Abstract: A method for autonomously operating a driverless vehicle along a path between a first geographic location and a destination may include receiving communication signals from the driverless vehicle. The communication signals may include sensor data from the driverless vehicle and data indicating occurrence of an event associated with the path. The communication signals may also include data indicating that a confidence level associated with the path is less than a threshold confidence level due to the event. The method may also include determining, via a teleoperations system, a level of guidance to provide the driverless vehicle based on data associated with the communication signals, and transmitting teleoperations signals to the driverless vehicle. The teleoperations signals may include guidance to operate the driverless vehicle according to the determined level of guidance, so that a vehicle controller maneuvers the driverless vehicle to avoid, travel around, or pass through the event.

Abstract: A method for autonomously operating a driverless vehicle along a path between a first geographic location and a destination may include receiving communication signals from the driverless vehicle. The communication signals may include sensor data from the driverless vehicle and data indicating occurrence of an event associated with the path. The communication signals may also include data indicating that a confidence level associated with the path is less than a threshold confidence level due to the event. The method may also include determining, via a teleoperations system, a level of guidance to provide the driverless vehicle based on data associated with the communication signals, and transmitting teleoperations signals to the driverless vehicle. The teleoperations signals may include guidance to operate the driverless vehicle according to the determined level of guidance, so that a vehicle controller maneuvers the driverless vehicle to avoid, travel around, or pass through the event.

Abstract: A driverless vehicle may include a processor, a sensor, a network interface, and a memory having stored thereon processor-executable instructions. The driverless vehicle may be configured to obtain a stream of sensor signals including sensor data related to operation of the driverless vehicle from the sensor and/or the network interface. The driverless vehicle may be configured to determine a confidence level associated with operation of the driverless vehicle from the sensor data, and store the confidence level and at least a portion of the sensor data. The driverless vehicle may also be configured to transmit via the network interface a request for teleoperator assistance, and the request may include the portion of the sensor data and the confidence level.

Abstract: A method for autonomously operating a driverless vehicle along a path between a first geographic location and a destination may include receiving communication signals from the driverless vehicle. The communication signals may include sensor data from the driverless vehicle and data indicating occurrence of an event associated with the path. The communication signals may also include data indicating that a confidence level associated with the path is less than a threshold confidence level due to the event. The method may also include determining, via a teleoperations system, a level of guidance to provide the driverless vehicle based on data associated with the communication signals, and transmitting teleoperations signals to the driverless vehicle. The teleoperations signals may include guidance to operate the driverless vehicle according to the determined level of guidance, so that a vehicle controller maneuvers the driverless vehicle to avoid, travel around, or pass through the event.

Abstract: A teleoperator device may be configured to obtain a request for teleoperator assistance from a driverless vehicle and obtain teleoperator data in response to the request. The teleoperator device may also be configured to record at least some of the teleoperator input and/or guidance transmitted to the driverless vehicle based on the teleoperator input. Upon receiving a subsequent request, the teleoperator device may be configured to reproduce at least part of the former teleoperator input and/or to provide an option to activate guidance associated with the teleoperator input. The teleoperator device may also be configured to train a model and/or use a model to determine from vehicle data an option for presentation via a teleoperator interface and/or a presentation configuration of the teleoperator interface.

Abstract: A method for autonomously operating a driverless vehicle along a path between a first geographic location and a destination may include receiving communication signals from the driverless vehicle. The communication signals may include sensor data from the driverless vehicle and data indicating occurrence of an event associated with the path. The communication signals may also include data indicating that a confidence level associated with the path is less than a threshold confidence level due to the event. The method may also include determining, via a teleoperations system, a level of guidance to provide the driverless vehicle based on data associated with the communication signals, and transmitting teleoperations signals to the driverless vehicle. The teleoperations signals may include guidance to operate the driverless vehicle according to the determined level of guidance, so that a vehicle controller maneuvers the driverless vehicle to avoid, travel around, or pass through the event.

Abstract: A driverless vehicle may include a processor, a sensor, a network interface, and a memory having stored thereon processor-executable instructions. The driverless vehicle may be configured to obtain a stream of sensor signals including sensor data related to operation of the driverless vehicle from the sensor and/or the network interface. The driverless vehicle may be configured to determine a confidence level associated with operation of the driverless vehicle from the sensor data, and store the confidence level and at least a portion of the sensor data. The driverless vehicle may also be configured to transmit via the network interface a request for teleoperator assistance, and the request may include the portion of the sensor data and the confidence level.

Abstract: A method for autonomously operating a driverless vehicle along a path between a first geographic location and a destination may include receiving communication signals from the driverless vehicle. The communication signals may include sensor data from the driverless vehicle and data indicating occurrence of an event associated with the path. The communication signals may also include data indicating that a confidence level associated with the path is less than a threshold confidence level due to the event. The method may also include determining, via a teleoperations system, a level of guidance to provide the driverless vehicle based on data associated with the communication signals, and transmitting teleoperations signals to the driverless vehicle. The teleoperations signals may include guidance to operate the driverless vehicle according to the determined level of guidance, so that a vehicle controller maneuvers the driverless vehicle to avoid, travel around, or pass through the event.

Abstract: A driverless vehicle may include a processor, a sensor, a network interface, and a memory having stored thereon processor-executable instructions. The driverless vehicle may be configured to obtain a stream of sensor signals including sensor data related to operation of the driverless vehicle from the sensor and/or the network interface. The driverless vehicle may be configured to determine a confidence level associated with operation of the driverless vehicle from the sensor data, and store the confidence level and at least a portion of the sensor data. The driverless vehicle may also be configured to transmit via the network interface a request for teleoperator assistance, and the request may include the portion of the sensor data and the confidence level.

Abstract: A method for operating a driverless vehicle may include receiving, at the driverless vehicle, sensor signals related to operation of the driverless vehicle, and road network data from a road network data store. The method may also include determining a driving corridor within which the driverless vehicle travels according to a trajectory, and causing the driverless vehicle to traverse a road network autonomously according to a path from a first geographic location to a second geographic location. The method may also include determining that an event associated with the path has occurred, and sending communication signals to a teleoperations system including a request for guidance and one or more of sensor data and the road network data. The method may include receiving, at the driverless vehicle, teleoperations signals from the teleoperations system, such that the vehicle controller determines a revised trajectory based at least in part on the teleoperations signals.

Abstract: A teleoperator device may be configured to obtain a request for teleoperator assistance from a driverless vehicle and obtain teleoperator data in response to the request. The teleoperator device may also be configured to record at least some of the teleoperator input and/or guidance transmitted to the driverless vehicle based on the teleoperator input. Upon receiving a subsequent request, the teleoperator device may be configured to reproduce at least part of the former teleoperator input and/or to provide an option to activate guidance associated with the teleoperator input. The teleoperator device may also be configured to train a model and/or use a model to determine from vehicle data an option for presentation via a teleoperator interface and/or a presentation configuration of the teleoperator interface.

Abstract: A teleoperator device may be configured to obtain a request for teleoperator assistance from a driverless vehicle and obtain teleoperator data in response to the request. The teleoperator device may also be configured to record at least some of the teleoperator input and/or guidance transmitted to the driverless vehicle based on the teleoperator input. Upon receiving a subsequent request, the teleoperator device may be configured to reproduce at least part of the former teleoperator input and/or to provide an option to activate guidance associated with the teleoperator input. The teleoperator device may also be configured to train a model and/or use a model to determine from vehicle data an option for presentation via a teleoperator interface and/or a presentation configuration of the teleoperator interface.

Abstract: A method for operating a driverless vehicle may include receiving, at the driverless vehicle, sensor signals related to operation of the driverless vehicle, and road network data from a road network data store. The method may also include determining a driving corridor within which the driverless vehicle travels according to a trajectory, and causing the driverless vehicle to traverse a road network autonomously according to a path from a first geographic location to a second geographic location. The method may also include determining that an event associated with the path has occurred, and sending communication signals to a teleoperations system including a request for guidance and one or more of sensor data and the road network data. The method may include receiving, at the driverless vehicle, teleoperations signals from the teleoperations system, such that the vehicle controller determines a revised trajectory based at least in part on the teleoperations signals.

Abstract: A method for autonomously operating a driverless vehicle along a path between a first geographic location and a destination may include receiving communication signals from the driverless vehicle. The communication signals may include sensor data from the driverless vehicle and data indicating occurrence of an event associated with the path. The communication signals may also include data indicating that a confidence level associated with the path is less than a threshold confidence level due to the event. The method may also include determining, via a teleoperations system, a level of guidance to provide the driverless vehicle based on data associated with the communication signals, and transmitting teleoperations signals to the driverless vehicle. The teleoperations signals may include guidance to operate the driverless vehicle according to the determined level of guidance, so that a vehicle controller maneuvers the driverless vehicle to avoid, travel around, or pass through the event.