KR100738919B1 - Method and system for providing priority service quality for network game service in 1x ev-do system - Google Patents

Abstract

A method and a system for providing priority QoS(Quality of Service) to a network game service in a 1x EV-DO(Evolution-Data Only) system are provided to solve a problem that 1x EV-DO system cannot recognize a service used by a user of a mobile terminal, so it cannot provide QoS for each service. After a call setup is completed with a 1x EV-DO system, a mobile terminal(100) implements an RRI(Reverse Rate Indicator) as a fixed value and provides a network game service. An ANTS(Access Network Transceiver Subsystem)(114) provides a high-speed packet data service to the mobile terminal(100), and performs QoS by giving priority to the network game service. An ANC(Access Network Controller)(124) controls such that data is received from the ANTS(114) and transmitted to a PDSN(Packet Data Serving Node), detects an RRI, and determines whether the RRI has been fixed in order to check whether the mobile terminal(100) is using the network game service.

Description

1 Method and System for Providing Priority Service Quality for Network Game Service in 1X EV-DO System}

1 is a diagram showing a system for providing priority service quality to a network game service in a 1X EV-DO system according to an embodiment of the present invention;

2A and 2B are flowcharts illustrating a method for providing priority service quality to a network game service in a 1X EV-DO system according to an exemplary embodiment of the present invention.

<Description of Symbols for Main Parts of Drawings>

100: mobile communication terminal 110: base station transmitter

112: 1X transmitter 114: access network transmitter

120: base station controller 122: 1X controller

124: access network controller 130: mobile communication switching center

140: home location register 150: General ATM Network (GAN)

152: Data Location Register 154: Access Network Authentication Server

160: packet data serving node

The present invention relates to a method and system for providing priority service quality to a network game service in a 1X EV-DO system. More specifically, after the mobile terminal finishes the call setup with the EV-DO network in the 1X EV-DO system, the mobile terminal uses the network game service by detecting a reverse rate indicator (RRI). The present invention relates to a method and a system for determining scheduling and applying a priority to a forward link of a mobile communication terminal.

The mobile communication system has been developed through the first generation analog AMPS (Advanced Mobile Phone Systems), the second generation cellular (Celluar) / personal communication service (PCS), and the third generation high speed data. International Mobile Telecommunication-2000 (IMT-2000), which is a communication, has been developed and commercialized.

IMT-2000 system for multimedia mobile communication service has defined the standard of synchronous IMT-2000 system in 3GPP (3rd Generation Partnership Project), an international standardization organization, and Qualcomm's HDR (Qualcomm) as a method for high speed packet transmission. High data rate) is named as "1x EV (Evolution)" and has been established as an international standard. Code Division Multiple Access (CDMA) 2000 1x Data Optimized (EV-DO) is an evolution of CDMA 2000 1x, which only transmits data in CDMA 2000 1x.

Hereinafter, for convenience of description, the CDMA 2000 1x system will be abbreviated as "1X system" and the "CDMA 2000 1x EV-DO system" will be briefly described as "EV-DO system".

The EV-DO system provides a bidirectional high speed packet data service having a transmission rate of up to 2.4 Mbps for packet data only, and is used in combination with a 1X system. That is, the EV-DO system and the 1X system are mixed in hardware in one wireless base station or base station controller, and operations are performed separately.

In other words, the base station transmitter is provided with a channel card for allocating an EV-DO system and a channel card for 1X system, respectively, and the base station controller also processes data for processing packet data transmitted and received by the EV-DO system. Data processing boards are provided to process the data transmitted and received by the board and the 1X system.

Meanwhile, the mobile communication terminal uses an EV-DO system to transmit and receive multimedia data. In order to receive a multimedia service from the EV-DO system, the mobile communication terminal attempts to set up a call to the EV-DO system.

The 1X EV-DO system supports various services such as FTP, WAP, general data service, VOD, MOD, video telephony, PTT, real-time game and broadcast service. Among these various services, there are many services requiring real time. For example, the conventional network game service can be sufficiently serviced without real-time processing, but real-time processing is required for current and future network game services.

However, in the conventional 1X EV-DO system, a service used by a user of the mobile communication terminal cannot be identified, and thus a quality of service (QoS) for each service cannot be provided. Thus, when a mobile communication terminal uses a network game service, the 1X EV-DO system does not guarantee a quality of service such as real time processing.

In order to solve the above problem, the present invention, after the call setup with the EV-DO network is terminated in the 1X EV-DO system, the mobile communication terminal detects the RRI (Reverse Rate Indicator) It is an object of the present invention to provide a method and system for determining that a network game service is used and performing scheduling by applying a priority to a forward link of a mobile communication terminal.

According to a first object of the present invention, in a method for providing priority service quality to a network game service in a 1X EV-DO system, (a) a mobile communication terminal sends a connection request (Connection_Request) message to an access network controller (ANC); Transmitting to an Access Network Controller; (b) the access network controller requesting session information from a data location register (DLR), and the data location register transmitting the session information to the access network controller; (c) the access network controller making a channel allocation request to an access network transceiver (ANTS), and the access network transmitter notifying the access network controller of channel configuration information; (d) the access network controller transmitting a traffic channel assignment (Traffic_Channel_Assignment) message to the mobile communication terminal, and the mobile communication terminal transmitting a reverse track channel (Reverse_Traffic_Channel) message to the access network controller; (e) the mobile communication terminal transmitting a traffic channel completion message to the access network controller to complete a call setup between the mobile communication terminal and the 1X EV-DO system; (f) the access network controller detecting a reverse rate indicator (RRI) to determine whether the RRI is fixedly implemented; And (g) if it is determined in step (f) that the RRI is fixedly implemented, the access network transmitter includes performing scheduling by applying a priority to a forward link of the mobile communication terminal. The present invention provides a method of providing priority service quality to a network game service in a 1X EV-DO system.

According to a second aspect of the present invention, in a 1X EV-DO system that provides priority service quality to a network game service, the terminal receives high-speed packet data service from the 1X EV-DO system, and the 1X EV-DO system. A mobile communication terminal providing the network game service by implementing a reverse rate indicator (RRI) to a fixed value after call setup is completed with a system; An access network transmitter that provides the high-speed packet data service to the mobile communication terminal through an air interface, and performs a quality of service (QoS) by giving priority to the network game service; And receiving data from the access network transmitter and controlling the packet to be transmitted to a packet data serving node (PDSN) through a general ATM network (GAN), performing detection on the RRI, and performing the detection by the RRI. It provides a 1X EV-DO system for providing a priority service quality to the network game service, characterized in that it comprises a access network controller for determining whether the mobile communication terminal uses the network game service by determining whether it is fixedly implemented. do.

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.

1 is a diagram illustrating a system for providing priority service quality to a network game service in a 1X EV-DO system according to an exemplary embodiment of the present invention.

In the 1X EV-DO system according to the preferred embodiment of the present invention, a system for providing priority service quality to a network game service includes a mobile communication terminal 100, a 1X transmitter 112, a 1X controller 122, and a mobile communication switching center ( 1X system including Mobile Switching Center (MSC) 130 and Home Location Register (HLR) 140, mobile communication terminal 100, and Access Network Transceiver Subsystem (ANTS) 114 Access network controller (ANC) 124, general ATM switch network (GAN) 150, data location register (DLR) 152, access network Evolution Data Optimized (EV-DO) including an authentication server (AN-AAA) Access Network-Authorization Authentication Accounting (AN-AAA) 154 and a Packet Data Serving Node (PDSN) 160 ) Consists of a system.

The mobile communication terminal 100 is a terminal that receives a voice service and a low speed data service using a 1X system, and receives a high speed packet data service using an EV-DO system.

The mobile communication terminal 100 transmits a connection request (Connection_Request, hereinafter referred to as CR) message to the EV-DO network to receive a multimedia service from the EV-DO network, and allocates a traffic channel from the EV-DO network (Traffic_Channel_Assignment). When receiving a 'TCA' message, the UE transmits a Reverse_Traffic_Channel (hereinafter referred to as RTC) message to the EV-DO network.

The mobile communication terminal 100 receives a RTC_Ack (RTC_Acknowledgement) message, which is an acknowledgment message for the RTC message, from the EV-DO network and transmits a traffic channel completion message (TCC) to the EV-DO network. The call setup is completed.

Thereafter, the mobile communication terminal 100 implements a fixed RRI (Reverse Rate Indicator) value to use a network game service, and receives a high-speed packet data service from the EV-DO network. In this case, RRI means a reverse data transmission rate transmitted from the mobile communication terminal 100 to the EV-DO and is determined to be 26.67 ms. The RRI is determined according to available power, data length that the mobile communication terminal should send, and reverse activity bit (RAB).

Detecting whether the RRI value is fixed for the network game service in the EV-DO network, and performing the QoS (Quality of Service) for the network game service, the priority of the forward link of the mobile communication terminal 100 The ranking is applied and scheduling is performed. Here, QoS is a standard that indicates the quality of data transmission in a communication network. It is a network service standard that must be satisfied to guarantee a sufficient service level for data transmission such as video. A network technology that reserves bandwidth in advance. QoS classifies network traffic according to the priority of transmission and transmits high-priority traffic first, so that real-time programs such as network games, video, and video call use the network bandwidth most efficiently. .

The 1X transmitter 112 and the access network transmitter 114 are base station transceiver subsystems (BTSs) 110, which include voice and data in the mobile communication terminal 100 through an air interface. Provide communication services. In other words, the mobile communication terminal 100 receives a voice or data service using the 1X transmitter 110 and receives a packet data service using the access network transmitter 140.

When the access network controller 124 detects a fixed RRI value, the access network transmitter 140 performs scheduling by applying a priority to the forward link of the mobile communication terminal 100.

The 1X controller 122 and the access network controller 124 are base station controllers (BSCs) 120 and control the operation of the 1X transmitter 110 and the access network transmitter 140. That is, the 1X controller 122 for controlling the transmission of voice or data receives the voice or data from the 1X transmitter 112 and transmits it to the mobile switching center 130, and the access network controller 124 transmits the access network transmitter 114. Receives the data from the GAN 150 and transmits it to the PDSN (160).

The access network controller 124 detects whether the RRI value is fixed for the network game service, and performs QoS for the network game service. The criterion of detection here includes the starting point, duration, period, tolerance error and RRI fixed value. The starting point means from which point the detection of the RRI value will begin, and the duration means how many seconds the detection will be performed. In addition, the period means how many seconds to measure the RRI value, and the allowable error value means how many RRI values different from the fixed RRI value are allowed. In addition, the RRI fixed value means a reference detection value of 9.6 k, 19.2 k, 38.4 k, 76.8 k, 153.6 k and the like.

The mobile switching center 130 performs basic and additional service processing for providing a voice communication service, reception and outgoing call processing of a subscriber, location registration procedure and handoff procedure, and interworking with other networks.

The home location register 140 receives location information of the mobile communication terminal 100 and performs functions such as location registration, registration deletion, and location verification of the mobile communication terminal 100. In addition, the home location register 140 stores profile information of the mobile communication terminal 100.

One GAN 150 is provided for each mobile communication switching center 130 and is a communication device connected to the base station controller 120 to perform a routing function of packet data in an EV-DO system. That is, it serves as a switch for performing a soft handoff between the base station controller 120 to the mobile communication terminal 100 to which traffic is connected, and a packet control function (PCF) function for packet data service. Do this. In addition, it performs a function of connecting the data location register 152, access network authentication server 154 and PDSN 160 for packet data service.

The data location register 152 is connected to the access network controller 124 of the EV-DO system and Transmission Control Protocol / Internet Protocol (TCP / IP) to establish location information and paging zone of the mobile communication terminal 100. It is a device that supports the mobility of the mobile communication terminal by managing.

The access network authentication server 154 authenticates the mobile communication terminal 100 using the packet data service by using the EV-DO system to perform a packet data service. Therefore, the access network authentication server 154 is a service status such as MIN (Mobile Identification Number), ESM (Elctronic Serial Number) and service request, termination, origination / suspension of the mobile communication terminal 100 applying for packet data service Save the information.

The PDSN 160 establishes a PPP and TCP / IP protocol between a radio access network (RAN) and a data core network (DCN) including an access network transmitter 114 and an access network controller 124. Provides packet data services.

2A and 2B are flowcharts illustrating a method for providing priority service quality to a network game service in a 1X EV-DO system according to an exemplary embodiment of the present invention.

In order to receive the packet data service from the EV-DO system, the mobile communication terminal 100 must enter a traffic state. In order for the mobile communication terminal 100 to enter a traffic state, a connection and a session must be established to transmit and receive data with the access network transmitter 114 and the access network controller 124.

The mobile communication terminal 100 transmits a connection request (Connection_Request, hereinafter referred to as CR) message to the access network controller 124 through an access channel according to a user's key input (S202). ).

The access network transmitter 114 receiving the CR message from the mobile communication terminal 100 transmits an ACAck (Access_Channel_Acknowledge) message indicating that the CR message is received to the mobile communication terminal 100 through a control channel (Control Channel) ( S204).

The access network controller 124 requests the session information by transmitting a Session_Retrieve_Request message to the data location register 152 (S206).

The data location register 152 receiving the session information retrieves session information about the mobile communication terminal 100 from the database and transmits the session information search result to the access network controller 124 to form a session (S208).

The access network controller 124 makes a channel allocation request to the access network transmitter 114 (S210). The access network transmitter 114 allocates a fundamental channel (FCH) and a supplemental channel (SCH) and notifies the access network controller 124 of channel configuration information allocated to the mobile communication terminal 100 (S212).

The access network controller 124 transmits a traffic channel allocation (Traffic_Channel_Assignment, hereinafter, 'TCA') message including a sequence number of the base station and the neighboring base station to the mobile communication terminal 100 (S214). ).

The mobile communication terminal 100 transmits a reverse traffic channel (Reverse_Traffic_Channel, hereinafter, 'RTC') message that is a response message to the received TCA message to the access network controller 124 (S216), and the access network controller 124. In step S218, the RTC_Ack message indicating that the RTC message has been received is transmitted to the mobile communication terminal 100.

The mobile communication terminal 100 transmits a traffic channel completion (Traffic_Channel_Complete) message indicating that a reverse link between the access network transmitter 114 and the mobile communication terminal 100 has been established. 124) (S220).

The access network controller 124 completes the call setup between the mobile communication terminal 100 and the EV-DO system by receiving the TCC message (S222).

The access network controller 124 detects the RRI value (S224). The RRI value, which is a reverse data transmission rate value sent by the mobile communication terminal 100 to the access network transmitter 114, varies according to available power, data length that the mobile communication terminal should send, and reverse activity bit (RAB). When 100) uses a special purpose service including a network game service, the RRI value is fixed.

The access network controller 124 detects the RRI value, and determines whether the RRI value is fixedly implemented to use the network game service (S226). Criteria for detection include start point, duration, period, tolerance error and RRI fixed value.

If it is determined in step S226 that the RRI value is fixed and implemented, the access network transmitter 114 determines the service being used by the mobile terminal 100 as a network service and performs QoS (S228). That is, if the RRI value exceeds the allowable error value compared to the RRI fixed value during the duration, the access network controller 124 determines that the RRI value is fixed and implemented.

The access network transmitter 140 performs scheduling by applying a priority to the forward link of the mobile communication terminal 100 (S230). The access network transmitter 140 classifies network traffic by giving priority to the network game service, and transmits network traffic for the network game service preferentially.

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. Accordingly, the embodiments disclosed in the present invention are not intended to limit the technical spirit 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, in the 1X EV-DO system, it is determined that the mobile communication terminal is using the network game service, and the scheduling is performed by applying a priority to the forward link of the mobile communication terminal. This has the effect of ensuring quality for the service.

Claims (15)

In the 1X EV-DO system to provide priority service quality to network game services, (a) the mobile terminal transmitting a connection request (Connection_Request) message to an access network controller (ANC); (b) the access network controller requesting session information from a data location register (DLR), and the data location register transmitting the session information to the access network controller; (c) the access network controller making a channel allocation request to an access network transceiver (ANTS), and the access network transmitter notifying the access network controller of channel configuration information; (d) the access network controller transmitting a traffic channel assignment (Traffic_Channel_Assignment) message to the mobile communication terminal, and the mobile communication terminal transmitting a reverse track channel (Reverse_Traffic_Channel) message to the access network controller; (e) the mobile communication terminal transmitting a traffic channel completion message to the access network controller to complete a call setup between the mobile communication terminal and the 1X EV-DO system; (f) the access network controller detecting a reverse rate indicator (RRI) to determine whether the RRI is fixedly implemented; And (g) if it is determined in step (f) that the RRI is fixedly implemented, the access network transmitter performing scheduling by applying a priority to a forward link of the mobile communication terminal; Method for providing a priority service quality to the network game service in the 1X EV-DO system comprising a. The method of claim 1, wherein in step (a), And the access network transmitter transmits an ACAck (Access_Channel_Acknowledge) message indicating that the access request message has been received to the mobile communication terminal. According to claim 1, wherein step (b), (b1) the access network controller requesting the session information from the data location register; (b2) the data location register retrieving the session information from a database; And (b3) the data location register transmitting the search result of the session information to the access network controller; Method for providing a priority service quality to the network game service in the 1X EV-DO system, characterized in that it comprises a. The method of claim 1, wherein in step (c), The access network transmitter prioritizes a network game service in a 1X EV-DO system, which allocates a basic channel (FCH) and an additional channel (SCH) to a forward link of the mobile communication terminal. How to Provide Quality of Service. The method of claim 1, wherein in step (d), And the access network transmitter transmits an RTC_Ack message to the mobile terminal in response to the reverse traffic channel message. The method of claim 1, wherein in step (f), Wherein the RRI is a reverse data rate value sent from the mobile communication terminal to the access network transmitter. The method of claim 6, wherein the RRI, Providing priority service quality to a network game service in a 1X EV-DO system, characterized by varying by the available power of the mobile communication terminal, the data length to be transmitted by the mobile communication terminal, and Reverse Activity Bit (RAB). Way. The method of claim 6, And providing the priority service quality to the network game service in the 1X EV-DO system, wherein the RRI value is fixed when the mobile communication terminal uses the network game service. The method of claim 1, wherein in step (f), The determination criteria of the detection includes a starting point, a duration, a period, an allowable error value and an RRI fixed value. The method of providing priority service quality to a network game service in a 1X EV-DO system. 10. The method of claim 9, wherein the RRI fixed value is, And a baseline RRI value of said detection comprising 9.6 k, 19.2 k, 38.4 k, 76.8 k, and 153.6 k. The method of claim 9, wherein in step (f), Priority service to the network game service in the 1X EV-DO system, characterized in that the RRI is determined to be implemented when the number of times the RRI is not equal to the RRI fixed value during the duration exceeds the allowable error value How to provide quality. The method of claim 1, wherein the method is A method of providing priority service quality to a network game service in a 1X EV-DO system, characterized in that it is applied to a special purpose service providing real-time high-capacity data including a video service and a video call service as well as the network game service. . In the 1X EV-DO system that provides priority quality of service to network game services, A mobile terminal that receives a high-speed packet data service from the 1X EV-DO system, and implements a reverse rate indicator (RRI) at a fixed value after completing call setup with the 1X EV-DO system to provide the network game service. Communication terminal; An access network transmitter that provides the high-speed packet data service to the mobile communication terminal through an air interface, and performs a quality of service (QoS) by giving priority to the network game service; And Receives data from the access network transmitter and controls transmission to a packet data serving node (PDSN) through a general ATM network (GAN), performs detection on the RRI, and fixes the RRI. And determine whether the mobile communication terminal uses the network game service. 1X EV-DO system that provides a priority service quality to the network game service comprising a. The system of claim 13, wherein the system is And a data location register (DLR) for receiving session information from the access network controller, retrieving data from a database, and transmitting the session information to the access network controller. 1X EV-DO system with ranking quality of service. The method of claim 13, The access network controller determines that the RRI is fixedly implemented for the network game service when the number of RRIs different from the fixed RRI value exceeds an allowable error value. 1x EV-DO system providing.

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