Abstract: A server 402 determines modified flow speed data for each navigable segment of a recommended navigable stretch. The modified flow speed data is determined so as to make the segment more favourable when a route is determined by a navigation device through the navigable network using the flow speed data. The server transmits the modified flow speed data to a set of one or more navigation devices 400 for use by the or each device at least for the purposes of determining a route through the network of navigable segments. Each navigation device then determines a route to a destination using the modified flow speed data.

Abstract: A server 402 determines modified flow speed data for each navigable segment of a recommended navigable stretch. The modified flow speed data is determined so as to make the segment more favourable when a route is determined by a navigation device through the navigable network using the flow speed data. The server transmits the modified flow speed data to a set of one or more navigation devices 400 for use by the or each device at least for the purposes of determining a route through the network of navigable segments. Each navigation device then determines a route to a destination using the modified flow speed data.

Abstract: A method is disclosed for determining a route in an area covered by an electronic map, the map comprising a plurality of segments representing navigable segments of a navigable network in the area covered by the electronic map. The method involves generating a plurality of routes through the navigable network between a first location and a second location, determining a relative traffic flow value for each of the routes using data indicative of a relative current capacity of segments of the navigable network, and selecting a given one of the routes from the plurality of routes for use in navigating between the first location and the second location. The probability of a given one of the plurality of routes being selected is based on the determined relative flow value for the route.

Abstract: A server 402 determines modified flow speed data for each navigable segment of a recommended navigable stretch. The modified flow speed data is determined so as to make the segment more favorable when a route is determined by a navigation device through the navigable network using the flow speed data. The server transmits the modified flow speed data to a set of one or more navigation devices 400 for use by the or each device at least for the purposes of determining a route through the network of navigable segments. Each navigation device then determines a route to a destination using the modified flow speed data.

Abstract: A method is disclosed for determining a route in an area covered by an electronic map, the map comprising a plurality of segments representing navigable segments of a navigable network in the area covered by the electronic map. The method involves generating a plurality of routes through the navigable network between a first location and a second location, determining a relative traffic flow value for each of the routes using data indicative of a relative current capacity of segments of the navigable network, and selecting a given one of the routes from the plurality of routes for use in navigating between the first location and the second location. The probability of a given one of the plurality of routes being selected is based on the determined relative flow value for the route.

Abstract: A server 402 determines modified flow speed data for each navigable segment of a recommended navigable stretch. The modified flow speed data is determined so as to make the segment more favourable when a route is determined by a navigation device through the navigable network using the flow speed data. The server transmits the modified flow speed data to a set of one or more navigation devices 400 for use by the or each device at least for the purposes of determining a route through the network of navigable segments. Each navigation device then determines a route to a destination using the modified flow speed data.

Abstract: A digital map application enables display of a large amount of 3D buildings or 3D structures to provide enhanced display and navigation features. The 3D models (116, 216, 316) are composed from a detailed set of attributes which, when combined, portray a highly detailed visual rendering of a physical object as it exists in real life. By selectively suppressing attributes, and in appropriate cases deriving new attributes from existing data, varying degrees of the 3D model (116, 216) can be represented in lower levels of detail with reduced processing resources and to achieve a more realistic depiction. The generalization of the 3D models can be structured as a function of the distance between the 3D model and an imaginary observer datum or other suitable reference point.