TW201014398A - Equivalent home ID for mobile communications - Google Patents

Abstract

Facilitating user terminal (UT) access to wireless networks having disparate types of base stations (BSs) is described herein. By way of example, a distinct identifier (ID) can be reserved for a particular type of network access point (e.g., restricted or general access, full or fractional re-use, transmit power, cell size, etc.). The distinct ID can be broadcast by such access points, identifying the access point type. In some aspects, the distinct ID can be unicast to a terminal that is within a predetermined region of the network. Thus, at least within such region, the terminal can be directed to search for or handoff to a preferred type of access point (such as a home Node B). In such aspects, by providing regional-specific access, the subject disclosure can significantly reduce overhead signaling outside a home region where a home or preferred access point is expected to be found.

Description

201014398 ' VI. Description of the Invention: [Technical Field of the Invention] The following disclosure relates generally to wireless communication' and more particularly to managing remote access to devices in different access point environments. This patent application claims priority to US Provisional Application No. 60/976,738, entitled "METHODS, APPARATUS, AND SYSTEM FOR SUPPORTING ACCESS POINT BASE STATIONS WITHIN A WIRELESS WAN SYSTEM", filed October 1, 2007, The case has been expressly incorporated herein by reference to its assignee. The present patent application is related to the U.S. patent application "MOBILE ACCESS IN A DIVERSE ACCESS POINT NETWORK", which is hereby incorporated by reference. The matter has been assigned to its assignee and is expressly incorporated herein by reference. [Prior Art] • Wireless communication systems are widely deployed to provide various types of communication (eg, voice, data, multimedia services, etc.) to multiple users. The subscription-based service allows users to access the network via the service provider. And use a variety of general information. As the demand for high-speed and multimedia data services grows rapidly, there are challenges in implementing effective and robust communication systems with enhanced performance. Traditional fixed line communication systems (such as digital subscriber line (DSL), cable, dial-up, or similar connections provided by Internet Service Providers (ISPs)) are alternative and sometimes compete with wireless communications. platform. However, 137603.doc 201014398 In recent years, users have turned off private-suggested communication to replace some of the advantages of fixed-line communication systems (such as user mobility, user equipment (> UE) The relative size of j and the ready-to-access of the public switched telephone network and the Internet have made such systems extremely convenient and thus extremely popular. As users have become more reliant on mobile systems for communication services traditionally obtained via fixed line systems, there is an increasing demand for increased bandwidth, reliable service, high voice quality and low price. In addition to the currently existing mobile phone network, a new type of small base σ has emerged. These small base stations are low power and are typically available for fixed line communication to interface with the core network of the line_author. In addition, such base stations may be distributed for personal/private use in homes, offices, apartments, private entertainment facilities, etc. to provide indoor/outdoor wireless coverage to the mobile unit. Such personal base stations are generally referred to as access point base stations, or alternatively as local node units (ΗΝΒ) or femto cells. The femtocell base station provides a new paradigm in mobile network connectivity that allows direct user control of mobile network access and access quality. SUMMARY OF THE INVENTION A simplified summary of one or more aspects is presented below in order to provide a basic understanding of the aspects. This summary is not an extensive overview of all contemplated aspects, and is not intended to identify key or critical elements of all aspects, and is not intended to depict any or all aspects. Its sole purpose is to present some <RTI ID=0.0>> The present invention is provided for identifying a selected set of access points in a wireless network. In some aspects of 137603.doc 201014398, the public JR can be reserved for the access network (PLMN) identification code (ID) for the access points of the selected category. The access point may be categorized in at least one aspect along with access type, reuse type, transmission power, cell size 'or similarity, or a combination thereof. In addition, the selected access point group in the reserved PL·m area may be established with the geographic or network area and with 'ID (eg 'registration domain identifier, tracking domain identifier, routing domain identification' m domain Identification code, etc.) is associated. If the mobile terminal enters the local area (for example, via ID), the reserved pLMN(1) can be provided from the network to the mobile terminal. In a particular aspect, the reserved PLMN ID can be established as the equivalent of the operator's PLMN ID, thereby enabling the mobile terminal to search, access and/or hand over to the selected access point (as such access) The point is the part of the operator's PLMN ID). Therefore, when the mobile terminal is located in the local area, the selected access point is regarded as an access point equivalent to the operator. When not located in the local area, the access point of the reserved PLMN ID can be considered as independent and processed, ignored, etc. in a manner different from the operator's access point. • In addition to the foregoing, the present invention provides reduced signal transmission of mobile terminals in a restricted access (RA) base station (BS) environment. A local BS providing network access to the mobile terminal can be associated with a local area that is located at a location surrounding the BS. In addition, the 'local BS' may be associated with a reserved PLMN ID for the selected access point of the local area (e.g., by the category of the BS or the network cell). When the mobile terminal enters the local area, the reserved PLMN ID is received from the network, enabling the terminal to search, access and/or hand over to the RA BS. Therefore, outside the local area, the RA BS can be ignored for the signal transmission consumption of 137603.doc 201014398. In order to save signal transmission consumption in the local area, when the access request to the network is rejected, the cell identification code and/or the location location of the BS can be tracked. According to other aspects, the terminal can stop accessing the BS associated with the reserved PLMN ID within a delay period to prevent excessive signal transmission to the RA BS. In the case of providing access to the mobile terminal, the cell identification code and/or location fix can be tracked to identify the location of the cell and/or cell for future access. Therefore, the terminal can distinguish between the terminals that will restrict network access and the terminals to which they will be granted access, thereby greatly reducing the potential BS signal transmission in a densely deployed environment. According to other aspects, a set of parameters that increase the likelihood of identifying, accessing, and/or handing over to a BS of a selected category may be received from the network. When the mobile terminal has an opportunity to the local area, a parameter is provided that increases the likelihood of encountering a BS of one (type) similar to the local BS (e.g., 'local node b[Hnb]). Therefore, the terminal is less likely to camp on the macro network (e.g., in the local area) and is more likely to identify the local BS or the BS of the selected type. A method of providing regional access in a wireless network is disclosed in accordance with one or more additional aspects described herein. The method can include obtaining user profile information associated with a user terminal (UT) and extracting data representing the network area from the information. Additionally, the method can include comparing the network area to data associated with the cell of the wireless network and selecting the selected access to the wireless network if the network area matches one of the network areas of the cell The associated identifier of the point is submitted to the UT. In other aspects, an apparatus for providing access to a selective area 137603.doc 201014398 of a wireless network is disclosed. The device may include an inquiry module for obtaining information about the user profile associated with the user. In addition, the apparatus can include an analysis module that retrieves data representing the network area from the information and compares the retrieved network area to the data associated with the cell of the wireless network. In addition to the foregoing, the apparatus can include a communication processor that submits an identification code associated with the selected access point of the wireless network to the υτ if the network region matches an area of the cell . In one or more additional aspects, a device for providing regional access in a wireless network is disclosed. The apparatus can include means for obtaining user data slot information associated with a UT and means for extracting data representing a network area from the information. Additionally, the apparatus can include means for comparing the network area with data associated with a cell of a wireless network and for matching the network area with a network area of the cell The identification code associated with the selected access point of the wireless network is submitted to the component of the υτ. In other aspects, a processor configured to provide regional access in a wireless network is disclosed. The processor can include a first module that obtains user profile information associated with a UT and a second module that retrieves data representing a network region from the information. Additionally, the processor can include a third model that compares the network region to data associated with a cell of a wireless network. The apparatus can additionally include submitting an identification associated with the selected access point of the wireless network to a fourth module of the UT if the network region matches a network region of the cell. In other aspects, a computer program 137603.doc 201014398 product comprising a computer readable medium is disclosed. The computer readable medium can include a first set of code for causing a computer to obtain user profile information associated with a 及τ and a second set of code for causing a computer to retrieve data representing a network region from the information . In addition, the computer readable medium can include a second set of codes for causing the computer to compare the network area to data associated with a cell of a wireless network. In addition to the foregoing, the computer readable medium can include an identification code for causing a computer to submit a selected access point associated with the wireless network if the network region matches a network region of the wireless network A third set of code 0 provides a method for obtaining regional access to a wireless network in accordance with other aspects of the present invention. The method can include obtaining an identification code associated with a particular type of wireless network access point. In at least one aspect, the method can further include selecting an access point associated with the identification code to access the wireless if a current region of one of the requesting devices matches an area of the selected access point network. According to some aspects, a signal processor configured to obtain regional access to a wireless network is provided. The UT can include a signal processor that obtains an identification code associated with a particular type of wireless network access point. In addition, the UT can select an access point associated with the identification code to access the access mode of the wireless network if the location of the selected location of the selected access point is matched. Group β provides an apparatus configured to obtain regional access to a wireless network based on additional aspects. The apparatus can include means for obtaining an identification code associated with a particular type of wireless network access point. Additionally, the apparatus 137603.doc -9 - 201014398 includes means for selecting an access point associated with the identification code to store a region of a selected one of the selected access points in a region of the requesting device Take the components of the wireless network. In other aspects of the invention, a processor configured to obtain regional access to a wireless network is provided. The processor can include a first module configured to obtain an identification code associated with a particular type of wireless network access point. Additionally, the processor can include an access point configured to select an access point associated with the identification code to access the wireless region if a current region of one of the requesting devices matches an area of the selected Φ access point The second module of the network. According to other aspects, a computer program product comprising a computer readable medium is disclosed. The computer readable medium can include a first set of programs for causing a computer to obtain an identification code associated with a particular type of wireless network access point. code. The computer readable medium can further include means for causing a computer to select an access point associated with the identification code to access the wireless device if a current region of one of the requesting devices matches an area of the selected access point The second set of code for the network. In order to achieve the foregoing and related ends, the one or more aspects include the features described below fully and specifically indicated in the scope of the claims, and the following description of the drawings Some illustrative aspects. However, the appearances of the various aspects of the various embodiments are in the [Embodiment] Various aspects will now be described with reference to the drawings, in which like reference numerals are used to refer to the like elements in 137603.doc -10· 201014398. In the following description, numerous specific details are set forth However, it will be apparent that this aspect can be practiced without such specific details. In other instances, well-known structures and devices are shown in block diagram form in order to facilitate describing one or more aspects. Additionally, various aspects of the invention are described below. It should be apparent that the teachings herein may be embodied in a wide variety of forms and that any specific structures and/or functions disclosed herein are merely representative. Based on the teachings herein, one skilled in the art will appreciate that the aspects disclosed herein can be implemented independently of any other aspect, and that two or more of these aspects can be combined in various ways. For example, any number of the aspects described herein can be used to implement the device and/or practice. In addition, apparatus and/or methods of practice may be implemented using one or more of the aspects described herein or other structures and/or functionality other than the ones. As an example, many of the methods, devices, systems, and devices described herein are described in the context of implementing improved base station (BS) access in a wireless environment that includes disparate types of access points. Those skilled in the art should understand that similar techniques can be applied to other communication environments. The development of wireless access points for communication networks has become a solution that has been provided to enable aggregation between conventional wireless communication systems and conventional fixed line communication systems. Aggregation, also known as fixed wireless aggregation, involves the degree of interoperability between fixed line networks (e.g., 'internal networks, internet, etc.) and mobile communication networks (e.g., cellular telephone networks). An access point (as utilized herein) includes any suitable node, router, switch, hub, or the like configured to transfer a user terminal (υτ) to a communication network 137603.doc 11 201014398 By. The access point can be wired (eg, using Ethernet, Universal Serial Bus [USB] or other wired connection for communication), wireless (eg using radio signals for communication), or both By. Examples of access points include access point base stations (BSs), wireless local area network (WLAN) access points, wireless wide area network (WWAN) access points, including microwave access global inter-communication (WiMAX) BSs, And the like, the access point BS contains access points to the network of the mobile communication operator, such as a circuit switched voice network, a combined Φ circuit switched and packet switched voice and data network, or a full packet Voice and data networks, or the like. Examples of access points BS (herein alternatively referred to as BSs) include Node Bs (NBs), base transceivers of various transmission powers/cell sizes (including macro cells, micro cells, pico cells, femto cells, etc.) Station (BTS) Local Node B (HNB), Local eNode B (HeNB), or BS only. Introducing various types of access points BS into a traditional macro BS network enables significant flexibility and consumer control of personal access to such networks. The user can often configure the terminal device to select a nearby access point BS or a macro network BS, depending on which one provides the preferred signal. In addition, at least in some cases, the access point 68 can provide a better rate plan than the macro network, thereby enabling the user to reduce usage fees. As wireless communication bandwidth and data rates increase over time, and as UT processing and user interface capabilities become more sophisticated, users can use mobile devices to perform previously only available through personal computer and fixed line communications. The function. However, because typical macro networks are often deployed as a major market 137603.doc 12 201014398 for large-scale public use, indoor reception can often be weaker than outdoor reception (eg, due to buildings, insulation, ground views) The absorption of the RF signal is performed, so that the mobile device is not as effective as the fixed line computer in this environment. However, the access point BS can provide significant improvements in this environment. As an example, HNB and HeNB technologies (hereinafter collectively referred to as HNBs) provide users with significant control over personal wireless connectivity (indoor and/or out)' thus often eliminating most or all of these connectivity issues. Therefore, HNB can extend UT mobility by φ step even in the best environment for macro networks. While HNB and other access point deployments have significant advantages, they are attributable to the added complexity of coupling the access point BS to the operator's macro network. For example, access point deployments (especially in the case of hnb) are typically unplanned or semi-planned, meaning that these bs are installed outside the control of the network operator. Therefore, the operator has limited ability to implement the ideal placement of such access points relative to other such access points or relative macros bs. In addition, the precise knowledge of the location of the wireless signal relative to other access point cells ^ (four) 'or even the location of such access point cells can be severely limited: in addition, under the HNB deployment to the consumer purchase and installation open% 'Gao Ren π urban or commercial domain towel can appear extremely dense installation of these cells, resulting in competition between nearby HNB and wireless resources in the macro cell. In addition, HNBs are typically associated with a Closed Subscriber Group (CSG) and provide only network access to (10); for example, access to a generic cellular device is not provided. Therefore, Chichi deployed in the macro network to integrate restricted access (RA) BS and general access (GA) BS. 137603.doc 13 201014398 Many legacy UTs are not equipped to distinguish between ga and RA BS, especially where both BSs utilize cellular frequencies and therefore can spend significant power searching and attempting to access denied υτ services RA BS. In addition, legacy terminal and legacy wireless network connection standards require mobile terminals to scan incoming wireless signals to identify the best signal. In the case where there are only a few nearby BSs that the terminal can distinguish, this is usually a workable process. However, in a densely-located deployment, tens or hundreds of access points can exist in close proximity (eg, 'in a large urban apartment building) ^ if UT's local access point (with • including υτ CSG) is located in a dense deployment, and distinguishing between local access points and hundreds or thousands of nearby foreign access points can be a significant problem. For example, υτ may utilize significant power to be connected (analyze pilot and control channels) or signal transmissions that would deny external access points to the UT's network access.

In the case where the UT is not located in an area including a local access point, the problem becomes to distinguish between the RA BS and the general access (GA) BS, and the size eight BS is ignored. Access points utilizing different frequencies from the macro network, such as WiFi and WiMAX access points, are typically differentiated via frequency filtering. However, HNBs often share a large number of network frequencies, and thus are not easily distinguishable. Therefore, there is a need to distinguish between HNB BSs and macro network BSs. In addition, it may be beneficial to limit the transmission of UT signals to RA Bs when it is less likely to find this & In addition, the possibility of increasing signal transmission or searching for the Barrier BS in the event that a local BS is desired to be discovered, and mitigating redundant signal transmission to the foreign HNB may be beneficial. Aspects of the invention may provide improvements to many of the aforementioned problems. The present invention provides improved efficiency of υτ access in integrated or heterogeneous wireless access point deployments. Efficiency can be reduced by distinguishing between access points that are accessible and access points that are not accessible 137603.doc -14- 201014398 to reduce additional signal transmission. For example, the access point BS can be associated with an identification code (ID) that is reserved for a particular type of access point. The BS may broadcast the ID(s) by a pilot/acquisition signal transmitted within a cell served by the BS. Thus, the UT receiving the pilot/acquire signal can identify a particular type of access point based on the included ID. The appropriately configured UT can then selectively interact with the access point based on the id type. To illustrate the foregoing, an example implementation may include establishing a set of distinct public land mobile network (PLmn) ids for a particular type of network access point. For example, 'different PLMN IDs may be reserved for HNBs, WiMAX access points, WiFi access points, and/or providing wireless to a core mobile communication network (eg, 3rd Generation Partnership Project [3GPP] network) Similar access points for access. The access point can broadcast the associated reserved PLmn ID to inform the remote terminal of the access point type. A terminal configured to differentiate access points by type may select a particular type of access point to await or request service from the access point. Alternatively or in addition to the foregoing, the reserved PLMN ID may be sent by the network as the equivalent of the operator's PLMN ID. The terminal may then wait for an access point associated with the equivalent PLMN ID and/or an access point solicitation service associated with the equivalent pLMN ID (as if the access point is associated with the operator's PLMN ID) ). In this way, legacy terminals that are not configured to be used to distinguish the type of access point may be based on an equivalent, reserved PLMN ID provided by the network, only with a particular access point (eg, with a valid subscription) Associated with) effective interaction. In addition to the foregoing, the network area may be defined to distinguish portions of the access point network based on the geographic domain, the network 137603.doc 15 201014398 domain, the routing domain, the registration domain, or the like. Thus, for example, the deployment of HNBs within a country can be segmented into various geographic regions of the country in which HNBs within a particular geographic region are associated with a registration domain ID. Thus, in some instances, it may be based on geographic boundaries (eg, latitude/longitude, such as features of lakes, rivers, mountains, oceans, canyons, etc.) or statutory/administrative boundaries (eg, autonomous regions, counties, states, ' Province, etc.) to establish the area. Alternatively or additionally, an area may be established on a network boundary (e.g., a registration domain identifier, a location domain identifier [LAI], a routing domain identifier [rai], • a tracking domain identifier [TAI]). Thus, for example, an area can be established based on a network access domain, a network registration domain, a network tracking domain, a network location domain, or the like. In addition to the foregoing, where the access point network includes local, preferred, and/or restricted BSs (eg, local HNBs), the local area(s) may be established for use by the UT to define The UT may desire to encounter a network and/or geographic area of a local/better/unrestricted access point. Therefore, the area where the user's local HNB resides can be established as a local area/domain. A particular type of access point that includes a local access point in the local reference domain may be included in the network interface function (e.g., cell search 'delivery and/or access request function'). Thus, by way of example, where the UT enters an area including the local ηνβ, the function of the υτ can include ΗΝΒ ◎ in other areas, ΗΝΒ ′ can be ignored to reduce signal transmission consumption in the non-local area. As discussed above, the HNB may be identified based on the reserved PLMN ID associated with the UI, or based on the reserved plmn id established as the operator equivalent, or both. 137603.doc -16- 201014398 To improve the possibility of identifying local/preferred access points, the present invention provides device parameterization based on the type of access point to increase the likelihood of searching, waiting, or handing over to an access point. Parameterization may establish a priority hierarchy that provides relative priority to access points and/or channels associated with a particular access point ID (eg, HNB ID, WiFi ID, macro network ID, etc.) (eg, hierarchical Cell structure [HCS]). As a result, when connected to a high priority type access point, the terminal is less likely to search for other lower priority access points, search for and/or hand over to the frequency associated with the lower priority access point. Lower priority deposits | Take points. Similarly, when connected to a media or low priority type access point, the terminal is more likely to search, switch channel frequencies to and/or hand over to higher priority access points. This parameterization can be further utilized to load balancing terminals in various types of access points. In accordance with other aspects of the invention, the terminal can track the access history to further reduce additional signal transmissions. Thus, in the event that the UT sends a request for a service to the access point and the request is rejected, the UT can track the cell ID of the access point, the location location of the access point, or other distinguishing information. If the ID/location fix of Chen Jing tracking is subsequently encountered, the access point can be ignored to avoid wasting signal transmission. According to other aspects, the UT can implement a delay period or a penalty period after receiving an access rejection. The delay/penalty period may involve ignoring access points of the same type or class as the denied access point within a predetermined time. For example, when the UT is close to the foreign HNB, this can reduce fast reciprocating (ping_p〇ng) signal transmission. In another aspect, after receiving the access rejection, the UT can switch to the channel used by the 137603.doc • 17. 201014398 GA access point to increase the likelihood of successful access after the rejection. On the other hand, if the access request is allowed, then the UT can first determine if the connected access point is a GA BS (e.g., a macro network BS). If the connected access point is not a GA BS, the UT can track the cell ID, cell location location, etc. of the allowed non-GA access point, since the local RA BS is located close to many foreign RA BSs (which will reject the UT) Access or limited access provided is not uncommon. The cell ID/location location information can be stored and used to identify the allowed access points at a later time. When the allowed non-GA access point is subsequently identified, the access point can be provided with a high priority (eg, as discussed above) or used for exclusion of other access points (at least at minimum threshold signal strength, signal quality) Or the like). By tracking access points that allow and/or deny access to the UT, a significant reduction in wasted signal transmission can be achieved, providing more efficient mobile communication. The techniques described herein may be used in, for example, code division multiple access (CDMA), time division multiple access (TDMA), frequency division multiple access (FDMA), orthogonal FDMA (OFDMA), SC-FDMA (single carrier FDMA). And various wireless communication systems of other systems. The terms "system" and "network" are often used interchangeably. CDMA systems can implement radio technologies such as Universal Land Radio Access (UTRA), CDMA2000, and the like. UTRA includes Broadband CDMA (W-CDMA) and other variants of CDMA. CDMA2000 covers the IS-2000, IS-95 and IS-856 standards. A TDMA system can implement a radio technology such as the Global System for Mobile Communications (GSM). The OFDMA system can be implemented such as Evolved UTRA (E-UTRA), Ultra Mobile Broadband (UMB), IEEE 802.11 (Wi-Fi), IEEE 802.16 (WiMAX), IEEE 802.20, 137603.doc 201014398

Radio technology such as Flash-OFDM®. UTRA and Ε-UTRA are part of the Universal Motion System #UMTS. LTE (Long Term Evolution) is an upcoming version of UMTs used by U-UTRA, which uses 〇FDma on the downlink and SC-FDMA on the uplink. UTRA, Ε-UTRA, UMTS, LTE, and GSM are described in documents from an organization named "3rd Generation Partnership Project" (3GPP). CDMA2000 and UMB are described in documents from an organization named "3rd Generation Partnership Project 2" (3GPP2). As used in the present invention, the terms "component", "system", "module" and the like are intended to refer to a computer-related entity, which is a hardware, a software, an executing software, a firmware, an intermediate software, and a micro. Code, and / or any combination thereof. For example, a 'module can be, but is not limited to being, a process executed on a processor, a processor, an object, an executable, a thread, a program, a device, and/or a computer. One or more modules may reside within the processing and/or execution circuitry, and the modules may be located on one electronic device and/or distributed between two or more electronic devices. Moreover, such modules can be executed by various computer readable media having various data structures stored thereon. The modules may, for example, be based on signals having one or more data packets (eg, from an inter-area system, another component in a distributed system, and/or by means of the signal across, such as the Internet) The data of the components of the network that interact with other systems) communicate by means of regional and/or remote processing. In addition, it will be appreciated by those skilled in the art that the components or modules of the systems described herein may be reconfigured and/or supplemented by additional components/modules/systems to facilitate the achievement of what is described and not It is limited to the various aspects, objectives, advantages, etc. of the precise configuration described in 137603.doc -19-201014398 in a given schema. In addition, this article describes various aspects in conjunction with the user terminal-UT. UT can also be called system, subscriber unit, subscriber station, mobile station, mobile body, mobile communication device, mobile device, remote station, remote terminal, access terminal (AT), user agent (UA), User device or user equipment (UE), or the like. The subscriber station can be a cellular telephone, a cordless telephone, a Session Initiation Protocol (S1P) telephone, a Wireless Area Loop (WLL) station, a Personal Digital Assistant (PDA), a palm-connected device with wireless connectivity, or a connection to a wireless device.

A data processor or other processing device that facilitates a similar mechanism to wireless communication with a processing device. In one or more exemplary embodiments, the functions described may be implemented in hardware, software, toughness, intermediate software, microcode, or any suitable combination thereof. If implemented in software, the functions may be stored as one or more instructions or programs on a computer readable medium or transmitted through a computer readable medium. The computer readable medium includes a computer readable hard copy (including computer storage media and hardware communication media) and includes any software, intermediate software, moving Zhao, microcode, and/or facilitating the transfer of computer programs from one place to another. The communication medium of the local hardware media. ^文所(四)' Computer storage media Zhao can be any m that can be accessed by a computer. By way of example and not limitation, such storage media may include a magnetic disk, a CD__ or other optical disk storage device, a disk storage device, or other magnetic storage device (eg, a memory card, a qθ flash card) , and flash memory drive)), -τ " Reminder, secure disk (key 137603.doc -20. 201014398 code and any other suitable media accessible by computer. Hardware communication media may include at least part of The use of t, mechanical and/or electromechanical hardware to facilitate the transfer of a computer program from one entity to another suitable device or data connection. In general, the data connection is also properly referred to as a computer readable medium. If using coaxial cable, fiber optic cable, twisted pair cable, digital subscriber line (DSL), communication bus structure, Ethernet or wireless technologies such as infrared, radio and microwave transmission from websites, servers or other remote sources Programs, software or other materials are included in the definition of the media, such as sneak peeks, fiber optics, skeins, DSL's or wireless technologies such as infrared, radio and microwave, and Any suitable hardware component associated with this medium is included in the definition of a hardware communication medium. Disks and optical discs as used herein include compact disc (CD), laser disc, optical disc, digitally versatile disc (DVD). , floppy disks and Blu-ray discs, which typically reproduce data magnetically, while optical discs reproduce data optically by laser. The combination of these items should also be included in the scope of computer readable media. Hardware implementations, various illustrative logic, logic blocks, modules, and circuits described in connection with the aspects disclosed herein can be implemented or implemented in the following: one or more special application products Body circuit (as(6), digital signal processor (DSP), digital signal processing device (DSPD), programmable logic device (PLD), field programmable gate array (FPQA), discrete closed or electrical anode logic, discrete Hardware components, general purpose processors, controllers, microcontrollers, microprocessors, other devices that are designed to perform the functions described herein, early, or a combination thereof. Microprocessor, but in the alternative the 'processor can be any conventional processor, controller, microcontroller 137603.doc 201014398 controller or state machine. The processor can also be implemented as a combination of computing devices, eg DSP In combination with a microprocessor, a plurality of microprocessors, a combination of -DSP cores - or a plurality of microprocessors, or any other suitable configuration. Further 'at least - the processor may be operative to perform the operations described herein One or more modules of one or more of the steps and/or actions. Further, various aspects or features described herein can be implemented as a method, apparatus, or article using standard stylization and/or engineering techniques. In addition, the steps and/or actions of the method or deductive method described in connection with the aspects disclosed herein may be embodied in a hardware, in a software module executed by a processor, or in a combination of both. In addition, in some aspects, the steps and/or actions of a method or algorithm may reside in a device readable medium or machine readable medium as at least one or any combination or collection of code and/or instruction. And / or computer readable media Zhao, computer readable media can be combined with computer programs. The term "article of manufacture" as used herein is intended to encompass a computer program accessible from any computer readable device or media. In addition, the word "exemplary" is used herein to mean serving as an example, instance, or illustration. Any aspect or design described herein as "exemplary" is not necessarily to be construed as preferred or advantageous over other aspects or designs. Rather, the use of the word "exemplary" is intended to present a concept in a concrete form. As used in this application and the scope of the appended claims, the term "or" is intended to mean an inclusive "or" rather than an exclusive "or". That is, unless otherwise specified or clear from the context, 'X uses A or B' is intended to mean any of the natural inclusions. That is, if X uses A; χ uses B; or X uses eight and ^, then it satisfies "χA or B" in any of the previous examples. 137603.doc •22· 201014398 卜 Unless otherwise stated or clear from the context for the singular form, the word “body” as used in the scope of the patent application and the additional _ patent is interpreted as meaning “one or more As used herein, the term "inference" or "inference" generally refers to the process of capturing the state of a system, environment, and/or user from a group of observations from (4) events and/or data. For example, inference can be used to identify a particular situation or action, or a probabilistic distribution can be generated. Inference can be probabilistic - that is, based on the calculation of the probability distribution of the closed/main state based on considerations of data and events. Inference can also refer to techniques used to form a more level event from a set of events and/or data. Regardless of the event at the time

Whether or not the proximity is closely related, and regardless of whether the event and the data are from one or more events and sources of data, this inference is derived from the construction of a new event or action from a set of observed events and/or stored event data. Referring to the drawings, Figure 1 illustrates an exemplary wireless communication system 100 that is configured to support multiple users, in which various disclosed embodiments and aspects may be implemented. As shown in Figure 1, system 100 provides communication for multiple cells, such as macro cells 102a' 102b, 102c, 102d, 102e, 102f, 102g (alternatively, macro cells 102a through 102g), each corresponding to Access points (AP) 104a, 104b, 104c, 104d, 104e, 104f, 104g (alternatively, APs 104a through 104g) serve. Each cell 102a through 102g can be further divided into one or more sectors. Various UTs 106a, 106b, 106c, 106d, 106e > 106f, 106g, 106h, 106i, 106j, 106k (alternatively, UTs 106a through 106k) are distributed throughout system 100. For example, depending on whether AT (106a to 106k) is active and whether it is in soft handover, 137603.doc • 23· 201014398, each AT 106a to 106k can be on the forward link at a given time ( The FL) and/or the reverse link (RL) communicate with one or more APs 4a through 104g. The wireless communication system 100 can provide services over a large geographic area; for example, the macro cells 102a through 102g can cover a small number of blocks in the neighborhood. 2 depicts an exemplary communication system 200 to enable deployment of an access point BS (e.g., HNB) within a network environment. The system 2 includes a plurality of access points B S '. The access points B S include HNBs 210, each of which is installed in a corresponding small-scale network environment. Examples of small scale network environments may include user residences, commercial establishments, indoor/outdoor facilities 230, etc. HNB 2 1 0 may be configured to servo associated UT 220 (eg, included in a CSG associated with HNB 210) ) or, as the case may be, or the visitor ut 220 (for example, not configured for 11 eggs 210). Each 11 sen 210 is connected via 〇8 [router (not shown) or 'alternatively' cable modem, broadband connection on power cable, satellite internet connection, or broadband-like internet connection (not shown) Further coupled to the Internet 24 and the mobile operator core network 250 to implement wireless service via the HNB 210, the owner of the HNB 210 subscribes to mobile services provided via the mobile operator core network 250 (eg, 3G operations) service). In addition, the UE 220 may be capable of operating in a macro-heap environment and/or a small-scale network environment in a home using the various techniques described herein. Thus, at least in some of the disclosed aspects, HNB 210 can be backward compatible with any suitable existing UE 22A. In addition, in addition to the macro cell mobile network 250, the UE 220 is servoed by a predetermined number of HNBs 210, specifically in the corresponding user residence, business premises or indoor/outdoor 137603.doc •24·201014398 facility 230 It is not possible to be in the HNB 210 in a soft handover state with the macro network 250. It should be understood that although the aspects described herein use the 3GPP terminology, it should be understood that such aspects can also be applied to 3GPP technologies (versions).

99 [Rel99], Re15, Rel6, Rel7), and 3GPP2 technologies (lxRTT, lxEV-DO Rel, RevA, RevB) and other known and related technologies. • Figure 3 illustrates a block diagram of an example system 300 that facilitates access to a mobile network containing access points of different types or categories. In some aspects, system 300 can establish a GA macro BS as a default access point to the mobile network. Different types of access points (such as HNBs, WiFi access points, WiMAX access points, etc., which also facilitate wireless communication with mobile networks) can be established as dedicated access points. Different IDs are reserved for each type of dedicated access point to distinguish between one type of access point and other types of access points. If the D-but 304 has a subscription associated with a dedicated access point, an ID associated with this type of access point may be provided to the UT 304. According to some aspects, the id can be established as the equivalent of 10 associated with the preset GA macro BS. Thus, at least in some cases, an older version υτ (3〇4) that is not configured to identify a dedicated access point ID may utilize a dedicated access point as an equivalent of a preset access point. System 300 includes a BS 302 that facilitates wireless access to a mobile network (not depicted) for a remote terminal device (e.g., υΤ3〇4). The BS 302 can use a transceiver 306 that is configured to transmit and receive wireless data with such terminal devices (3〇4). To facilitate this communication, the communication processor 312 can obtain the access point type ID associated with the other. The access point type ID can be included in the signal transmitted by the transceiver 3. The UT 304 receiving the signals may determine the type of the BS 302 from the ID and determine, based at least in part on the type of 33, whether I37603.doc • 25· 201014398 accesses the BS 3 02 » thus, for example, if the type id is pre UT 304 may be handed over to BS 302 and/or from the type (eg, 'PLMN ID of the service operator') or the private type (UT 304 has a valid subscription by it) or otherwise configured and authorized for access. This Bs 302 requests a network service. Otherwise, if the type ID is not recognized by the UT 304 or associated with an unauthorized type of BS, the UT 304 can suppress the signal transmission BS 302 to save processing power and battery life. In some aspects of the invention, system 300 can provide for a mobile network

Area-based access. In such aspects, a geographic area (e.g., by legal and/or topographical boundaries) or a network area (e.g., registration domain identifier, LAI, RAI) may be established. An access point contained in a particular area is considered part of the area and is assigned an ID that is different from that area. In some aspects, a single set of regions can be assigned for all access points regardless of the access point type. In other aspects, multiple sets of regions, some of which may be overlapped, may be assigned to different types of access point networks. Thus, by way of example, a set of regions and associated IDs can be established for use in the hnb, while a separate set of regions and IDs are established for use in the macro Bs. In addition to the network id (e.g., the operator's PLMN ID), each access point can be assigned an ID that is located by the access point. In the case of the present invention, (4) contains area reservation data for restricted roaming within the visited area. In these aspects, each-area has a different area reservation data, # and distinguishes each of this area from other areas. A subset of the regions can be selected as the local or preferred region/registration domain for the user. The data file for the user (for example, maintained by the network operator 137603.doc -26· 201014398 author) may include the ID of the local macro network BS (for example, plmn called, accessed macro network BS<ID, And a dedicated access point that can be used by the user's terminal (304). The local/preferred area of each of the dedicated access points can be written to each dedicated access point m (eg, a road operation) PLMN ID, and the reserved PLMN ID reserved for use. In addition, it can be associated with any HNB local area (for example, with υτ

The area reserved for the pLMN m) reserved for use in these types of access points. Thus, as an example, if the υτ class is configured and authorized to access a macro BS associated with a particular network operator and epoch set, the user profile building (316) associated with the UT 304 may be included for The local ugly associated with the network 304 is located therein) (1) written to the area subscription data field of the data label (316) to provide valid identification of such areas 0 when the UT 304 requests access to the network, Bs 3〇2 can obtain an identification code associated with υτ 3〇4 (for example, mobile subscriber identity code [MSi], international mobile subscriber identity code [IMSI], network designation identifier or the like query module, and 308 can use the UT ID to obtain the user-shell file 316 associated with 1; D 3 〇 4 from the network data storage 3 14 . The analysis module 3 can obtain the access point from the data file 3丨6 ID and Area/Registration Domain ID Information. Based on this information, the analysis module 310 can determine if the UT 304 is associated with any dedicated access point and, if so, whether any local area is designated. Bs 3〇2 is located in the local area identified by data block 316, then BS 3〇2 can be used The access point ID is transmitted to the UT 304 to facilitate interface connection with the mobile network via the access points while the υτ 304 is located in the local area. If 08 137603.doc -27- 201014398 302 is not located in the data file Within any local area identified by 316, only the macro network ID is transmitted to UT 304. As described, regional access may facilitate more efficient mobility of UT 03. In particular, the use of a particular type of BS Where the authorization of (302) involves being located in the local area, UT 3 04 may optionally interact with the BS of that type only when located in the local area. When located outside the local area, the specific type may be ignored. The BS(302)' thus results in reduced signal transmission consumption of the UT 304. Figure 4 illustrates a block diagram of an example network environment 400. The network environment 400 includes a number of network areas 408A, 408B, 408C, 408D (408A to 408D) The network area may be defined by a geographic domain or a network domain, as described herein. Additionally, network areas 408A through 408D may include various mobile network storages coupled to a core mobile network (not depicted). Take points to provide wireless communication services An access point located within a particular area is considered part of the area and can be assigned an ID of the area. Further, an access ID is assigned an ID based at least in part on the access point type (eg, GA, RA) , partial resource reuse or full resource reuse, transmission power, cell size or the like, as described herein. As depicted, network environment 400 includes at least four network areas 4〇8Α to 408D The at least four network areas include dedicated access points. A dedicated access point may include any non-clustered BS that provides a wireless interface (directly or indirectly) to the mobile operator's network, as described herein. However, for the sake of simplicity, the following description of network environment 400 will refer to such access points as hnb; however, it should be understood that other such access points are contemplated and may be suitable for such 137603.doc • 28- 201014398 Functional Description of Other Access Points Replaces the functional descriptions specific to HNB provided below, as understood by those skilled in the art. The depicted regions 408A through 4080 are labeled with the access relationship to the UT 404. So, area 408 eight to 4080 contains the first local? 1^!^1^ area 408A (with local HNB 406A), first and second foreign PLMN areas 408B, 408C (without local HNB) and second local PLMN area 408D (with local HNB 406B). Local HNBs 406A, 406B contain CSGs (one of which is UT 404) that is authorized to utilize the UT (404) of local HNBs 406A, 406B. Providing only limited network access/communication services or no network access/communication services to UTs not included in the CSG. Similarly, a full network access/communication service is provided to the UT included in the CSG. As the UT 404 travels throughout the network environment 400, communication services can be obtained from the macro network access point 402. However, UT 404 can often obtain priority services from local HNBs 406A, 406B (e.g., increased bandwidth, increased data rate, higher quality of service, reduced rate schedules, etc.). In addition, by utilizing local HNBs 406A, 406B, the macro network load can be reduced. Therefore, it may be beneficial for the UT 404 to gain access from the local HNBs 406A, 406B when possible. Under legacy network parameters, UT 404 can interface with local HNBs 406A, 406B in a manner substantially similar to macro BS 402. Thus, the UT 404 can search for any BS (402, 406A, 406B) that is the strongest signal and is ready to provide the strongest or best quality signal/from any BS (402, 406A, 406B) that provides the strongest or best quality signal to request access. . When located outside of PLMN areas 408A through 408D containing dedicated access points, the macro network may provide the best 137603.doc • 29- 201014398 4 ’ and will typically be selected by UT 404. However, if the UT 404 is close to an area (408 Α to 408D) containing one or more ΗΝΒ (406 Α, 406 Β), the nearby ΗΝΒ may have better signal characteristics than the distant macro BS 402. Therefore, the UT 404 will be more likely to search for incoming calls, pending calls, and automatic requests. Since the deployment of ΗΝΒ can typically contain more foreign 比 than the local ΗΝΒ (e.g., where UT 404 is not included in the CSG), UT 404 can suffer from many access denials in the process of attempting to access the strongest nearby signal. This result can result in significant processing overhead and reduced battery life for the UT 404. To alleviate the aforementioned problems, a dedicated PLMN ID (e.g., unique among the operator PLMN IDs) may be reserved for use with the HNB access point. When the dedicated PLMN ID is transmitted to the UT 404, the UT 404 will attempt to access or hand over to the access point that broadcasts the PLMN ID. Additionally, regions 408A through 408D can be associated with different regions or registration domain IDs. After subscribing to the HNB radio subscription, the UT 404 user profile is associated with one or more PLMN zones in which the local HNB resides. In general, when the UT 404 is located in the foreign PLMN area (406B, 406C), the network 4〇0 will not send the dedicated PLMN ID to the UT 404, and the signal containing the PLMN ID can be ignored, thereby reducing the pair will not Additional signal transmissions from the HNB to the UT 404 will be provided. However, when the UT 404 is located within the local PLMN area 406A, 406D, the network 400 can transmit the dedicated PLMN ID to the UT 404 » Thus, within the local PLMN areas 406A, 406D, the UT 404 can search for the HNBs 406A, 406B and the macro network. Path 402 and requests access from HNBs 406A, 406B and macro network 402. According to some aspects, the way to provide regional access can be based on the capabilities of UT 404 137603.doc -30- 201014398. For example, in the case where the user profile information indicates that the UT 404 can use the access point ID to distinguish between Α (406 Α, 406 Β) and the macro network 402, the dedicated PLMN ID can be directly transmitted to the UT 404. However, where the user profile information does not indicate this capability, the dedicated PLMN ID can be transmitted as the equivalent of the operator's PLMN ID. Thus, the legacy UT (404) can treat the HNB as a macro BS (402) and attempt to access the network via the HNB or macro BS (402) while in the local area. In accordance with other aspects of the present invention, network 400 may further provide a configuration 0 to increase the likelihood that UT 404 will discover and access the HNB on the macro network, or vice versa. Thus, when the UT 404 is located within the local PLMN area 408A, 408D, parameters that facilitate the HNB can be provided. On the other hand, in the case where the UT 404 is located in the foreign PLMN area (408B, 408C) or not in the area containing the dedicated access point, parameters favoring the macro BS (402) may be provided. Parameters can be configured to reduce the average time required to locate a preferred access point, increase the likelihood of a preferred access point to be accessed/requested service from a preferred access point, and/or relative to a non-preferred access point Reduce these possible ambiguities (see, for example, 囷6 below). In at least some aspects of the present invention, in addition to the parameterization described herein, UT 404 can be configured to improve detection of local HNBs 406A, 406B within local PLMN regions 408A, 408D. In an example, UT 404 ' may record the ID of the HNB that denied network access to UT 404 and/or the location of such HNBs (eg, based on GPS location, location of the closest macro BS) or Similar). These IDs/locations can be included in the restricted list, or in the black list. By ‘remembering’ which HNBs are restricted, the UT 404 can avoid signal transmission to the HNB ID on the restricted list, thereby reducing signal transmission and conserving battery power. In addition to the foregoing, UT 404 can store HNB IDs and/or location fixes for local HNBs 406A, 406B that permit access to UT 404. The local HNB ID can be included in the preferred list, and the signal including the local HNB ID can be provided with priority over other signals. Thus, when receiving a signal containing a local HNB ID or when located at a location that substantially matches the location of the local HNB, the UT 404 may await access to the local HNBs 406A, 406B or request access from the local HNBs 406A, 406B and ignore other BSs. The beta signal (e.g., as long as the signal from the local HNB is at least above the low relative threshold, as described herein). Figure 5 illustrates a block diagram of an example system 500 that provides regional access to a mobile network. System 500 can include various types of access points and base stations that wirelessly couple remote terminal devices to a core mobile network (e.g., a 3GPP core network). The zone access may be based on one or more of the terminal devices and may vary depending on the access capabilities of the devices. In the case of RA support, the local area(s) of the device are available and compared to the location of the servo access point 定位. If the access point area matches the local area, the device may have information that facilitates the identification of the RA access point. In addition, the parameter set provides a means to increase the probability of identifying or waiting for a particular type of access point. The set of parameters can increase the likelihood of finding a better or local access point to ‘and provide load balancing among various types of access points. Thus, system 500 can provide increased efficiency of mobile communications. As depicted, system 500 can include one or more BSs 502. The BS 502 can include a registration module 504 that obtains an access request from a remote UT (not depicted). 137603.doc -32- 201014398 The self-access request retrieves information identifying υτ, which is provided to the data query module 506. The data query module 〇6 can use the identification information to obtain the user profile 516 from the components of the core network 512. For example, the data query module 506 can use the signal transmission interface 5〇8 of the inter-component protocol (for example, the signal transmission system 7 [ss7], the mobile application part [MAP]) to / or data storage 510 (eg, mobile switching center [MSC] / access. Location of the device [VLR], servo integrated packet radio service support node [SGSN] or the like) communication. The zone register 51 can request user data associated with the information identifying the UT from the local user register 514 (e.g., HLR) (516). The user profile 516 is provided to the zone register 51 using inter-network communication (e.g., the MAp interface) and forwarded to the profile query module 506. Once the BS 502 receives the user profile 516, it can be from the user profile 516. Take data to implement regional network access. The data analysis module 518 can parse the user profile 516 to obtain access point ID, zone/network m information, and subscription status information, as well as UT access capabilities (eg, whether υτ is configured and/or authorized for use) ΗΝΒ access, WiFi access, wiMAX access, macro network access, etc.). As an example, if the request υτ is configured for ΗΝβ access, the PLMN ID associated with the service provider's network and the dedicated pLMN m associated with the HNB can be retrieved from the data file 5 16 . In addition, the local area ID associated with the dedicated PLMN ID can also be retrieved. Information is provided to the registration module 504 to determine whether to provide network access to υτ in response to the request. If BS 52 is an RA BS, registration module 5〇4 may further check cSg 522 to determine if the request UT is permitted to utilize 38 5〇2. 137603.doc -33· 201014398 In some aspects of the invention, BS 502 may include a selective access mode that provides access point information to request υτ based on the area in which BS 502 resides and based on the capabilities of the requesting UT. Group 520. The selective access module 52 can, for example, provide an access point type ID to υτ included in the subscription profile 516. Depending on the situation, depending on whether BS 502 is located! One or more of these access point type IDs may be omitted (as indicated in the data file 516), as described herein. In the case where the UT is located in an area containing one or more dedicated access points, the selective access module 520 can further! A set of parameters configured to increase the probability of the UT searching, accessing, and/or handing over to an access point associated with the dedicated access point 1〇. Alternatively, where Bs 5 02 is not located in the area associated with the dedicated access point type, a different set of parameters may be provided to the UT, which may be searched, accessed, and/or handed over to the GA macro. The probability of BS. According to at least some aspects, the set of parameters provided to υτ can be based, at least in part, on the current network load. Thus, for example, where the dedicated access point is reloaded, the parameters that increase the probability of connecting to the macro BS can be sent to the UT. Likewise, where the macro BS is reloaded and the UT is configured and/or authorized for one or more dedicated access points (eg, wiMAx), it may alternatively be configured to increase the connection to A set of parameters for the probability of a dedicated access point. Therefore, BS 502 can be helpful in balancing loads among such access points in networks containing disparate types of access points. FIG. 6 illustrates a block diagram of an example parameterized record 606 transmitted by network BS 602 to UT 604. The parameterized record 606 may be broadcast by the BS 602 to υτ 604 located within the sector of the wireless communication network served by the BS 602, or to a specific 137603.doc • 34· 201014398 unicast to the UT 604 or a group of such υτ ( 604). Some aspects of the parameterized record 606 in accordance with the present invention may provide a threshold parameter that increases the likelihood that the UT 604 will search, acquire, and/or hand over to a particular type of network access point (6〇2). Thus, parameterized records 6〇6 can be utilized in networks containing disparate access types BS (6〇2), such as RA BS and GA Macro BS, to direct UT (604) to one or the other. Type of BS. The choice of preferred and/or non-preferred bs (602) may be based on sector loading, UT capabilities, inter-sector interference, and the like. The parameterized record 606 can include an HCS parameter 608 that establishes the relative priority of the BS 602 and neighboring BSs (not depicted) in the wireless access network. The HCS parameter 608 can be coupled to the cell search parameter 612 to modify the preset search parameters of the UT 604. Thus, by way of example, the HCS parameters 608 can be of different access types, different reuse types (eg, fully reused, partially reused, etc.), different transmission powers (eg, 50 watt macrocells, 25 watt microcells, 5 watts of picocells, 1 watt of femtocell, or some other suitable combination of network cell size and transmission power), different access technologies (eg, wireless fidelity [WiFi], microwave access global interoperability [WiMAX], The licensed cellular RF) 'or its like, or a combination thereof, BS (602) provides relative priority (eg, includes quantitative priority such as a digital scale, or a qualitative such as high, medium, low, or other relative indicator) priority). Cell search parameter 612 can establish one or more minimum thresholds for various types

BS(602)' below the threshold, ττ 604 may search for the first BS type set' and above the threshold, UT 604 may search for the second set of BS types. In some aspects, the set of one or more types of BSs can be established by the HCS priority parameter 608. 137603.doc -35- 201014398 As an example of the foregoing, HCS parameter 608 establishes three priority 'low-priority, partially reused BSs for any suitable type of GA BS (eg, using only a portion of the channel bandwidth) Or a pico cell, which may be more efficient than a full reuse BS using the full channel bandwidth, and a high priority of the HNB. The cell search parameter 612 can then establish a low priority threshold for a low priority BS (e.g., such as a GA macro cell BS), a minimum threshold for a medium priority BS, and a low minimum threshold for a high priority bS. value. In this case, if the UT 604 is served by the HNB or is waiting for φ HNB ' as long as the signal of the HNB satisfies the low minimum threshold, υτ 604 will not search for other BS's or will only search for other high priority bSs as appropriate. (for example, other HNBs). However, if UT 6〇4 re-uses the BS servo from the medium priority part, as long as the part uses the signal of bs to satisfy the medium minimum threshold, then UT 604 will only search for the high priority BS, or search for the situation as appropriate. Partially reuse BS with other medium priority BSs with better signals. If the servo BS is a low priority BS', then the UT 604 will search for high or medium priority bs if the signal strength satisfies the high and minimum thresholds, and search if the signal strength does not meet the high and minimum thresholds. Any other suitable BS. Specific examples of HCS parameters 608 and cell search parameters 612 in a WCDMA network are HCS-PRIO parameters and SsearchHCS parameters, respectively. However, it should be understood that the invention is not limited to WCDMA networks and parameters. Rather, other suitable wireless network systems (such as '3GPP LTE, UMB, WiMAX, UMTS, etc.) having similar BS priorities and/or search parameters are included as part of the present invention. Parameterized record 606 may also include UE access type 610 parameters, UE access 137603.doc • 36 - 201014398 Type 610 parameters include some of the capabilities of UT 604. Capabilities can be obtained from υτ 604, or from the network operator's HLR, or other suitable network data source. In addition, the UE access type 610 can be used as a selective parameterization flag to select a plurality of parameter sets 608, 612, 614 configured for use in the various UT capabilities and included in the parameterized record 6〇6, One of 616, 618. Therefore, in order to continue the foregoing example, if the UE access type of the UT 604 is only a ga macro network, the different HCS parameter set 608 and the cell search parameter set 612 are known to be available to the UT 604 and/or selected by the UT 604. Rather than being listed in the above examples. For example, the HCS parameter 608 can provide high priority to (}Α macro BS and low priority to RA BS. Additionally, the cell search parameter 6丨2 can establish a minimum threshold of RA BS (when by RA BS) When servoing, increase mUT 6〇4 to ignore these BSs or search for other 88 possibilities) and GA BS low minimum threshold. It should be understood that there may be other suitable priority and search parameter configurations, which have different UT capabilities. For example, a different set of parameters can be established for multi-mode WiFi/honeycomb UT (604)' to establish a WiFi access point, cellular access, as compared to other access point types (eg, WiMAX) Point, or a priority of both. In addition to the foregoing parameters, parameterized record 606 may further include frequency search parameters 614, action selection parameters 616, and neighbor cell parameters. 618 ^ Examples of the aforementioned parameters in the WCDMA case may include & Said implicit η parameters (for example, for searching between different available channels of the network), sINTRASEARCH parameters (for example, for searching within the channel) and (^^ with 13 and Q〇ffSetls, N (for example 'use Determine whether to deliver to another bs or add From a BS to a valid X-connected set in a similar fashion as described above, the frequency search parameter 614, the mobile cell selection parameter 616 can be established by a minimum threshold of each HCCS priority type change by 137603.doc -37-201014398. And neighboring cell selection parameters 618. Additionally, preferred and non-preferred parameter sets 614, 616, 618 may be provided with UE access type 610. Thus, for example, if UT 604 has RA capability ' then parameter 614, 616, 618 may establish a low minimum threshold of the RA BS (such as 'HNB), and other types (10) and/or a high minimum threshold. In this case, the 'UT 604 is more likely to be within the channel and between the channels. Searching and handing over to the RA BS, and more likely to keep the standby ra BS/served by the RA BS. Figure 7 depicts a block diagram of an example system 7A according to aspects of the present invention, the system 700 including BS 702 and one or Multiple UTs 704 (eg, mobile devices). BS 702 can be configured to provide selective access to disparate types of mobile network access points, as described herein. For configuration to identify and distinguish UT 704 of these types of access points, of the appropriate type The ID(s) of the access point may be transmitted to the UT 704 to facilitate acceptance of signals initiated by such access points. The UT 704 is not configured to identify and/or distinguish between different types of accesses. In the case of a point, the access point ID can be established as the equivalent of the macro network ID, whereby the UT 704 accepts the signal including the access point ID (as it is the macro network BS). In other aspects, parameterization for increasing the search and/or access priority with the access point type may be sent to the UT 704' as described herein. This parameterization may increase the likelihood that υτ 704 will discover/access a type of access point, or reduce the likelihood that UT 704 will discover/access the second type of access point. The parameters provided in some aspects may be based on the capabilities of the UT 704. 137603.doc -38- 201014398 BS 702 (eg, access point, ...) may include receiving (s) signals and receiving wireless (〇) messages from one or more UTs 704 via one or more receive antennas 706 The 710, and the encoded/modulated chirp signal and message provided by the modulator 73A are transmitted to the transmitter 732 of the one or more υτ 7〇4 via the transmission antenna 7〇8. Receiver 71 can receive information from receive antennas 7〇6 and can further include a signal receiver (not shown) that receives uplink data transmitted by UT 704. In addition, receiver 71 is operatively associated with a demodulation transformer 712 that demodulates the received information. The demodulated symbol is analyzed by the processor 714. The processor 714 interfaces to a memory 716 that stores information related to the functionality provided by the base station 7 〇 2. In one example, the stored information may include obtaining various access point IDs and providing such 1 to 1; 7 7 4 and/or establishing one or more of these IDs as the macro network ID. The rules of the equivalent. Additionally, the stored information can include a set of parameters configured to establish a preferred and non-preferred BS (702). In particular, the stored information may include parameters for establishing an HCS (which grants RA BS priority with respect to the GA BS and uses RA capabilities of uT 7〇4 to set relative priority), as described herein. In addition, the processor 714 can be coupled to the registration module 722 that obtains the access request from the UT 704. The registration module 722 can obtain the information identifying the request υτ (7〇4) and provide the information to the data query module 718. The data query module uses the identification data to obtain user profile information from the mobile core network via the signal transmission interface 728. Once the user profile information is obtained, the analysis module 720 can retrieve the υτ capability, the appropriate access point type ID, the region access id information, and the like as described herein. Based on this information, and depending on whether the request UT (704) is included in the CSG associated with the BS 702, the 137603.doc • 39-201014398 registration module 722 can determine whether to provide access to the request υτ (704). In addition to the foregoing, BS 702 can include selective access module 726. The selective access module 726 can establish and transmit a set of ττ parameters, the set of 1; 7 parameters increase the probability that the UT 704 will obtain and access the rABS, or facilitate the ra BS to reduce the probability that the UT 704 will access the GA BS . Additionally, BS 702 can include a restriction module 724. The restriction module 724 can facilitate the reduction of additional signal transmission of the UT 704 in the RA BS environment. For example, if the registration module 722 rejects an access request from the requesting UT (704) (eg, because the BS 702 is an RA ❿ BS and the request υτ is not included in the CSG associated with the BS 702), then the UT ( 704) Try to connect with other nearby BSs immediately. In the dense deployment of the Shakuhachi BS, this result can result in multiple requests that are ultimately rejected, thereby significantly consuming the battery power of the requesting UT (704). Thus, the restriction module 724 can submit the delay parameter to υτ if the registration module 722 rejects the request. The delay parameter requires the UT to ignore access points having an access point ID (e.g., a common PLMN ID' or a shared reserved PLMN ID) in common with the BS 702 in a delay period. Optionally, the selective access module 726 can also submit a parameterized set combination that increases the probability that the requesting UT (704) will search for an access point having a different access point ID than the BS 702. As a result, the requesting UT is more likely to access non-RA Bs, thereby significantly reducing the wasted additional signal transmission to the alien ra B S . FIG. 8 illustrates a block diagram of an example system 800 including a UT (eg, 'mobile device' 802) that can be configured to interface with a BS 804 interface. The UT 802 can be configured to wirelessly couple with one or more of these wireless networks (e.g., access points). Thus, for example, UT 802 can receive an OTA signal from BS 804 on FL channel 137603.doc • 40· 201014398 and respond with an OTA signal and message on the rl channel, as is known in the art. In addition, UT 802 can obtain access point IDs from BS 804 that identify the type of access point to which υτ 802 is configured and/or authorized to interface with. In some aspects, the access point ID can be established as the equivalent of the operator's macro network m, and υτ 802 is configured to use it in wireless communications. Alternatively or additionally, the UT 802 can obtain BS search and access parameterizations transmitted by the BS 8〇4. The parameterization can be based on the type of bs 804 and neighboring B S (not depicted) (e.g., 'transmission power, access type, reuse type) and, as appropriate, based on the access capabilities of UT 802, as described herein. The UT 802 includes at least one antenna 8〇6 (eg, a transmission receiver including an input interface or a group of such receivers) that receives signals and performs typical actions on the received signals (eg, 'filtering, amplifying, down-converting, etc. Receiver 808). According to at least some aspects, processor 812 can selectively analyze portions of the signals received from demodulation converter 81 0 and obtain synchronization and/or associated with the type of base station (8〇4) or base station selected and/or Control information. In general, antenna 806 and transmitter 834 (collectively referred to as a transceiver) that wirelessly transmits the modulated symbols provided by modulator 832 can be configured to facilitate wireless data exchange with base station 804. Antenna 806 and receiver 808 can also be coupled to a demodulation transformer 810 that can demodulate the received symbols and provide them to processor 812 for evaluation. It should be appreciated that processor 812 can control and/or reference one or more components (806, 808, 810, 814, 816, 818, 820, 822, 824, 826, 828) of UT 802. In addition, the processor 812 can execute one or more modules, applications, engines, or the like (816, 818, 822, including information or control related to the functions of the 137 603.doc • 41 - 2010 14398 line UT 802. 824, 826, 828) ❶ For example, 'These functions may include scanning a PLMN ID for an operator associated with bs 804, a distinguished ID of BS 804, a private network access point (eg, HNB, WiFi storage) The received wireless signal of the point, WiMAX access point, etc., the 'received and/or access parameterized to establish' and identify the preferred BS type and the non-better BS type, or the like, As described herein. The UT 802 can additionally include a memory 814 operatively coupled to the processor 812. The memory 814 can store data to be transmitted, received data, and the like, and instructions (820) suitable for wireless communication with the remote device (804). In addition, the memory 814 can store the modules, applications, engines, etc. (816, 818, 822, 824, 826, 828) executed by the processor 812 above. In addition to the foregoing, processor 812 and memory 814 can be coupled to access module 818 that is configured to generate and submit network access requests to BS 804. In addition, the 'UT 802 may include a signal processor 816 that obtains an ID associated with a selected access point of the wireless network. This ID may be differentiated by type from the type of access point' including access type, reuse type, transmission power, cell size, or the like, or a combination thereof. The ID may be provided to υτ 802 that is subject to the acceptance of the access request submitted by access module 818. In this case, the id can be submitted by the access module 818 to the BS (804) in the subsequent access request, and the BS (804) is used to access the pilots and/or the acquired data of the bs (804). Transfer ID. In at least one aspect, the access module 8 8 can request the parsing module 83 〇 137603.doc -42 - 201014398 to scan for identifying the cell ID transmitted by the BS 804 (eg, tracking domain [TA]) as RA is also the received wireless signal of the information of the GA cell ID. If the cell ID is an RA ID, the access module 818 can determine whether to delay access to the RA BS based on whether the cell ID is associated with a local RA BS (such as a 'local HNB') or imposed by the timing module 826. Whether it is valid (see below) and conditionally submits an access request to BS 804. In addition to the above, the UT 802 can include a Filter #Module 820 that references the Access Point ID of the BS 804 with respect to the set of local area IDs stored in the memory 814. The local area 1D can identify one or more geographic or network areas that provide subscription-based services or preferred access services to the UT 802. If a suitable local area ID is identified, the filtering module 82 can establish the BS (804) transmitting the access point 1 as a preferred or priority bs. Access module 818 can then provide a threshold below which the access request is submitted to this Bs. In some aspects, the filtering module 820 can establish the access point id as the equivalent of the operator's PLMN ID, or a similar identification code associated with the operator. The equivalent ID may enable the access module 818 to utilize the 1] port to process the access point in a manner substantially similar to the macro BS managed by the operator. In one or more other aspects, UT 802 can include a connectivity tracking module 822 that records an access history to bs (804). Thus, for example, the connectivity tracking module 822 can record the cell m or location location data of the access point that acknowledges the access request. Location location data and/or access location data may be provided by location tracking module 828. Location tracking module 828 may reference UT 802 located registration domain or access domain 10, or may include a geographic location device (eg, 'GPS ) 'or other suitable device for determining positional positioning. 137603.doc •43- 201014398 Location or location location can be associated with a local access point, and a local access point can be established as a preferred or high priority access point. Alternatively or additionally, the connectivity tracking module 822 can record the cell (1) or access location data of the access point that denied the access request. In this case, the cell ID/access location can be associated with an external access point and placed on the blacklist. When determining whether to initiate an access request, the access module 818 can ignore the cell ID/access bit that is included in the blacklist. In addition to the foregoing, if the access request is rejected, the timing module 826 can use the subsequent signal transmission of the access point to the common access point of the BS* that is denied access to the D; The delay time is imposed on it. For example, this delay time can be helpful in avoiding redundant or wasted signal transmissions to external HNBs. The foregoing system has been described in relation to the interaction between several components, modules and/or communication interfaces. It should be understood that such systems and components/modules/interfaces may include some of the components or sub-components specified therein, the specified components or sub-components, and/or additional components. For example, the system can include HNB 210, Internet 24, core network 502, and UT 802 or different combinations of such components. The sub-components can also be implemented to be communicatively coupled to other components rather than the group # included in the parent component (parent e〇mp〇nent). Additionally, it should be noted that - or multiple components may be combined to provide an early component of the aggregate functionality. For example, the data query module may include a data/knife module 518, or the data analysis module 518 may include a data query module 鸠' to facilitate querying user profile information and analyzing information components by means of a single component. It is also possible to interact with one or more other components not specifically described herein but known to those skilled in the art. 137603.doc •44· 201014398 In addition, as will be appreciated, the various knives of the above-described systems and methods below may include components, sub-components, processes, components, methods or methods based on artificial intelligence or knowledge or rules. Mechanisms (for example, support vector machines, Shenhong network expert systems, Bayesian belief networks, Bayesian beliefs, fuzzy logic, data fusion engines, classifiers) or their groups. Components other than those already described may automatically <RTI ID=0.0>><>><>> The system will be better understood with reference to the flowcharts of Figures 9 through 12, although the method can be implemented according to the disclosed subject matter. Although for the sake of simplicity, the method is shown and described as a series of blocks. It is to be understood and understood that the subject matter of the subject matter is not limited by the order of the blocks, as some blocks may occur in an order different from the order depicted and described herein and/or The blocks occur simultaneously. Further, all of the blocks described are not required to implement the methods described below. In addition, it should be further appreciated that the methods disclosed hereinafter and throughout the specification can be stored on σσ to facilitate The method is conveyed and transmitted to a computer. The term "article of manufacture" as used herein is intended to encompass a computer program accessible from any computer readable device, device in conjunction with a carrier, or storage medium.

Figure 9 illustrates a flow diagram of an example method 900 for providing regional access to a BS of a selected category, in accordance with some aspects of the present invention. At 902, method 900 obtains user profile information associated with the UT. The user profile information can be obtained from the network components maintained by the network operator associated with the υτ (eg, providing wireless service to the UT). In addition, the profile information may include access capabilities of UT 137603.doc 45- 201014398 (eg, whether υτ is configured/authorized to access the RA BS, or configured to access dedicated access points, such as WiFi, HNB , WiMAX, or other such access points as described herein, the PLMN ID of the network operator associated with υτ, the access point m associated with the dedicated access point, the registration domain ID information, local Cell id, reservation status, etc. At 904, Method 9 can retrieve data representing the network area from the data file information. As an example, the network area may contain area subscription data, such as area code that supports domain restricted roaming. In other instances, the network area may include the registration domain identifier, TAI, LAI, or RAI of the network. In other instances, the network area may be based on any suitable identification code (e.g., a number) assigned to a different geographic and/or administrative boundary (e.g., autonomous region, township, residential area, county, state, province, etc.). At 906, method 900 can compare the network region to data associated with a cell of a wireless network (such as a cell of a Serving UT, or a neighboring cell 'or the like) at 9:8, Method 9 The ID associated with the selected access point of the wireless network may be submitted to the UT if the network region matches the network region of the cell. In some aspects, the selected access point may be a dedicated access point (eg, HNB) located within the network area 'by enabling access points with the UT located within the network area Communication. By submitting the access point ID when the UT is in the network area, the UT can infer that the selected access point, or the preferred access point (in some instances), can be found when in the area. 10 depicts a flow diagram of an example method 1 for facilitating reduced signal transmission by a user terminal in a dense deployment of disparate classes of BSs. Method 1000 can provide improved operational efficiency as described below, particularly where terminals such as 137603.doc • 46-201014398 are configured or authorized to access only a subset of available BSs. At 1002, Method 1 can obtain a wireless signal containing a request to access a mobile network or a request to obtain a voice or data service from the network. At 1004, Method 1 can obtain the ID of the requesting UT from the access request. At 1006, Method 1 can obtain user profile information specifying one or more local regions associated with the requesting UT. At 1 , 8, Method 1 〇〇〇 determines whether the cell receiving the request matches the local area(s) specified in the user profile information. If the cell matches the local area, method 1000 can proceed to 1014. Otherwise, method 1000 proceeds to 1〇1〇. At 1010, method 1000 can submit an operator PLMN ID to the requesting UT. The PLMN ID facilitates access to the macro network BS, which provides access to the operator's network. At 1012, method 1000 can send an operator favorable parameter to the requesting UT. These parameters may increase the likelihood that the UT will search, access, and/or hand over to the macro network BS, or reduce the likelihood that the UT will search, access, and/or hand over to a BS other than the macro network BS. Sex. Thus, when the UT is outside the associated local area, Method 1 can facilitate directing uT to the macro network' to mitigate or eliminate signal transmission to the non-clusters BS. At 1014, Method 1 can send the retained PLMN ID as the equivalent of the operator's PLMN ID. The reserved PLMN ID can be associated with a selected access point contained within the local area, and the UT is authorized and configured to utilize the selected access point contained within the local area. By establishing a reserved PLMN ID as the equivalent of the operator's PLMN ID, the selective access point can be processed substantially similar to the macro BS maintained by the operator. Therefore, even if the UT cannot clearly distinguish between the access point and the macro BS, the method 1000 can promote access to such selective access points. At 1016, method 1000 can send a parameter to the UT that facilitates the selected access point associated with the retained PLMN ID. These parameters may be increased by 1; the likelihood of searching, accessing and/or handing over to an access point associated with the retained PLMN ID, or reducing UT search, access and/or handover to The likelihood of an access point associated with a reserved PLMN ID. As a result, the parameters can reduce the terminal load on the macro network and/or enable υτ to more effectively locate the local or preferred access point associated with the retained PLMN ID. The method 1000 may proceed to reference numerals 1018 to 1 24 (eg, in the case where the cell receiving the access request from the UT is the RA BS) "At 1018, the method 1 may perform the action id of the UT with The CSG associated with the receiving cell is compared. At 1020, a determination is made as to whether the action matches the ID included in the CSg. If a match is found, then method 1 proceeds to 1024, which allows access to the cell. Otherwise, if no match is found, the method 1000 can proceed to 1022 where access to the cell is denied, it should be understood that although the method 1000 may deny access, the possibility of the UT identifying the increase in the local RA BS may be provided. In particular, by transmitting the reserved PLMN ID and the network parameters favoring the RA BS at reference numbers 1014 and 1016, respectively, the UT is more likely to signal the RA BS than other types of BS, thereby potentially reducing The time required to locate the local RA BS. Thus, method 1000 can result in more efficient mobile access and reduced signal transmission consumption in many cases. 11 illustrates a flow diagram of an example 137603.doc -48- 201014398 method 1100 for improving network access via a preferred network access point. At 1102, method 1100 can signal the access point of the wireless network. In some aspects, the signal transmission can include a network access request to the access point. In addition, depending on the additional aspect, the access request may include the ID of the requesting device. At 1104, method 1100 can obtain an ID associated with a selected access point of the wireless network. This ID can be utilized to distinguish between selected access points and other network access points based on the type of functionality (e.g., access type, reuse type, transmission power, cell size, etc.). In addition, the ID may be provided in accordance with one or more specific aspects of the receiving network access request ❹ that is subject to the request. At 1106, method 1100 can use an ID to facilitate accessing the wireless network via at least one of the selected access points. In some aspects, an ID can be utilized to differentiate one of the access points from other types of access points. The decision whether to continue to utilize the selective access point to couple to the wireless network can be based, at least in part, on this distinction. In addition, using IDs to filter potential access points increases the chances of finding a better access point. In other aspects, the use of IDs to filter potential access points can result in improved load balancing among disparate types of access points. As a result, ® improved operational efficiencies can result in a wireless network environment with disparate types of network access points, as described in this article. • Figure 12 depicts a flow diagram of an example method 1200 for facilitating reduced signal transmission consumption in dense access point deployments in accordance with certain aspects of the present invention. At 1202, method 12 can signal the network access point (e.g., if the signal includes a network access request). At 1204, method 12 can receive the zone/network ID in response to the signal. The zone/network ID that is subject to the approval of the network access request can be received as appropriate. At 1206, method 12 〇〇 137603.doc -49- 201014398 can compare the zone/network ID to a set of UT-related local zone ids. At 1208, if the zone/network id matches the local zone ID, Method 12 may access the wireless network via a dedicated access point (eg, hnB, WiFi, WiMAX, etc.) associated with the zone/network ID. At 121, method 12 can track and classify the cell ID of a dedicated access point that recognizes or denies access to the network. In some aspects, this trace can be conditional on the access point being ra BS. At 1212, method 1200 can implement a delay period for a dedicated access point if the access request is denied. At 1214, method 12 can switch to an access frequency used at least in part by the non-RA access point if the access request is denied. At 1216, method 1200 can track the location of the requesting device (e.g., UT) after the access request is denied or denied. The location 相关 can be associated with an approved or restricted dedicated access point, respectively, based on whether the request is accepted or rejected. At 1218, method 12 can obtain the possibility to increase access or hand over to a dedicated access point associated with the zone/network ID (as compared to a macro BS located in the zone) set. Thus, for example, if the access request is denied, the parameters may increase the likelihood of access/delivery to the macro Bs. Otherwise, in the event that the access request is successful, the parameters may increase the likelihood of access/delivery to a dedicated access point associated with the zone/network ID. 13 depicts a block diagram of an example system 13 00 that facilitates access by a remote device to a dedicated access point of a mobile network and FIG. 14 depicts an example of implementing access by a remote device to a dedicated access point of a mobile network. A block diagram of the system 14 is as described herein. For example, the systems 13A, 14A can reside at least partially within the wireless communication network and/or such as nodes, base stations, access points, 137603.doc • 50· 201014398 user terminals, and mobile interfaces The card is connected to the transmitter of the personal computer or the like. It will be appreciated that the t-fan, 14(10) is represented as including functional blocks, which may be functional blocks representing functions implemented by a processor, software, or combination thereof (e.g., 'firmware'). ❿

System 130G can facilitate access to dedicated access points of the U' wireless network and reduce additional signal transmission in a hybrid deployment of dedicated access points and macro BSs. System 1300 can include means for obtaining user profile information associated with 1; the component 132 can include a transceiver that self-audits wireless signals and a analyzable signal to identify and extract data slot information Signal processor. In other examples, component 1302 can include a data query component that uses a signal transmission interface to communicate with components of the core mobile network. The query component can obtain data file information from an HLR or similar component maintained by a network operator who provides wireless service to the UT. In addition to the content described above, the system 13A may include means for extracting a network area ID (e.g., a registration domain identifier) from the user profile. 13 "Details" component 1304 may be parsed for A data file reserved for the PLMN ID of a type of private network access point, as described herein. The registration domain ID may indicate the selected location of the group of such dedicated access points. A component 1306 for comparing the network registration domain ID to the cell ID can determine whether the cell associated with system 130 matches the network registration domain id. If matched, the component 1308 for submitting the registration domain ID can transmit this ID to the UT to facilitate access to the dedicated access point within the identified area. In some aspects, component 1308 can further equate the retained pLMN ID obtained from the user profile to the operator's PLMN ID. Thus, the UT can interface with a dedicated access point interface in a manner substantially similar to that performed by the operator's 137603.doc - 51 · 201014398 macro BS. System 1400 can provide regional access to dedicated access points to the mobile network. System 1400 can include means 1402 for submitting a network access request to a suitable access point of the network. Component 1402 can include, for example, a wireless transceiver configured to wirelessly communicate with the access point. In addition, component 1404 for obtaining network m for selecting an access point can analyze the data received in response to the access request. In particular, component 1404 can determine whether the access point is an RA or GA access point, determine the operator's PLMN ID, determine one or more registration domain IDs, and determine one that is reserved for a particular type of access point. Or multiple dedicated access point IDs, where this information is included in the response. In addition to the foregoing, system 1400 includes means 1406 for using the received information for accessing a mobile network. In particular, component 14〇6 may utilize dedicated access point m if the registration field (1) matches the location of the access point being located. In this case, component 1406 can use a dedicated access point ID to filter the wireless # number obtained by system 14A. This filtering can be utilized to determine a preferred type of access point for connection to a mobile network, thereby facilitating improved network loading and/or utilization of beneficial services or rate plans provided by a preferred type of access point. . What has been described above includes examples of aspects of the claimed subject matter. It is a matter of course that it is not possible to describe every conceivable combination of components or methods for the purpose of describing the claimed subject matter. However, those skilled in the art will recognize that many other combinations and permutations of the disclosed subject matter. possible. Therefore, the subject matter disclosed is intended to cover all such changes, modifications and variations of the spirit and scope of the appended claims. In addition, the terms "including" and "having" are used in the context of the embodiments or patent applications and 137603.doc -52- 201014398, these terms are intended to be similar to the term "including" in "contains" as a transitional poem request. Financial Time (4) Translated ^ [Simplified Drawing] 匕栝 (4) Figure 1 depicts a block diagram of an example wireless communication environment in accordance with an aspect of the present invention. Figure 2 illustrates a block circle of an exemplary wireless network based on other bear-like white winters. Figure 3 depicts 'According to this one, the power of six kilometers & one to provide action in the network of disparate access points

A block diagram of an example system for device access. Figure 4 shows a block diagram of an example system that obtains user profile data to facilitate regional access based on some aspects. Figure 5 depicts a block diagram of an example network connection environment for a packet 3 area RA BS and a general access (ga) macro bs. Figure 6 illustrates a block diagram of an example parameterized record for increasing the likelihood of searching or accessing one or more categories. Figure 7 illustrates a block diagram of an example base station providing access to a UT2 area in accordance with aspects of the present invention. 8 depicts a block diagram of an example UT that facilitates area limited network access in accordance with other aspects. Figure 9 depicts a flow diagram of an example method for providing regional access to a selected category of bs, in accordance with some aspects. Figure 1 depicts a flow diagram of an example method for facilitating reduced signaling in dense deployments of different classes of BSs. 11 illustrates a flow diagram of an example method for region-based selection 137603.doc • 53- 201014398 BS group access network in accordance with aspects disclosed herein. Figure 12 depicts a flow diagram of an example method for facilitating reduced signal transmission consumption in dense deployment of disparate classes of BSs. 13 and 14 respectively illustrate block diagrams of example systems that provide and facilitate zone access to selected types of network bs. [Main component symbol description]

100 wireless communication system 102a macro cell 102b macro cell 102c macro cell 102d macro cell 102e macro cell 102f macro cell 102g macro cell 104a access point (AP) 104b access point (AP) 104c access point (AP) 104d Access Point (AP) 104e Access Point (AP) 104f Access Point (AP) 104g Access Point (AP) 106a User Terminal (UT) / AT 106b User Terminal (UT) / AT 106c User Terminal (UT) / AT 137603.doc -54- 201014398 106d User Terminal (UT) / AT 1 06e User Terminal (UT) / AT 106f User Terminal (UT) / AT 1 06g User Terminal (UT) / AT 106h User Terminal (UT) / AT 106i User Terminal (UT) / AT 106j User Terminal (UT) / AT 106k User Terminal (UT) / AT 200 Communication System 210 HNB 220 UT/UE 230 User Residence, Commercial Location, Indoor/Outdoor Facilities 240 Internet 250 Mobile Operator Core Network / Macro Cell Mobile Network / Macro Network 300 System • 302 BS 304 UT/Terminal Device 306 Transceiver 308 Query Module '310 Analysis Mode 312 Communication Processor 314 Network Data Storage 316 User Data File 137603.doc -55- 201014398 400 Network Environment 402 Macro Network Access Point/Macro Network 404 UT 406A Local HNB/Local PLMN Area 406B Local HNB /External PLMN Area 406C Foreign PLMN Area 406D Local PLMN Area 408A Network Area / First Local PLMN Area φ 408 网路 Network Area / First Foreign PLMN Area 408C Network Area / Second Foreign PLMN Area 408D Network Area / Second Local PLMN Area 500 System 502 BS/Core Network 504 Registration Module 506 Data Query Module 508 Signal Transmission Interface • 510 Area Network Registrar/Data Storage 512 Core Network 514 Local User Register 516 User Data File/User Data 518 Data Analysis Module 520 Selective Access Module 522 CSG 602 Network BS/Network Access Point 137603.doc -56- 201014398 ❿ 604 UT 606 Parameterized Record 608 HCS Parameter / HCS Priority Parameter 610 UE Access Type 612 Cell Search Parameters 614 Frequency Search Parameters 616 Action Selection Parameters / Mobile Cell Selection Parameters 618 Adjacent Cell Parameters / Adjacent Cell Selection Parameters 700 System 702 BS/Base Station 704 UT 706 Receive Antenna 708 Transmission Antenna 710 Receiver 712 Demodulation Transformer 714 Processor 716 Memory 718 Data Query Module 720 Analysis Module 722 Registration Module 724 Restriction Mode Group 726 Selective Access Module 728 Signal Transmission Interface 730 Modulator 137603.doc • 57. 201014398

732 Transmitter 800 System 802 UT 804 BS/Base Station/Remote Device 806 Antenna 808 Receiver 810 Demodulation Transducer 812 Processor 814 Memory 816 Signal Processor 818 Access Module 820 Over-Consideration Module 822 Connectivity Tracking Mode Group 824 cell history 826 timing module 828 location tracking module 830 profiling module 832 modulator 834 transmitter 1300 system 1302 is used to obtain 1304 for user data entitlement registration domain identifiers 1306 for Network Registration Domain IDI 137603.doc 58- 201014398 1308 1400 1402 1404 1406 构件 The component system for submitting the registration domain ID is used to submit a network access request to the appropriate access point of the network for obtaining selective access The component of the network ID of the point is used to use the received information for accessing the components of the mobile network 137603.doc -59-

Claims (1)

201014398 VII. Application for Patent Group: 1. A method for providing regional access in a wireless network, comprising: obtaining user profile information related to a user terminal (υτ), · operating from the information Representing data of a network area; comparing the network area with data associated with a cell of a wireless network; and in the case where the network area matches a network area of the cell, The identification code associated with the selected access point of the wireless network is submitted to the |UT. 〆 2. The method of claim </ RTI> further comprising providing the identifier as one of the public land mobile network (PLMN) identification codes (iD) of one of the network operators associated with the UT. 3. The method of claim 1, wherein the identification code is a dedicated PLMN ID associated with the selected access point, and the selected access point is a local node B (HNB) 〇 4. The method of item 1, further comprising obtaining the user profile information after receiving a network storage request from the υτ. 5. The method of claim 1 further comprising using a closed subscriber group (CSG) of the cell to verify whether the UT is authorized to access the wireless network via the cell. 6. The method of claim 5, further comprising rejecting network access to the UT if the υτ is not authorized to access the cell, and requiring the UT to ignore the identification within a delay period The delay parameter of the access point associated with the code is submitted to the UT. 137603.doc 201014398 7. The method of claim 1, wherein extracting data representing a network region further comprises obtaining an area subscription data (RSD) associated with the UT, the RSD identifying the selected access points. 8. The method of claim 1, wherein extracting data representing a network region further comprises obtaining a zone code (RZC) for supporting domain restricted roaming. 9. The method of claim 1, further comprising verifying that the υτ system is associated with a valid subscription that allows services from at least one of the selected access points. 10. The method of claim 1, further comprising submitting an increase in the likelihood of the UT searching, accessing or handing over to at least one of the selected access points, or reducing the UT search, access or A parameterized set that is handed over to a different access point than the type of access point of the selected access point. 11. The method of claim 1, further comprising obtaining the user profile information via a signal transmission interface of the one to one operator core network. 12. An apparatus for providing selective area access to a wireless network, comprising: a query module that obtains user profile information associated with a UT; an analysis module 'which retrieves from the information Representing data for a network region' and comparing the manipulated network region with data associated with a cell of a wireless network; and a communications processor that matches one of the cells in the network region In the case of a zone, an identification code associated with the selected access point of the wireless network is submitted to the UT. 13. The apparatus of claim 12, the communication processor establishing the identification code as one of the PLMNIDs of one of the network operators associated with the 137603.doc -2- 201014398. 14. The device of claim 12, wherein: the selected access point comprises an HNB network, a portion of a reuse network, a sub-macro power network, or a sub-macro cell network; and the identification code A PLMN ID that is reserved for access to the HNb network, the portion of the reuse network, the sub-macro power network, or the access point of the sub-macro cell network, respectively. 15. The device of claim 12, further comprising a registration module that retrieves an ID of the UT from an access request included in a wireless signal initiated by the υτ, and the 〇 Submit to the query module to obtain the user profile information. 16. The device of claim 15, wherein the registration module verifies whether the UI is authorized to obtain service from the cell by comparing the ID of the UI with a CSG associated with the cell. 17. The device of claim 15, wherein the registration module verifies whether the UT is associated with a valid subscription associated with the selected access point. 18. The apparatus of claim 12, further comprising a restriction module that submits a delay parameter to the UT when the UT is not authorized to access the cell: the delay parameter requires the The access point associated with the identification code is ignored during the delay period. 1 9. The device of claim 12, wherein the analysis module retrieves the RSD of the selected access point from the user profile information. 2. The device of claim 12, wherein: the analysis module retrieves an RZC associated with the domain restricted roaming 137603.doc 201014398 from the user profile information; and the communication processor replaces the RZC with one of the cells The RZC retrieved compares to determine whether the network area matches the network area of the cell. 21. The apparatus of claim 12, further comprising a selective access module for submitting a set of parameters to the UT, the set of parameters adding the υτ to search, access or hand over to the selected access point The probability of at least one of them, or the chance that the UT will search, access or hand over to the macro network base station. 22. The device of claim 12, further comprising a signal transmission interface of a component of the core mobile communication network, the query module obtaining the user profile information via the signal transmission interface. 23. An apparatus for providing regional access in a wireless network, comprising: means for obtaining user profile information associated with a UT; for extracting data representing a network area from the information a means for comparing the network area with a resource associated with a cell of a wireless network; and for using the network area to match a network area of the cell The identification code associated with the selected access point of the wireless network is submitted to the component of the UT. 24. A processor configured to provide regional access in a wireless network, comprising: a first module 'configured to obtain a user profile associated with a UT Information; 137603.doc 201014398 A second module configured to retrieve data representing a network region from the information; a third module configured to associate the network region with a Wireless network-community data comparison; and a fourth module configured to select one of the wireless networks if the network region matches one of the network regions of the cell The identification code associated with the access point is submitted to the υτ. 25. A computer program product comprising: a computer readable medium comprising: a first set of code for causing a computer to obtain user profile information associated with a UT; a second set of code, </ RTI> for causing the computer to retrieve data representing the network area from the information; a second set of code 'for causing the computer to compare the network area with data associated with a cell of a wireless network; And a fourth set of code for causing the computer to submit an identification code associated with the selected access point of the wireless network if the network area matches a network area of the cell. 26. A method for obtaining regional access to a wireless network, comprising: obtaining an identification code associated with a particular type of wireless network access point; and selecting a associated with the identification code An access point that accesses the 137603.doc 201014398 wireless network in the event that the current region of one of the requesting devices matches an area of the selected access point. 27. The method of claim 26, further comprising using the identification code as one of the one-line operator equivalent PLMn ID. 28. The method of claim 26, further comprising maintaining a set of local area IDs associated with the subscription-based wireless service, the local areas 1 defining that the wireless services are available or preferably one or more geographic or Network area. 29. The method of claim 28, further comprising verifying that the identification code is one of the set of local area IDs. 30. The method of claim 29, further comprising accessing the wireless network on condition that the identification code matches one of the set of local area IDs. 31. The method of claim 26, further comprising tracking a cell m of the access point in the event that an access request to the selected access point is denied. 32. The method of claim 26, further comprising using a delay parameter in a case where one of the selected access points is rejected, to be defined by the delay parameter The search or signal transmission is associated with an access point associated with the identification code during the delay period. The method of 33H_26 includes switching to a cell hierarchy utilized by a base station other than the particular type of access point of the wireless network in the event that the access request is denied. 34. The method of claim 26, further comprising storing a cell ID of the access point if the access request for the at least one selected access point is approved. 3. The method of claim 26, further comprising: tracking a location of a request υτ when accessing the wireless network is recognized as I37603.doc -6 - 201014398, and by permitting a location The location is chosen such that the location location is associated with the selected access points. 36. The method of claim 26, further comprising obtaining an access point that adds an search, access or handoff to the particular type of access instead of the wireless network that is not associated with the identification code. A set of parameters for a possibility. 3. A configuration that is configured to obtain regional access to a wireless network, comprising: a signal processor that obtains an identification code associated with a particular type of wireless network And an access module that selects an access point associated with the identification code to access the wireless network if the UT is located in an area that matches an area of the selected access point . 3. The UT of claim 37, further comprising a filter module associated with one of a plurality of geographic or network regions associated with providing the subscription-based service or the preferred service to the υτ The local area ID is grouped and the identification code is referenced. 39. As claimed in item 38, the identification code is one of the wireless network registration domain identifier, a location domain identifier (LAI), a routing domain identifier (RAI), a tracking domain ID (TAI), or An RZC. 40. If the request item 38iUT&apos; wherein the filter module matches one of the set of local area IDs in the identification code, the identification code is used as one of the equivalents of a network operator PLMN ID. 41. The UT of claim 37, further comprising a connectivity tracking module, wherein the connectivity tracking module records at least one of: 137603.doc 201014398 the access request is denied Taking one of the cell IDs or location data; or the cell ID or location data of the access point in the case where the access request is approved. 42. The UT of claim 37, further comprising a timing module that imposes on subsequent signal transmissions to an access point associated with the identification code if the access request is denied A delay time. 43. The request item 37iUT further includes a location tracking module for the location The tracking module obtains an access location of the UT if the access request is approved or rejected. 44. In the case of claim 43, wherein the connectivity tracking module associates the access location with at least one of: a restricted access location in the event of the request being rejected; or the request One of the currently registered domains in the case of recognition. 45. If the request is still initial, the step-by-step includes a profiling module that scans at the selected access point for use in the registration domain associated with the access point For the !=2 or 疋 general access to the registration domain information. 46. If the request item is UT, the access module is homing, accessing or (d) to-not associated with the identification code after the (4) identification access point is not currently suitable for communication with the wireless network. Connected access points. 47. The request module 4RUT, the access module, searches for inter-frequency or intra-frequency cells utilized by the access point associated with the _code phase = fetch: before the communication is currently unsuitable for the communication. Phase 137603.doc -8 - 201014398 48. Grouping cancer to obtain access to a wireless network area includes: 〃 used to obtain a wireless network access point associated with a particular type The component of the identification code; and. The access point for selecting - associated with the identification code accesses the components of the wireless network in the case where the area before the requesting device matches the area of the selected access point. / 49. A processor configured to obtain a zone access to a wireless network, the method comprising: a module configured to obtain a specific type of wireless network storage Taking an associated identification code; and - a second module configured to select an access point associated with the identification code to match the current access area of the selected access point Access to the wireless network in the case of an area. 50. A computer program product, comprising: a computer readable medium, comprising: a first set of code for causing a computer to obtain an identification code associated with a particular type of wireless network access point; a second set of code for causing the computer to select an access point associated with the identification code to access the - the requesting device - the current region matches the region of the selected access point Wireless network. 137603.doc