KR100278779B1 - Confirmation existence of mobile subscriber terminal in radio access unit - Google Patents

Abstract

The present invention relates to a method for checking the presence of a mobile wireless subscriber in a mobile wireless coupler. In a method of checking the existence of a mobile subscriber station in a mobile radio combiner by allocating a hello channel, if there is a margin among traffic channels, the channel is designated as a hello channel and informed through a control packet. As a result, when a call request packet is received in the RAU, if the corresponding MST does not exist in the current RAU area, the paging time is reduced, and thus a faster response can be transmitted, and the corresponding MST exists in the current RAU area. In this case, even if the paging time is a little longer, the call setup is more reliable than before. Therefore, the efficiency in call setup can be increased.

Description

Method of handling call request according to existence of mobile terminal in mobile communication system {CONFIRMATION EXISTENCE OF MOBILE SUBSCRIBER TERMINAL IN RADIO ACCESS UNIT}

The present invention relates to a communication method in a mobile communication system, and more particularly, to a method for managing a location of a registered mobile terminal in a base station.

1 is a diagram conceptually showing a cell structure formed by one base station in a typical mobile communication system.

Referring to FIG. 1, a cell 1 means a range that can be serviced by one base station (hereinafter, referred to as “RAM”) 10. One RAM 10 forming the cell 1 registers mobile terminals (hereinafter, referred to as "MST") 11, 12 and 13 located in the cell 1 to provide a communication service generated later. Will be supported. That is, the RAM 10 performs a function of providing a communication service between the external network corresponding to the wired network and the MSTs 11, 12, 13 connected through the wireless network.

Looking at the process in which the call is made by a call request from the external network in the cell 1 configuration as described above, the RAU 10 registers when a call request with any MST is received from the external network. The MSTs 11, 12, and 13 are examined to determine whether the corresponding MST is registered. The determination may be made by the subscriber management list. At this time, if it is determined that the MST is registered, the RAU 10 transmits a paging message through a paging channel so that a call with the mobile terminal can be made in response to the call request. That is, in the conventional mobile communication system, when an arbitrary "call" request (call request) for searching for a predetermined MST is received, the RAU 10 knows the subscribed MSTs, but the MST does not know when the call request occurs. Since it is not known whether it exists in the area, a "page" packet is transmitted through the control channel to find the corresponding MST.

However, in the above-described conventional method, when a page response packet indicating an ACK is received from a corresponding MST within a predetermined time, a series of procedures for call setup are performed. However, when the page response packet is not received, the corresponding MST is not available at that time. Knows that it is not currently in its area and sends a call release message, or "call release," to indicate that the call is incapable to the calling party. Therefore, in the conventional mobile communication system, when a call request is received, a call setup time is slowed down by unconditionally transmitting a paging packet and waiting for a predetermined time.

Accordingly, an object of the present invention is to allow a base station to know which mobile terminal exists in its area by transmitting a packet informing the base station of its existence in order to solve the above problem.

It is still another object of the present invention to maintain a list of packets transmitted to a base station so that when a call request is received, the time for performing a paging after searching the list first is adjusted.

In order to achieve the above objects, the present invention provides a method for checking the existence of a mobile terminal at a base station by allocating a hello channel. It is to provide a method characterized by.

1 conceptually illustrates a cell structure formed by one base station in a typical mobile communication system.

2 is a diagram illustrating a control flow performed for location management in a mobile terminal according to one embodiment of the present invention;

3 is a diagram illustrating a control flow performed by a call request from a base station to a mobile terminal according to an embodiment of the present invention.

4 is a diagram illustrating a control flow performed by the base station to allocate a hello channel according to an embodiment of the present invention.

5 is a diagram illustrating a control flow performed when a call request is generated in a state where a hello channel is allocated in a base station according to an embodiment of the present invention.

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

2 is a diagram illustrating a control flow performed for location management in a mobile terminal according to one embodiment of the present invention.

Referring to FIG. 2, when an arbitrary MST wants to transmit a hello packet in step 100, in step 102, it is determined whether it is time to transmit a hello message for the hello packet periodically transmitted by the MST. If it is time to send the hello message, step 104 of receiving and analyzing the control packet from the RAU is performed. If it is not time to send the hello message, the process returns to step 102 to determine the hello message transmission time again. In step 104, whether the hello channel is designated through the control packet received and analyzed is determined. If it is specified, step 108 is performed to transmit the hello packet to the corresponding channel. When the next period without the transmission, the process returns to step 102 to determine whether it is time to send the hello message in order to transmit the hello packet.

3 is a diagram illustrating a control flow performed by a call request from a base station to a mobile terminal according to an embodiment of the present invention.

Referring to FIG. 3, a call request is received from step 200 to step 202. Next, in step 204, it is determined whether the corresponding MST exists in the subscriber registration list (Affil list). Since the subscriber registration list is a management list that is commonly used to manage mobile terminals handed over from the base station to its service area, detailed definitions thereof will be omitted. If the corresponding MST exists in step 204, it is checked in step 206 whether the hello packet received from the corresponding MST exists in the hello list. If the received hello packet exists, the operation 208 is performed to check whether the packet is periodically received. If it is received periodically, the call setup procedure is performed in step 214, step 216, and step 218 by making the paging time somewhat longer by determining that the corresponding MST exists in the current area in step 210, and step 224. The step concludes by sending a call request. However, if it is not received periodically in step 208, it is determined that the corresponding MST is currently out of its own area, and in step 212, the paging time is slightly shortened. Message).

4 is a diagram illustrating a control flow performed by the base station to allocate a hello channel according to an embodiment of the present invention.

Referring to FIG. 4, when a call release (call release) message is received from step 300 to step 302, the RAU determines whether the traffic channel is full in step 304, and releases it in step 306 when it is a pool. Ending by transmitting a control packet in step 310 by designating a channel as a hello channel. However, in step 304, if the current traffic channel is not a pool, in step 308, one random channel among the free channels is designated as a hello channel, and in step 310, the control packet is transmitted.

5 is a diagram illustrating a control flow for releasing a hello channel in a RAU when a call request is received. Referring to the figure, when the RAU receives a call request message from step 400 to step 402, in step 404, the RAU determines whether five traffic channels are occupied. In the case of five traffic channels occupied at present, in step 406, the hello channel assignment of the control packet is deleted, so that one empty channel is used as the traffic channel in step 408, and the process is finished in step 410 by not receiving the hello packet. However, if the traffic channel currently occupied in step 404 is not five, step 408 is directly performed to allocate one free channel as a traffic channel.

As such, the RAU transmits a control packet informing the information of the system through the control channel. In this packet, the hello channel to receive the hello packet from the MST is designated as one of the traffic channels. When not in use, no hello packet is received by not specifying a hello channel.

When the channel is designated using the hello channel information of the control packet, the MST transmits a hello packet indicating its existence to the corresponding channel, and this process is performed periodically.

When the RAU receives the call request packet, the RAU determines whether the corresponding MST exists through the hello packet list. If a hello packet is periodically received from the MST, the MST is considered to be present in its area. If the hello packet is not received periodically, it is assumed that the MST is present in its own area. It determines that it does not exist in the area, shortens the page time to confirm that it does not exist in the area, and then sends a call release.

As such, the RAU designates the traffic channel as a hello channel if there is room in the traffic channel, and transmits control packets through the control channel, but does not designate a hello channel if there is no room in the traffic channel. Do not receive packets.

As described above, in the present invention, in the operation of the RAU and the MST, a packet indicating the presence of an MST called "hello" is added to periodically transmit and receive. As a result, when a call request packet is received in the RAU, if the corresponding MST does not exist in the current RAU area, the paging time is reduced, and thus a faster response can be transmitted, and the corresponding MST exists in the current RAU area. In this case, even if the paging time is a little longer, the call setup is more reliable than before. Therefore, the efficiency in call setup can be increased.

Although described with reference to a preferred embodiment of the present invention as described above, it will be understood that various modifications and changes can be made without departing from the spirit and scope of the invention as set forth in the claims below.

Claims (6)

In the call processing method of a mobile communication system providing a communication service by a call request with a predetermined mobile terminal received through a wired network, Designating any one of the unused traffic channels as a hello channel and transmitting a control message including the designated hello channel to mobile terminals through a common control channel; Receiving hello packets from the mobile terminals through the designated hello channel, and registering mobile terminals transmitting the received hello packet in a hello list; Determining whether the corresponding mobile terminal is registered in the hello list when the call request is received; And transmitting a paging message for calling the corresponding mobile communication terminal through a paging channel when the hello list is registered in the hello list according to the presence of the mobile terminal in the mobile communication system. The method of claim 1, In the designation of the hello channel, if all traffic channels are in use, the mobile terminal further comprises the step of designating one of the traffic channels released from the used traffic channels as a hello channel. Method of handling call request according to the above. The method of claim 1, If the hello channel is designated and the call request is received but the assignable traffic channel does not exist, the process further comprises the step of releasing the hello channel and assigning it to the traffic channel. Method of handling call request according to the above. The method of claim 1, And registering the reception period information of the corresponding hello packet from the mobile terminal in registering the mobile terminal in the hello list. 10. The call request processing method according to the presence of the mobile terminal in the mobile communication system. The method of claim 3, Mobile communication characterized by determining the paging time of the paging message if the hello packet from the corresponding mobile terminal is periodically received by checking the reception period information of the corresponding mobile terminal if registered in the hello list. Call request processing method according to the existence of mobile terminal in the system. The method of claim 1, If it is determined that the corresponding mobile terminal is not registered in the hello list, the mobile terminal does not transmit a paging message but transmits a call release message to the calling party requesting the call. How to handle call requests based on existence.