Cell-ID translation in a location based system (LBS)

Abstract

A Cell-ID translation module accesses a Cell-ID translation database to associate original Cell-ID information with new or changed (i.e., translated) Cell-ID information received by a handset. A Cell-ID database is effectively regularly changed rendering useless any third party databases previously collected without authorization by the relevant mobile operators. Cell-IDs collected by unauthorized third parties will either not be found in the third party database, or not match up to the correct location.

Description

BACKGROUND OF THE INVENTION

1. Field of the Invention

This invention relates generally to wireless telecom, and in particular to location based systems (LBS).

2. Background of Related Art

The current location of wireless devices at any given time, or even past locations of wireless devices, is commercially valuable information. However, while it provides an important tool to commercial enterprises (e.g., for use in marketing), it also raises privacy concerns. Significant rules and standards have been established in the wireless device industry to protect a user's privacy, e.g., a user of a wireless device typically may choose to enable or disable location of that wireless device giving the user an ability to choose to permit location of their device in the first place. With permitted use of location technology, a mobile operator or carrier then has the ability to make use of such location information, including sale of such location information, subject to respective permissions of its subscribers. As a result, mobile operators and carriers enjoy significant revenue from the sale or license of location information of its subscribers, thus defraying the cost of the network, ultimately benefitting the subscribers.

A cell site in a particular mobile operator's network has a unique identifier code associated with the cell site—referred to as a Cell-ID. This Cell-ID is usually provided by the Radio Network Controller (RNC). Depending upon the operator, Cell-IDs transmitted to proximate mobile devices are associated with an area ID or Cell Name to form a unique identifier. However, a phone in range of a given cell site can receive the Cell-ID, the Area ID and the Operator ID.

Third parties such as Google(TM) have devised techniques to sniff out and record Cell-ID information, and cross-referencing that sniffed Cell-ID information to known locations, to identify a general location of mobile operators Cell-IDs. Google(™), for example, has collected a Cell-ID database that it provides to developers so applications on handsets can determine the approximate location of the user. In addition, Google(™) uses the database to provide more precise location technology in conjunction with its own Assisted GPS server. This provides a technique that determines a general location based on the Cell-ID that the wireless device receives from the network. This bypasses the mobile operator, and deprives them of an important source of revenue, ultimately putting pressure on the mobile operator resulting in raised costs to the subscriber.

In particular, third parties such as Google(™) have independently mapped operators' cell site information by associating a location (longitude and latitude) with a Cell Site identifier code—Cell-ID. Each mobile operator's cell site provides a unique identifier code that is received by a handset, sometimes in conjunction with an Area ID code as well. Thus, knowing the Cell-ID and Area ID for a particular mobile operator, a third party can associate an approximate location with the Cell-ID. This is usually accomplished by having a client in a GPS enabled handset that receives the Cell-ID information, and associating the Cell-ID information to the GPS location of the handset. As a result, third party providers can then provide location information to applications, handsets, etc. without the direct involvement of the mobile operator, making a revenue stream for themselves previously enjoyed by mobile operators. Perhaps more importantly, the location information is obtained by such third parties who may not have a contractual obligation to those users to maintain a privacy in that location information.

Cell-ID information may be used to provide precise location information when used in conjunction with assisted GPS servers. The location of a given wireless device, whether imprecise or precise, may be determined without the direct assistance of the relevant mobile operator.

Without the need to rely on mobile operators for provision of location of given wireless devices, third parties need not pay the relevant mobile operators for location data. Thus, mobile operators are excluded from the value chain for location information, missing out on significant revenue. And perhaps more important to the users themselves, private information of the user, i.e., their location, cannot be controlled as third parties have the ability to determine a location of subscribers who are not their subscribers, thus raising serious privacy concerns.

SUMMARY OF INVENTION

In accordance with the principles of the present invention, a method of securing Cell-ID information in a wireless network comprises translating a unique static Cell-ID of a node in a wireless network into a unique, regularly changed, translated Cell-ID. The translated Cell-ID and not the static Cell-ID is transmitted to a wireless device communicating with the node of the wireless network.

In accordance with another aspect of the invention, a network Cell-ID translation apparatus comprises a Cell-ID translation database containing a plurality of translations between respective unique static Cell-IDs of nodes in a wireless network, and temporarily corresponding unique, regularly changed, translated Cell-IDs. A changer of Cell-IDs module, in communication with the Cell-ID translation database, occasionally affects a change in the value of the translated Cell-IDs. A translated Cell-ID and not the static Cell-ID, is transmitted to a wireless device communicating with an assigned node in the wireless network.

BRIEF DESCRIPTION OF THE DRAWINGS

Features and advantages of the present invention will become apparent to those skilled in the art from the following description with reference to the drawings, in which:

FIG. 1 shows an exemplary carrier network including a Cell-ID translation module accessing a Cell-ID translation database, in accordance with the principles of the present invention.

FIG. 2 shows a Cell-ID translation database associating an original or previous Cell-ID with a new Cell-ID, in accordance with the principles of the present invention.

FIG. 3 shows a Cell-ID translation database in a network providing mapping between a previous Cell-ID and a new Cell-ID, for use by a radio network controller to provide a new Cell-ID to a relevant mobile device, in accordance with the principles of the present invention.

DETAILED DESCRIPTION OF ILLUSTRATIVE EMBODIMENTS

FIG. 1 shows an exemplary carrier network including a Cell-ID translation module accessing a Cell-ID translation database, in accordance with the principles of the present invention.

In particular, as shown in FIG. 1, a Cell-ID Translation Module 102 resides on a suitable server. The Cell-ID translation module 102 accesses a Cell-ID translation database 100 to associate original Cell-ID information with new or changed (i.e., translated) Cell-ID information 120 received by a handset 122.

The Cell-ID translation database 100 may be changed by the mobile operator on a periodic, intermittent, or otherwise occasional basis of the mobile operator's choosing. The mobile operator changes the Cell-ID translation database using an appropriate changer of translated Cell-IDs module 112. Via the changer of translated Cell-IDs module 112, an authorized mobile operator may change any or all translation values of Cell-IDs as they are presented to wireless devices 122, thus rendering useless any previous third party databases associating conventional static Cell-IDs with a general location as were collected in the past.

The Cell-ID translation database 100 may be contained on a server, and function to associate new (i.e., translated) Cell-IDs with the previous or original Cell-IDs. In one embodiment, the mobile operator can change the translated Cell-ID information 120 that is received by the handset 122 on a periodic or other occasional basis of the mobile operator's choosing. The Cell-ID translation database 100 may be established on an entire network basis, or on a regional or specific geographic area basis.

The changer of translated Cell-IDs module 112 may change the translation of the Cell-IDs based on a known method or algorithm, or otherwise methodical fashion thus permitting a mobile operator the ability to again gain revenue by selling translated Cell-ID information to third parties or partners of its own choosing. This not only defrays costs to the mobile operator, but also permits the mobile operator to hold such third parties to privacy standards via contractual or other methods.

FIG. 2 shows a Cell-ID translation database associating an original or previous Cell-ID with a new Cell-ID, in accordance with the principles of the present invention.

In particular, as shown in FIG. 2, the Cell-ID translation database 100 contains entries translating an original, otherwise conventional, previous or otherwise static Cell-ID database 202 to an effectively translated Cell-ID database 204. As shown in FIG. 2, translated Cell-IDs are shown for an exemplary mobile operator identified as “023”.

FIG. 3 shows a Cell-ID translation database in a network providing mapping between a previous Cell-ID and a new Cell-ID, for use by a radio network controller to provide a new Cell-ID to a relevant mobile device, in accordance with the principles of the present invention.

In particular, as shown in FIG. 3, mobile operator “023” has its Cell-IDs masked, thus protecting not only a significant source of revenue but also control of the privacy of its subscribers' locations, using the Cell-Id Translation database 100. Translated Cell-IDs, not the static Cell-IDs permanently assigned to respective cells, are passed to wireless devices 122 via the mobile operator's radio network controller 300.

Using the present invention which effectively regularly changes the Cell-ID database, any third party databases previously collected without authorization by the relevant mobile operators are rendered useless because Cell-IDs collected by unauthorized third parties will be changed such that the previously sniffed Cell-IDs will either not be found in the third party database, or not match up to the correct location.

The present invention may also be applied to other wireless networks such as WiFi networks that may be managed or controlled by an operator. The present invention has applicability to the mobile operator market in general. Moreover, companies that maintain a database that matches location of a WiFi device with a WiFi identification code—typically called a Media Access Control (MAC) address—will also benefit from the invention.

While the invention has been described with reference to the exemplary embodiments thereof, those skilled in the art will be able to make various modifications to the described embodiments of the invention without departing from the true spirit and scope of the invention.

Claims

1. A method of securing cell site identifier code information in a wireless network, comprising: accessing a secure cell site identifier code translation database containing regularly changed translations between actual, unique static cell site identifier code information, and corresponding translated, unique static cell site identifier code information; andregularly translating an actual, unique static cell site identifier code associated with a given wireless device in a wireless network into its corresponding current translated, unique static cell site identifier code, while leaving said actual, unique static cell site identifier code associated with said given wireless device unchanged;wherein a regularly changed, translated cell site identifier code, in place of said unique static Cell-ID associated with said given wireless device, is passed to another wireless device.

2. The method of securing cell site identifier code information in a wireless network according to claim 1, wherein: said corresponding translated, unique static cell site identifier code is changed periodically.

3. The method of securing cell site identifier code information in a wireless network according to claim 1, wherein: said corresponding translated, unique static cell site identifier code is changed intermittently.

4. A network translation apparatus, comprising: a secure cell site identifier code translation database containing a plurality of regularly changed translations between actual, unique static cell site identifier codes of given nodes in a wireless network, and corresponding translated, unique static cell site identifier codes;a translator, in communication with said cell site identifier code translation database, to regularly replace, in a communication with but not in said given nodes in said wireless network itself, an actual, unique static cell site identifier code with its corresponding regularly changed, translated, unique static cell site identifier code, while leaving said actual, unique static cell site identifier codes unchanged; anda transmitter to transmit a regularly changed, translated cell site identifier code, in place of said actual, unique static cell site identifier code associated with a given node in said wireless network, to a device outside said wireless network.

5. The network cell site identifier code translation apparatus according to claim 4, wherein: said translator of said actual, unique static cell site identifier code periodically changes said translated, unique static cell site identifier code.

6. The network cell site identifier code translation apparatus according to claim 4, wherein: said translator of said actual, unique static cell site identifier code intermittently changes said translated, unique static cell site identifier code.