Abstract: The disclosure includes a method comprising collecting sensor data from an olfactory sensor set of a vehicle, wherein the sensor data describes sensor measurements of an odor of a corresponding vehicle component, wherein the sensor data is received by a server. The method further includes receiving failure data from the server that describe a match between the sensor data and a fingerprint compound that corresponds to a failed vehicle component. The method further includes identifying the corresponding vehicle component that is described by the failure data. The method further includes identifying the corresponding vehicle component that is described by the failure data. The method further includes generating a notification based on the failure data and the corresponding component. The method further includes providing the notification to a driver of the vehicle.

Abstract: The disclosure includes embodiments for providing augmented reality (“AR”) vehicular assistance for drivers who are colorblind. A method according to some embodiments includes identifying an illuminated light in a driving environment of a vehicle that includes an AR headset. The method further includes determining a vehicular action to be taken responsive to the illuminated light being identified in the driving environment of the vehicle. The method further includes displaying an AR overlay using the AR headset that visually depicts a word which describes the vehicular action to be taken responsive to the illuminated light being identified.

Abstract: The disclosure includes embodiments for modifying a performance of a vehicle component whose performance is affected by a vehicle fluid that is contaminated by water. A method according to some embodiments includes recording sensor data describing refractometry measurements for the vehicle fluid. The method includes determining contamination data that describes an amount of water present in the vehicle fluid. The method includes analyzing the contamination data to determine parameter data describing modifications for a set of parameters for an advanced driver assistance system (“ADAS system”) that control the operation of the ADAS system, wherein the parameter data is operable to update the set of parameters and thereby modify the operation of the ADAS system to compensate for the amount of water present in the vehicle fluid so that vehicle component performs as though the vehicle fluid is substantially not contaminated by water.

Abstract: The disclosure includes embodiments for providing augmented reality (“AR”) vehicular assistance for drivers who are color blind. A method according to some embodiments includes identifying an illuminated light in a driving environment of the vehicle based on sensor data recorded by a sensor. The method includes determining a color of the illuminated light based on the sensor data. The method includes determining if the color is of a specific type. The method includes determining a vehicular action to be taken responsive to the color being of the specific type. The method includes displaying an AR overlay using the AR viewing device that visually depicts a word which describes the vehicular action to be taken.

Abstract: The disclosure includes embodiments for assisting a driver of a vehicle to view traffic mirror content. A method according to some embodiments includes retrieving global positioning system (GPS) data that describes a current location of a vehicle. The method includes generating mirror data based on the GPS data, wherein the mirror data identifies a fixed location of a traffic mirror included in a roadway environment. The method includes instructing, based on the mirror data, an external sensor associated with the vehicle to capture captured image data that describes an image of the traffic mirror. The method includes generating processed image data that describes an optically reversed version of the image. The method includes instructing a display device to display the optically reversed version of the image.

Abstract: The disclosure includes embodiments for providing augmented reality (“AR”) vehicular assistance for drivers who are color blind. A method according to some embodiments includes identifying an illuminated light in a driving environment of the vehicle based on sensor data recorded by a sensor. The method includes determining a color of the illuminated light based on the sensor data. The method includes determining if the color is of a specific type. The method includes determining a vehicular action to be taken responsive to the color being of the specific type. The method includes displaying an AR overlay using the AR viewing device that visually depicts a word which describes the vehicular action to be taken.

Abstract: The disclosure includes embodiments for modifying a performance of a vehicle component whose performance is affected by a vehicle fluid that is contaminated by water. A method according to some embodiments includes recording sensor data describing refractometry measurements for the vehicle fluid. The method includes determining contamination data that describes an amount of water present in the vehicle fluid. The method includes analyzing the contamination data to determine parameter data describing modifications for a set of parameters for an advanced driver assistance system (“ADAS system”) that control the operation of the ADAS system, wherein the parameter data is operable to update the set of parameters and thereby modify the operation of the ADAS system to compensate for the amount of water present in the vehicle fluid so that vehicle component performs as though the vehicle fluid is substantially not contaminated by water.

Abstract: The disclosure includes embodiments for providing augmented reality (“AR”) vehicular assistance for drivers who are colorblind. A method according to some embodiments includes identifying an illuminated light in a driving environment of a vehicle that includes an AR headset. The method further includes determining a vehicular action to be taken responsive to the illuminated light being identified in the driving environment of the vehicle. The method further includes displaying an AR overlay using the AR headset that visually depicts a word which describes the vehicular action to be taken responsive to the illuminated light being identified.

Abstract: The disclosure includes a method comprising collecting sensor data from an olfactory sensor set of a vehicle, wherein the sensor data describes sensor measurements of an odor of a corresponding vehicle component, wherein the sensor data is received by a server. The method further includes receiving failure data from the server that describe a match between the sensor data and a fingerprint compound that corresponds to a failed vehicle component. The method further includes identifying the corresponding vehicle component that is described by the failure data. The method further includes identifying the corresponding vehicle component that is described by the failure data. The method further includes generating a notification based on the failure data and the corresponding component. The method further includes providing the notification to a driver of the vehicle.

Abstract: The disclosure includes embodiments for providing a graphical overlay depicting lane lines to a vehicle including an augmented reality (“AR”) viewing device. A method according to some embodiments includes determining whether environment data indicate that a driver of a vehicle can identify lane lines on a road in front of the vehicle. The method includes responsive to the environment data failing to indicate that the driver of the vehicle can identify the lane lines, generating line data based on the environment data and global positioning system (GPS) data. The method includes generating AR data based on the line data. The method includes providing the AR data to the AR viewing device. The method includes determining based on head position data associated with the AR viewing device, to instruct the AR viewing device to display a graphical overlay depicting the lane lines.

Abstract: The disclosure includes embodiments for assisting a driver of a vehicle to view traffic mirror content. A method according to some embodiments includes retrieving global positioning system (GPS) data that describes a current location of a vehicle. The method includes generating mirror data based on the GPS data, wherein the mirror data identifies a fixed location of a traffic mirror included in a roadway environment. The method includes instructing, based on the mirror data, an external sensor associated with the vehicle to capture captured image data that describes an image of the traffic mirror. The method includes generating processed image data that describes an optically reversed version of the image. The method includes instructing a display device to display the optically reversed version of the image.

Abstract: The disclosure includes embodiments for modifying a performance of a vehicle component whose performance is affected by a vehicle fluid that is contaminated by water. A method according to some embodiments includes recording sensor data describing refractometry measurements for the vehicle fluid. The method includes determining contamination data that describes an amount of water present in the vehicle fluid. The method includes analyzing the contamination data to determine parameter data describing modifications for a set of parameters for an advanced driver assistance system (“ADAS system”) that control the operation of the ADAS system, wherein the parameter data is operable to update the set of parameters and thereby modify the operation of the ADAS system to compensate for the amount of water present in the vehicle fluid so that vehicle component performs as though the vehicle fluid is substantially not contaminated by water.

Abstract: The disclosure includes embodiments for providing a graphical overlay depicting lane lines to a vehicle including an augmented reality (“AR”) viewing device. A method according to some embodiments includes determining whether environment data indicate that a driver of a vehicle can identify lane lines on a road in front of the vehicle. The method includes responsive to the environment data failing to indicate that the driver of the vehicle can identify the lane lines, generating line data based on the environment data and global positioning system (GPS) data. The method includes generating AR data based on the line data. The method includes providing the AR data to the AR viewing device. The method includes determining based on head position data associated with the AR viewing device, to instruct the AR viewing device to display a graphical overlay depicting the lane lines.

Abstract: The disclosure includes embodiments for providing a virtual feature to a vehicle including an augmented reality (“AR”) headset and an AR glove. A method according to some embodiments includes causing the AR headset to display the virtual object which includes a three-dimensional image of a control element operable to control the virtual feature. The method includes monitoring a motion of the AR glove relative to a space in a real-world that appears to the driver to be occupied by the three-dimensional image of the control element when the driver views the space through the AR headset. The method includes providing, using the AR glove, haptic feedback so that the driver feels the control element upon touching the space that appears to include the control element. The method includes providing the virtual feature in accordance with the motion of the AR glove relative to the control element.

Abstract: The disclosure includes embodiments for modifying a performance of a vehicle component whose performance is affected by a vehicle fluid that is contaminated by water. A method according to some embodiments includes recording sensor data describing refractometry measurements for the vehicle fluid. The method includes determining contamination data that describes an amount of water present in the vehicle fluid. The method includes analyzing the contamination data to determine parameter data describing modifications for a set of parameters for an advanced driver assistance system (“ADAS system”) that control the operation of the ADAS system, wherein the parameter data is operable to update the set of parameters and thereby modify the operation of the ADAS system to compensate for the amount of water present in the vehicle fluid so that vehicle component performs as though the vehicle fluid is substantially not contaminated by water.

Abstract: The disclosure includes embodiments for providing a virtual feature to a vehicle including an augmented reality (“AR”) headset and an AR glove. A method according to some embodiments includes causing the AR headset to display the virtual object which includes a three-dimensional image of a control element operable to control the virtual feature. The method includes monitoring a motion of the AR glove relative to a space in a real-world that appears to the driver to be occupied by the three-dimensional image of the control element when the driver views the space through the AR headset. The method includes providing, using the AR glove, haptic feedback so that the driver feels the control element upon touching the space that appears to include the control element. The method includes providing the virtual feature in accordance with the motion of the AR glove relative to the control element.