1. Field of Invention
This present invention relates to a method and system for selecting, assigning, and creating Geofences based on using known map elements and/or point of interest (POI) data, such as parks, golf courses, schools, buildings, etc. using a plurality of user interface (UI) computing devices. Additionally, this invention combines the use of saving these Geofences on a Telecommunication Device (i.e., mobile device) that has location capability for the purpose of acting on said Geofences.
2. Description of the Related Art
Telecommunication devices, specifically wireless telephones, are achieving widespread use today. Such telecommunication devices are commonly used to establish communication between other telecommunication devices. Recently telecommunication devices are becoming more than just communication devices, but also a computing platform for executing applications similar to the early days of the personal computer era, where devices had limited memory and processing resources. The difference is that these new telecommunication devices, while currently provide a limited computing platform, also enable wireless data access to the Internet and expose the telephone's telephony functionality. These new telecommunication devices are well known to people that are skilled in the art.
Prior art systems, such as GPS enabled mobile devices, have been used in combination with Geofences, a common term to those that are skilled in the art, that defines a virtual spatial boundary (i.e., proximity range) for the purpose of creating triggers when the mobile location enabled devices enter and/or exit said boundaries. The prior art method for defining these boundaries requires the use of a graphical user interface (UI) tool for creating a polygon shaped “box” and/or trigger lines that are used to cause events to occur based on the crossing of said lines. Another prior art method of creating Geofences requires selecting a point feature, such as a latitude and longitude, and then defining either a radius or major/minor axis for the point feature in order to create a boundary around the point feature. This option can be offered using default values such that the user is required to enter little information, except the center location of the bounding box.
As people that are skilled in the art will agree, creating a geofence is a difficult spatial concept to represent in one's mind without the aid of a spatial map. Even then it is very difficult to fully represent due to map scales, etc. For example, a golf course might represent on a map an irregular shaped polygon which is hard to represent with a circle, rectangle, polygon, etc., and even more difficult to represent if a user has to draw the geofences using a GUI tool. Using such an irregularly shaped geofence is difficult for the user to establish in prior art methods, as well as difficult for inclusion into the mobile device, which will use the said geofences to act upon the required trigger events.
As people that are skilled in the art will appreciate, providing a means to significantly simplify this process to a “one-click” model would allow the use of implementing geofences for the inclusion into mass market devices, such as a wireless location-enabled cell phone, etc.
Until now, an adequate solution to these problems has eluded those skilled in the art. Thus, there exists a need to provide a solution that enables users to simply and easily create geofences that are based on real-world objects without the need to have to draw or model a geofence. For example, if a user would like to create a geofence for the “Bound Brook High School”, then as those skilled in the art would appreciate, a user would only have select the map element, or in this case, the point of interest (POI), to create a geofence. This invention would correlate the spatially defined and recorded information and create a geofence boundary that emulates the actual spatially defined and recorded boundary of the object. This invention provides many important benefits for location-based applications which are an important and integral part of improving work flow and/or consumer related processes.
It is an object of the present invention to provide a method and system for enabling a very simple and efficient way to easily create and define geofences using a “one selection” process without the need to either a-priori know the extent of the object and/or define the boundary, such as using a map related object, such as a river, stream, ocean, lake, mountain, forest, reservoir, state, city, region, zip code, or the like, or using a point of interest (POI), such as a park, place of worship, school, university, restaurant, mall, or the like.
It is an object of the present invention to provide a method and system for using a “one selection” process for selecting a map or POI database that spatially represents the extents of an object. This map data and/or POI data however consists of the full and detailed spatial information that fully defines the object, such as a Park. In one embodiment, a Park feature is defined as a single and/or multiple polygon objects that fully represent the Park feature.
It is an object of the present invention to provide a method and system for allowing map related objects and/or POI objects to be represented using a plurality and various combinations of spatial representations, such as polygons, polylines, and/or point objects, to fully define the geofence that mirrors the actual map and/or POI object as accurately as possible.
It is another object of the present invention to provide a method and system for allowing map and/or POI point objects, which do not have extents, to use a default extent, such as a radius to define the objects correctly.
It is another object of the present invention to provide a method and system for allowing map and/or POI objects to automatically have varying extents based on other geofences and/or map related spatial data in the vicinity of the “selected” map or POI features for defining the extent of the object. For example, in one embodiment, a user that selects a restaurant, which is a point object, in a densely packed metropolitan area would have a default defined radius that would be much smaller than a similar restaurant in a sparse urban area. This algorithmic approach allows for a more intelligent means to create geofences for the purpose of preventing false positives, etc., when point features are within close proximity to other geofences and/or other map objects.
It is another object of the present invention to provide a method and system for storing these “one selection” geofences onto either a single server, cluster server, or the like, or on a mobile handset device which calculates the location information for the processing of the geofence triggers. In one embodiment, a handset that calculates the location information will also store the geofence data locally for use without the need of the network, such as the Internet, Intranet, Extranet, WDN (wireless data network), EDN (engineering data network), or the like, for the processing the geofences to cause trigger events. In another embodiment, the handset would send GPS points to a single or distributed and/or clustered server system for the processing of the geofence data. The latter embodiment requires more network traffic than processing the geofence data locally, since in this invention that data is differentially synchronized to the handset, which even further mitigates the required network bandwidth for this invention.
It is another object of the present invention to provide a method and system for representing a plurality of points that define the polygon. Since multiple points make it very difficulty to fully and correctly represent the actual polygon of the map data element and/or POI element for devices with limited resources, such as memory, disk space, etc., this invention provides the capability to decimate the polygon, polyline, or the like, into its minimal representation that represents the actually map object (i.e., map element and/or POI element). This invention also provides a method to decimate the polygon, polyline, or the like, below its minimal representation in order to satiate the limited resources of the device, such as a wireless phone.
It is another object of the present invention to provide a method and system for providing an interface to input this “one selection” process. This interface can consist of, but is not limited to, voice input, IVR, text, touch pad, keyboard, mouse, multi-modal, or the like, for the purpose of defining a geofence by selecting a map data element and/or POI element. For example, in one embodiment, a user can use an IVR voice input device to say the name of the POI, such as “Pasadena High School”. This would indicate to the system that a geofence would be sent to the mobile location handset that would define a geofence around “Pasadena High School”. In this embodiment, when the target mobile location handset either enters or leaves this geofence, certain event alerts would be triggered that the user had previously defined for the said handset.
It is another object of the present invention to provide a method and system to allow a user to select an object on a map, such as a map element and/or POI object for adding a geofence to a mobile device. A user only has to select the object to add it to the handset within the map view. Additionally, a user can also drag-and-drop the object to the representation of the mobile device for allowing the user to easily add a geofence to a mobile location-enabled device. This enables users to quickly and easily add geofences to devices without having to worry about the actual boundary and/or draw the polygon to represent the spatial representation that requires a geofence.
This present invention relates to a method and system for selecting, assigning, and creating Geofences based on using known map elements and/or point of interest (POI) data, such as parks, golf courses, schools, building, etc. using a plurality of user interface (UI) computing devices. Additionally, this invention combines the use of saving these Geofences on a Telecommunication Device (i.e., mobile device) that has location capability for the purpose of acting on said Geofences.
The present invention may be embodied in a pre-commercial (non-public) and internal application called “AtlasLink” which is owned and licensed by Networks In Motion, Inc. of Irvine, Calif.
The preferred embodiment for illustrating a mapping interface is shown in
In another embodiment a user can select a category from a directory or Yellow Pages, such as parks. The results would return a list of parks, such as, but not limited to:
A user would then only need to select the desired park in the list using a standard GUI interface for the device, which can consist of a touch screen, rocker control (as used on a wireless device), etc. After the selection has been made, the geofence would be scheduled to be polled or pushed to the mobile location device for user-defined geofence event alerts.
As shown in
It should be noted that the present invention may be embodied in forms other than the preferred embodiments described above without departing from the spirit or essential characteristics thereof. The specification contained herein provides sufficient disclosure for one skilled in the art to implement the various embodiments of the present invention, including the preferred embodiment, which should be considered in all aspect as illustrative and not restrictive; all changes or alternatives that fall within the meaning and range or equivalency of the claim are intended to be embraced within.
This application is a division of U.S. patent application Ser. No. 13/137,747, filed on Sept. 9, 2011, entitled “Method and System for Identifying and Defining Geofences,” now U.S. Pat. No. 8,731,813; which is a continuation of U.S. patent application Ser. No. 11/370,794, filed on Mar. 7, 2006, entitled “Method and System for Identifying and Defining Geofences,” now U.S. Pat. No. 8,019,532, which claims the benefit under 35 USC 119(e) of U.S. provisional patent application Ser. No. 60/659,643 filed Mar. 7, 2005, the contents of all of which are incorporated by reference herein.
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20140292511 A1 | Oct 2014 | US |
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60659643 | Mar 2005 | US |
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Parent | 13137747 | Sep 2011 | US |
Child | 14281472 | US |
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Parent | 11370794 | Mar 2006 | US |
Child | 13137747 | US |