CN101536587A - Configuring preferred user zone lists for private access points for wireless networking - Google Patents

Abstract

Information is received identifying a geographic location of an access point in a radio access network. Access information is assigned and communicated to the access point, and the access information and the geographic location information is communicated to an access terminal. The access terminal identifies the access point as a preferred access point, including its geographic location. The access terminal receives information identifying its own geographic location, and when the access terminal is near the access point, the access point is used to access the network. The access point receives information identifying its geographic location and communicates the geographic location information to a configuration server. The access point receives access information from the configuration server and provides access terminals access to the network using the access information.

Description

For the private access points that carries out Wireless Networking disposes preferred user zone list

Technical field

The present invention relates to dispose preferred user zone list for the private access points that carries out Wireless Networking.

Background technology

As shown in Figure 1, cellular radio Communication system is designed to serve numerous the accessing terminal that is distributed in the scope of territory significantly that is divided into the sub-district.In the center that is positioned at or approaches each sub-district 102,104,106, be provided with the wireless network access point 108,110,112 that is also referred to as base station transceiver station (BTS), be used for serving 114,116 (that is, cell phone, laptop computer, the PDA) that access terminal that are positioned at the sub-district.Each sub-district uses a plurality of sectorized antennas further to be divided into sector 102a-c, 104a-c, 106a-c usually.In each sub-district, the wireless network access point of sub-district can be served one or more sectors and can be communicated by letter with a plurality of the accessing terminal in its sub-district.

The 1xEV-DO agreement is standardized as TIA/EIA/IS-856 by telecommunications industry association (TIA), " CDMA2000 High Rate Packet Data Air Interface Specification; " 3GPP2C.S0024-0, edition 4 .0, on October 25th, 2002, it is merged in so far by reference.The revision A of this standard has been published as TIA/EIA/IS-856A, " CDMA2000 High Rate Packet DataAir Interface Specification, " 3GPP2 C.S0024-A, version 2 .0, in July, 2005, revision A also is merged in so far by reference.The revision B of this standard has been published as TIA/EIA/IS-856-B, and 3GPP2 C.S0024-B, also is merged in so far by reference at version in May, 1.0,2006.Also can use other wireless communication protocols.

When being connected, accessing terminal and from the known tabulation that is in the available wireless network access point in the communication range, select access point with wireless network.In legacy system, access terminal and from " neighbor lists information ", obtain the tabulation of available access point.Generally, neighbor lists information comprise wireless channel setting (as, wireless access technology, frequency band rank, frequency and channel width) and other necessary informations (such as timing offset, coded message, about the details of concrete wireless technology in this channel, search box size etc.) with help to access terminal the location its can receive the wireless network access point of wireless service potentially.

Neighbor lists information generally via (1) with static or semi-static (non-frequent updating) be programmed into the pre-configured database that accesses terminal or via (2) by be positioned at access terminal roughly near the expense signaling message that transmits of some or all wireless network access points offer and access terminal.Be used for providing these mechanism of neighbor lists information to be implemented in static Radio Access Network usually to accessing terminal, the frequent change of the position of wireless network access point or permanent fixation or right and wrong therein.

Summary of the invention

Generally speaking, in one aspect, on portable accessing terminal, first access point is identified as preferred access point, the geographical position is associated with this first access point, receive the information in this geographical position that accesses terminal of identification, and when accessing terminal near this first access point, first access point is used to insert Radio Access Network.

Embodiment can comprise one or more following features.Identification comprises that as the access point of preferred access point reception is used for access point is added to the instruction of preferred access point tabulation.With the related information that comprises the geographical location information that receives this first access point of identification in geographical position with first access point as the part of instruction access point is added to the tabulation of preferred access point.This instruction is to receive from OTAPA server or OTASP server.The information in the geographical position that identification accesses terminal comprises the gps coordinate that accesses terminal.Receiving the access terminal information in geographical position of coordinate of identification comprises from gps satellite or beacon and receives latitude and longitude coordinate.The information that receives the geographical position of discerning the coordinate that accesses terminal comprises from second access point determines latitude and longitude coordinate.Receiving the access terminal information in geographical position of coordinate of identification comprises and receives identifying information and this identifying information is associated with the geographical position from transfer equipment.

Generally speaking, in one aspect, on access point, receive the information in the geographical position of identification access point, geographical location information is communicated to configuration server, receive access information from configuration server, and use this access information that access to Radio Access Network is provided to accessing terminal.

Embodiment can comprise one or more following features.Authentication information accesses terminal from configuration server.Move to after the new geographical position, receive the information in this new geographical position of identification, new geographical location information is communicated to configuration server, receives new access information, and use this new access information that access to Radio Access Network is provided to accessing terminal from configuration server.Configuration server comprises a plurality of servers.

Generally speaking, in one aspect, receive the information in the geographical position of access point in the identification Radio Access Network, this access information is distributed and be communicated to access point, and this access information and geographical location information be communicated to access terminal.

Embodiment can comprise one or more following features.The network parameter setting is communicated to access point comprises that impelling configuration server to use backhaul (backhaul) network that this access information is communicated to accesses terminal.This access information and geographical location information be communicated to access terminal comprise that impelling OTAPA server or OTASP server to use Radio Access Network that this access information and geographical location information are communicated to accesses terminal.Receive the information in the new geographical position of identification access point, distribute new access information, new access information is communicated to access point, and new access information and new geographical location information be communicated to access terminal to access point.

These and other aspects, feature and various combination thereof can be represented as parts, the program product that method, device, system are used to carry out function, and other modes.Quick transmission for suitable access point helps to preserve the battery life that accesses terminal.

By specification and claims, other feature and advantage will become apparent.

Description of drawings

Fig. 1 is the block diagram of Radio Access Network.

Fig. 2 is the block diagram of home network arrangement.

Fig. 3 illustrates preferred user zone list configuration and the search mechanisms that accesses terminal.

Fig. 4 and Fig. 5 illustrate the state diagram that accesses terminal.

Embodiment

With reference to figure 1, Radio Access Network (RAN) 100 uses the Ev-DO agreements to transmit packet between (as accessing terminal 114 and 116) and the wireless network access point (as access point 108,110,112) accessing terminal.Each access point connects 118 via backhaul (backhaul) and is connected to wireless network control/packet data serving node (RNC/PDSN) 120, and it can be the one or more physical equipments that are in diverse location.

In some instances, as shown in Figure 2, wireless network access point 202 can be by the same way as conduct

Access point is arranged in user's the family 200.This type of wireless network access point is called as private access points.Private access points 202 can use any available high-speed Internet such as DSL or cable modem 204 to connect as the backhaul with the RNC/PDSN function that realizes in private access points 202.This type of private access points can be installed in this is fit to Anywhere, for example, and in office, public place or dining room.It has comprised any similar position when mentioning the private access points that is arranged in " family " when this specification.Private access points is different from picocell (picocell) access point, it only may be prescribed as to user that private access points has been installed in its family or the people of subscriber authorisation provide access in private access points, and but opposite picocell can be served similar place be provided access to any subscriber of network.In some instances, private access points can be integrated into cable modem or other network hardwares, such as router or WiFi access point.

When accessing terminal of authorizing 206 is present in the family (or the scope that is positioned at private access points 202 Anywhere), it uses private access points 202 but not settles or receive audio call such as the conventional cellular radio access point of access point 108 and is connected with data, even it is in the sub-district 102 that is used for this access point 108.We are called standard access point 108 grand access point or grand BTS sometimes so that itself and private access points are distinguished, because standard access point 108 provides the direct access to wide area RAN.Adjacent family 210 can have the private access points that is connected to its cable modem 214 112 of oneself so that be its owner's 216 uses that access terminal.Private access points arranges and is different from traditional wireless network arrangement that because adjacent private access points is defined as independent operation, part is because the real time communication between adjacent private access points is difficult.The private access points of regulation arranges that also being different from the WiFi that wherein is defined as the frequency spectrum that operates in permission arranges.Some details and example are in the application 11/640 of the common pending trial of submission on December 15th, 2006,415, title is Controlling Reverse Link Interference in PrivateAccess Points for Wireless Networking, and the application of submitting on December 15th, 2,006 11/640,501, title is to discuss among the Provisioning Private Access Points for Wireless Networking, and they are incorporated into so far by reference.

Can be configured in the central server and be dispensed to each private access points for the access list that accesses terminal of the mandate of each private access points.Can use broadcast bearer parameter management (OTAPA) system will be used to locate and insert the distribution of information of private access points to accessing terminal.Access terminal and also can own from configuration server, retrieve access information.Mobile Internet Protocol (mobile IP) can be used to switching between the private access points together with continuous voice call (VCC).Although this specification uses the term in the EV-DO standard, same concept also is suitable for comprising other communication meanss of GSM, UMTS, HSDPA, WiMax, WiBro, WiFi etc.For example, when we mentioned reverse power control (RPC) signal, this should be taken as and refer to any signal that is used to control the power controlling level that accesses terminal that use the base station.

Preferred user zone list

Use the EV-DO network of private access points to be different from traditional EV-DO and arrange, because each private access points has its oneself access list, that is, and the subscriber's through its access service of mandate (or they access terminal) tabulation.We are will be wherein given, and the access terminal private access points that is authorized to is used as the private access points of mandate.Accessing terminal can be described to provide to given access point, means that it is assigned to use at that time at least this access point.Private access points expections up to a million will be disposed in the city.The search of attempting inserting on the access point that they are authorized in order to ensure only accessing terminal and accessing terminal to access point is effectively, may be embodied as the technology that private access points disposes preferred user zone list.

In some instances, on the private access points of mandate can be configured in and access terminal, comprise increase, delete and reconfigure the private access points of mandate.Transmit to private access points from grand access point in the time of can being arranged to the transmission possibility in case access terminal.In other respects, fast transmission helps to keep the battery life that accesses terminal.

In some instances, the customized application on the accessing terminal of handset-type is used to manage the private access points tabulation.This application can or be used for any other framework that is fit to that operation is respectively used on mobile device by BREW and realize.Similarly, the application that the operating system of host PC is write can be used to dispose and be embodied as the outer of PC if be integrated into the accessing terminal of peripheral hardware of PC.This application can have the additional user interface with the search private access points.In some instances, this finishes to the disclosed API of application provider (API) (for example triggering search) by handset manufacturers.In some instances, each of suitable applications and expectation use private access points accesses terminal and bundles.In some instances, this method is by PNOffset/RFFreq/SectorId tlv triple identification private access points, this require the hand-held set search have appointment PNOffset pilot signal and also to discern SectorId uniquely through the position step of updating.

The access network in case access terminal, it can use preferred user zone list (PUZL) to locate and use preferred access point.PUZL provides priority and to the feature of the available access point that accesses terminal, and can configuration as definition among the TIA-683-C " Over-the-Air ServiceProvisioning of Mobile Stations in Spread Spectrum Systems " of in March, 2003 issue, this standard is incorporated into so far by reference, comprises broadcast bearer parameter management (OTAPA) or broadcast bearer service discipline (OTASP).In the typical case was provided with, when setting up the connection to the access point in the grand network when accessing terminal, access point provided neighbor list to accessing terminal, and, operates in the tabulation of other access points in identical or the adjacent area that is.Access terminal will tabulate with its PUZL in access point tabulation relatively, if find any coupling, then it begins to search for the access point of being discerned.

According to above-mentioned standard, the configuration of the preferred user area on accessing terminal can be right based on the PN skew/RF frequency of identification access point.Existing PUZL configuration mechanism can expand to private access points by the part of preferred user area that certain private access points is configured to access terminal and arrange.This available at that time private access points of use that will cause accessing terminal.

Existing PUZL configuration mechanism can be enhanced the requirement with the reply private access points.Except they PN skew/RF frequency to, access point also can utilize their geographical position, is discerned uniquely as longitude and latitude.(positional information is included among the PUZL with use and is different from those that specification provides.) this means geographical specific field can be appended to the PUZL clauses and subclauses with which access point communicates by letter based on their physical location is definite to allow to access terminal.Geographical specific field information is used for enabling Rev-A hand-held set location finding and their " preferably " private access points of use based on them.The search of preferred user area can be based on the position with the battery of saving hand-held set and enable quick switching between grand access point and private access points.Be different from neighbor list that (or except) relatively receive from grand access point and its PUZL, access terminal can it is current latitude and longitude coordinate and the coordinate of the private access points among its PUZL compare.If find in its definite radius that is in certain, then access terminal to search for and know its pilot signal with regard to nigh this private access points.These a plurality of relatively private access points can be shared in the right operated by rotary motion of PN skew/RF frequency provides some benefit, under the situation of operated by rotary motion, the uncertain private access points that finds in the neighbor list of grand access point of the possibility that accesses terminal really is that among its PUZL, goes to seek it and can waste energy.It also retrieves the grand access point of the sign that need be configured in potential all a large amount of and variable private access points in its overlay area.

Access terminal and to determine their geographical position with several ways.In some instances, be equipped with and access terminal with from global positioning system (GPS) satellite or beacon received signal and directly determine their position.In some instances, macro base station transmits the information of describing their positions and accesses terminal and can make hypothesis based on the transmission of one or more macro base stations.Because each macro base station has limited scope, the hypothesis that access station has similar position is generally effective.In some instances, accessing terminal is equipped with the WiFi receiver, and they can use the database that the WiFi network information (such as the IP address of the SSID or the WiFi access point of network) is mapped to the geographical position.The position that access point can use one or more WiFi networks is to triangulate to its oneself position.

The message flow of Fig. 3 explanation is explained variety of network components and mutual between 302 of accessing terminal.As shown in the figure, system can realize by several sections.Accessing terminal 302 will be through private access points 304 access network (not shown).Access terminal and use the geographical coordinate of deriving to determine its position from the source 306 of above-mentioned information.Access terminal 302 configuration of OTAPA server 308 management.Configuration server 310 is communicated by letter with OTAPA server 308 and is provided configuration information to private access points 304.

When private access points 304 energisings (320), it determines its geographical position and SectorID 322 near grand access point 312, and these are reported to configuration server 310.PN side-play amount that configuration server 310 distributes for private access points 304 will to use and RF frequency 324 and the geographical position and the sector ID of they and private access points 304 be communicated to the OTAPA server.Private access points 304 uses the value of distributing to become online (326) then.In some aspects, accessing terminal 302 is added (328) and is the authorized user of private access points 304, and relevant authorization message 330 is communicated to private access points 304.Authorize access terminal provide and can finish by several ways, one of them service at above-mentioned common pending trial provides in the application to be discussed.After the current location and configuration information of OTAPA server 308 report private access points 304, the OTAPA server is to the renewal clauses and subclauses of these information 332 conducts of 302 transmissions to its PUZL that access terminal at configuration server 310.Replace the OTAPA server, access terminal and to obtain this information from the OTASP server.

302 move along with accessing terminal, it is based on 306 its geographical location information of signal 334 continuous updatings that receive from the geography information source, and the position of private access points among its position and its PUZL is compared.When its geographical position indication (336) its during near the private access points (as private access points 304) in tabulation, access terminal and 302 bring into use about the PN skew and the RF frequency of this private access points and search for private access points 324.When it found private access points, it started joining procedure 338 with this private access points logging in network of process.

In some instances, access terminal and use as shown in Figure 4 and Figure 5 system.Fig. 4 illustrates to access terminal how to obtain pilot signal.At first state 402, it is inactive to access terminal.In case activate 412, accessing terminal enters network and determines state 404.If activating is triggered is because the access point that accesses terminal from private access points or its PUZL detects strong pilot signal, and it is enough approaching to access terminal, and then accesses terminal and use the PUZL channel record when entering network and determine state 404.Based on the position of as above determining that accesses terminal and the position that is recorded in the private access points among the PUZL as mentioned above determine whether to access terminal " enough approaching ".PUZL also comprise with the position in the radius that compares of difference, whether be positioned at this radius and enough approaching thus to determine that this accesses terminal to use this private access points.Determine state 404 according to network, select 414 1 networks and access terminal to enter pilot acquisition state 406.The subclass that accesses terminal and find its oneself position and find the access point among its PUZL, these access points are in the predetermined contiguous place that accesses terminal.Suppose this subclass non-NULL, access terminal the pilot signal of cycle search from the access point of subclass.

The power up routine and channel record and the PUZL entries match then access terminal that are in it if access terminal also will be searched for pilot signal from the access point among the PUZL.Obtain if trigger this, then access terminal and only will obtain signal from such access point by the access point among the PUZL, but not from the stronger pilot signal of the additional access points in PUZL not.If access terminal obtain pilot signal before timer expired 416, then it turns back to network and determines state 404.In case obtain 418 pilot signals, accessing terminal enters synchronous regime 408, and wherein it will himself be synchronized with the pilot signal of private access points.Based on another timer or between private access points with the incompatibility between accessing terminal (be called sometimes and exceed modification, OOR, incident), access terminal and determine state 404 getting back to 422 networks.If it receives synchronization message OK signal 420, then access terminal and to get back to dead status 402.

Fig. 5 illustrates to access terminal how to carry out routing update.It is ordered and was converted to idle state 504 from dead status 502 at 512 o'clock receiving " activations ".If access terminal is on grand network, and then it will begin to use the PUZL searching algorithm and forbid it when entering this state when withdrawing from.If it has used from the access point among the PUZL, then its activation setting that will revise it is kept rule (it triggers the activation change is set) thereby activate to be provided with and can not change.This causes accessing terminal and ignores than the stronger pilot signal of pilot signal that receives in its access point from PUZL.Activation setting is kept rule and is determined this accesses terminal to monitor which pilot signal.Pilot channel supervision rule does not change, that is, if the pilot frequency intensity of the access point among the PUZL drops to the following Tdroptimer of thresholding Tdrop second, then accessing terminal, it loses the connection to network with indication.When idle state 504, the geographical location information that the inspection of timer cycle trigger position accesses terminal with renewal and determine whether that it should seek new access point.Receive traffic channel assignments (TCA) 514 if access terminal, then it uses the Traffic Channel of distributing to be connected to Radio Access Network and to enter connection status 506.In connection status 506, Radio Access Network can be controlled the behavior that accesses terminal.Finish 516 if connect, then access terminal and get back to idle state 504.Receive deexcitation order 518 or 520 if access terminal, then it will get back to dead status 502 from idle state 504 or connection status 506.

The present invention includes following benefit.The configuration process of the private access points of authorizing on the hand-held set that does not have the terminal use to interfere pushes away (OTAPA) and (OTASP) process of drawing is enabled.Quick switching from grand access point to private access points and to need not that the user interferes be possible.Private access points can be searched for effectively, keeps the life-span of cell of mobile telephone set.Do not need executing location/renewal or SectorID decoding to discern their private access points owing to access terminal, the nonessential switching from grand access point to private access points is avoided.Requirement is not revised in software and configuration for grand network.Do not require that handset chipset manufacturer discloses inner API to application provider, because existing PUZL system holds geographical location information.Application of not looking for novelty and hand-held set binding.Report their position when switching on, can dynamically add the subscriber and therefrom remove the subscriber to the tabulation of private access points along with private access points.Private access points can be moved by being made a return journey and the user's that need not to be accessed terminal interference.

Though above-mentioned technology is utilized the 1xEV-DO air-interface standard, this technology also is suitable for other CDMA and non-CDMA air interface technologies, accesses terminal therein through wireless network and server communication.

Technology described herein can realize in Fundamental Digital Circuit, or realize in computer hardware, firmware, software or its combination.This technology can be embodied as computer program, promptly, visibly be embedded in the computer program in the information-bearing (as machine-readable memory device or transmitting signal), so that carry out or the operation of control data processing unit by data processing equipment (as programmable processor, computer or a plurality of computer).Computer program can be write by any type of programming language, comprise compiling or interpretative code, and it can be deployed to any form, comprises as independently program or module, assembly, subroutine or is suitable for other unit in the computer environment.Computer program can be deployed at a website or on by a computer of a plurality of websites of the distributed leap of interconnection of telecommunication network or a plurality of computer and carry out.

The method step of technology described herein can be carried out by one or more programmable processors, and this processor comes computer program to carry out function of the present invention by operation input data and generation output.Method step can be carried out by device of the present invention, and device of the present invention can be embodied as dedicated logic circuit, as FPGA (field programmable gate array) or ASIC (application-specific integrated circuit (ASIC)).Module refers to the part of computer program and/or realizes the processor/specialized circuitry of this function.

Be fit to the processor that computer program carries out and comprise for example general and special microprocessor, and any one or a plurality of processor of the digital computer of any type.Generally, processor will receive instruction and data from read-only memory or random access memory or this two kinds of memories.The primary element of computer is processor that is used to execute instruction and the one or more memory devices that are used for store instruction and data.Generally, computer also can comprise the one or more mass-memory units that are used to store data, or it is next from these memory device reception data or to its transmission data to be operating as coupling, or haves both at the same time, and this memory device for example is disk, magneto optical disk or CD.The information carrier that is suitable for embeddeding computer program command and data comprises and for example comprises the nonvolatile memory of whole forms: semiconductor memory apparatus, as EPROM, EEPROM and flash memory; Disk is as internal hard drive or removable dish; Magneto optical disk; With CD-ROM and DVD-ROM dish.Processor and memory can or be bonded in the dedicated logic circuit by supplemented.

In order to provide mutual to the user, technology described herein can be implemented on the computer with display device, as CRT (cathode ray tube) or LCD (LCD) monitor, with to user's display message, this computer also comprises keyboard and pointing device, as mouse or trace ball, the user by they can to computer provide input (as, mutual with user interface element, for example, by clicking the button on this pointing device).The equipment of other types also can be utilized for provides mutual with the user, as, the feedback that offers the user can be the sensory feedback of any kind, as visual feedback, audio feedback or tactile feedback; Input be can receive in any form, sound, language or sense of touch input comprised from the user.

Technology described here can be implemented in the Distributed Computer System, Distributed Computer System comprises aft-end assembly (as the data server) and/or middleware component (as application server) and/or the front end assemblies client computer of graphical user interface and/or Web browser (as have), the user can carry out alternately with embodiments of the present invention through them, Distributed Computer System or comprise any combination of this rear end, middleware or front end assemblies.System component can be by any form or media (as the communication network) interconnection of digital data communications.The example of communication network comprises local area network (LAN) (" LAN ") and wide area network (" WAN "), as the internet, and comprises wired and wireless network.

Computer system can comprise client and server.It is mutual that client and server generally passes through communication network away from each other and usually.The relation of client and server relies on separately and moves and have the computer program generation that client-server each other concerns on the computer.

Other embodiment drop in the scope of following claims.The result of expectation can be carried out and still obtain to technology described here by different orders.

Prioity claim

The application requires the rights and interests of U.S. Patent Application Serial of submitting on September 7th, 2,006 60/824877 and the U.S. Patent Application Serial of submitting on December 15th, 2,006 11/640503, and its whole contents is merged in wherein as a reference.

Claims (36)

1. method comprises: on portable accessing terminal,

Discern first access point as preferred access point,

The geographical position is related with first access point,

Receive the information of discerning the geographical position that accesses terminal, and

When accessing terminal, use this first access point to insert Radio Access Network near this first access point.

2. the method for claim 1 is wherein discerned first access point and is comprised that as the step of preferred access point reception adds access point to the instruction of the tabulation of preferred access point.

3. the information that method as claimed in claim 2, wherein that the geographical position is related with first access point step comprise the geographical location information that receives this first access point of identification as the part of instruction access point is added to the tabulation of preferred access point.

4. method as claimed in claim 2, wherein this instruction receives from OTAPA server or OTASP server.

5. the method for claim 1, wherein the information in the geographical position that accesses terminal of identification comprises the gps coordinate that accesses terminal.

6. the method for claim 1 wherein receives the access terminal step of information in geographical position of coordinate of identification and comprises by receiving latitude and longitude coordinate in gps satellite or the beacon.

7. the method for claim 1 wherein receives the access terminal step of information in geographical position of coordinate of identification and comprises from second access point and determines latitude and longitude coordinate.

8. the method for claim 1 wherein receives the access terminal step of information in geographical position of coordinate of identification and comprises and receive identifying information and this identifying information is associated with the geographical position from transfer equipment.

9. method comprises: on access point,

Receive the information in the geographical position of identification access point,

Geographical location information is communicated to configuration server,

Receive access information from configuration server, and

Use this access information that access to Radio Access Network is provided to accessing terminal.

10. method as claimed in claim 9 also comprises the authentication information that accesses terminal from configuration server.

11. method as claimed in claim 9 also comprises, moves to after the new geographical position,

Receive the information in this new geographical position of identification,

New geographical location information is communicated to configuration server,

Receive new access information from configuration server, and

Use this new access information that access to Radio Access Network is provided to accessing terminal.

12. method as claimed in claim 11, wherein configuration server comprises a plurality of servers.

13. a method comprises:

Receive the information in the geographical position of the access point in the identification Radio Access Network,

Distribute access information to access point,

This access information is communicated to access point, and

This access information and geographical location information be communicated to access terminal.

14. method as claimed in claim 13, the step that wherein this access information is communicated to access point comprise that impelling configuration server to use backhaul network that this access information is communicated to accesses terminal.

15. method as claimed in claim 13 wherein is communicated to this access information and geographical location information the step that accesses terminal and comprises that impelling OTAPA server or OTASP server to use Radio Access Network that this access information and geographical location information are communicated to accesses terminal.

16. method as claimed in claim 13 also comprises

Receive the information in the new geographical position of identification access point,

Distribute new access information to access point,

New access information is communicated to access point, and

New access information and new geographical location information be communicated to access terminal.

17. a device comprises

Be used to insert accessing terminal of Radio Access Network, this accesses terminal and is configured to:

The sign of first access point of the preferred access point of storage conduct in memory,

In memory, the geographical position is related with first access point,

Receive the information of discerning the geographical position that accesses terminal, and

When near this first access point, use this first access point to insert Radio Access Network.

18. device as claimed in claim 17 wherein is used for access point is added to the instruction of the tabulation of preferred access point in response to reception, this accesses terminal and is configured to store the preferably sign of the access point of access point of conduct.

19. device as claimed in claim 18, wherein in response to the information in the geographical position that receives this first access point of identification as the part of instruction access point being added to the tabulation of preferred access point, this access terminal be configured to the geographical position related with first access point.

20. a device comprises

Be used to provide the access point to the access of Radio Access Network, this access point is configured to:

Receive the information in the geographical position of identification access point,

Geographical location information is communicated to configuration server,

Receive access information from configuration server, and

Use this access information that access to Radio Access Network is provided to accessing terminal.

21. device as claimed in claim 20, wherein this access point also is configured to the authentication information that accesses terminal from configuration server.

22. device as claimed in claim 20, wherein this access point also is configured to: after moving to new geographical position,

Receive the information in this new geographical position of identification,

New geographical location information is communicated to configuration server,

Receive new access information from configuration server, and

Use this new access information that access to Radio Access Network is provided to accessing terminal.

23. a device comprises

The configuration server that in Radio Access Network, uses, this configuration server is configured to:

Receive the information in the geographical position of the access point in the identification Radio Access Network,

Distribute access information to access point,

This access information is communicated to access point, and

This access information and geographical location information be communicated to access terminal.

24. device as claimed in claim 23, wherein this configuration server is configured to:

By impelling configuration server to use backhaul network that this access information is communicated to access terminal this access information is communicated to access point.

25. device as claimed in claim 23, wherein this configuration server is configured to:

Access terminal by impelling OTAPA server or OTASP server to use Radio Access Network that this access information and geographical location information are communicated to access terminal this access information and geographical location information be communicated to.

26. device as claimed in claim 23, wherein this configuration server also is configured to:

Receive the information in the new geographical position of identification access point,

Distribute new access information to access point,

New access information is communicated to access point, and

New access information and new geographical location information be communicated to access terminal.

27. a computer-readable medium, coded command is used for to impel accessing terminal in the Radio Access Network:

The sign of first access point of the preferred access point of storage conduct in memory,

In memory, the geographical position is related with first access point,

Receive the information of discerning the geographical position that accesses terminal, and

When near this first access point, use this first access point to insert Radio Access Network.

28. medium as claimed in claim 27, wherein this instruction impels this to access terminal to be used for: be used for access point is added to the instruction of the tabulation of preferred access point in response to reception, storage is as the sign of the access point of preferred access point.

29. medium as claimed in claim 28, wherein this instruction impels this to access terminal to be used for: in response to the information in the geographical position that receives this first access point of identification as the part of instruction access point is added to the tabulation of preferred access point, the geographical position is related with first access point.

30. a computer-readable medium, coded command is used for so that the access point that is used to provide to the access of Radio Access Network to be provided:

Receive the information in the geographical position of identification access point,

Geographical location information is communicated to configuration server,

Receive access information from configuration server, and

Use this access information that access to Radio Access Network is provided to accessing terminal.

31. medium as claimed in claim 30, wherein this instruction also impels this access point authentication information that accesses terminal from configuration server.

32. medium as claimed in claim 30, wherein this instruction also impels this access point to be used for after moving to new geographical position:

Receive the information in this new geographical position of identification,

New geographical location information is communicated to configuration server,

Receive new access information from configuration server, and

Use this new access information that access to Radio Access Network is provided to accessing terminal.

33. a computer-readable medium, coded command is used for to impel the configuration server in the Radio Access Network:

Receive the information in the geographical position of the access point in the identification Radio Access Network,

Distribute access information to access point,

This access information is communicated to access point, and

This access information and geographical location information be communicated to access terminal.

34. medium as claimed in claim 33, wherein this instruction impels this configuration server:

By impelling configuration server to use backhaul network that this access information is communicated to access terminal this access information is communicated to access point.

35. medium as claimed in claim 33, wherein this instruction impels this configuration server:

Access terminal by impelling OTAPA server or OTASP server to use Radio Access Network that this access information and geographical location information are communicated to access terminal this access information and geographical location information be communicated to.

36. medium as claimed in claim 33, wherein this instruction impels this configuration server:

Receive the information in the new geographical position of identification access point,

Distribute new access information to access point,

New access information is communicated to access point, and

New access information and new geographical location information be communicated to access terminal.

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