System, methods, and other embodiments described herein relate to a training system to train a driver about occurrences of anomalous driving events of automated vehicle systems. In one embodiment, a method includes determining, upon receiving a selection of a vehicle behavior from one or more anomalous driving events and a detected state change signal, whether the vehicle behavior affects one or more entities. The method includes assessing a state of the one or more entities to simulate the vehicle behavior according to a safety standard. The method includes triggering simulation of the vehicle behavior if the state satisfies a threshold. The method includes simulating the vehicle behavior by at least controlling the vehicle to simulate the vehicle behavior during automated driving of the vehicle.

A steering wheel adapter system for an automotive simulator includes a first adapter element formed in a distal end of the steering wheel and a second adapter element formed in a proximal end of a steering axle of the automotive simulator. The first adapter element comprises a first electrical contact surface and the second adapter element comprises a second electrical contact surface. The first and second adapter elements are configured to slide against each other along a plane that is substantially perpendicular to the steering axle, until a coupling position has been reached wherein a central axis of the steering wheel is aligned with a central axis of the steering axle, and the first and second electrical contact surfaces make contact with each other to establish an electrical connection. A steering wheel having a first adapter element and a steering axle having a second adapter element are also described.

A steering wheel adapter system for an automotive simulator includes a first adapter element formed in a distal end of the steering wheel and a second adapter element formed in a proximal end of a steering axle of the automotive simulator. The first adapter element comprises a first electrical contact surface and the second adapter element comprises a second electrical contact surface. The first and second adapter elements are configured to slide against each other along a plane that is substantially perpendicular to the steering axle, until a coupling position has been reached wherein a central axis of the steering wheel is aligned with a central axis of the steering axle, and the first and second electrical contact surfaces make contact with each other to establish an electrical connection. A steering wheel having a first adapter element and a steering axle having a second adapter element are also described.

Techniques are described for providing educational media content. According to an embodiment, a system for providing, by a processor, educational media content items based on a determined context of a vehicle or driver of the vehicle is described. The system can comprise a context component that can determine a context of a vehicle or a driver of the vehicle, with the context component employing at least one of artificial intelligence or machine learning to facilitate inferring intent of the driver. The system can comprise a vehicle education component that can perform a utility-based analysis in connection with selecting a media content item relating to a feature of the vehicle based on the determined context, the inferred driver intent and the utility-based analysis. Further, the system can comprise a media component that can output the selected media content item.

Techniques are described for providing educational media content. According to an embodiment, a system for providing, by a processor, educational media content items based on a determined context of a vehicle or driver of the vehicle is described. The system can comprise a context component that can determine a context of a vehicle or a driver of the vehicle, with the context component employing at least one of artificial intelligence or machine learning to facilitate inferring intent of the driver. The system can comprise a vehicle education component that can perform a utility-based analysis in connection with selecting a media content item relating to a feature of the vehicle based on the determined context, the inferred driver intent and the utility-based analysis. Further, the system can comprise a media component that can output the selected media content item.

The present disclosure is directed, in part, to improving existing technologies by detecting engagement of the one or more components of the logistics vehicle, which may be indicative of receiving an indication that the user is performing at least a first logistics operation. At least partially in response to the detecting, various embodiments cause display, at one or more monitors, of data where the data includes one or more instructions for the user to perform at least a second logistics operation and/or the data includes a video feed of real world scenes.

A drive support device includes a vehicle information obtainment unit configured to obtain vehicle information including a plurality of driving support levels provided by the drive support device installed in a vehicle, and a position of the vehicle or time; and a vehicle information recording unit configured to record the vehicle information obtained by the vehicle information obtainment unit on a vehicle information storage unit. The vehicle information recording unit records the position of the vehicle or the time, and the driving support level executed at the position of the vehicle or the time, on the vehicle information storage unit.

A fixture includes a vehicle body and a tube connected to the vehicle body. The tube has an axis, and the fixture includes a piston slideably disposed in the tube along the axis. A seat belt D-ring is mounted to the piston. The tube and the piston each define holes positioned to be aligned with each other when the piston is in multiple positions along the axis in the tube. A pin is engageable with the holes when the holes are aligned.

A fixture includes a vehicle body and a tube connected to the vehicle body. The tube has an axis, and the fixture includes a piston slideably disposed in the tube along the axis. A seat belt D-ring is mounted to the piston. The tube and the piston each define holes positioned to be aligned with each other when the piston is in multiple positions along the axis in the tube. A pin is engageable with the holes when the holes are aligned.

A method performed by a vehicle feature evaluation system (1) for enabling evaluation of a simulated vehicle-related feature. The vehicle feature evaluation system determines (1001) in relation to a road-driven vehicle (2), with support from a tracking system (5), an orientation of a head-mounted display (4), HMD, adapted to be worn by an occupant (3) on-board the road-driven vehicle. The vehicle feature evaluation system further determines (1002) a simulated vehicle design feature to be evaluated in the road-driven vehicle. Moreover, the vehicle feature evaluation system provides (1006) in real-time to a HMD display (41) of the HMD, taking into consideration the HMD orientation, a virtual representation (7) of the simulated vehicle design feature superimposed on a real-time surrounding-showing video stream (6) derived from real-world image data (211) captured with support from one or more vehicle-attached cameras (21) adapted to capture surroundings external of the road-driven vehicle.