Embodiments of the present invention relate to transportation systems. More particularly, embodiments relate to methods and systems of vehicle data collection by a user having a mobile device. In a particular embodiment, vehicle data (also termed herein “driving data” or “data”) is collected, analyzed and transformed, and combinations of collected data and transformed data are used in different ways, including, but not limited to, predicting, detecting, and reconstructing vehicle accidents.

A vehicle window glass shear system and method for causing shearing breakage of vehicle window glass under emergency conditions by a concealed and easily operated system, having a concealed handle unit having a handle, a handle-unit bracket, and a handle-unit cable brace, having a concealed shear unit mounted on the bottom edge of the vehicle window with a shear-unit bracket, window-clamping plate, and fasteners, a shear bolt with a piercing point, a shear drive wheel, and a shear-unit cable brace, and having a cable within a cable sleeve transferring the activation force from the handle unit to the shear unit, driving the shear bolt toward the vehicle window and driving the piercing point into the vehicle window causing shearing breakage of the window glass.

A method for providing a piece of injury information about an injury of an unprotected road user in the event of a collision with a vehicle. In this method, a probability value, which represents a probability of a degree of severity of the injury, is determined using a function representing the degree of severity as a function of at least one collision parameter characterizing the collision. A piece of injury information is generated using the probability value, which is finally sent to a receiving station of an emergency call system.

A method for triggering at least two safety functions from a predefined plurality of safety functions in a motor vehicle, including a) recognizing a trigger signal for one first safety function, and b) generating a trigger signal for at least one second safety function, if according to step a) the trigger signal for the first safety function has been recognized, the first safety function being of a first function type and at least one of the second safety functions being of a second function type differing from the first function type.

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 determining risk associated with operation of autonomous vehicles using autonomous communication are provided. According to certain aspects, autonomous operation features associated with a vehicle may be determined, including features associated with autonomous communication between vehicles or with infrastructure. This information may be used to determine risk levels for a plurality of features, which may be based upon test data regarding the features or actual loss data. Expected use levels and autonomous communication levels may further be determined and used with the risk levels to determine a total risk level associated with operation of the vehicle. The autonomous communication levels may indicate the types of communications, the levels of communication with other vehicles or infrastructure, or the frequency of autonomous communication. The total risk level may be used to determine or adjust aspects of an insurance policy associated with the vehicle.

A safety release system releases a connection between a side safety structure and a connecting device of a side impact restraint protection system for a vehicle after an impact event. The side safety structure is connected to a side door, and the safety release system enables opening of the side door after the impact event, wherein the safety release system is arranged between the side safety structure and the connecting device. The connecting device releasably attaches the side safety structure to a side impact restraint protection system member connected to a vehicle body structure. The safety release system includes a releasing mechanism and a releasing member detachable from each other, and the safety release system has a first state where the releasing mechanism and the releasing member are connected to each other and a second state where the releasing mechanism and the releasing member are disconnected from each other.

A monitoring system is configured to monitor a property. The monitoring system includes a property sensor that is configured to generate property sensor data that reflects an attribute of the property. The monitoring system includes a vehicle sensor that is configured to generate vehicle sensor data that reflects an attribute of a vehicle associated with the property. The monitoring system includes a monitor control unit that is configured to analyze the property sensor data and the vehicle sensor data. The monitor control unit is further configured to, based on analyzing the property sensor data and the vehicle sensor data, determine that an event associated with the vehicle has likely occurred. The monitor control unit is further configured to, based on determining that the event associated with the vehicle has likely occurred, determine a monitoring system action. The monitor control unit is further configured to perform the monitoring system action.

A system, apparatus, and method for retrofitting a vehicle are presented. The method relates to a vehicle with a factory-installed first apparatus which communicates with a factory-installed second apparatus through a vehicle data bus using a first message. The method includes electrically disconnecting the vehicle data bus between the first apparatus and the second apparatus and electrically connecting a retrofit apparatus to the vehicle data bus. The method further includes transmitting a second message from the retrofit apparatus to the first apparatus which is indistinguishable from the first message.

Methods and systems for communicating between autonomous vehicles are described herein. Such communication may be performed for signaling, collision avoidance, path coordination, and/or autonomous control. A computing device may receive data for the same road segment from autonomous vehicles, including (i) an indication of a location within the road segment, and (ii) an indication of a condition of the road segment. The computing device may generate, from the data for the same road segment, an overall indication of the condition of the road segment, which may include a recommendation to vehicles approaching the road segment. Additionally, the computing device may receive a request from a computing device within a vehicle approaching the road segment to display vehicle data. The overall indication for the road segment may then be displayed on a user interface of the computing device.