The present invention is directed to a method and apparatus for sending and retrieving location relevant information to a user by selecting and designating a point of interest that is displayed on a graphical user interface and sending the location information associated with that point of interest to a receiver that is also selected using the graphical user interface. The location relevant information may also include mapped routes, waypoints, geo-fenced areas, moving vehicles etc. Updated location relevant information may also be continuously sent to the user while generating updated mapping information on the graphical user interface. The present invention may be practiced by using communication devices such as a personal computer, a personal digital assistance, in-vehicle navigation systems, or a mobile telephone.

When a guiding route is included in a display target region at a photograph display mode, route data of the guiding route is also read. Within the read route data, information of a region for editing a photograph is stored. This information includes a road kind (color information), coordinates of the start/end points of the road, and a road width when editing is for a road. Next, photograph data is read, so that a color of the photograph data is edited based on the stored information of the route data. For instance, a color of the photograph data in a corresponding road region is changed to red that represents "national road."

A portable apparatus (10) providing both substantially automated performance monitoring and audio entertainment features. In a preferred embodiment the apparatus (10) broadly comprises a portable housing (12); an attachment mechanism (14); a GPS component (16); a heart rate monitor component (17); an audio component (18); a user interface (20); a processor (26); and a power supply (30). The housing (12) may include a headset (1112a) wherein the GPS component (16) is located, and a second housing component (1112b) wherein the processor (26) is located, wherein the GPS component (16) communicates with the processor (26) in a wireless manner. The apparatus (10) is adapted to determine a number of laps or a distance, to provide an elapsed time, and to determine a speed.

An electronic device (10) comprising a location determining component (12), such as a global positioning system ("GPS") device, a pedometer (14), and a computing device (16) is operable to determine a distance traveled by a user. The pedometer (14) is operable to sense a step taken by the user, and the location determining component (12), when accessible, is operable to determine a distance between two positions and supply such information to the computing device (16) for continuous calculation of an accurate step size of the user. When the location determining component (12) is inaccessible, the computing device (16) determines the distance traveled using the accurate step size information. In additional embodiments, a housing (132) is provided for storing a location determining component (112), a pedometer (114), and a computing device (116), and an accelerometer (242) is provided for also determining the step size of the user. A computing device (216) is then operable to calibrate the step size of the user as determined by the accelerometer (242).