Patents by Inventor Erik Lesser
Erik Lesser has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 11307066Abstract: A method for calibrating a sensor of a vehicle is provided. In this method, a sensor measured value that includes a measuring position and a measurement time is received by a data processing unit. Based on the measuring position and the measurement time, the sensor measured value is assigned to at least one reference measured value, which has been ascertained with a reference sensor of a reference vehicle at a reference position and at a reference measurement time, if the measurement time of the sensor measured value and the reference measurement time deviate from one another by a maximum of 30 minutes. In addition, at least one reference calibration value of the reference sensor is communicated to the vehicle and/or provided to the vehicle, so that an instantaneous calibration value of the sensor may be adapted based on the reference calibration value.Type: GrantFiled: March 5, 2019Date of Patent: April 19, 2022Assignee: Robert Bosch GmbHInventors: Simon Weissenmayer, Timo Koenig, Erik Lesser
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Patent number: 10859397Abstract: A method and a device are described for creating a map, including a step of receiving a signal, the signal representing a determination of the position of a vehicle in an area, and the signal including an analysis of the position determination, a step of determining a surface state in the area, based on the analysis and as a function of the position determination, a step of creating a map based on the surface state, the map representing at least the area, and a step of providing the map.Type: GrantFiled: September 17, 2018Date of Patent: December 8, 2020Assignee: Robert Bosch GmbHInventors: Simon Weissenmayer, Timo Koenig, Erik Lesser, Markus Dressel, Peter Buchner
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Patent number: 10576985Abstract: A method for operating a driver assistance system for motor vehicles, which each include multiple wheels in contact with a roadway, at least one of the motor vehicles ascertaining at least one instantaneous friction coefficient between at least one of the wheels and the roadway with the aid of at least one friction coefficient model, and at least one driver assistance unit of the respective motor vehicle being set or calibrated as a function of the ascertained friction coefficient. It is provided that the ascertained friction coefficient is transmitted to a central database, and that the database provides the ascertained friction coefficient to the other motor vehicles.Type: GrantFiled: November 3, 2017Date of Patent: March 3, 2020Assignee: Robert Bosch GmbHInventors: Andreas Offenhaeuser, Erik Lesser, Martin Kieren, Nils Hagenlocher
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Patent number: 10479368Abstract: A method for operating a driver assistance system of a motor vehicle, which includes multiple wheels in contact with a roadway, the driver assistance system including at least one unit which includes a friction coefficient model and at least one sensor, which provides an input signal for the friction coefficient model, a friction coefficient between at least one of the wheels and the roadway being ascertained with the aid of the friction coefficient model, and the driver assistance system being set or calibrated as a function of the ascertained friction coefficient. Friction coefficients are ascertained with the aid of multiple of the units that ascertained friction coefficients are compared to one another, at least one valid friction coefficient of the friction coefficients is determined with the aid of the comparison, and the driver assistance system is set or calibrated as a function of the valid friction coefficient.Type: GrantFiled: November 3, 2017Date of Patent: November 19, 2019Assignee: Robert Bosch GmbHInventors: Andreas Offenhaeuser, Erik Lesser, Martin Kieren, Nils Hagenlocher
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Publication number: 20190277671Abstract: A method for calibrating a sensor of a vehicle is provided. In this method, a sensor measured value that includes a measuring position and a measurement time is received by a data processing unit. Based on the measuring position and the measurement time, the sensor measured value is assigned to at least one reference measured value, which has been ascertained with a reference sensor of a reference vehicle at a reference position and at a reference measurement time, if the measurement time of the sensor measured value and the reference measurement time deviate from one another by a maximum of 30 minutes. In addition, at least one reference calibration value of the reference sensor is communicated to the vehicle and/or provided to the vehicle, so that an instantaneous calibration value of the sensor may be adapted based on the reference calibration value.Type: ApplicationFiled: March 5, 2019Publication date: September 12, 2019Inventors: Simon Weissenmayer, Timo Koenig, Erik Lesser
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Patent number: 10407077Abstract: In a method for ascertaining a degree of attentiveness of a vehicle driver during travel with his vehicle, e.g., a motor vehicle, using a sensor of the vehicle, a direction of vision of the vehicle driver toward a region of a surrounding environment visible to the driver is recognized, and the region visible to the vehicle driver is assigned a probability distribution through which, on the basis of the recognized direction of vision of the vehicle driver, a degree of attentiveness of the vehicle driver is ascertained.Type: GrantFiled: May 14, 2014Date of Patent: September 10, 2019Assignee: Robert Bosch GmbHInventors: Andreas Offenhaeuser, Erik Lesser, Felix Trautwein
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Patent number: 10252720Abstract: A method for operating a motor vehicle that has at least one driving engine which is operatively connected to at least one drive wheel and is controlled as a function of an accelerator-pedal position in order to generate a drive torque, an engine drag-torque control being carried out to avoid skidding of the drive wheel when the accelerator pedal is moved in the direction of a neutral position. It is provided that a maximum permissible engine drag torque is specified to the engine drag-torque control as a function of a currently effective coefficient of friction of the road surface which is determined as a function of a present position of the motor vehicle.Type: GrantFiled: November 9, 2016Date of Patent: April 9, 2019Assignee: ROBERT BOSCH GMBHInventors: Andreas Offenhaeuser, Erik Lesser, Martin Kieren, Nils Hagenlocher
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Publication number: 20190086230Abstract: A method and a device are described for creating a map, including a step of receiving a signal, the signal representing a determination of the position of a vehicle in an area, and the signal including an analysis of the position determination, a step of determining a surface state in the area, based on the analysis and as a function of the position determination, a step of creating a map based on the surface state, the map representing at least the area, and a step of providing the map.Type: ApplicationFiled: September 17, 2018Publication date: March 21, 2019Inventors: Simon Weissenmayer, Timo Koenig, Erik Lesser, Markus Dressel, Peter Buchner
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Publication number: 20180211520Abstract: A method for distributing traffic information includes acquiring status information in a first vehicle, the status information pertaining to a physical state of the surroundings and/or of the first vehicle; acquiring position information in the first vehicle which encodes a position of the first vehicle at which the status information was determined; transmitting the status information and the position information to a central internet server; storing the status information in an electronic map in the central internet server based on the position information; transmitting status information from the electronic map to a second vehicle if the second vehicle moves toward a position that is encoded by position information and for which the status information is stored in the electronic map; and activating an assist system in the second vehicle which is designed to warn and/or to assist a driver of the second vehicle with regard to the physical state.Type: ApplicationFiled: June 2, 2016Publication date: July 26, 2018Inventors: Andreas Offenhaeuser, Erik Lesser, Martin Kieren, Nils Hagenlocher
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Patent number: 9988054Abstract: A method for ascertaining a minimum value for the friction coefficient of a road segment, in which at least one movement variable of a second vehicle, which characterizes the vehicle movement, is ascertained with the aid of a surroundings sensor system contained in a first vehicle; a minimum value for the friction coefficient of the road segment traveled by the second vehicle is ascertained on the basis of the at least one movement variable of the second vehicle; the spatial position of the first vehicle is ascertained; the relative position of the second vehicle with respect to the first vehicle is ascertained with the aid of the surroundings sensor system; the spatial position of the second vehicle is ascertained with the aid of the spatial position and the relative position of the first vehicle; the spatial position of the second vehicle and the minimum value are stored in a database.Type: GrantFiled: June 20, 2016Date of Patent: June 5, 2018Assignee: ROBERT BOSCH GMBHInventors: Martin Kieren, Nils Hagenlocher, Erik Lesser, Andreas Offenhaeuser
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Publication number: 20180126998Abstract: A method for operating a driver assistance system of a motor vehicle, which includes multiple wheels in contact with a roadway, the driver assistance system including at least one unit which includes a friction coefficient model and at least one sensor, which provides an input signal for the friction coefficient model, a friction coefficient between at least one of the wheels and the roadway being ascertained with the aid of the friction coefficient model, and the driver assistance system being set or calibrated as a function of the ascertained friction coefficient. Friction coefficients are ascertained with the aid of multiple of the units that ascertained friction coefficients are compared to one another, at least one valid friction coefficient of the friction coefficients is determined with the aid of the comparison, and the driver assistance system is set or calibrated as a function of the valid friction coefficient.Type: ApplicationFiled: November 3, 2017Publication date: May 10, 2018Inventors: Andreas Offenhaeuser, Erik Lesser, Martin Kieren, Nils Hagenlocher
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Publication number: 20180126997Abstract: A method for operating a driver assistance system for motor vehicles, which each include multiple wheels in contact with a roadway, at least one of the motor vehicles ascertaining at least one instantaneous friction coefficient between at least one of the wheels and the roadway with the aid of at least one friction coefficient model, and at least one driver assistance unit of the respective motor vehicle being set or calibrated as a function of the ascertained friction coefficient. It is provided that the ascertained friction coefficient is transmitted to a central database, and that the database provides the ascertained friction coefficient to the other motor vehicles.Type: ApplicationFiled: November 3, 2017Publication date: May 10, 2018Inventors: Andreas Offenhaeuser, Erik Lesser, Martin Kieren, Nils Hagenlocher
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Patent number: 9892569Abstract: A method for predicting an instant at which a predefined fatigue degree is expected to be reached in a vehicle system for fatigue detection, includes: (i) detecting the fatigue characteristic by continuously ascertaining the current fatigue degree of the vehicle operator; (ii) ascertaining a change in the fatigue degree over time within a predefinable time interval of the fatigue characteristic, and/or supplying an empirically determined change in fatigue degree over time; and (iii) ascertaining the instant at which a predefined fatigue degree is expected to be reached, based on the ascertained and/or supplied change in the fatigue degree.Type: GrantFiled: July 31, 2015Date of Patent: February 13, 2018Assignee: ROBERT BOSCH GMBHInventors: Andreas Offenhaeuser, Erik Lesser
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Publication number: 20170357669Abstract: A method for operating a coefficient of friction database includes receiving information, that is output by transmitting vehicles and that includes coefficient of friction data describing an ascertained coefficient of friction potential of a road segment, location data describing a geometrical position of the road segment, and time data describing an instant of ascertainment of the coefficient of friction data or describing the coefficient of friction potential, and storing the information in a coefficient of friction database from which the data is then retrievable by receiving vehicles.Type: ApplicationFiled: January 15, 2016Publication date: December 14, 2017Applicant: Robert Bosch GmbHInventors: Andreas Offenhaeuser, Erik Lesser, Nils Hagenlocher
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Publication number: 20170151955Abstract: A method for operating a motor vehicle that has at least one driving engine which is operatively connected to at least one drive wheel and is controlled as a function of an accelerator-pedal position in order to generate a drive torque, an engine drag-torque control being carried out to avoid skidding of the drive wheel when the accelerator pedal is moved in the direction of a neutral position. It is provided that a maximum permissible engine drag torque is specified to the engine drag-torque control as a function of a currently effective coefficient of friction of the road surface which is determined as a function of a present position of the motor vehicle.Type: ApplicationFiled: November 9, 2016Publication date: June 1, 2017Inventors: Andreas Offenhaeuser, Erik Lesser, Martin Kieren, Nils Hagenlocher
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Publication number: 20160368504Abstract: A method for ascertaining a minimum value for the friction coefficient of a road segment, in which at least one movement variable of a second vehicle, which characterizes the vehicle movement, is ascertained with the aid of a surroundings sensor system contained in a first vehicle; a minimum value for the friction coefficient of the road segment traveled by the second vehicle is ascertained on the basis of the at least one movement variable of the second vehicle; the spatial position of the first vehicle is ascertained; the relative position of the second vehicle with respect to the first vehicle is ascertained with the aid of the surroundings sensor system; the spatial position of the second vehicle is ascertained with the aid of the spatial position and the relative position of the first vehicle; the spatial position of the second vehicle and the minimum value are stored in a database.Type: ApplicationFiled: June 20, 2016Publication date: December 22, 2016Inventors: Martin Kieren, Nils Hagenlocher, Erik Lesser, Andreas Offenhaeuser
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Publication number: 20160167671Abstract: In a method for ascertaining a degree of attentiveness of a vehicle driver during travel with his vehicle, e.g., a motor vehicle, using a sensor of the vehicle, a direction of vision of the vehicle driver toward a region of a surrounding environment visible to the driver is recognized, and the region visible to the vehicle driver is assigned a probability distribution through which, on the basis of the recognized direction of vision of the vehicle driver, a degree of attentiveness of the vehicle driver is ascertained.Type: ApplicationFiled: May 14, 2014Publication date: June 16, 2016Inventors: Andreas Offenhaeuser, Erik Lesser, Felix Trautwein
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Publication number: 20160049022Abstract: A method for predicting an instant at which a predefined fatigue degree is expected to be reached in a vehicle system for fatigue detection, includes: (i) detecting the fatigue characteristic by continuously ascertaining the current fatigue degree of the vehicle operator; (ii) ascertaining a change in the fatigue degree over time within a predefinable time interval of the fatigue characteristic, and/or supplying an empirically determined change in fatigue degree over time; and (iii) ascertaining the instant at which a predefined fatigue degree is expected to be reached, based on the ascertained and/or supplied change in the fatigue degree.Type: ApplicationFiled: July 31, 2015Publication date: February 18, 2016Inventors: Andreas Offenhaeuser, Erik Lesser
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Publication number: 20120179333Abstract: In a method for influencing the steering torque in a vehicle-steering system, in the event that the coefficient of friction between at least one vehicle wheel and the road surface undershoots a limit value, the torque generated in a device for steering-force assistance is varied in such a way that a steering motion in at least one steering direction is opposed by increased resistance.Type: ApplicationFiled: April 20, 2010Publication date: July 12, 2012Inventors: Adrian Thomys, Erik Lesser