Patents by Inventor John Wesley Dyer
John Wesley Dyer 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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Publication number: 20210374623Abstract: Aspects of the disclosure provide systems and methods for confirming the identity of a passenger and changing destination of a vehicle. This may include receiving dispatching instructions to pick up a first passenger at a pickup location and to drop off the first passenger at a first destination as well as authentication information for authenticating a first client computing device of the first passenger. Once the client device is authenticated and a second passenger enters the vehicle, the vehicle is maneuvered towards the first destination. While doing so, a location of the vehicle is compared to location information received from the client computing devices. A notification is sent to a dispatching server based on the comparison and a second destination location is received in response. The vehicle is then maneuvered towards the second destination instead of the first destination.Type: ApplicationFiled: July 6, 2021Publication date: December 2, 2021Inventors: John Wesley Dyer, Luis Torres, Yu-Hsin Chen, Michael Epstein
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Patent number: 11151482Abstract: Aspects of the disclosure provide systems and methods for confirming the identity of a passenger and changing destination of a vehicle. This may include receiving dispatching instructions to pick up a first passenger at a pickup location and to drop off the first passenger at a first destination as well as authentication information for authenticating a first client computing device of the first passenger. Once the client device is authenticated and a second passenger enters the vehicle, the vehicle is maneuvered towards the first destination. While doing so, a location of the vehicle is compared to location information received from the client computing devices. A notification is sent to a dispatching server based on the comparison and a second destination location is received in response. The vehicle is then maneuvered towards the second destination instead of the first destination.Type: GrantFiled: August 31, 2017Date of Patent: October 19, 2021Assignee: Waymo LLCInventors: John Wesley Dyer, Luis Torres, Yu-Hsin Chen, Michael Epstein
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Publication number: 20210278230Abstract: Aspects of the disclosure relate to generating map data. For instance, data generated by a perception system of a vehicle may be received. This data corresponds to a plurality of observations including observed positions of a passenger of the vehicle as the passenger approached the vehicle at a first location. The data may be used to determine an observed distance traveled by a passenger to reach a vehicle. A road edge distance between an observed position of an observation of the plurality of observations and a nearest road edge to the observed position may be determined. An inconvenience value for the first location may be determined using the observed distance and the road edge distance. The map data is then generated using the inconvenience value.Type: ApplicationFiled: April 19, 2021Publication date: September 9, 2021Inventors: John Wesley Dyer, Leonid Yeykelis, Michael Epstein, Salil Pandit
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Publication number: 20210278844Abstract: Aspects of the disclosure relate to parking behaviors and maneuvering a vehicle in an autonomous driving mode accordingly. For instance, a pullover location for the vehicle to stop and wait for a passenger may be identified. The vehicle may be maneuvered in the autonomous driving mode in order to pull over by pulling forward into the pullover location. Whether to maneuver the vehicle in reverse in the pullover location before or after the passenger enters the vehicle may be determined based on context for the pull over with respect to the passenger. The vehicle may be maneuvered in the autonomous driving mode in reverse based on the determination of whether to maneuver the vehicle in reverse in the pullover location before or after the passenger enters the vehicle.Type: ApplicationFiled: May 26, 2021Publication date: September 9, 2021Inventors: John Wesley Dyer, Michael Epstein, Konstantin Pervyshev, Jonathan Lee Pedersen, Salil Pandit
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Publication number: 20210245737Abstract: Aspects of the disclosure provide for controlling an autonomous vehicle to enter a driveway. As an example, an instruction to pickup or drop off a passenger at a location may be received. It may be determined that the vehicle is arriving in a lane on an opposite side of a street as the location, the lane having a traffic direction opposite to a traffic direction of a lane adjacent to the location. A difficulty score to maneuver the vehicle to the lane adjacent to the location may be determined, and the difficulty score may be compared to a predetermined difficulty score. Based on the comparison, it may be determined to an available driveway on the same side of the street as the location. The vehicle may be controlled to enter the available driveway.Type: ApplicationFiled: March 24, 2021Publication date: August 12, 2021Inventors: John Wesley Dyer, Michael Epstein, Jonathan Lee Pedersen
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Publication number: 20210216074Abstract: Aspects of the disclosure provide for reducing inconvenience to other road users caused by stopped autonomous vehicles. As an example, a vehicle having an autonomous driving mode may be stopped at a first location. While the vehicle is stopped, sensor data is received from a perception system of the vehicle. The sensor data may identify a road user. Using the sensor data, a value indicative of a level of inconvenience to the road user caused by stopping the vehicle at the first location may be determined. The vehicle is controlled in the autonomous driving mode to cause the vehicle to move from the first location and in order to reduce the value.Type: ApplicationFiled: February 17, 2021Publication date: July 15, 2021Inventors: John Wesley Dyer, Michael Epstein, Ken Hu
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Patent number: 11048256Abstract: Aspects of the disclosure relate to parking behaviors and maneuvering a vehicle in an autonomous driving mode accordingly. For instance, a pullover location for the vehicle to stop and wait for a passenger may be identified. The vehicle may be maneuvered in the autonomous driving mode in order to pull over by pulling forward into the pullover location. Whether to maneuver the vehicle in reverse in the pullover location before or after the passenger enters the vehicle may be determined based on context for the pull over with respect to the passenger. The vehicle may be maneuvered in the autonomous driving mode in reverse based on the determination of whether to maneuver the vehicle in reverse in the pullover location before or after the passenger enters the vehicle.Type: GrantFiled: August 9, 2019Date of Patent: June 29, 2021Assignee: Waymo LLCInventors: John Wesley Dyer, Michael Epstein, Konstantin Pervyshev, Jonathan Lee Pedersen, Salil Pandit
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Patent number: 11022452Abstract: Aspects of the disclosure relate to generating map data. For instance, data generated by a perception system of a vehicle may be received. This data corresponds to a plurality of observations including observed positions of a passenger of the vehicle as the passenger approached the vehicle at a first location. The data may be used to determine an observed distance traveled by a passenger to reach a vehicle. A road edge distance between an observed position of an observation of the plurality of observations and a nearest road edge to the observed position may be determined. An inconvenience value for the first location may be determined using the observed distance and the road edge distance. The map data is then generated using the inconvenience value.Type: GrantFiled: May 21, 2018Date of Patent: June 1, 2021Assignee: Waymo LLCInventors: John Wesley Dyer, Leonid Yeykelis, Michael Epstein, Salil Pandit
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Publication number: 20210133308Abstract: Aspects of the disclosure provide systems and methods for recognizing an assigned passenger. For instance, dispatching instructions to pick up a passenger at a pickup location are received. The instructions include authentication information for authenticating a client computing device associated with the passenger. A vehicle is maneuvered in an autonomous driving mode towards the pickup location. The client device is then authenticated. After authentication, a set of pedestrians within a predetermined distance of the vehicle are identified from sensor information generated by a sensor of the vehicle and location information is received over a period of time from the client device. The received location information is used to estimate a velocity of the passenger. This estimated velocity is used to identify a subset of set of pedestrians that is likely to be the passenger. The vehicle is stopped to allow the passenger to enter the vehicle based on the subset.Type: ApplicationFiled: November 20, 2020Publication date: May 6, 2021Inventors: John Wesley Dyer, Luis Torres, Michael Epstein, Yu-Hsin Chen
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Patent number: 10988137Abstract: Aspects of the disclosure provide for controlling an autonomous vehicle to enter a driveway. As an example, an instruction to pickup or drop off a passenger at a location may be received. It may be determined that the vehicle is arriving in a lane on an opposite side of a street as the location, the lane having a traffic direction opposite to a traffic direction of a lane adjacent to the location. A difficulty score to maneuver the vehicle to the lane adjacent to the location may be determined, and the difficulty score may be compared to a predetermined difficulty score. Based on the comparison, it may be determined to an available driveway on the same side of the street as the location. The vehicle may be controlled to enter the available driveway.Type: GrantFiled: December 4, 2018Date of Patent: April 27, 2021Assignee: Waymo LLCInventors: John Wesley Dyer, Michael Epstein, Jonathan Lee Pedersen
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Publication number: 20210104161Abstract: The disclosure relates to smart signs or physical markers for facilitating passenger trips for autonomous vehicles. For instance, a physical marker remote from the autonomous vehicles may receive a first notification indicating a request for a trip has been made via a client computing device. The physical marker may determine when the client computing device has reached a physical marker, and in response to the determination, the physical marker may send a second notification to a dispatching server computing device indicating that the client computing device has reached a physical marker. Other aspects of the disclosure relate to various features and uses for the physical marker.Type: ApplicationFiled: October 21, 2020Publication date: April 8, 2021Inventors: John Wesley Dyer, Philip Nemec, Joshua Newby, Michael Epstein
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Publication number: 20210092572Abstract: The technology relates to actively looking for an assigned passenger prior to a vehicle 100 reaching a pickup location. For instance, information identifying the pickup location and client device information for authenticating the assigned passenger is received. Sensor data is received from a perception system (172) of the vehicle identifying objects in an environment of the vehicle. When the vehicle is within a predetermined distance (represented by distance bar 772) from the pickup location (represented by marker 770), authenticating a client device (420, 430) using the client device information is attempted. When the client device has been authenticated, the sensor data is used to determine whether a pedestrian (750, 752) is within a first threshold distance (D1) of the vehicle.Type: ApplicationFiled: October 19, 2020Publication date: March 25, 2021Inventors: Philip Nemec, Renaud-Roland Hubert, Joshua Seth Herbach, Min Li Chan, Michael Epstein, Salil Pandit, John Wesley Dyer, Juliet Rothenberg
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Patent number: 10955848Abstract: Aspects of the disclosure provide for reducing inconvenience to other road users caused by stopped autonomous vehicles. As an example, a vehicle having an autonomous driving mode may be stopped at a first location. While the vehicle is stopped, sensor data is received from a perception system of the vehicle. The sensor data may identify a road user. Using the sensor data, a value indicative of a level of inconvenience to the road user caused by stopping the vehicle at the first location may be determined. The vehicle is controlled in the autonomous driving mode to cause the vehicle to move from the first location and in order to reduce the value.Type: GrantFiled: September 25, 2018Date of Patent: March 23, 2021Assignee: Waymo LLCInventors: John Wesley Dyer, Michael Epstein, Ken Hu
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Patent number: 10956236Abstract: An outer event stream can be modeled to represent duration for an event with an inner event stream. The inner event stream can be generated to represent duration of at least one event from the outer event stream. By modeling the outer event stream to include duration, coincidence between two or more events can be determined. More specifically, the modeling of the outer event stream enables use of operators to identify coincidence between events from event streams.Type: GrantFiled: July 29, 2019Date of Patent: March 23, 2021Assignee: Microsoft Technology Licensing, LLCInventors: John Wesley Dyer, Jeffrey Van Gogh, Henricus Johannes Maria Meijer, Bart De Smet, Colin Joseph Meek
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Publication number: 20210053567Abstract: Aspects of the disclosure relate to maneuvering a vehicle in an autonomous driving mode. For instance, a time constraint for a pullover maneuver and a geographic constraint for the pullover maneuver may be identified. The time constraint and the geographic constraint may be input into a model in order to receive a list of qualities for a region, the region including a plurality of pullover locations. Whether to attempt to find a pullover location within the region to perform the pullover maneuver may be determined based on the list of qualities for the region. The vehicle may be maneuvered in the autonomous driving mode based on the determination whether to attempt to find a pullover location within the region.Type: ApplicationFiled: August 21, 2019Publication date: February 25, 2021Inventors: John Wesley Dyer, Michael Epstein, Jonathan Lee Pedersen
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Publication number: 20210041870Abstract: Aspects of the disclosure relate to parking behaviors and maneuvering a vehicle in an autonomous driving mode accordingly. For instance, a pullover location for the vehicle to stop and wait for a passenger may be identified. The vehicle may be maneuvered in the autonomous driving mode in order to pull over by pulling forward into the pullover location. Whether to maneuver the vehicle in reverse in the pullover location before or after the passenger enters the vehicle may be determined based on context for the pull over with respect to the passenger. The vehicle may be maneuvered in the autonomous driving mode in reverse based on the determination of whether to maneuver the vehicle in reverse in the pullover location before or after the passenger enters the vehicle.Type: ApplicationFiled: August 9, 2019Publication date: February 11, 2021Inventors: John Wesley Dyer, Michael Epstein, Konstantin Pervyshev, Jonathan Lee Pedersen, Salil Pandit
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Patent number: 10872143Abstract: Aspects of the disclosure provide systems and methods for recognizing an assigned passenger. For instance, dispatching instructions to pick up a passenger at a pickup location are received. The instructions include authentication information for authenticating a client computing device associated with the passenger. A vehicle is maneuvered in an autonomous driving mode towards the pickup location. The client device is then authenticated. After authentication, a set of pedestrians within a predetermined distance of the vehicle are identified from sensor information generated by a sensor of the vehicle and location information is received over a period of time from the client device. The received location information is used to estimate a velocity of the passenger. This estimated velocity is used to identify a subset of set of pedestrians that is likely to be the passenger. The vehicle is stopped to allow the passenger to enter the vehicle based on the subset.Type: GrantFiled: December 23, 2019Date of Patent: December 22, 2020Assignee: Waymo LLCInventors: John Wesley Dyer, Luis Torres, Michael Epstein, Yu-Hsin Chen
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Patent number: 10854085Abstract: The disclosure relates to smart signs or physical markers for facilitating passenger trips for autonomous vehicles. For instance, a physical marker remote from the autonomous vehicles may receive a first notification indicating a request for a trip has been made via a client computing device. The physical marker may determine when the client computing device has reached a physical marker, and in response to the determination, the physical marker may send a second notification to a dispatching server computing device indicating that the client computing device has reached a physical marker. Other aspects of the disclosure relate to various features and uses for the physical marker.Type: GrantFiled: December 4, 2019Date of Patent: December 1, 2020Assignee: Waymo LLCInventors: John Wesley Dyer, Philip Nemec, Joshua Newby, Michael Epstein
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Patent number: 10848938Abstract: The technology relates to actively looking for an assigned passenger prior to a vehicle 100 reaching a pickup location. For instance, information identifying the pickup location and client device information for authenticating the assigned passenger is received. Sensor data is received from a perception system (172) of the vehicle identifying objects in an environment of the vehicle. When the vehicle is within a predetermined distance (represented by distance bar 772) from the pickup location (represented by marker 770), authenticating a client device (420, 430) using the client device information is attempted. When the client device has been authenticated, the sensor data is used to determine whether a pedestrian (750, 752) is within a first threshold distance (D1) of the vehicle.Type: GrantFiled: August 29, 2019Date of Patent: November 24, 2020Assignee: Waymo LLCInventors: Philip Nemec, Renaud-Roland Hubert, Joshua Seth Herbach, Min Li Chan, Michael Epstein, Salil Pandit, John Wesley Dyer, Juliet Rothenberg
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Publication number: 20200264612Abstract: Aspects of the present disclosure relate to context aware stopping of a vehicle without a driver. As an example, after a passenger has entered the vehicle, the vehicle is maneuvered by one or more processors in an autonomous driving mode towards a destination location along a route. The route is divided into two or more stages. A signal is received by the one or more processors. The signal indicates that the passenger is requesting that the vehicle stop or pull over. In response to the signal, the one or more processors determine a current stage of the route based on a current distance of the vehicle from a pickup location where the passenger entered the vehicle or a current distance of the vehicle from the destination location. The one or more processors then stop the vehicle in accordance with the determined current stage.Type: ApplicationFiled: March 11, 2020Publication date: August 20, 2020Inventors: John Wesley Dyer, Luis Torres, Michael Epstein, Guillaume Dupre, Joshua Seth Herbach