A vehicle management system includes a processing circuit. The processing circuit is configured to acquire location information relating to a location of the vehicle, determine if the vehicle has arrived at a destination based on the location information, and provide a signal to switch at least one of a transmission of the vehicle or a braking subsystem of the vehicle from an operational condition to a locked condition in response to at least the vehicle arriving at the destination, thereby preventing undesired operation of the vehicle.

A management server is configured to perform a process including: a step of obtaining a utilization history of each user in the previous month when a condition for performing a dividing ratio setting process is satisfied; a step of updating a utilization record evaluation; a step of calculating a first dividing ratio; a step of updating a driving record evaluation; a step of calculating a second dividing ratio; and a step of setting a dividing ratio.

Provided are a server for maintenance, a remote monitoring system, and a remote monitoring method. The server is connected, via a network, to a plurality of working machines each including a working machine display device that displays machine state information and a working machine operating device to be used for predetermined operation, and to a monitoring terminal that includes a display part and remotely monitors information on the working machines. Communication between each of the plurality of working machines and the server is one-way communication from the working machines to the server. The server includes a first storage part, a second storage part, and a display processing part. The display processing part generates a display part simulated image, and causes the display part of the monitoring terminal to display a maintenance screen including the display part simulated image.

Systems and methods are provided for requirements engineering, and may include: receiving as input, time series data from at least one of a simulation of a vehicle run on a simulation system, or from the vehicle in operation; a requirements monitoring system checking to determine whether a plurality of requirements for operation of the vehicle are met, wherein the requirements are expressed in signal temporal logic form and a requirement includes at least an associated minimal sampling rate and a filtering policy applicable to the requirement; determining a quantitative conformance for each of selected requirements of the plurality of requirements; and add requirements to a verified requirements set based on the qualitative conformance of the requirements.

A device receives a vehicle inspection report submission including imaging information identifying a set of images of a vehicle from a user device, and identifies and obtains, from a data structure, a set of stored vehicle attributes relating to a previous condition of the vehicle. The device determines, based on the set of images and using computer vision processing, a set of identified vehicle attributes that relate to a present condition of the vehicle. The device selectively validates, based on the set of identified vehicle attributes and the set of stored vehicle attributes and based on location information identifying the user device within a threshold proximity of the vehicle when the set of images were captured, the vehicle inspection report submission. The device transmits information identifying a result of selectively validating the vehicle inspection report submission, selectively updates the vehicle attribute record, and selectively provides the updated vehicle attribute record.

A system and method for large-scale lane marking detection using multimodal sensor data are disclosed. A particular embodiment includes: receiving image data from an image generating device mounted on a vehicle; receiving point cloud data from a distance and intensity measuring device mounted on the vehicle; fusing the image data and the point cloud data to produce a set of lane marking points in three-dimensional (3D) space that correlate to the image data and the point cloud data; and generating a lane marking map from the set of lane marking points.

A method and a device for providing an operating state of a sensor of a vehicle. The method includes detecting first environment data values using the sensor, the first environment data values representing an environment of the vehicle, receiving second environment data values, which represent the environment of the vehicle, the second environment data values being detected by an infrastructure sensor system, determining the operating state of the sensor as a function of the first and the second environment data values, and providing the operating state of the sensor.

There is provided mechanisms for providing wireless network access to an external wide area network. A method is performed by a user terminal device. The method includes establishing a wireless connection to a gateway device located in a vehicle. The user terminal device is identified as a client to the gateway device. The user terminal device uses the gateway device as gateway for all data traffic exchanged between the user terminal device and the external wide area network. The method includes establishing wireless network access for the gateway device to the external wide area network. The gateway device is operatively connected to the external wide area network via the user terminal device. The user terminal device bridges all data traffic communicated between the gateway device and the external wide area network.

A system for recording event data of an autonomous vehicle is disclosed. The present disclosure suggests an EDR system operation scheme suitable for properly investigating the cause of a vehicle accident. Subsystems of an autonomous driving control system may determine whether an event satisfying a preconfigured condition has occurred, and send to an EDR system a trigger signal to trigger recording of data elements related to the event when the occurrence of the event is detected. The EDR system may record data elements that are useful to reconstruct a map of an external environment surrounding an autonomous vehicle at the time of the occurrence of the event or to reconstruct an internal environment of the vehicle.

Embodiments herein relate to fuel monitoring systems and related methods. In an embodiment, a fuel monitoring system for a vehicle is included having a fuel filter sensor device configured to generate data reflecting a filter restriction value of a fuel filter, a geolocation circuit configured to generate or receive geolocation data, and a system control circuit configured to evaluate the sensor data to determine changes in the filter restriction value. The control circuit can receive fuel level data, cross-reference geolocation data and fuel level data to identify refueling locations utilized, and correlate refueling locations with subsequent changes in filter restriction to identify an effect of specific refueling locations on fuel filter loading. In some embodiments, a refueling guidance system for a vehicle is included that can provide route and/or refueling site recommendations based on fuel filter loading rate data. Other embodiments are also included herein.