The present disclosure relates to systems and methods for managing a fleet of ridesharing vehicles. In one implementation, the system may include a communications interface configured to receive a ride request from a user and receive, from a plurality of communication devices associated with a plurality of vehicles-for-hire, indications of current locations of the vehicles-for-hire. The system may further include at least one processor configured to: receive real time traffic data including information about at least one of street blockages and atypical congestion; identify an area of traffic obstruction in a vicinity of the user's starting point; select a vehicle-for-hire to pick up the user; identify a pick-up location, remote from the user's starting point, peripheral to the area of obstruction; send to the user information about the pick-up location; and send to the selected vehicle-for-hire driving directions to the pick-up location that substantially avoid the area of obstruction.

An automated ridesharing dispatch system includes a communications interface configured to electronically receive ride requests from a plurality of users and a memory configured to store a capacity threshold for each of a plurality of ridesharing vehicles. The system also includes at least one processor configured to process the ride requests received from the communications interface and to assign to a single ridesharing vehicle the plurality of users for pick up at a plurality of differing pick-up locations and for delivery to a plurality of differing drop-off locations, determine a route for the ridesharing vehicle, receive from at least one sensor within the ridesharing vehicle, information indicative of a current number of passengers in the ridesharing vehicle, and determine whether to assign additional users to the ridesharing vehicle based on the received information from the sensor and the capacity threshold associated with the ridesharing vehicle.

The present disclosure relates to systems and methods for managing a fleet of ridesharing vehicles. In one implementation, the system may include a communications interface configured to receive requests for shared rides from a plurality of users; a memory configured to store indications of passenger-capacity for specific ridesharing vehicles in the fleet; and at least one processor configured to receive information from the communications interface and access the memory The at least one processor may be further configured to assign, to ridesharing vehicles already transporting users, additional users for simultaneous transportation in the ridesharing vehicles; track a current utilized capacity of each specific ridesharing vehicle; and implement a threshold block that prevents assignment of additional users to a ridesharing vehicle when the ridesharing vehicle's current utilized capacity is above a threshold being less than the ridesharing vehicle's passenger-capacity.

The present disclosure relates to systems and methods for managing a fleet of ridesharing vehicles. In one implementation, the system may include a communications interface configured to receive ride requests and location information and at least one processor configured to assign a first ridesharing vehicle to pick-up a first group of users; determine pick-up locations for the first group; send data to guide each user to a respective pick-up location; predict when a first user will arrive at a first pick-up location; prior to the first user arriving, cancel the assignment of the first ridesharing vehicle to the first user while maintaining the assignment to others of the first group; predict when a second ridesharing vehicle may pass the first pick-up location; and re-assign the first user to the second ridesharing vehicle when the predicted passing time is after the predicted arrival time.

An automated ridesharing dispatch system includes a memory configured to store historical data associated with past demand for ridesharing vehicles in a geographical area and a communications interface. The system also includes at least one processor configured to access the memory and to use the historical data to predict imminent demand of ridesharing requests including predicting general zones in the geographical area associated with imminent demand, select a holding zone for prepositioning empty ridesharing vehicles in order to expedite satisfaction of the predicted imminent demand, and send, via the communications interface, to a mobile communications device in a specific ridesharing vehicle, instructions directing the specific ridesharing vehicle to the holding zone.

A seat arrangement for a vehicle includes a vehicle seat and a seat backrest. The seat backrest can be switched from an upright position into a folded position with an electric and/or electronic adjusting device for switching the seat backrest from the upright position into the folded position. The vehicle seat can be moved in a seat direction F with a mechanical traveling device for moving the vehicle seat in the seat direction depending on the position of the seat backrest.

Methods and systems for a vehicle system that include determining whether a vehicle action is necessary and providing a notification to predetermined users. Sensors provide signals to a sensing control system to generate the notification.

Methods and systems for a traffic control system provide arrangements and processes for managing automated vehicles. The traffic control system can register vehicles and then control the operation of the vehicles through a section of roadway. The automated control includes the communication of directions and other messages that ensure the proper function of the vehicle while under the guidance of the traffic control system.

Methods and systems for a complete vehicle ecosystem are provided. Specifically, systems that when taken alone, or together, provide an individual or group of individuals with an intuitive and comfortable vehicular environment. The present disclosure includes a system to create, modify, and maintain profiles associated with users. The user profiles are generated based on selectively collecting data associated with the users. Although each user profile may include settings, preferences, habits, and content associated with an individual user and/or vehicle, some user profiles may represent multiple users. These user profiles can change a configuration of a vehicle to match settings for a user, such as a driver and/or passenger. The configurations may also include the recognition of a unique set of gestures for a user. Further, the user profiles can be transferred from vehicle-to-vehicle and/or user-to-user.

A system for reconfiguring a vehicle geometry is disclosed. The system includes a configuration system configured to alter the vehicle geometry, a communication system, and a controller in communication with the configuration system and the communication system, the controller configured to receive a configuration signal from the communication system, determine a configuration control signal, and automatically control the configuration system based on the control signal.