KR101882489B1 - Terminal and communicating method thereof - Google Patents

Abstract

A communication method of a terminal capable of operating in a relay mode or a base station mode is disclosed. When the terminal receiving the service from the first base station detects the failure of the service connection with the first base station, the terminal searches for a second base station which is an available neighbor base station. The MS transmits a ranging request message including the BS ID of the first BS to the second BS.

Description

[0001] TERMINAL AND COMMUNICATION METHOD THEREOF [0002]

The present invention relates to a communication method of a terminal and a terminal.

In the event of a disaster or a disaster, critical infrastructure may be destroyed or damaged. A variety of communication facilities such as wireless telephones, landline telephones and internet networks are considered to be important facilities for social infrastructures. If such communication facilities are destroyed or damaged, social congestion may increase and it may be difficult to secure social restoration capability.

Therefore, it is important to support High Reliability, which provides a way to quickly repair or replace communication facilities.

In particular, if a base station that plays a key role in communication of a mobile terminal is damaged or a power line is destroyed and can not serve as a base station, a variety of inaccessible areas may occur.

Thus, it is necessary to provide means for providing wireless communication service in a service disabled area due to damage of the base station.

Currently, IEEE 802.16n, which is an international standard conference, proposed a method in which a multi-function terminal performs a relay mode or a base station as well as a direct communication between terminals as an alternative means of wireless communication in a service incapable area. According to the Amendment Working Draft [1] of IEEE8012.16n, as the mobile communication infrastructure can no longer operate the network, or as a supplementary alternative means according to a special mission, the multi-function terminal may request a superordinate base station, It can switch itself to a repeater or base station role function to build and operate a temporary network.

In order for the multi-function terminal to function as a repeater or a base station, it is necessary for the higher-order base station to select an optimal terminal to operate in the relay mode or the base station mode among the lower multi-function terminals. If the candidate multi-function terminals are equipped with a satellite position-based system such as GPS, the higher-level base station can select the optimal multi-function terminal by locating the multi-function terminal using the satellite position based system. However, if the multi-function terminal is not equipped with GPS, another method is needed for the high-order base station to grasp the location of the multi-function terminal.

A problem to be solved by the present invention is to provide a method of selecting an optimal multi-function terminal to operate in a relay mode or a base station mode.

According to an embodiment of the present invention, a communication method of a terminal capable of operating in a relay mode or a base station mode is provided. The method comprises the steps of: detecting whether a terminal having received a service from a first base station is unable to establish a service connection with the first base station; if the terminal detects that the service can not be connected, And transmitting the ranging request message including the base station identifier (BSID) of the first base station to the second base station.

The method may further include selecting an optimal multi-function terminal using the base station identifier when the second base station restores the temporary network through the terminal.

When the UE searches for the second base station after a predetermined delay time, the ranging request message may further include a coverage loss indicator field.

The ranging request message may further include a ranging target indication field, and the ranging target indication field may be set to information indicating initial network entry.

The ranging request message may further include a ranging purpose indication field. When the terminal searches for the second base station after a predetermined delay time, the ranging request message may include a ranging target indication Field may be set to information indicating initial network entry due to coverage loss.

The ranging request message may further include a ranging purpose indication field. When the mobile station searches for the second base station without delaying the second base station, May be set to information indicating that the network is reentrant.

According to another embodiment of the present invention, a terminal is provided. The terminal may include an RF module and a processor connected to the RF module and controlling the base station to operate in a relay mode or a base station mode. And transmit a ranging request message including the BSID of the serving BS to the neighbor BS.

The neighbor base station can select a multi-function terminal using the BS ID when recovering the temporary network through the MS.

If the neighbor base station is searched after a predetermined delay time, the ranging request message may further include a coverage loss indicator field.

If the neighbor base station is searched after a predetermined delay time, the processor can control the neighbor base station to perform an initial network entry procedure, and the ranging request message includes a ranging purpose indication (Ranging Purpose Indication) field And the ranging target indication field may be set to information indicating initial network entry due to coverage loss.

When the neighbor base station is directly searched without delay time, the processor can control the neighbor base station to perform the network re-entry procedure.

According to an embodiment of the present invention, when recovering a temporary network through a multi-function terminal at a base station adjacent to a destroyed cell (i.e., a service disabled cell), the BSID of the previous serving base station of the connected multi- It is possible to select an optimal multi-function terminal to operate in the relay mode or the base station mode.

1 is a diagram illustrating a case where a BS is damaged in a mobile communication system according to an embodiment of the present invention.
2 is a diagram illustrating a method for transmitting a BSID of a serving BS to a neighbor BS 300 when a multi-function terminal 130 according to an exemplary embodiment of the present invention reconnects to a network.
3 is a diagram illustrating a method of transmitting a BSID of a serving BS to an adjacent BS 300 in an initial network entry of the multi-function terminal 130 according to an embodiment of the present invention.
4 is a diagram illustrating another method of transmitting a BSID of a serving BS to an adjacent BS 300 in an initial network entry of the multi-function terminal 130 according to an embodiment of the present invention.
5 is a diagram illustrating a multi-function terminal 130 according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and similar parts are denoted by like reference characters throughout the specification.

Throughout the specification, a mobile station (MS) is referred to as a terminal, a mobile terminal (MT), a mobile station (MS), an advanced mobile station (AMS) a reliability mobile station (HR-MS), a subscriber station (SS), a portable subscriber station (PSS), an access terminal (AT), a user equipment And may include all or some of the functions of the terminal, MT, AMS, HR-MS, SS, PSS, AT, UE,

Also, a base station (BS) is an advanced base station (ABS), a high reliability base station (HR-BS), a node B, an evolved node B, eNodeB), an access point (AP), a radio access station (RAS), a base transceiver station (BTS), a mobile multihop relay (MMR) BS, RS, HR, RS, etc.) may be referred to as a high reliability relay station (HR-RS) -RS, and the like.

1 is a diagram illustrating a case where a BS is damaged in a mobile communication system according to an embodiment of the present invention.

The mobile communication system according to the embodiment of the present invention includes base stations 200 and 300 and lower terminals 110, 120 and 130 in cells served by the base station 200.

Herein, the base station 200 is a base station that is damaged due to a disaster or a disaster while providing services to the lower terminals 110, 120, and 130 and thus fails to perform the role of the base station.

In the case where the serving base station 200 is damaged, a service incapable area occurs and a problem occurs in the mobile communication service of the lower terminals 110, 120 and 130. However, in the embodiment of the present invention, Mode or a base station mode may be selected. In FIG. 1, the terminal 130 is shown as a multi-function terminal that operates in a relay mode or a base station mode. Hereinafter, it is assumed that the terminal 130 is a multi-function terminal.

Meanwhile, the multi-function terminal 130 searches for an available neighbor base station when the service with the serving base station 200 is disconnected. Hereinafter, the multi-function terminal 130 is assumed to be a neighbor base station.

In the embodiment of the present invention, the multi-function terminal 130 indirectly informs its position, and the multi-function terminal 130 transmits the BSID of the serving base station 200 (hereinafter, referred to as 'BSID' To the base station 300. That is, in the embodiment of the present invention, a network re-entry or network initialization is performed to a neighbor base station (neighbor base station 300 in FIG. 1) available to the multi-function terminal 130 whose service is disconnected due to coverage loss, The BSID of the previous serving base station 200 is informed when the initial network entry procedure is performed. Hereinafter, the method and procedure will be described in detail with reference to FIG. 2 to FIG.

If the service terminal is disconnected for a certain period of time due to the destruction of the serving base station 200 or another reason while the multi-function terminal 130 is receiving service from the serving base station 200, the multi- (coverage loss) and searches for a neighboring base station available for connection to a new cell. At this time, the multi-function terminal 130 attempts a network re-entry or an initial network entry procedure to the neighboring base station 300.

If the multi-function terminal 130 can find a new available cell (i.e., the neighboring base station 300) immediately after recognizing the coverage loss, the network reentry procedure shown in FIG. 2 .

When the multi-function terminal 130 can find a new available cell (i.e., the neighbor base station 300) after a certain time delay after recognizing the coverage loss, the initial network connection (Initial Network Entry) procedure.

2 is a diagram illustrating a method for transmitting a BSID of a serving BS to a neighbor BS 300 when a multi-function terminal 130 according to an exemplary embodiment of the present invention reconnects to a network.

First, the multi-function terminal 130 determines whether the serving base station 200 is disconnected without notice, such as a disaster, a disaster, or the like, and is unable to connect the service for a certain period (coverage loss recognition period) (S210, S220).

If the service disconnection is continued for a predetermined period, the multi-function terminal 130 determines that the service connection is impossible and searches for available neighbor base stations (S230).

When the multi-function terminal 130 searches for a neighbor base station 300 (which is assumed to be the neighbor base station 300) available without delay time, the multi function terminal 130 starts a network re-entry procedure to the neighbor base station 300.

In operation S240, the multi-function terminal 130 transmits a ranging request message (AAI-RNG-REQ) to the neighbor BS 300 to perform a network re-entry procedure. The Ranging Purpose Indication field of the ranging request message (AAI-RNG-REQ) is set to 0b1000 (indicating network reconnection). The multi-function terminal 130 includes the previous serving BSID of the serving base station 200 in the ranging request message (AAI-RNG-REQ), and transmits the ranging request message to the neighbor base station 300 as a new base station.

Upon receiving the ranging request message (AAI-RNG-REQ) from the multi-function terminal 130, the neighboring base station 300 selects the multi-function terminal for the temporary network restoration by the relay mode or the base station mode, Function terminal 130 that has entered from the disabled cell is preferentially selected. That is, the neighbor base station 300 receiving the ranging request message (AAI-RNG-REQ) detects the inability of the neighboring cell to select the multi-function terminal, The functional terminal 130 is preferentially selected.

In case of performing a network re-entry procedure as shown in FIG. 2, the BS can transmit a BSID (previous serving BSID) of a previous serving BS to a new BS in a ranging request message.

2, when the multi-function terminal 130 performs an initial network entry procedure, the BSID of its own previous serving BS and its serving BS (i.e., serving BS) There is a need for a method of transmitting the loss of coverage to a new base station.

3 is a diagram illustrating a method of transmitting a BSID of a serving BS to an adjacent BS 300 in an initial network entry of the multi-function terminal 130 according to an embodiment of the present invention.

First, the multi-function terminal 130 determines whether the serving base station 200 is disconnected due to a disaster, a disaster, or the like and is unable to connect to the service of a certain interval (coverage loss recognition interval) (S310, S320).

If the service disconnection continues for a predetermined period, the multi-function terminal 130 determines that the service connection is impossible and searches for available neighbor base stations (S330).

When the multi-function terminal 130 searches for a neighboring base station (which is assumed to be the neighboring base station 300) available after a predetermined delay time, the multi-function terminal 130 starts a network initial network entry procedure to the neighboring base station 300 .

The multi-function terminal 130 transmits a ranging request message (AAI-RNG-REQ) to the neighbor base station 300 when performing an initial network entry procedure (S340 ). At this time, as shown in Table 1 below, the Ranging Purpose Indication field of the ranging request message (AAI-RNG-REQ) is set to 0b0000 and the coverage loss indicator field is set to 0b1 . The multi-function terminal 130 includes the previous serving BSID of the serving base station 200 in the ranging request message (AAI-RNG-REQ), and transmits the ranging request message to the neighbor base station 300 as a new base station.

Upon receiving the ranging request message (AAI-RNG-REQ) from the multi-function terminal 130, the neighboring base station 300 selects the multi-function terminal for the temporary network restoration by the relay mode or the base station mode, Function terminal 130 that has entered from the disabled cell is preferentially selected. That is, the neighbor base station 300 receiving the ranging request message (AAI-RNG-REQ) detects the inability of the neighboring cell to select the multi-function terminal, The functional terminal 130 is preferentially selected.

AAI-RNG-REQ message format Field Size
( bits ) Value / Description Condition Ranging Purpose Indication 4 0b0000 = Initial network entry
0b0001 = HO reentry
0b0010 = Network reentry from idle mode
0b0011 = Idle mode location update 0b0100 = DCR mode extension
0b0101 = Emergency call setup (eg, E911)
0b0110 = Location update for updating service flow management encodings of E-MBS flows
0b0111 = Location update for transition to DCR mode from idle mode
0b1000 = Reentry from DCR mode, coverage loss or detection of different ABS restart count.
0b1001 = Network reentry from a Legacy BS
0b1010 = Zone switch to MZONE from LZONE
0b1011 = Location update due to power down.
0b1100 = Interference mitigation request to CSG Femto ABS when experiencing interference from the CSG Femto ABS
0b1101 = NS / EP call setup
0b1110 = HR multicast service location update
0b1111 = Network reentry for FBIS operation - If (Ranging Purpose Indication == 0b0000) { // Initial network entry If (S-SFH Network Configuration bit == 0b0 and AMSID privacy is enabled) { AMSID * 48 The AMSID hash value. Refer to 16.2.5.3.1 } else if (S-SFH Network Configuration bit == 0b1 or AMSID privacy is disabled) { AMS MAC address 48 AMS's real MAC address } MAC version 8 See 11.1.3 Initial Offset for uplink power control (OffsetInitial) 5 The bit size represents the power level ranging from -15 dB (0x00) to 16 dB (0x1F) with 1 dB step. The value is determined by AMS after successful initial ranging process Coverage loss indicator One 0b0: Initial network entry
0b1: Initial network entry by coverage loss If (Coverage loss indicator == 0b1) { Serving BSID 48 The BSID of the HR-MS? previous Serving HR-BS before incurring a coverage loss } }

4 is a diagram illustrating another method of transmitting a BSID of a serving BS to an adjacent BS 300 in an initial network entry of the multi-function terminal 130 according to an embodiment of the present invention.

First, the multi-function terminal 130 determines whether the serving base station 200 is disconnected without notice, such as a disaster, a disaster, or the like, and is unable to connect to the service of a certain period (coverage loss recognition period) (S410 and S420).

If the service disconnection is continued for a predetermined period, the multi-function terminal 130 determines that the service connection is impossible and searches for available neighbor base stations (S430).

When the multi-function terminal 130 searches for a neighboring base station (which is assumed to be the neighboring base station 300) available after a predetermined delay time, the multi-function terminal 130 starts a network initial network entry procedure to the neighboring base station 300 .

The multi-function terminal 130 transmits a ranging request message (AAI-RNG-REQ) to the neighboring station 300 when performing an initial network entry procedure (S440) . At this time, the Ranging Purpose Indication field of the ranging request message (AAI-RNG-REQ) is set to 0b1111, as shown in Table 2 below. The multi-function terminal 130 includes the previous serving BSID of the serving base station 200 in the ranging request message (AAI-RNG-REQ), and transmits the ranging request message to the neighbor base station 300 as a new base station. Here, 0b1111 of the ranging target indication field indicates that the initial network entry is coverage loss due to the coverage loss.

Upon receiving the ranging request message (AAI-RNG-REQ) from the multi-function terminal 130, the neighboring base station 300 selects the multi-function terminal for the temporary network restoration by the relay mode or the base station mode, Function terminal 130 that has entered from the disabled cell is preferentially selected. That is, the neighbor base station 300 receiving the ranging request message (AAI-RNG-REQ) detects the inability of the neighboring cell to select the multi-function terminal, The functional terminal 130 is preferentially selected.

AAI-RNG-REQ message format Field Size
( bits ) Value / Description Condition Ranging Purpose Indication 4 0b0000 = Initial network entry
0b0001 = HO reentry
0b0010 = Network reentry from idle mode
0b0011 = Idle mode location update 0b0100 = DCR mode extension
0b0101 = Emergency call setup (eg, E911)
0b0110 = Location update for updating service flow management encodings of E-MBS flows
0b0111 = Location update for transition to DCR mode from idle mode
0b1000 = Reentry from DCR mode, coverage loss or detection of different ABS restart count.
0b1001 = Network reentry from a Legacy BS
0b1010 = Zone switch to MZONE from LZONE
0b1011 = Location update due to power down.
0b1100 = Interference mitigation request to CSG Femto ABS when experiencing interference from the CSG Femto ABS
0b1101 = NS / EP call setup
0b1110 = HR multicast service location update
0b1111 = Initial network entry by coverage loss - If (Ranging Purpose Indication == 0b1111) { // Initial network entry by coverage loss If (S-SFH Network Configuration bit == 0b0 and AMSID privacy is enabled) { AMSID * 48 The AMSID hash value. Refer to 16.2.5.3.1 } else if (S-SFH Network Configuration bit == 0b1 or AMSID privacy is disabled) { AMS MAC address 48 AMS's real MAC address } MAC version 8 See 11.1.3 Initial Offset for uplink power control (OffsetInitial) 5 The bit size represents the power level ranging from -15 dB (0x00) to 16 dB (0x1F) with 1 dB step. The value is determined by AMS after successful initial ranging process Coverage loss indicator One 0b0: Initial network entry
0b1: Initial network entry by coverage loss Serving BSID 48 The BSID of the HR-MS? previous Serving HR-BS before incurring a coverage loss }

5 is a diagram illustrating a multi-function terminal 130 according to an embodiment of the present invention.

5, the mobile repeater / relay mode multi-function terminal 130 includes a processor 132, a memory 134, and a radio frequency (RF) module 136. Processor 132 may be configured to implement the procedures and methods described above. The memory 134 is coupled to the processor 132 and stores various information related to the operation of the processor 132. [ The RF module 136 is coupled to the processor 132 and transmits or receives radio signals. The multi-function terminal 130 may have a single antenna or multiple antennas.

As described above, according to the embodiment of the present invention, when restoration of a temporary network through a multi-function terminal in a base station adjacent to a destroyed cell (i.e., a service disabled cell), the BSID of the previous serving base station ) To select an optimal multi-function terminal to operate in a relay mode or a base station mode.

According to an embodiment of the present invention, when a network reconnection or an initial network connection due to a large amount of coverage loss occurs, an out-of-coverage of the cell coverage of an adjacent area is inferred, Can help to make a decision for recovery.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, It belongs to the scope of right.

Claims (11)

A communication method of a terminal capable of operating in a relay mode or a base station mode,
The terminal receiving the service from the first base station detects whether the service connection with the first base station is impossible,
Searching for a second base station, which is an available neighbor base station, when the terminal detects that the service connection is impossible; and
And transmitting a ranging request message to the second base station when the terminal searches for the second base station,
The ranging request message includes a BS ID of the first BS, and a Ranging Purpose Indication field,
When the second base station is searched within a predetermined delay time, the ranging target indication field is set to indicate network re-entry,
Wherein the ranging target indication field is set to indicate an initial network entry if the second base station is searched after the constant delay time. The method according to claim 1,
And the second base station selecting an optimal multi-function terminal using the base station identifier when recovering a temporary network through the terminal. The method according to claim 1,
Wherein the ranging request message further includes a coverage loss indicator field if the terminal searches for the second base station after the predetermined delay time. delete delete delete RF module, and
A processor coupled to the RF module and operable to operate in a relay mode or a base station mode,
The processor controls the serving base station to search for available neighbor base stations and to transmit a ranging request message to the neighbor base station when it is detected that service is disabled with the serving base station,
The ranging request message includes a BS ID of the serving BS and a ranging purpose indication field,
When the neighbor base station is searched within a predetermined delay time, the ranging target indication field is set to indicate network re-entry,
Wherein the ranging target indication field is set to indicate initial network entry when the neighbor base station is searched after the predetermined delay time. 8. The method of claim 7,
Wherein the neighbor base station selects the multi-function terminal using the base station identifier when recovering the temporary network through the terminal. 8. The method of claim 7,
Wherein the ranging request message further includes a coverage loss indicator field if the neighbor base station is searched after the predetermined delay time. delete delete

Images