System and method for adjusting an interior configuration of a vehicle in response to a vehicular accident

What is claimed: 1. A system for controlling an interior configuration of a vehicle following an accident, the system comprising: a first interior vehicle component; a first actuator component configured to adjust a physical configuration of the first interior vehicle component; a second interior vehicle component; a second actuator component configured to adjust a physical configuration of the second interior vehicle component; one or more sensors configured to collect data corresponding to a state of the vehicle, an action of the vehicle, and/or an internal or external environment of the vehicle; and one or more processors configured to: receive sensor data that includes, or is derived from data that includes, the data collected by the one or more sensors, detect a post vehicle accident condition based upon the sensor data, detect the internal environment and the external environment based upon the sensor data, determine, based upon the sensor data, the internal environment and the external environment, a first post-accident physical configuration for the first interior vehicle component, wherein the first vehicle interior vehicle component, when in the first post-accident physical configuration, at least temporarily restricts a first exit from the vehicle; determine, based upon the sensor data, the internal environment and the external environment, a second post-accident physical configuration for the second interior vehicle component that enables a second exit from the vehicle as an alternative exit to the restricted first exit, control the first actuator component to adjust the first interior vehicle component from a first current physical configuration to the first post-accident physical configuration, and control, while the first vehicle interior vehicle component is in the first post-accident physical configuration and restricts the first exit, the second actuator component to adjust the second interior vehicle component from a second current physical configuration to the second post-accident physical configuration to enable the second exit from the vehicle as an alternative exit to the restricted first exit. 2. The system of claim 1 , wherein the first actuator component is configured to adjust an orientation of the first interior vehicle component from the first current physical configuration to the first post-accident physical configuration at least by adjusting a yaw angle, a pitch angle, and/or a roll angle of the first interior vehicle component. 3. The system of claim 1 , wherein the first actuator component is configured to adjust the first interior vehicle component from the first current physical configuration to the first post-accident physical configuration at least by moving the first interior vehicle component in a forward, backward, upward, downward, clockwise, counterclockwise, and/or lateral direction relative to the vehicle. 4. The system of claim 1 , further comprising: one or more additional sensors configured to collect data corresponding to one or more passengers traveling in the vehicle; and wherein the one or more processors are configured to: receive passenger data that is generated by, or is derived from data generated by, the one or more interior data collection components; and determine, by processing the passenger data, the first post-accident physical configuration of the first interior vehicle component. 5. A method for controlling an interior configuration of a vehicle following a collision, the method comprising: receiving, via one or more processors, sensor data that is generated by, or derived from data generated by, one or more sensors configured to collect data corresponding to a state of the vehicle, an action of the vehicle, and/or an internal or external environment of the vehicle; detecting, by processing the sensor data using the one or more processors, a post vehicle accident condition based upon the sensor data; detecting the internal environment and the external environment based upon the sensor data; determining, based upon the sensor data, the internal environment and the external environment, a first post-accident physical configuration for a first interior vehicle component, wherein the first vehicle interior vehicle component, when in the first post-accident physical configuration, at least temporarily restricts a movement of the first interior vehicle component to restrict a first exit from the vehicle; determining, based upon the sensor data, the internal environment and the external environment, a second post-accident physical configuration for a second interior vehicle component to enable a second exit from the vehicle as an alternative exit to the restricted first exit; causing, via a first actuator component, the first interior vehicle component to adjust from a first current physical configuration to the first post-accident physical configuration; and causing, while the first vehicle interior vehicle component is in the first post-accident physical configuration and restricts the first exit and via a second actuator component, the second interior vehicle component to adjust from a second current physical configuration to the second post-accident physical configuration to enable the second exit from the vehicle as an alternative exit to the restricted first exit. 6. The method of claim 5 , wherein the first actuator component is configured to adjust an orientation of the first interior vehicle component from the first current physical configuration to the first post-accident physical configuration at least by adjusting a yaw angle, a pitch angle, and/or a roll angle of the first interior vehicle component. 7. The method of claim 5 , wherein the first actuator component is configured to adjust the first interior vehicle component from the first current physical configuration to the first post-accident physical configuration at least by moving the first interior vehicle component in a forward, backward, upward, downward, clockwise, counterclockwise, and/or lateral direction relative to the vehicle. 8. The method of claim 5 , further comprising: receiving, via the one or more processors, passenger data that is generated by, or derived from data generated by, one or more additional sensors configured to collect data corresponding to one or more passengers traveling in the vehicle; and determining, by processing the passenger data using the one or more processors, the first post-accident physical configuration of the first interior vehicle component. 9. A system for controlling an interior configuration of a vehicle following a collision, the system comprising: a first interior vehicle component; a first actuator component configured to adjust a physical configuration of the first interior vehicle component; a second interior vehicle component; a second actuator component configured to adjust a physical configuration of the second interior vehicle component; one or more sensors configured to collect data corresponding to a state of the vehicle, an action of the vehicle, and/or an internal or external environment of the vehicle; and one or more processors configured to: receive sensor data that includes, or is derived from data that includes, the data collected by the one or more sensors, detect a post vehicle accident condition based upon the sensor data, detect the internal environment and the external environment based upon the sensor data, determine, based upon the sensor data, the internal environment and the external environment, a first post-accident physical configuration for the first interior vehicle component, wherein the first vehicle interior vehicle component, when in the first post-accident physical configuration, at least te