KR101162210B1 - Method of switching scheduling cell in mobile communications system - Google Patents

Abstract

The present invention relates to a scheduling cell switching method that can improve scheduling efficiency by quickly updating a scheduling cell of a terminal in a soft handover state with a plurality of base stations in a wireless mobile communication system. In the scheduling cell switching method according to the present invention, an uplink scheduling cell switching method in a terminal in a handover state in a cellular wireless mobile communication system, each uplink from at least two cells in the handover state with the terminal Receiving channel state information, selecting a scheduling cell to schedule uplink packet transmission using the uplink channel state information, and notifying at least the selected scheduling cell of the selection result; Characterized in that configured to include.

Mobile communication, scheduling, cell, handover, switching

Description

Scheduling cell switching method in wireless mobile communication system {Method of switching scheduling cell in mobile communications system}

1 is a view for explaining a method of transmitting an uplink packet in a soft handover state according to the prior art.

2 is a view for explaining a downlink packet transmission method in a soft handover state according to the prior art.

3A and 3B are diagrams for explaining a preferred embodiment of a scheduling cell switching method for uplink scheduling for a terminal in a soft handover state.

4A and 4B are diagrams for describing an exemplary embodiment of a scheduling cell switching method for downlink scheduling for a terminal in a soft handover state.

The present invention relates to a wireless mobile communication system. More specifically, the present invention relates to a scheduling cell switching method that can improve scheduling efficiency by rapidly updating a scheduling cell of a terminal in a soft handover state with a plurality of base stations in a wireless mobile communication system.

In a wireless mobile communication system, as the demand for high-speed packet data transmission increases, a fast scheduling scheme at the base station level for data transmission and reception of a terminal has been developed as a general technique. Particularly, in a cellular wireless mobile communication system, when a terminal is in soft handover state with a plurality of base stations, a base station that is optimal for scheduling among base stations in which the terminal is in soft handover state may be changed over time. So it can change.

In a packet communication between a base station and a terminal in a wireless mobile communication system, the base station may schedule uplink packet transmission of the terminal or schedule downlink packet transmission to the terminal.

First, when transmitting an uplink packet from a terminal to a base station, the base station combines the amount of uplink interference experienced by the base station, the transmission buffer status and service priority of the terminals belonging to the base station, and the uplink channel status of the terminal to be scheduled. Considering how much data a specific UE will use at any point in time and how much of its radio resources (time, code, frequency, transmit power, etc.) will be transmitted for the entire uplink packet transmission Inform the terminal. The terminal receiving the scheduling command performs uplink packet transmission according to the command. In this way, the base station can improve the packet transmission efficiency of the uplink compared to when not performing the base station scheduling by quickly adjusting the resource allocation for the uplink packet transmission of the terminals belonging to it.

Second, when transmitting a downlink packet from the base station to the terminal, the base station considers the transmission buffer status and service priority of the base station for each terminal belonging to the base station, and considers the downlink channel status for the terminal to be scheduled. Determining how much data (time, code, frequency, transmission power, etc.) for the entire downlink packet transmission is used and how much data is transmitted to the UE at what time point, and downlink packet transmission is performed accordingly. . In this way, the base station can improve the downlink packet transmission efficiency compared to when not doing the base station scheduling by quickly adjusting the resource allocation for the downlink packet transmission of the terminals belonging to it.

In a cellular wireless mobile communication system, when a terminal is located near a boundary of a cell covered by a base station (or sector) that is performing packet transmission / reception, transmission power loss is required at the base station and the terminal because a large power is required for packet transmission and reception. Not only this is large, but also the amount of interference for a neighboring cell caused by a large transmission power packet transmission between the base station and the terminal is very large. In order to reduce such adverse effects, a terminal located near a cell boundary may simultaneously perform packet transmission and reception with not only one cell but also a plurality of cells existing within an area capable of covering the terminal, which is called soft handover.

1 is a diagram illustrating a method of transmitting an uplink packet in a soft handover state. When the terminal transmits a packet in uplink when the terminal is in soft handover state with a plurality of cells, all base stations (or sectors) of the cell in soft handover state with the terminal receive and decode the packet. The decoded data is then transmitted to the central control station through the wired network. The central control station selects data without a reception error among the received data and transmits the data to the data network. In this case, the central control station may be a specific base station (or sector) of the base station (or sector) in soft handover, or may be present as an RNC that is separate from the base station. Therefore, even if the packet reception is successful in only one cell of the plurality of cells, the data of the packet is correctly transmitted to the data network, so that the same transmission efficiency can be obtained with a smaller transmission power than when the terminal transmits the packet to only one cell. It becomes possible.

2 is a view for explaining a downlink packet transmission method in a soft handover state. When the terminal is in soft handover state with a plurality of cells in downlink, base stations (or sectors) of cells participating in soft handover transmit packets of the same content and format to the terminal at the same time. The UE receives all the packets transmitted from itself and the cells in soft handover and soft combines before decoding, or selectively combines only the data without error after decoding each packet. Method to obtain the data. Accordingly, the terminal uses packets from a plurality of cells instead of one cell to receive the same data, so that the base station (or sector) of each cell can transmit the same data with a smaller transmission power than when the terminal receives only packets from one cell. Efficiency can be obtained.

In case of introducing packet transmission / reception scheduling in a cellular wireless mobile communication system, it is common that one cell among soft terminals and soft handsover performs uplink or downlink scheduling for a plurality of cells and a terminal in soft handover. to be. Packet transmission / reception scheduling for an arbitrary terminal can obtain the best scheduling efficiency when the channel state of the link for the terminal is left to the best cell. However, the channel state of the link between each cell and the terminal changes with time. However, in the related art, the time change of the channel state is not considered.

SUMMARY OF THE INVENTION The present invention has been made to solve the problems of the prior art as described above, and an object of the present invention is to apply a change in cell environment and channel state correctly to uplink or downlink scheduling so as to increase scheduling efficiency. It is to provide a switching method.

In order to solve the above technical problem, the present invention is to switch the scheduling cell to perform the uplink or downlink scheduling according to the change of the channel state by measuring the channel state of the uplink or downlink periodically or as needed. It features.

In a wireless mobile communication system, a cell may be used in two concepts. The first means a geographic range covered by one base station, and the second means a network device (including base station) for covering a specific cell as the geographic range. In this specification, a cell will mainly be used in the second meaning. If a cell having a geographical meaning is divided into a plurality of sectors, the second meaning cell refers to a network device covering one sector.

In one aspect of the present invention, a scheduling cell switching method according to the present invention includes: an uplink scheduling cell switching method in a terminal in a handover state in a cellular wireless mobile communication system, the at least two being in a handover state with the terminal Receiving respective uplink channel state information from the cells, selecting a scheduling cell to schedule uplink packet transmission using the uplink channel state information, and selecting the at least one result of the selection And notifying the scheduling cell.

In another aspect of the present invention, the scheduling cell switching method according to the present invention is a method for switching an uplink scheduling cell for a terminal in a handover state with at least two cells in a cellular wireless mobile communication system, wherein the at least two cells Transmitting uplink channel state information to the terminal, receiving notification that any one of the at least two cells is selected as a scheduling cell from the terminal, and a cell selected as the scheduling cell to schedule the terminal to the terminal; Characterized in that it comprises a step of transmitting.

In another aspect of the present invention, the scheduling cell switching method according to the present invention is a downlink scheduling cell switching method in a terminal in a handover state in a cellular wireless mobile communication system, the method comprising: at least in a handover state with the terminal; Selecting a specific cell among two or more cells as a downlink scheduling cell, notifying the selected scheduling cell of at least the selected result, and a downlink packet from the at least two cells according to downlink scheduling of the scheduling cell Characterized in that it comprises a step of receiving.

In another aspect of the present invention, the scheduling cell switching method according to the present invention is a downlink scheduling cell switching method for a terminal in a handover state with at least two cells in a cellular wireless mobile communication system, the at least two or more Receiving notification that one of the cells is selected as a scheduling cell from the terminal, performing a downlink scheduling for the terminal by the cell selected as the scheduling cell, and a packet to be transmitted to the terminal by the cell selected as the scheduling cell Delivering to another cell, and transmitting the packet to the terminal.

The construction, operation, and other features of the present invention will be readily understood by the preferred embodiments of the present invention described below with reference to the accompanying drawings. 3A and 3B are diagrams for describing an exemplary embodiment of a scheduling cell switching method for uplink scheduling for a terminal in a soft handover state. 4A and 4B are diagrams for describing an exemplary embodiment of a scheduling cell switching method for downlink scheduling for a terminal in a soft handover state.

3A and 3B, when a specific terminal is in soft handover state with cells A and B, the cells A and B may be uplink channels with the UE periodically or as needed. The state is measured and information about the measured channel state is transmitted to the terminal [S31].

Measurement of an uplink channel state between a specific cell and the terminal may be performed by the cell obtaining various parameters using a signal transmitted from the terminal. Examples of the parameter include a signal-to-interference ratio (S / I) of the signal power of the channel, a signal-to-noise ratio (S / N) of the channel, a carrier wave Carrier-to-Interference ratio (C / I), Carrier-to-Noise ratio (C / N), Bit error error rate (BER) Error Rate, Frame Error Rate, and the like. In measuring the uplink channel state, it is preferable to use a reference signal such as a pilot signal, a preamble, a midamble, etc. which are known to both the transmitting and receiving sides, that is, the base station and the terminal.

The terminal selects a scheduling cell to perform uplink scheduling using uplink channel state information transmitted from the base station A and the base station B [S32]. In this case, it is preferable to select a cell having the best uplink channel state as the scheduling cell. In the example of Figs. 3A and 3B, cell A is selected as the scheduling cell.

The terminal notifies the cell A and the cell B that the cell A is selected as the scheduling cell [S33]. The cell A receiving the notification from the terminal performs uplink scheduling for the terminal until another cell is selected as a scheduling cell. That is, the allocation of an uplink radio resource for the terminal is determined and the determined scheduling command is transmitted to the terminal [S34]. Examples of the uplink radio resource include a time-frequency domain in an orthogonal frequency division multiple access (OFDMA) system, a code resource or a transmission power in a CDMA system, and the like.

The terminal transmits an uplink packet according to the scheduling command [S35]. When the terminal transmits an uplink packet, not only the cell A selected as a scheduling cell but also a cell B, which is not a scheduling cell, receives and decodes the packet transmitted from the terminal and transmits the packet to the central control station.

4A and 4B, a terminal in soft handover state with cell A and cell B measures the state of a downlink channel using signals transmitted from cell A and cell B [S41]. The downlink channel state may be measured periodically or aperiodically as needed. The downlink channel state in the terminal can be represented by various parameters as described above, and the parameters can be obtained by various known methods.

The terminal selects a scheduling cell to perform downlink scheduling using the measured downlink channel state [S42]. In this case, it is preferable to select a cell having the best downlink channel state as the scheduling cell. 4A and 4B show an example of selecting cell A as a scheduling cell. The terminal notifies the cell A and the cell B that the cell A is selected as the scheduling cell [S43]. Cell A then performs downlink scheduling until another cell is selected as a scheduling cell and switched [S44]. That is, the cell A allocates a downlink radio resource for the terminal. In addition, by transmitting a downlink packet (content and format) to be transmitted to the terminal to another cell (cell B) in soft handover with the terminal, the other cell may also transmit the same packet to the terminal [S45]. The cell A and the cell B transmit a downlink packet to the terminal according to radio resources allocated to the terminal by downlink scheduling of the cell A [S46].

It will be apparent to those skilled in the art that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. Accordingly, the above detailed description should not be construed as limiting in all aspects and should be considered as illustrative. The scope of the invention should be determined by reasonable interpretation of the appended claims, and all changes within the equivalent scope of the invention are included in the scope of the invention.

According to the present invention, in a cellular wireless mobile communication system, a change in cell environment and channel state over time is quickly applied to scheduling, thereby increasing packet scheduling efficiency and consequently increasing uplink or downlink packet transmission efficiency.

Claims (9)

A method for switching uplink scheduling cell in a terminal in a handover state in a cellular wireless mobile communication system, Receiving respective uplink channel state information from at least two cells in a handover state with the terminal; Selecting a scheduling cell to schedule uplink packet transmission using the uplink channel state information; And Notifying at least the selected scheduling cell of the result of the selection. The method of claim 1, Receiving a scheduling command from the selected scheduling cell; And transmitting an uplink packet according to the scheduling command. The method of claim 1, The uplink channel state information includes a signal-to-interference ratio (S / I) of a channel and a signal-to-noise ratio (S / N) of a channel. , Carrier-to-Interference ratio (C / I) of carrier power to channel, Carrier-to-Noise ratio (C / N) of carrier power to channel, Bit error error rate (BER) A scheduling cell switching method characterized in that any one of: Bit Error Rate) and Frame Error Rate. The method of claim 3, And the scheduling cell is selected as a cell having the best uplink channel state among the at least two cells. An uplink scheduling cell switching method for a terminal in a handover state with at least two cells in a cellular wireless mobile communication system, Transmitting, by the at least two cells, uplink channel state information to the terminal; Notifying that any one of the at least two cells is selected as a scheduling cell from the terminal; And And transmitting, by the cell selected as the scheduling cell, a scheduling command to the terminal. The method of claim 5, The cell selected as the scheduling cell is a cell having the best uplink channel state. A method for switching downlink scheduling cells in a terminal in a handover state in a cellular wireless mobile communication system, Selecting a specific cell as a downlink scheduling cell among at least two cells in a handover state with the terminal; Notifying at least the selected scheduling cell of the selection result; And And receiving a downlink packet from the at least two cells according to downlink scheduling of the scheduling cell. The method of claim 7, wherein Checking a downlink state for each of the at least two cells; And scheduling the downlink scheduling cell according to the downlink state. A downlink scheduling cell switching method for a terminal in a handover state with at least two cells in a cellular wireless mobile communication system, Notifying that any one of the at least two cells is selected as a scheduling cell from the terminal; Performing downlink scheduling for the terminal by a cell selected as the scheduling cell; Transmitting, by the cell selected as the scheduling cell, a packet to be transmitted to the terminal to another cell; And And sending the packet to the terminal by the at least two cells.

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