KR100542923B1 - Method for distributing network load by using NDSS and system thereof - Google Patents

Abstract

The present invention relates to a method for operating a mobile communication network. More specifically, the present invention relates to a network distribution method and a system for changing a mobile communication network capable of cross-accepting a terminal and processing according to the type of an originating call in two or more overlapping mobile communication networks. According to an aspect of the present invention, in a method for distributing a communication network for allowing an originating terminal connected to a first communication network to transition to a second communication network according to a type of an originating call in two or more overlapping mobile communication networks, the first being continuously monitored If the traffic of the communication network exceeds a predetermined range, allowing transition between communication networks according to the type of the outgoing call; When the originating call is received from the originating terminal connected to the first communication network, determining whether the originating terminal is able to transition to the second communication network; And if the originating terminal is capable of transitioning to the second communication network, transmitting a service redirection message (SRM) to the originating terminal, wherein the originating terminal receiving the SRM is sent to the second communication network. After the transition, a communication network distribution method for performing communication according to the outgoing call is provided.

NDSS, 1x, 2G, SRM, Distributed

Description

Method for distributing network according to traffic using NDS and system therefor {Method for distributing network load by using NDSS and system}             

1 is an exemplary diagram showing the load of each communication network in an area where a 1x communication network and a 2G communication network exist simultaneously.

2 is an exemplary diagram for explaining a case where a 1x terminal transitions between a 1x communication network and a 2G communication network.

3 is a flowchart illustrating a process performed in a mobile communication system as a network distribution method according to an embodiment of the present invention.

4 is a flowchart illustrating a process executed in a 1x terminal as a network distribution method according to an exemplary embodiment of the present invention.

FIG. 5 illustrates a call processing process when traffic of a 1x communication base station is less than or equal to a predetermined range according to an exemplary embodiment of the present invention.

6 illustrates an SRM operation when traffic of a 1x communication network base station according to a preferred embodiment of the present invention exceeds a predetermined range.

7 illustrates a process of processing a voice call in a 2G network connection state according to a preferred embodiment of the present invention.

8 illustrates a process of processing a data call in a 2G network connection state according to a preferred embodiment of the present invention.

The present invention relates to a method for operating a mobile communication network. More specifically, the present invention relates to a network distribution method and a system for changing a mobile communication network capable of cross-accepting a terminal and processing according to the type of an originating call in two or more overlapping mobile communication networks.

1 is an exemplary diagram showing the load of each communication network in an area where a 1x communication network and a 2G communication network exist simultaneously. Referring to FIG. 1, in an area in which a 1x communication network and a 2G communication network exist at the same time, an existing 1x terminal is configured to first obtain a 1x communication network. If the 1x terminal enters an area where the 1x communication network is overlapped after acquiring the 2G communication network in the region where only the 2G communication network exists, the 1x terminal is overlapped with the 1x terminal through the overhead message. The 1x terminal is set to transition to the 1x network based on the indicator that the 1x network overlaps.

The existing 1x network and 1x terminal accept both voice calls requiring relatively low data rates and data calls requiring high data rates in the 1x network, and increase the FA of the 1x network when the load increases. . However, in case of a voice call, even though a good quality call is possible even at a data rate lower than that of the 1x network (144 kbps to 2 Mbps), all outgoing calls are accommodated in the 1x network. Expenditures should continue.

Accordingly, in order to solve the above problems, an object of the present invention is to provide a network distribution method and system according to traffic that can control the load of each communication network by varying the communication network that accommodates it according to the type of the outgoing call. . In other words, subscribers who frequently use voice calls that require low data rates according to subscriber's tendency to reuse 2G networks according to the evolution of terminals and communication networks use SG (Service Redirection Message). The purpose of the present invention is to enable the use of 1x networks for distributed calls of intergenerational networks and to effectively use 1x networks and 2G networks without FA expansion of 1x networks. have.

In order to achieve the above objects, according to an aspect of the present invention, in the network distribution method for transitioning the originating terminal connected to the first communication network to the second communication network according to the type of the outgoing call in two or more overlapping mobile communication network, If the traffic of the continuously monitored first communication network exceeds a predetermined range, allowing transition between communication networks according to the type of the outgoing call; When the originating call is received from the originating terminal connected to the first communication network, determining whether the originating terminal is able to transition to the second communication network; And if the originating terminal is capable of transitioning to the second communication network, transmitting a service redirection message (SRM) to the originating terminal, wherein the originating terminal receiving the SRM is sent to the second communication network. After the transition, a communication network distribution method for performing communication according to the outgoing call is provided.

According to another aspect of the present invention, a communication network distribution method for transitioning an originating terminal connected to a first communication network to a second communication network according to the type of an originating call in two or more overlapping mobile communication networks, the originating connection connected to the first communication network If an outgoing call is received from a terminal, determining whether the outgoing call is a voice call; If the determination result is a voice call, determining whether the calling terminal is able to transition to the second communication network; And if the originating terminal is capable of transitioning to the second communication network, transmitting a service redirection message (SRM) to the originating terminal, wherein the originating terminal receiving the SRM is sent to the second communication network. After the transition, a communication network distribution method for performing communication according to the outgoing call is provided.

According to still another aspect of the present invention, a mobile communication system including two or more overlapping communication networks and allowing a terminal connected to a first communication network to transition to a second communication network according to a type of an outgoing call, wherein the first communication network of the terminal A home location register (HLR) for storing a transition allowance setting between the network and the second communication network; A switching station that determines a transition allowance between the first communication network and the second communication network, and determines whether a transition is allowed to the second communication network of the terminal with reference to the home location register when receiving an outgoing call from the terminal; (MSC); A first communication network base station (BSS) coupled to the switching center, for managing the first communication network to which the terminal initially connects, and for transmitting a service redirection message (SRM) to the terminal according to a transition control command received from the switching station; ; And a second communication network base station (BSS) coupled to the switching center, for managing the second communication network to which the terminal that has received an SRM transitions, and performing communication according to the outgoing call of the terminal that has transitioned from the first communication network. A mobile communication system is provided that includes.

According to another aspect of the present invention, a command for cross-connecting two or more overlapping communication networks and performing a transition process between communication networks in a terminal capable of transitioning from a first communication network to a second communication network according to the type of an outgoing call Programs of the present invention are tangibly embodied, and in the recording medium which can be read by the terminal, if the first communication network exists, the state of the terminal is connected to the second communication network by receiving a service redirection message (SRM). Determining; Accessing the first communication network when the determination result is not changed to the second communication network by receiving the SRM; Transitioning to the second communication network when receiving the SRM in response to the voice call requested to the first communication network in the first communication network connection state; And a program for performing the step of maintaining the second communication network connection state after performing a voice call in the transitioned second communication network.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

In the present specification, the first communication network refers to a communication network capable of high-speed data transmission, and the second communication network refers to a communication network capable of low-speed data transmission compared to the first communication network. For convenience of explanation, it is assumed that the first communication network and the second communication network are 1x communication network and 2G communication network, respectively.

2 is an exemplary diagram for explaining a case where a 1x terminal transitions between a 1x communication network and a 2G communication network. Referring to FIG. 2, service coverage by a mobile communication system in which a 1x communication network is overlapped with an existing 2G communication network is divided into a 1x-2G cross-acceptance area 100, a boundary area 110, and a 2G dedicated area 120. . The 1x-2G cross-accommodation area 100 is an area where a 1x terminal can select and connect between a 1x communication network and a 2G communication network. Typically, a 1x terminal accesses a 1x communication network at the time of location registration and then sends a service redirection message (SRM). To the 2G network. Here, when the location registration is when the power of the 1x terminal on / off, loss of connection with the communication network or when entering the 1x-2G cross-accommodation area 100 in the 2G dedicated area 120 to register the location in the 1x communication network. Include. The boundary area 110 is an area where the 1x communication network and the 2G communication network overlap each other, but the transition between both communication networks of the 1x terminal is not allowed. SRM is not transmitted in the border zone 110. The 2G dedicated area 120 is an area where only 2G communication networks are installed, and 1x terminals entering this area transition to 2G communication networks.

Reference numeral 1 of FIG. 2 shows that a 1x terminal, which first obtains a 1x communication network, transitions to a 2G communication network by a network distribution method according to the present invention. A 1x terminal transitioning from a 1x communication network to a 2G communication network may transition back to the 1x communication network as shown by reference number 2 according to the type of the call originating after the transition. Reference numeral 3 denotes a 1x network indicator included in an overhead message received from a 2G communication network by a 1x terminal entering the 1x-2G cross-acceptance area 100 from the 2G dedicated area 120 or the boundary area 110. This shows the case of confirming the existence of the 1x communication network and then transitioning to the 1x communication network. Reference number 4 is the opposite of reference number 3, where the 1x terminal entering the 2G dedicated area 120 from the 1x-2G cross-acceptance area 100 or the border area 110 acquires the 2G communication network.

3 is a flowchart illustrating a process performed in a mobile communication system as a network distribution method according to an embodiment of the present invention. Referring to FIG. 3, when the traffic of the 1x communication network is greater than or equal to a predetermined level in steps 200 to 210, NDSS (Network Directed System Selection) is set. Here, the NDSS setting is made by the switching center (MSC) of the mobile communication system. In addition, the traffic is more than a certain range may vary depending on the performance of each network base station (BSS), but from the network design standards, it means that the load is concentrated in the 1x network to the extent that the need for FA expansion. Here, the communication network base station aggregates a base station (BTS) and a base station controller (BSC). In the present invention, the NDSS indicates that the 1x communication network transitions to the 1x terminal to the 2G communication network. The 1x communication network transmits the SRM to the 1x terminal, and the 1x terminal receiving the SRM transitions to the 2G communication network. When the NDSS is set, the 1x network base stations connected to the switching center transmit the SRM to the 1x terminal according to the type of the outgoing call.

When the originating call is requested from the 1x terminal in step 215, the flow proceeds to step 220 to determine whether the received outgoing call is a voice call. If the determination result is not a voice call, communication corresponding to the outgoing call is performed. In addition, even after the call is terminated, the 1x terminal maintains a 1x communication network access state (1x Idle). Here, the communication network access state (Idle) is a standby state, the terminal monitors the paging transmitted to itself, and performs the location registration and handover when moving the area. As a result of the determination, if the type of the outgoing call is a voice call, in step 230, the originating terminal checks whether the transition is allowed to the 2G communication network. A flag indicating whether the originating terminal is allowed to transition between communication networks is recorded in the home location register (HLR). The transition allowance flag between communication networks may be determined according to the propensity of the subscriber when a new subscription of the corresponding terminal occurs. It may also be determined or changed through a history of use over a period of time. That is, if the usage history for the past three months is voice call-oriented, the terminal is set to allow transition to the 2G communication network, and the terminal having data-driven usage history is set to be serviced only to the 1x communication network without transitioning to the 2G communication network. do. As a result of the determination, if the transition to the 2G communication network is not allowed for the terminal, the process proceeds to step 235 to connect the requested voice call in the 1x communication network. As a result of the determination, if the transition to the 2G communication network is allowed for the terminal, the switching center transmits a transition control command to the 1x communication base station.

In step 240, upon receiving the transition control command from the switching center, the 1x communication base station transmits the SRM to the corresponding terminal. SRM is a message delivered only to a corresponding terminal, and includes a bandclass and a frequency of a communication network to transition to. The terminal receiving the SRM changes the connection from the currently connected communication network to the target communication network by using information about the transition target communication network included in the message. In the present invention, the 1x terminal receiving the SRM transitions from the 1x communication network to the 2G communication network.

In step 245, the 1x terminal transitioning to the 2G communication network maintains the 2G network connection after performing the voice call. Here, it is preferable that the 1x terminal maintains the 2G connection state rather than transitioning back to the 1x communication network after the end of the voice call. This is because a load due to location registration occurs in the 1x communication network immediately after the call ends. Therefore, even if the 1x terminal recognizes the existence of the 1x network through the 1x network indicator included in the overhead message transmitted by the 2G network, the 1x terminal does not transition to the 1x network when the 2x network is connected by SRM. Here, the overhead message is a system parameter message of a sync channel and a paging channel of a 2G communication network, and an indicator corresponds to an NID field among the fields of the message. The 1x terminal may check whether the 1x communication network overlaps according to the value of the NID.

The network distribution method described above may be performed in a state where the NDSS is not set in advance by the switching center, that is, the NDSS is set by the base station controller BSC. That is, each network base station may determine the transition between communication networks by itself when traffic exceeds a predetermined range. In more detail, when a voice call is received in a state where the traffic exceeds a certain range, the 1x communication base station inquires whether the transition between the communication networks of the terminal is allowed in the home location register and transmits the SRM to the terminal.

4 is a flowchart illustrating a process executed in a 1x terminal as a network distribution method according to an exemplary embodiment of the present invention. Referring to FIG. 4, in step 300, a 1x terminal that is powered on, enters a 1x-2G cross-acceptance area in a 2G dedicated area, or loses connection with a 1x network checks whether a 1x communication network exists. The 1x terminal located in the 1x-2G cross-acceptance area may confirm that the 1x communication network overlaps with the indicator included in the overhead message broadcast by the 2G communication network. If it is confirmed that the 1x communication network does not exist, the 1x terminal acquires the 2G communication network or maintains the current connection state in step 305. If it is confirmed that the 1x communication network exists, the flow proceeds to step 310.

In step 310, if the 1x communication network exists as a result of the check, it is determined whether the 1x terminal is currently connected to the 2G communication network due to the reception of the SRM. If it is determined that the 2G communication network is connected by the SRM, the current connection is maintained (step 315). If it is determined that the 2G communication network is not connected by the SRM, the 1x terminal acquires the 1x communication network in step 350.

In step 320, when the subscriber requests an outgoing call in the 2G communication network connection state, it is determined whether the outgoing call is a voice call. If it is determined that the voice call is performed in step 325 to 330, the voice call of the subscriber is processed through the currently connected 2G communication network, and the connection state is maintained even after the voice call ends. If the determination result is a data call, the 1x terminal acquires the 1x communication network in steps 335 to 345 and processes the data call requested by the subscriber, and maintains the 1x communication network connection even after the data call ends.

In step 350, the 1x terminal acquires the 1x communication network when the 2G communication network is not connected by the SRM. Thereafter, when the subscriber requests a voice call as an outgoing call in step 355, the subscriber transmits it to the 1x network base station. In step 360, if the SRM is received from the 1x communication network base station in response to the outgoing call, the process proceeds to step 360. If the voice call is connected in the 1x communication network without receiving the SRM in response to the outgoing call, the voice call is processed as in steps 340 to 345 and the connection state is maintained.

In steps 365 to 375, when the SRM is received in response to the voice call, the 1x terminal transitions to the 2G communication network to process the voice call and maintains the 2G communication network connection even after the voice call is terminated.

FIG. 5 illustrates a call processing process when traffic of a 1x communication base station is less than or equal to a predetermined range according to an exemplary embodiment of the present invention. Referring to FIG. 5, in step 400, a 1x terminal accessing a 1x communication network requests a voice call to a 1x communication base station. In step 405, the 1x network base station receiving the voice call sent from the 1x terminal transmits an Ack message to the 1x terminal. In step 410, if the traffic of the 1x network base station is less than a certain range and the NDSS is not set, the traffic channel is allocated for call processing for the voice call, and a message indicating that the traffic channel is allocated (ECAM; Extended Channel Assignment Message) Transmit to 1x terminal. After the call is terminated (step 415), the 1x terminal maintains a 1x communication network connection state.

6 illustrates an SRM operation when traffic of a 1x communication network base station according to a preferred embodiment of the present invention exceeds a predetermined range. Referring to FIG. 6, in step 450, a 1x terminal accessing a 1x communication network requests a voice call to a 1x communication base station. In step 455, the 1x network base station receiving the voice call originated from the 1x terminal transmits an Ack message to the 1x terminal. In step 460, when the traffic of the 1x network base station is above a certain range and is in the NDSS setup state, the 1x network base station generates an SRM to transmit the call processing for the voice call to the 2G network base station and transmits it to the 1x terminal. In step 465, the 1x terminal receiving the SRM from the 1x network base station acquires the sink channel and the paging channel of the 2G network by using the bandclass and the frequency of the 2G communication network that is the transition target included in the SRM and performs location registration in the 2G network. . In step 470, the 1x terminal acquiring the 2G communication network transmits the voice call to the 2G communication base station again. In step 475, the 2G network base station receiving the voice call sent from the 1x terminal transmits an acknowledgment message to the 1x terminal. In step 480, the 2G network base station allocates a traffic channel for call processing for the voice call, and transmits an extended channel assignment message (ECAM) to the 1x terminal indicating that the traffic channel has been allocated. After the call is terminated (step 485), the 1x terminal remains connected to the 2G communication network (step 490). In the present specification, a process of transmitting a voice call request to a 2G communication network base station by acquiring a sync channel and a paging channel of a 2G communication network after receiving an SRM, registering a location with a 2G communication network, and refers to communication network cloth.

7 illustrates a process of processing a voice call in a 2G network connection state according to a preferred embodiment of the present invention. Referring to FIG. 7, in step 500, when a 1x terminal connected to a 2G communication network is located in a 1x-2G cross-accommodation area where 1x communication networks overlap, even if the existence of the 1x communication network is determined through an overhead message, the reception of the SRM is not possible. If the 2G network is connected, the terminal does not transition to the 1x network. In step 505, the 1x terminal connected to the 2G communication network requests a voice call to the 2G communication base station. In step 510, the 2G communication base station receiving the voice call sent from the 1x terminal transmits an acknowledgment message to the 1x terminal. In step 515, the 2G network base station allocates a traffic channel for call processing for the voice call, and transmits an Extended Channel Assignment Message (ECAM) to the 1x terminal indicating that the traffic channel has been allocated. After the call is terminated (step 520), the 1x terminal maintains the 2G communication network connection state.

8 illustrates a process of processing a data call in a 2G network connection state according to a preferred embodiment of the present invention. Referring to FIG. 8, in step 550, when a 1x terminal connected to a 2G communication network is located in a 1x-2G cross-accommodation area in which 1x communication networks overlap, even if the presence of the 1x communication network is determined through an overhead message, the reception of the SRM is not possible. In the case of the 2G communication network connection state, it does not transition to the 1x communication network. In step 555, if the subscriber requests a data call, the 1x terminal acquires a paging channel of the 1x communication network in step 560. The paging channel acquisition of the 1x terminal is performed using an overhead message broadcast through the 2G communication network. In step 565, the 1x terminal connected to the 1x network requests the data call to the 1x network base station. In step 570, the 1x network base station receiving the data call sent from the 1x terminal transmits an Ack message to the 1x terminal. In step 575, the 1x network base station allocates a traffic channel for call processing for the data call, and transmits an extended channel assignment message (ECAM) to the 1x terminal indicating that the traffic channel has been allocated. After the call is terminated (step 580), the 1x terminal remains connected to the 2G network (step 585).

In the present specification, various embodiments of the present invention have been described with reference to the accompanying drawings. However, the accompanying drawings and the described embodiments are merely examples to enable those skilled in the art to easily understand the present invention. Therefore, the present invention is not limited to the above embodiments, and many variations are possible by those skilled in the art within the spirit of the present invention.

As described above, according to the present invention, by changing the communication network that processes it according to the type of call requested by the 1x terminal, the voice call is performed in the 2G communication network, and the data call requiring high data rate is accommodated in the 1x communication network. Therefore, the efficiency of the communication network is greatly increased. In addition, even if the number of subscribers of 1x terminal is increased, the voice call is performed in the 2G communication network which has a relatively low load, thereby reducing the investment cost due to the additional expansion of 1x FA. In addition, a data call requiring a high data rate can be accommodated in a 1x communication network to provide a subscriber with a high data rate.

In addition, according to the subscriber's preference, subscribers who frequently use voice calls requiring low data rates can use 2G communication networks using service redirection messages (SRM), and data calls requiring high data rates can use 1x networks. There is an effect of distributed acceptance of the intergenerational network. In addition, by continuously using the existing 2G network, which is in the situation of being replaced by 1x network, there is an effect of reducing the facility cost.

Claims (15)

A method for distributing a communication network in which two or more overlapping mobile communication networks transition a calling terminal connected to a first communication network to a second communication network according to a type of an outgoing call. Setting a transition allowance flag between communication networks of the calling terminal, wherein the transition allowance flag can be updated by a usage history of a predetermined period; Allowing a transition between communication networks according to the type of the outgoing call if the traffic of the continuously monitored first communication network exceeds a predetermined range; When an originating call is received from an originating terminal connected to the first communication network, determining whether the originating terminal is capable of making a transition to the second communication network with reference to the transition allowance flag; And If it is determined that the originating terminal is able to transition to the second communication network, transmitting a service redirection message (SRM) to the originating terminal, And the originating terminal receiving the SRM transitions to the second communication network and performs communication according to the originating call. The method of claim 1, wherein when a call request is received from an originating terminal connected to the first communication network, determining whether the originating terminal is capable of transitioning to the second communication network may include determining whether the originating call is a voice call. Network distributed method. The method of claim 1, wherein when a call request is received from an originating terminal connected to the first communication network, determining whether the originating terminal is capable of transitioning to the second communication network may further include determining whether the originating terminal is capable of transitioning to the second communication network. 2 is a step of determining whether or not transition between networks is allowed. The method of claim 1, wherein the first communication network is a communication network capable of high-speed data transmission, and the second communication network is a communication network capable of low-speed data transmission. The method of claim 1, wherein the communication network distribution method includes the cross-acceptance between the first communication network and the second communication network that broadcasts an overhead message indicating that the second communication network overlaps the first communication network. A network distribution method that runs in an allowed area. A method for distributing a communication network for transitioning an originating terminal connected to a data call based first communication network to a voice call based second communication network according to the type of an originating call in two or more overlapping mobile communication networks, Setting a transition allowance flag between communication networks of the calling terminal, wherein the transition allowance flag can be updated by a usage history of a predetermined period; Determining whether the originating call is a voice call when an originating call is received from an originating terminal connected to the first communication network; Determining that the originating terminal is capable of making a transition to the second communication network by referring to the transition allowance flag if the determination result is a voice call; And If it is determined that the originating terminal is able to transition to the second communication network, transmitting a service redirection message (SRM) to the originating terminal, And the originating terminal receiving the SRM transitions to the second communication network and performs communication according to the originating call. 7. The method of claim 6, wherein if the determination result is a voice call, determining whether the originating terminal is able to transition to the second communication network is a step of determining whether the traffic of the first communication network exceeds a predetermined range. Way. The method of claim 6, wherein if the determination result is a voice call, determining whether the originating terminal is able to transition to the second communication network may include determining whether a transition between the first communication network and the second communication network is allowed for the originating terminal. A network distribution method that is a step of determining. A mobile communication system including two or more overlapping communication networks and allowing a terminal connected to a first communication network to transition to a second communication network according to a type of an outgoing call. A home location register (HLR) for storing a setting of a transition permission flag between the first communication network and the second communication network of a terminal, wherein the transition permission flag can be updated by a usage history of a predetermined period; An exchange station for determining a transition allowance between the first communication network and the second communication network, and determining whether a transition is permitted to the second communication network of the terminal with reference to the home location register when receiving an outgoing call from the terminal; (MSC); A first communication network base station (BSS) coupled to the switching center, for managing the first communication network to which the terminal initially connects, and for transmitting a service redirection message (SRM) to the terminal according to a transition control command received from the switching station; ; And A second communication network base station (BSS) coupled to the switching center, for managing the second communication network to which the terminal that has received an SRM transitions, and performing communication according to the outgoing call of the terminal that has transitioned from the first communication network; Including mobile communication system. The mobile communication system according to claim 9, wherein the switching center determines whether the terminal can transition to the second communication network when the traffic of the first communication network exceeds a predetermined range. The mobile communication system according to claim 9, wherein the switching center determines whether the terminal can transition to the second communication network if the originating call is a voice call. 10. The mobile communication system of claim 9, wherein the setting for allowing transition between communication networks stored in the home location register is determined upon subscription of the terminal. The mobile communication system according to claim 9, wherein the setting for allowing transition between networks stored in the home location register is changeable according to the first network usage history of the terminal. delete delete

Images