KR20060039561A - Method for preventing useless attempt for connection to portable internet system - Google Patents

Abstract

The present invention relates to a method for preventing useless connection attempts to a portable Internet network due to overhead messages.

In order to achieve the above object, the present invention comprises the steps of: (a) receiving an overhead message from the mobile communication network indicating the overlay area of the portable Internet network; (b) sending a connection request signal to the portable Internet network; (c) determining whether to connect to the portable Internet network; (d) calculating a portable Internet network access attempt interval according to an algorithm for preventing frequent access attempts when the composite terminal is not connected to the portable Internet network as a result of determining whether to connect in the step (c); (e) inspecting a newly received overhead message from the mobile communication network after the elapse of the portable Internet network access attempt interval; And (f) if the overhead message check in step (e) is an overhead message indicating that the area is an overlay area of the portable Internet network, the method proceeds to step (b).

According to the present invention, it is possible to prevent the battery consumption from becoming faster due to frequent connection attempts, and also to solve the problem of not properly performing the function of the composite terminal due to paging loss due to manganese switching.

Overlay, Handoff, Interval Attempt, Frequent Access, Ping-Pong

Description

Method for Preventing Useless Attempt for Connection to Portable Internet System}

1 is a diagram illustrating a structure of a Base_ID provided through a base station transmitter in a CDMA2000 1X system;

2 is a diagram schematically illustrating a communication system in an overlay region of a CDMA2000 1X network and a portable Internet network;

3 is a flowchart illustrating an algorithm for preventing frequent connection attempts to a portable Internet network according to a preferred embodiment of the present invention.

<Description of Symbols for Main Parts of Drawings>

110: EV-DO overlay display unit 120: WCDMA overlay display unit

130: mobile Internet overlay display unit 140: transmitter ID display unit

210, 212: composite terminal 220: mobile Internet support cell

222: radio access station 224: access control router

230: IP network 240: CDMA support cell

242: base station transmitter 244: base station controller

246: mobile communication switching center 248: home location register                 

250: packet data serving node 260: mobile communication IP network

270: home agent 280: authentication server

The present invention relates to a method for preventing useless connection attempts to a portable Internet network due to overhead messages. In more detail, when an overhead message indicating that the mobile station and the mobile internet service are overlaid by the base station transmitter of the mobile communication system is transmitted to the terminal, the mobile station does not provide the mobile internet service. To the portable Internet network to eliminate the paging loss or the possibility of outage caused by frequent useless connection attempts to the portable Internet network where the terminal receiving the overhead message does not exist. Algorithm to prevent frequent connection attempts.

As the electronic and communication technologies are rapidly developed and various contents are mass-produced, various wireless communication services using a wireless network have been provided. The most basic wireless communication service is a wireless voice call service that provides a voice call to a mobile terminal user wirelessly, which can provide a service regardless of time and place. In addition, while providing a text message service to complement the voice call service, a wireless Internet service has recently emerged to provide an Internet communication service to a user of a mobile communication terminal through a wireless communication network.

As a result of the development of mobile communication technology, a service provided by a code division multiple access (CDMA) mobile communication system is not only a voice service but also transmits data such as circuit data and packet data. It is developing into a multimedia communication service.

In recent years, with the development of information and communication, IMT-2000 (International Mobile Telecommunication 2000), a third generation mobile communication system that has been standardized by ITU-R (eg, CDMA2000 1X, EV-DO, WCDMA, etc.) Is commercialized. IMT-2000 is a CDMA2000 1X, EV-DO, WCDMA, etc. 14.4, which is a data transmission speed that can be supported in IS-95A and IS-95B networks by using the IS-95C network that has been evolved from the existing IS-95A and IS-95B networks. It is a wireless communication service that can provide wireless Internet at transmission speeds of up to 144 Kbps, much faster than Kbps or 56 Kbps. In particular, by using IMT-2000 service, it is possible to provide various multimedia services (AOD, VOD, etc.) at higher speed as well as improving existing voice and WAP service quality.

However, with the recent increase in the use of games, location information, and messenger services through the wireless Internet, wireless Internet services through mobile communication systems of CDMA2000 1X, EV-DO, and WCDMA have not been able to support sufficient transmission speeds. . In addition, the use of the wireless Internet is expensive, and the screen of the mobile communication terminal is small, there is a problem that there is a limit to the content that can be displayed. This has resulted in a high-speed portable Internet (WiBro: Wireless Broadband or HPi: High-Speed Portable internet) system that provides more comprehensive portability, mobility, and lower-cost wireless Internet services.

The portable Internet system uses a 2.3 GHz frequency band, uses a time division duplex (TDD) as a duplex method, and orthogonal frequency division multiple access (OFDMA) as an access method. In addition, it provides mobility of 60 km / h per hour, and the downlink transmission rate is 24.8 Mbps, but the uplink transmission rate is 5.2 Mbps, which is an IP (Internet Protocol) based wireless data system having up and down asymmetric transmission characteristics.

On the other hand, the portable Internet network and CDMA2000 1X, EV-DO and WCDMA include different components due to differences in service speed, synchronous and asynchronous, and provided data are packet data and circuit data. have. Therefore, when simultaneously providing one or more communication services of portable Internet, CDMA2000 1X, EV-DO, and WCDMA in a certain area, the area must include all systems supporting each service.

In addition, in order to receive a desired service among one or more communication services provided in a certain region, the terminal must have a modem capable of receiving the corresponding service. Since a conventional terminal has a modem that can receive only one of the services of the portable Internet, CDMA2000 1X, EV-DO, and WCDMA, an area that does not receive mobile communication service may occur according to a service providing system of each region. In order to solve such a problem, a multi-terminal (MM-MB: Multi Mode-Multi Band) terminal is used in a region where two or more modems are provided to provide a service using another modem.

 The hybrid terminal should receive an overhead message containing the information of the base station from the radio access station or base station transmitter that manages the location. In the case of CDMA, the overhead message is a message that must be received by all terminals located in the area unconditionally, and is transmitted at least every 1.28 seconds. Overhead messages include System Parameter Message, Neighbor List Message, CDMA Channel List Message, Extended System Parameter Message, and Page Message. Are classified as). Since the configuration and function of each message are well known to those skilled in the art, a detailed description thereof will be omitted.

The most important message for transmitting system information is the system parameter message, which includes system information (PNudo-Noise code, SID: System Identification, NID: Network Identification), registration information, handoff information, and power control information. And system operation information including overlay information. The overlay information is a part that provides information about a system supported in a corresponding region from a base station of a region supporting two or more systems to a mobile communication terminal through a Base_ID of an overhead message. Base_ID is a part of providing an ID of a base station transmitter of a corresponding area to a mobile communication terminal.

1 is a diagram illustrating a structure of Base_ID provided through a base station transmitter in a CDMA2000 1X system.                         

Typically, the Base_ID of the overhead message provided by the base station transmitter of the CDMA2000 1X system is composed of 16 bits in total, and the EV-DO overlay display unit 110, the WCDMA overlay display unit 120, the mobile Internet overlay display unit 130, and the transmitter ID display unit 140 is divided.

The EV-DO overlay display unit 110 is located at bit 15, and when the service area of the base station of the corresponding CDMA2000 1X is overlaid with the service area provided by the EV-DO system, this part is displayed. That is, when overlaying the service area provided by the base station of the CDMA2000 1X and the service area provided by the EV-DO system, the EV-DO overlay display unit 110 is displayed as '1', and the corresponding area corresponds to the EV-DO service. In regions that do not support the EV-DO overlay display unit 110 is displayed as '0'.

The WCDMA overlay display unit 120 is located at bit 14, and is a portion which displays the service area of the base station of the CDMA2000 1X when it is overlaid with the service area provided by the WCDMA system. That is, when the service area of the CDMA2000 1X and the WCDMA service area are overlaid, the WCDMA overlay display unit 120 is displayed as '1', and in the region where the region does not support WCDMA service, the WCDMA overlay display unit 120 is '0'. 'Is displayed.

The portable Internet overlay display unit 130 is located at bit 13, and is a portion that displays the service area of the base station of the CDMA2000 1X when it is overlaid with the service area provided by the portable Internet system. That is, when the service area of the CDMA2000 1X and the mobile Internet service area are overlaid, the mobile internet overlay display unit 130 is displayed as '1', and the mobile internet overlay display unit 130 is displayed in the region where the corresponding area does not support the mobile Internet service. ) Is displayed as '0'.

Transmitter ID display unit 140 is used to display the ID number of the base station transmitter provided by the base station from bit 0 to bit 12. Typically, the ID indicating the base station transmitter is indicated by "base station controller number x 64 + base station transmitter number". Here, the number of the base station controller is used from 0 to 11, the base station transmitter uses a number from 0 to 63.

For example, in a system supporting CDMA2000 1X, an ID of a base station transmitter transmitted to a mobile communication terminal located in an area in which the base station controller 1 and the base station transmitter 63 are in charge is “1 × 64 + 63 = 127”, which is' 0000000001111111 '. The first three bits may be changed to 1 according to the EV-DO overlay display 110, the WCDMA overlay display 120, and the portable Internet overlay display 130. That is, if the area is overlaid with the EV-DO service area, bit 15 is changed to 1 and displayed as '1000000001111111'. If the area is overlaid with WCDMA service area, the bit 14 is changed to '0100000001111111'. If it is overlaid with the mobile Internet service area, bit 13 is changed and displayed as '0010000001111111'. In addition, if the region supports all EV-DO, WCDMA and portable Internet services, it is displayed as '1110000001111111'.

Through this method, the CDMA2000 1X base station transmits overlay information of EV-DO, WCDMA, and portable Internet service to the hybrid terminal through the Base_ID of the overhead message. In addition, overhead messages transmitted from base stations of EV-DO, WCDMA, and portable Internet systems are also used to provide overlay information of CDMA2000 1X, EV-DO, WCDMA, and portable Internet systems to composite terminals through the same method.

Here, if a Base_ID indicating bit 13 as '1', that is, a Base_ID including overlay information of a portable Internet system, is provided, the hybrid terminal changes to a portable Internet mode with a high data transmission rate for receiving packet data. . However, when the hybrid terminal receives a Base_ID including the overlay information of the portable Internet system from the base station transmitter and attempts to connect to the portable Internet network, but the mobile terminal is in an area or a situation where the portable Internet network cannot be accessed, It keeps sending the connection request signal to the network. However, if the connection request signal is continuously transmitted to the portable Internet network which cannot be accessed at regular time intervals, the composite terminal has a high battery consumption due to a lot of modem driving during RF part and modem switching according to the continuous connection request signal generation. In addition, there is a problem in that it does not properly perform the function of the composite terminal due to the impossibility of transmission, reception, etc. at that time.

In order to solve this problem, in the present invention, although an overhead message indicating that the mobile station and the mobile Internet service is an overlay area that can be provided at the same time from the base station transmitter of the mobile communication system has been delivered to the terminal, the mobile Internet service is not provided. In the case of a non-local area, an overhead message for eliminating paging loss or inability to transmit due to frequent useless connection attempts to a portable Internet network where a terminal receiving an overhead message does not exist. The purpose of the present invention is to provide an algorithm for preventing frequent connection attempts to the portable Internet network.

In order to achieve the above object, the present invention provides a method for preventing frequent connection attempts from a mobile terminal to a mobile terminal from a complex terminal located in a place where a mobile communication network can be accessed but cannot be connected to a mobile internet network. Receiving an overhead message indicating an overlay area of an internet network; (b) sending a connection request signal to the portable Internet network; (c) determining whether to connect to the portable Internet network; (d) calculating a portable Internet network access attempt interval according to an algorithm for preventing frequent access attempts when the composite terminal is not connected to the portable Internet network as a result of determining whether to connect in the step (c); (e) inspecting a newly received overhead message from the mobile communication network after the elapse of the portable Internet network access attempt interval; And (f) if the overhead message inspection result of step (e) indicates that the message is an overlay area of the portable internet network, the process proceeds to step (b). Provides a way to prevent frequent attempts.

In addition, in order to achieve the second object of the present invention, the present invention is located at a point that can be connected to the mobile communication network but is not accessible to the mobile Internet network, indicating that the overlay area between the mobile communication network and the portable Internet network. When receiving an overhead message, the composite terminal having a function of limiting the useless connection to the portable Internet network, comprising: (a) sending a connection request signal to the portable Internet network; (b) determining whether a connection with a portable Internet network is established; (c) calculating a portable Internet network access attempt interval according to a frequent access attempt prevention algorithm when the composite terminal is not connected to the portable Internet network as a result of determining whether to connect in the step (b); (d) checking an overhead message from the mobile communication network after the elapse of the portable Internet network access attempt interval; (e) if the overhead message check in step (d) indicates that the area is an overlay area with the portable Internet network, performing a series of processes including the step of proceeding to step (a) Provided is a composite terminal for preventing frequent connection attempts to a portable Internet network.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First of all, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used as much as possible even if displayed on different drawings. In addition, in describing the present invention, when it is determined that the detailed description of the related well-known configuration or function may obscure the gist of the present invention, the detailed description thereof will be omitted.

2 is a diagram schematically illustrating a communication system in an overlay region of a CDMA2000 1X network and a portable Internet network.

In the overlay area communication system for implementing an algorithm for preventing frequent access attempts to the portable Internet network according to the overhead message according to the present invention, the portable Internet network, the CDMA2000 1X network, the portable Internet network and the EV-DO network, the portable Internet A communication system in an overlay area of a mobile Internet network consisting of a network and a WCDMA network and one mobile communication system, a communication system in an overlay area of the mobile internet network and two or more mobile communication systems, or three mobile communication systems with a portable internet network. Communication system in the overlay area with the system. In this description, only the communication system in the overlay area of the portable Internet network and the CDMA2000 1X network will be described. In addition, for convenience of description, the CDMA2000 1X network will be referred to as a 'CDMA network'.

A communication system using a portable Internet network includes a first composite terminal 210, a radio access station (RAS) 222, a packet access router (ACR), and an 'ACR'. 224), IP network 230, home agent (HA: `` HA '') 270, authentication server (AAA: Authentication, Authorization, Accounting, hereinafter referred to as 'AAA') 280 and the Internet network 290.

The first hybrid terminal 210 is an MM-MB terminal located in the portable Internet support cell 220 and the CDMA support cell 240. The first hybrid terminal 210 receives a portable Internet service using a portable Internet modem and uses a CDMA modem. Receive the CDMA service. To this end, the first composite terminal 210 transmits and receives data and call signals with the RAS 222 of the portable Internet network and the base station transmitter 242 of the CDMA network.

The RAS 222 wirelessly transmits data received from the ACR 224 to the first composite terminal 210 located in the portable Internet support cell 220 as a base station of the portable Internet network, and has a low power RF / IF module and controller function. , OFDMA / TDD packet scheduling and channel multiplexing function, MAC frame variable control function according to service characteristics and propagation environment, 50 Mbps high-speed traffic real-time control function, handover function, etc. In addition, the first composite terminal 210 and the RAS 222 have a 50 Mbps packet transmission modulation and demodulation function, a high speed packet channel coding function, a real time modem control function, and the like for data transmission.

The ACR 224 is a packet access router that accommodates a plurality of RAS 222 and connects the RASs 222. The ACR 224 is a handover control function between the RASs 222, a handover function between the ACRs 224, a packet routing function, and the Internet. It has a connection function and the like, and is connected to the IP network 230.

The IP network 230 is connected to the HA 270, the AAA 280, and the like, and receives the packet data from the external packet data service and transmits the packet data to the ACR 224.

The HA 270 transmits data from the outside in the case of using Mobile IP in transmitting data from the external packet data network such as the Internet network to the first composite terminal 210, and performs AAA ( 280 performs charging for data used in the first composite terminal 210 and authenticates the connection from the first composite terminal 210.

A communication system using a CDMA network includes a first composite terminal 210, a second composite terminal 212, a base station transmitter 242, a base station controller 244, a mobile communication switching center 246, and a home location register (HLR). Register, hereinafter referred to as 'HLR' 248, Packet Data Serving Node (PDSN: hereinafter referred to as 'PDSN') 250, Mobile IP network 260, HA 270 and AAA 280.

The second hybrid terminal 212 is an MM-MB terminal located outside the portable Internet support cell 220 and inside the CDMA support cell 240. Therefore, since the second composite terminal 212 is not connected to the portable Internet network but can be connected only to the CDMA network, only data and call signals with the base station transmitter 242 are transmitted and received.

The base station transmitter 242 is located in units of cells and performs location registration for locating the first composite terminal 210 and the second composite terminal 212 located in the CDMA support cell 240, and baseband A network endpoint device directly connected to the first composite terminal 210 and the second composite terminal 212 by performing signal processing, wired / wireless conversion, and wireless signal transmission and reception.

Meanwhile, the base station transmitter 242 transmits an overhead message including base station information to the first composite terminal 210 and the second composite terminal 212. The overhead message transmitted from the base station transmitter 242 includes a Base_ID in which the portable Internet overlay display unit 130 indicating '1' is overlaid with the portable Internet service area. That is, the first hybrid terminal 210 located inside the portable Internet support cell 220 and the second hybrid terminal 212 not located inside the portable Internet support cell 220 are also carried by the base station transmitter 242. You will receive an overhead message indicating that it is overlaid with the Internet service area.

Base station controller 244 controls transmission output of base station transmitter 242, intercell soft handoff and hard handoff determination, transcoding and vocoding, GPS clock distribution, operation and maintenance for the base station Perform the maintenance function. In addition, the base station controller 244 transmits the subscriber information of the location-registered first composite terminal 210 and the second composite terminal 212 to the mobile communication switching center 246, and the call request from the mobile switching center 246. A signal and a data request signal are transmitted to the base station transmitter 242. The base station controller 244 is connected to the PDSN 250 to transmit and receive packet data and to provide a wireless Internet service to the first composite terminal 210 and the second composite terminal 212.

The mobile communication switching center 246 performs basic and additional service processing, incoming and outgoing call processing of subscribers, data signal processing, location registration procedure and handoff processing, and interworking functions with other networks.

The HLR 248 performs functions such as registration recognition, registration deletion, and location checking of the first composite terminal 210 and the second composite terminal 212. In addition, the HLR 248 stores the location information request signal for requesting data transmission from the mobile communication IP network 260 to the first composite terminal 210 or the second composite terminal 212, which will be described later. The base station controller 244 and the base station transmitter 242 in the area where the first hybrid terminal 210 or the second hybrid terminal 212 is located are transmitted to the mobile communication IP network 260 by searching the database. That is, the response signal transmitted by the HLR 248 to the mobile communication IP network 260 in response to the location information request signal includes the address information of the base station transmitter 242.

The PDSN 250 performs a function of providing a data service to the composite terminal 210. The PDSN 250 is an evolution of an inter-working function (IWF) used for supporting data communication in a second generation (2G) mobile communication system.                     

The mobile communication IP network 260 inquires the location information of the complex terminals 210 and 212 to transmit data, checks the address information of the base station transmitter 242 in charge of the area where the complex terminals 210 and 212 are located, and A network termination device that transmits a session establishment request signal. The session establishment request signal is transmitted from the PDSN 250 to the first composite terminal 210 or the second composite terminal 212, and receives the session establishment request signal from the first composite terminal 210 or the second composite terminal 212. ) Establishes a session with PDSN 250. Here, in transmitting the session establishment request signal to the first composite terminal 210 or the second composite terminal 212, the base station transmitter 242 using the paging channel using the first composite terminal 210 or the second composite terminal The process of calling 212 is required. At this time, the base station transmitter 242 transmits a paging message as a message for calling. The paging message is a message for notifying the composite terminal 210 or 212 that there is a call connection request, and is a message transmitted through a paging channel among wireless channels.

The mobile communication IP network 260 is connected to an external data packet network such as an internet network through a router. In addition, the router is connected to the HA 270 and the AAA 280 in addition to the mobile communication IP network 260.

Through the portable Internet system and the CDMA system configured as described above, the first hybrid terminal 210 can receive the portable Internet service and the CDMA service. On the other hand, the second hybrid terminal 212 can receive only CDMA service. However, the first hybrid terminal 210 and the second hybrid terminal 212 receive an overhead message from the base station transmitter 242 of the CDMA network indicating that it is overlaid with the portable Internet service area.                     

After receiving the overhead message, the first hybrid terminal 210 connected to the CDMA network connects with the portable Internet network to receive packet data. Meanwhile, the second hybrid terminal 212 connected to the CDMA network confirms that the CDMA network and the portable Internet network are overlaid by the received overhead message, and thus the portable Internet for receiving packet data thereafter. Attempt to connect to the network.

Here, the connection attempt is a process of transmitting a connection request signal to the portable Internet network and performing location registration with the RAS 222 of the portable Internet network. When the connection attempt is completed by performing location registration, the connection attempt is performed. No longer done. However, since the second composite terminal 212 is not located in the portable Internet support cell 220, the position registration to the RAS 222 is impossible. In this case, conventional connection attempts continue to be made at regular intervals. Typically, the time interval during which the connection attempt is made is a few seconds, it will be described as 'T' seconds in the present invention.

When the second composite terminal 212 attempts to access the portable Internet network according to the present invention, if the location registration fails because the connection to the portable Internet network is impossible, the second composite terminal 212 does not attempt to connect again after 'T' seconds. Try to connect after more than 'T' seconds. Also, if the connection fails again, the next connection attempt attempts to connect after a longer time than the previous connection attempt.

That is, the algorithm for preventing frequent connection attempts to the portable Internet network according to the present invention is as follows.

Interval between attempts to access the Internet = A ⁿ × T

Here, 'A' is an integer set in advance by the composite terminal manufacturer or the mobile Internet network operator, and has a value greater than one. 'n' is the number of attempts to connect to the portable Internet network. It is an integer greater than zero and increases by one. In addition, 'n' may increase to infinity and may have a maximum value. When 'n' has a maximum value 'Nmax', and the portable internet network access attempt interval reaches a maximum value, that is, 'A ^Nmax × T', the second hybrid terminal 212 moves the portable Internet at a maximum interval. Attempt to connect to the network.

3 is a flowchart illustrating an algorithm for preventing frequent connection attempts to a portable Internet network according to a preferred embodiment of the present invention.

In the present description, only the second composite terminal 212 is described, and in the following description, it is referred to as a "composite terminal".

The composite terminal 212 located in the CDMA network is transmitted from the CDMA network at least 1.28 seconds and receives an overhead message including Base_ID (S310).

The composite terminal 212 checks whether bit 13 of the Base_ID, that is, the portable internet overlay display unit 130, is marked with '1' in order to confirm whether the portable Internet service is provided (S310).

If the mobile internet network overlay display unit 130 is marked as '1', and the area is an overlay area capable of simultaneously providing CDMA service and mobile internet service, the mobile internet access request signal is sent to the RAS 222 of the mobile internet network. Send. Alternatively, after 'T' seconds, it is also possible to transmit the portable Internet access request signal (S330).

The composite terminal 212 determines whether a connection to the portable Internet network is established. When the terminal 212 is registered with the RAS 222 of the portable Internet network through a location registration is connected to the portable Internet network, if the location registration is not made is not connected to the portable Internet network (S340).

When the composite terminal 212 is connected to the portable internet network in step S340, the portable internet service is provided to the composite terminal 212. The user of the composite terminal 212 may be provided with a portable Internet service for transmitting and receiving packet data (S350).

On the other hand, when the composite terminal 212 is located outside the portable Internet support cell 220 or in an unreachable area in step S340, the RAS 222 of the portable Internet network is connected to the connection request signal from the composite terminal 212. Since it is not received, the composite terminal 212 is not connected to the portable Internet network. In this case, the composite terminal 212 recognizes that it has not been connected to the portable Internet network, and prepares to transmit the portable Internet connection request signal again.

In order to prevent frequent connection attempts to the portable Internet network according to the present invention, the composite terminal 212 calculates the portable Internet network access attempt interval according to an algorithm of 'mobile internet network access attempt interval = A ⁿ × T'.

Here, 'A' and 'T' are integers set in advance by the composite terminal manufacturer or the portable Internet network operator, and may be set in advance in the composite terminal or may be set through a message in the portable Internet network. Accordingly, the factor for changing the portable Internet network access time according to the present invention is 'n', which is the number of attempts to access the portable Internet network. Therefore, there is a need for an algorithm that increments 'n' for each attempt to access the portable Internet network.

As a method of increasing 'n' one by one, a formula 'N = n + 1' is used, and 'n' is input as 0 as an initial value (S360). Then, by substituting the calculated N with n again, n can be increased by one for every attempt to access the portable Internet network (S370).

Using the portable Internet network access attempt number 'n' calculated according to steps S360 and S370, the composite terminal 212 calculates the portable internet network access attempt interval, waits for the calculated time, and then accesses the portable Internet network again. Repeat step S320 to step S340 for sending a request signal. That is, according to the algorithm provided by the present invention, the interval between attempts to access the portable Internet network is equal to 'A × T' seconds, 'A ² × T' seconds, 'A ³ × T' seconds, and 'A ⁴ × T' seconds. Will increase to (S380)

In addition, the composite terminal 212 should check whether the portable Internet overlay display unit 130 is displayed as '1' through the Base_ID received from the CDMA network at every attempt to access the portable Internet network.

In the above description, the present invention has been limited to a hybrid terminal requesting a connection from a CDMA2000 1X network to a portable Internet network. However, the present invention provides a portable Internet network in an EV-DO network or a WCDMA network, and a CDMA2000 1X network in a portable Internet network. It is also possible to apply the algorithm according to the present invention when switching modes between the EV-DO network, the WCDMA network, or the CDMA2000 1X network, the EV-DO network, and the WCDMA network.

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and changes without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the equivalent scope should be interpreted as being included in the scope of the present invention.

As described above, according to the present invention, the composite terminal does not exist in the overlay region by gradually increasing the interval between attempts to access the portable Internet network through a formula of 'internet access attempt interval = A ⁿ × T'. It is possible to prevent the battery from becoming quick due to frequent attempts to access the portable Internet network which is not easily connected. Also, the problem of inability to perform the functions of the composite terminal due to paging loss due to switching between networks I can solve it.

Claims (13)

As a method for preventing frequent connection attempts to a mobile Internet network from a composite terminal located in a place where a mobile communication network can be accessed but cannot be connected to a mobile Internet network, (a) receiving an overhead message indicating from the mobile communication network that the overlay area of the portable internet network is an overlay area; (b) sending a connection request signal to the portable Internet network; (c) determining whether to connect to the portable Internet network; (d) calculating a portable Internet network access attempt interval according to an algorithm for preventing frequent access attempts when the composite terminal is not connected to the portable Internet network as a result of determining whether to connect in the step (c); (e) checking an overhead message newly received from the mobile communication network after the elapse of the portable Internet network access attempt interval; And (f) proceeding to step (b) if the overhead message test of step (e) indicates that it is an overhead message indicating an overlay area of the portable Internet network; Frequent frequent attempts prevention method to the mobile Internet network comprising a. The method of claim 1, wherein step (a) comprises: And checking, by the hybrid terminal, the area where the hybrid terminal is located is a region that supports a portable Internet service through the Base_ID of the overhead message. The method of claim 2, wherein the Base_ID is, 16 bit method, comprising the other mobile communication network overlay display unit, the mobile Internet overlay display unit and transmitter ID display unit, characterized in that the frequent attempts to access the portable Internet network. The method of claim 1, wherein step (c) comprises: The hybrid terminal determines whether the mobile terminal is connected to the portable internet network by checking whether a location registration is performed to a radio access station (RAS) of the portable internet network. To prevent frequent connection attempts. The method of claim 1, wherein step (c) comprises: And when the hybrid terminal is connected to the portable Internet network, receives the portable Internet service from the portable Internet network, and terminates the frequent connection attempt prevention method. The method of claim 1, wherein step (d) When the terminal manufacturer or the mobile internet network operator sets a predetermined integer as 'A', the time interval between the mobile internet network connection attempts is 'T' second, and the number of mobile internet network connection attempts is 'n', Interval between attempts to access the Internet = A ⁿ × T How to prevent frequent access attempts to the portable Internet network, characterized in that calculated through the algorithm. The method of claim 6, wherein the portable Internet network connection attempt interval is When the 'n' has a maximum value 'Nmax' and the portable Internet network access attempt interval becomes 'A ^Nmax × T', the next attempt is made to access the portable Internet network at a maximum time interval. A method for preventing frequent connection attempts to a portable internet network. The method of claim 1, wherein step (d) And when the composite terminal is connected to the portable Internet network, terminating the frequent connection attempt prevention method. The method of claim 1, wherein step (f) comprises: If the overhead message check of step (e) does not include a Base_ID indicating that the overhead message is an overlay area with the portable Internet network, the portable Internet network is terminated. How to prevent frequent connection attempts. The method of claim 1, wherein the mobile communication network, A method for preventing frequent connection attempts to a portable Internet network, which is one of a CDMA2000 1X network, an EV-DO network, and a WCDMA network. If the mobile terminal is connected to the mobile communication network but is unable to access the mobile internet network, and receives an overhead message indicating that the mobile communication network and the mobile internet network are overlay areas, the mobile internet network is danced. In a composite terminal having a function of restricting one connection, (a) sending a connection request signal to the portable Internet network; (b) determining whether to connect to the portable Internet network; (c) calculating a portable Internet network access attempt interval according to a frequent access attempt prevention algorithm when the composite terminal is not connected to the portable Internet network as a result of determining whether the terminal is connected in step (b); (d) checking an overhead message from the mobile communication network after the elapse of the portable Internet network access attempt interval; (e) If the overhead message check in the step (d) is an overhead message indicating that the area is an overlay with the portable Internet network, proceeding to step (a) Composite terminal for preventing a frequent connection attempt to the portable Internet network, characterized in that for performing a series of processes including. The method of claim 11, wherein the frequent connection attempt prevention algorithm, When the terminal manufacturer or the mobile internet network operator sets a predetermined integer as 'A', the time interval between the mobile internet network access attempts is 'T' second, and the number of the mobile internet network access attempts is 'n', Interval between attempts to access the Internet = A ⁿ × T A composite terminal for preventing frequent connection attempts to a portable Internet network. The method of claim 11, wherein the overhead message, 16 bit, the mobile Internet characterized in that the area where the composite terminal is located through the base_ID including the other mobile communication network overlay display unit, the portable Internet overlay display unit and the transmitter ID display unit to support the mobile Internet service Composite terminal to prevent frequent connection attempts to the network.

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