data-receiving module to transmit data from the data-transmitting module to the data-receiving module. data blocks in each case include a first field with an address, and at least one further field for storing links to further data blocks, so that a list of interlinked data blocks can be formed. an access data memory stores a start pointer to a first data block of the list and stores an end pointer to a last data block of the list.

20240284338. METHODS AND APPARATUSES FOR RADIO COMMUNICATION_simplified_abstract_(robert bosch gmbh)

Inventor(s): Florian Alexander Schiegg of Hildesheim (DE) for robert bosch gmbh, Khaled Shawky Hassan of Sarstedt (DE) for robert bosch gmbh

IPC Code(s): H04W52/02

CPC Code(s): H04W52/0274

Abstract: a method comprising: deactivating a sleeping mode of an apparatus; transmitting, after deactivation of the sleeping mode, a position information, if an associated contribution indicator indicates that the position information is suited to contribute to the determination of an position of at least one another apparatus; and activating, after the transmission of the position information, the sleeping mode.

Robert Bosch GmbH patent applications on August 22nd, 2024