CPC Class H04W

A generally plano rectangular louvers are capable of being ganged in a stacked tiltable array to enhance light re-direction when titled to follow the solar elevation. Combinations of features and optical characteristic avoid optical artifacts and enhance efficiency of light utilization and manufacturing. Different louvers can be combined in alternative ways in such arrays. Light directly louvers, films, sheets and panels deploy a grooves that re-direct exterior sunlight for deeper penetration into rooms and building interiors. Absorbing structure are combined with films or panel that while reducing total interior illumination, reduce the potential for annoying glare at low solar elevations.

In one embodiment, a method comprises receiving, at a backend server, a first request for a shared ride and a desired drop-off location from a first passenger; analyzing, by the backend server, a plurality of prospective routes to a plurality of prospective drop-off locations that are within a drop-off area associated with a desired drop-off location; selecting, by the backend server, a first drop-off location for the first passenger from the plurality of drop-off locations and a route to the first drop-off location based upon the likelihood of receiving a request for a shared ride with a prospective pick-up location within a limit of deviation from the route; and navigating a driver for at least a portion of the selected route.

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.

Data indicative of a plurality of duration times is obtained, each duration time relating to a dynamic POI of a set of a plurality of dynamic POIs that have a similar location, and are of similar type. Each duration time is in respect of a given time. The data indicative of each duration time is representative of a difference between a time at which the dynamic POI was in an active state and a time at which the dynamic POI was in an inactive state. The obtained duration time data and the associated time data are used to obtain a duration time function indicative of a variation in duration time with respect to time. The duration time function is associated with data indicative of a given geographic location.

The present disclosure relates to an information providing method for an on-demand service. The method may include receiving service request information from a passenger of a passenger terminal device. The service request information may include a departure location of the passenger. The method may further include acquiring historical service request information related to the passenger; and determining travel-route-related information based at least in part on the departure location of the passenger and the historical service request information. Also disclosed is a system for implementing the method.

In a method of sensor output configuration, sensor output specifications for a plurality of sensor clients of a sensor are acquired. A first sensor output specification for a first of the sensor clients defines a first value for a sensor parameter. A second sensor output specification for a second of the sensor clients defines a second value for the sensor parameter. The first value and the second value are different. A sensor processing unit, which includes the sensor, is configured based on the sensor output specifications to: simultaneously provide an output of the sensor to the sensor clients according to the first value while a first operational condition is met; and simultaneously provide the output of the sensor to the sensor clients according to the second value while a second operational condition is met, wherein the first operational condition and the second operational condition are different.