Abstract: A system and a plurality of methods for location detection are disclosed. In some cases, the user's present location is represented by a circle, having a center and a radius, where the radius is indicative of the accuracy of the present location. The desired destination location, or geofence, is also defined as a circle, having a center and a radius. The various methods disclosed are used to determine when a user has entered or exited the geofence. In some embodiments, these methods attempt to minimize power consumption or another parameter. In another embodiment, the methods attempt to achieve the highest degree of accuracy possible or required for the task.
Abstract: A system and a plurality of methods for location detection are disclosed. In some cases, the user's present location is represented by a circle, having a center and a radius, where the radius is indicative of the accuracy of the present location. The desired destination location, or geofence, is also defined as a circle, having a center and a radius. The various methods disclosed are used to determine when a user has entered or exited the geofence. In some embodiments, these methods attempt to minimize power consumption or another parameter. In another embodiment, the methods attempt to achieve the highest degree of accuracy possible or required for the task.
Abstract: A system and a plurality of methods for location detection are disclosed. In some cases, the user's present location is represented by a circle, having a center and a radius, where the radius is indicative of the accuracy of the present location. The desired destination location, or geofence, is also defined as a circle, having a center and a radius. The various methods disclosed are used to determine when a user has entered or exited the geofence. In some embodiments, these methods attempt to minimize power consumption or another parameter. In another embodiment, the methods attempt to achieve the highest degree of accuracy possible or required for the task.
Abstract: A system and a plurality of methods for location detection are disclosed. In some cases, the user's present location is represented by a circle, having a center and a radius, where the radius is indicative of the accuracy of the present location. The desired destination location, or geofence, is also defined as a circle, having a center and a radius. The various methods desclsoed are used to determine when a user has entered or exited the geofence. In some embodiments, these methods attempt to minimize power consumption or another parameter. In another embodiment, the methods attempt to achieve the highest degree of accuracy possible or required for the task.