Upon obtaining biometric data for a user of a structure while the user is outside the structure, user data for the user is updated based on a confidence score for the biometric data exceeding a first confidence threshold. Based on the confidence score for the biometric data not exceeding the first confidence threshold, instructions are provided to the user to provide updated biometric data. Then the user data is updated based on a confidence score for the updated biometric data exceeding a second confidence threshold. The second confidence threshold is greater than the first confidence threshold. Structure components are controlled based on the updated user data.

System, apparatus, device and methods relating to a telematic vehicle sharing platform ecosystem and a telematic vehicle share I/O expander to automate sharing and management of a vehicle that is shared by more than one operator.

Methods and systems for assessing, detecting, and responding to malfunctions involving components of autonomous vehicle and/or smart homes are described herein. Autonomous operation features and related components can be assessed using direct or indirect data regarding operation. Such assessment may be performed to determine the condition of components for salvage following a collision or other loss-event. To this end, the information regarding a plurality of components may be received. A component of the plurality of components may be identified for assessment. Assessment may including causing test signals to be sent to the identified component. In response to the test signal, one or more responses may be received. The received response may be compared to an expected response to determine whether the identified component is salvageable.

An embodiment device for controlling a user authentication transmission includes a user authentication device configured to perform user authentication of a user authorized to operate a vehicle and a controller disposed in the vehicle. The controller is configured to unlock a transmission of the vehicle based on a result of the user authentication. An embodiment method for controlling a user authentication transmission includes performing user authentication of a user authorized to operate a vehicle and unlocking a transmission of the vehicle based on a result of the user authentication.

An embodiment vehicle includes a camera and a controller configured to determine a distance between the camera and a face of an object based on a face image acquired by the camera, perform an iris authentication based on the distance being shorter than a preset distance, and perform a face authentication based on the distance being greater than the preset distance.

Methods and systems for assessing, detecting, and responding to malfunctions involving components of autonomous vehicle and/or smart homes are described herein. Autonomous operation features and related components can be assessed using direct or indirect data regarding operation. Such assessment may be performed to determine the condition of components for salvage following a collision or other loss-event. To this end, the information regarding a plurality of components may be received. A component of the plurality of components may be identified for assessment. Assessment may including causing test signals to be sent to the identified component. In response to the test signal, one or more responses may be received. The received response may be compared to an expected response to determine whether the identified component is salvageable.

Methods and systems for enhancing the functionality of a semi-autonomous vehicle are described herein. The semi-autonomous vehicle may receive a communication from a fully autonomous vehicle within a threshold distance of the semi-autonomous vehicle. If the vehicles are travelling on the same route or the same portion of a route, the semi-autonomous vehicle may navigate to a location behind the fully autonomous vehicle. Then the semi-autonomous vehicle may operate autonomously by replicating one or more functions performed by the fully autonomous vehicle. The functions and/or maneuvers performed by the fully autonomous vehicle may be detected via sensors in the semi-autonomous vehicle and/or may be identified by communicating with the fully autonomous vehicle to receive indications of upcoming maneuvers. In this manner, the semi-autonomous vehicle may act as a fully autonomous vehicle.

Method and apparatus are disclosed for iris-detection alignment for vehicle entry and feature activation. An example vehicle includes a window, a camera facing the window, a puddle lamp to project an indicator pointing toward the camera, a UV source, and a controller. The controller is to project, via the UV source, a display onto the window upon detecting a user aligns with the indicator. The controller also is to provide directions to the user, via the display, to position an iris in front of the camera and activate a vehicle feature upon identifying the user via iris recognition.

A method comprising receiving, by a vehicle computer, first information specifying a user, a time, and a location, the first information received by the vehicle computer from a first communication channel; causing the vehicle to navigate to the geographic location so as to arrive at the specified location; at the geographic location: receiving, by the vehicle computer, second information identifying the individual, time and location, the second information received over a second communication channel different than the first communication channel, the second information sent by a mobile device at the location; comparing, by the vehicle computer, the first information and the second information; and responsive to the comparing, causing, by the vehicle computer, one or more doors of the vehicle to unlock or open.

Methods and systems for assessing, detecting, and responding to malfunctions involving components of autonomous vehicle and/or smart homes are described herein. Autonomous operation features and related components can be assessed using direct or indirect data regarding operation. Such assessment may be performed to determine the condition of components for salvage following a collision or other loss-event. To this end, the information regarding a plurality of components may be received. A component of the plurality of components may be identified for assessment. Assessment may including causing test signals to be sent to the identified component. In response to the test signal, one or more responses may be received. The received response may be compared to an expected response to determine whether the identified component is salvageable.