KR101519065B1 - Mobile communication Method between plural BSC and UE and Mobile communication system with plural BSC - Google Patents

Abstract

A mobile communication multiple base station system according to the present invention is a mobile communication base station system including a first base station, a second base station, a mobile station and a control station, wherein the mobile station transmits reverse data to the first base station, The first base station and the second base station receive the reverse data and the copy data from the mobile terminal, respectively, and the control station transmits the reverse data to the copy data And extracts the reverse data,

It is possible to improve the data transmission speed and contribute to more stable data transmission by effectively performing the data transmission.

Multiple base stations, uplink, reverse data

Description

[0001] The present invention relates to a mobile communication method and a mobile communication method, and more particularly,

The present invention relates to a method for transmitting fast data and less error-free reverse data from a mobile station to a control station in a wireless mobile communication network. And more particularly, to a technology field that enables fast reverse data transmission by effectively using bandwidth by transmitting reverse data transmitted through a single base station to a mobile switching center through multiple base stations. That is, the present invention relates to a technical field capable of transmitting the same reverse data or the like to a plurality of base stations or dividing one reverse data into two or more.

In the current mobile communication network, there has been a lot of progress in improving the data transmission speed by increasing data transmission speed or bandwidth within the same bandwidth due to gradual technology evolution. Particularly, in the data rate improvement mainly for downlink, much progress has been made in data improvement for the uplink. However, in areas such as handoff, high-speed data can not be transmitted due to fast fading, low C / I or Ec / Io, and the like. It is difficult to guarantee transmission. Particularly in the uplink, data transmission in an environment such as a handoff is very unstable and low due to the influence of the transmission power limitation of the terminal and the system load.

In the present invention, an object of the present invention is to increase the data transmission rate by improving the data transmission scheme for the reverse link in the communication network.

That is, the present invention has an object of providing a method for overcoming the limitation of using only one base station as a data transmission path and transmitting a faster and more reliable data by using a plurality of base stations as a data transmission path.

A method for communicating between multiple base stations and a mobile station according to a first aspect of the present invention is a method for a mobile station connected to a first base station to connect to a second base station and to transmit reverse data to a first base station and a second base station Respectively; And a control station connected to the first base station and the second base station and controlling the first base station and the second base station, for receiving the first reception reverse data received by the first base station and the second reception reverse data received by the second base station, And a data extracting step of extracting the reverse data as a basis.

Advantageously, prior to the transmitting step, the mobile terminal connected to the first base station may include a searching step of searching for a second base station accessible from the mobile terminal and selecting a second base station.

More preferably, in the searching step, when the mobile terminal transmits the reverse data to the first base station and the reception error rate of the reverse data to be transmitted becomes a predetermined value or more, The mobile terminal searches for a second base station accessible from the mobile terminal and selects a second base station.

More preferably, in the searching step, when the terminal connected to the first base station enters the handoff area of the first base station, the mobile terminal connected to the first base station transmits a second base station And selecting the second base station by searching for the second base station.

In the searching step, the second base station may be a base station having a lowest reverse data transmission error rate among the base stations to which the mobile terminal is connectable.

More preferably, in the transmitting step, the terminal divides the uplink data into first divided backward data and second divided backward data, and transmits the first and second divided backward data to the first base station and the second base station, To-one correspondence with each other.

More preferably, the division ratio is calculated based on a transmission error occurrence rate of data transmitted to the first base station and the second base station.

A mobile communication base station system according to a second aspect of the present invention is a mobile communication base station system including a first base station, a second base station, a mobile terminal and a control station, wherein the mobile terminal comprises: The first base station receives the reverse data from the mobile terminal, the second base station receives the reverse data from the mobile terminal, and is connected to the first base station and the second base station, And a control station controlling the first and second base stations and extracting the reverse data based on the first reception reverse data received by the first base station and the second reception reverse data received by the second base station, Communication base station system.

Preferably, the mobile terminal is connected to the first base station and searches for the second base station, which is a base station accessible from the mobile terminal, and transmits reverse data to be transmitted to the first base station and the second base station, respectively can do.

More preferably, the mobile terminal is connected to the first base station, and confirms that a reception error rate of reverse data transmitted to the first base station becomes a predetermined value or more, And searching for the second base station and transmitting the reverse data to the first base station and the second base station, respectively.

More preferably, the mobile terminal is connected to the first base station, confirms that the terminal enters the handoff area of the first base station, searches the second base station, which is another base station connectable at the mobile terminal, And transmits one reverse data to the first base station and the second base station, respectively.

More preferably, the second base station is a base station to which the mobile terminal is connectable, the base station having a lowest data reception error rate except for the first base station.

More preferably, the mobile terminal searches for the second base station, which is connected to the first base station, which is another base station accessible from the mobile terminal, and transmits the reverse data to the first divided reverse data and the second divided data And transmitting the first and second divided reverse data in a one-to-one correspondence to the first base station and the second base station, respectively.

More preferably, the division ratio is calculated based on a transmission error occurrence rate of data transmitted to the first base station and the second base station.

A multi-base station connected mobile terminal according to a third aspect of the present invention is a multi-base station connected mobile terminal connected to a first base station, the mobile terminal including a searching unit searching for a second base station, And a data transmission unit for transmitting the data.

Preferably, the searching unit searches for the second base station, which is another base station connectable to the mobile station, when the reception error rate of the reverse data transmitted to the first base station becomes a predetermined value or more .

More preferably, the searching unit searches for the second base station, which is another base station accessible from the mobile terminal, when the terminal enters the handoff area of the first base station.

More preferably, the second base station is a base station to which the mobile terminal is connectable, the base station having a lowest data reception error rate except for the first base station.

More preferably, the data transmission unit divides the uplink data into a first split reverse data and a second split reverse data, and transmits the first and second split reverse data to the first base station and the second base station, respectively 1 in response to the request.

More preferably, the division ratio is calculated based on a transmission error occurrence rate of data transmitted to the first base station and the second base station.

A multi-base station control station according to a fourth aspect of the present invention is a multi-base station control station connected to a first base station and a second base station and controlling the first base station and the second base station, A receiving unit receiving reverse data and receiving the second reception reverse data from the second base station; And an extracting unit for extracting one piece of reverse data based on the first reception reverse direction data and the second reception reverse data.

Through the present invention, a terminal can efficiently transmit data when transmitting data in a reverse direction to a control station through a base station, thereby improving data transmission speed and contributing to more stable data transmission.

That is, when the data is transmitted in a redundant manner, more reliable data transmission can be achieved. In the case of dividing and transmitting the data, the effect of reducing the bias load on a specific base station due to proper distributed transmission can be achieved .

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

FIG. 1 shows a simplified block diagram of a mobile communication base station system according to the present invention. FIG. 1 includes a mobile terminal 100, a first base station 300, a second base station 500, a control station 700, and a mobile switching center 900. The mobile terminal includes a search unit 110 and a data transmission unit 120. The control station includes a reception unit 710 and an extraction unit 720.

The search unit of the mobile terminal searches for the second base station that is another base station connectable to the mobile station when the reverse transmission data error rate transmitted to the first base station becomes a predetermined value or more, Off zone of the mobile station, the mobile station searches for the second base station, which is another base station connectable to the mobile station.

The data transmitter of the mobile terminal transmits the reverse data and the copy data to the first base station and the second base station, respectively.

The receiver of the control station receives the reverse data from the first base station and the copy data from the second base station.

The extracting unit extracts the reverse data by performing error correction on the reverse data based on the copy data.

When the first reverse data transmitted by the mobile station is transmitted to the first base station, the channel condition may become poor and a part of the data packet may be lost or distorted. In this case, So that the original normal reverse data can be restored or extracted.

Another embodiment of the mobile communication base station system according to the present invention is as follows.

The data transmitter of the mobile terminal divides one reverse data into first and second divided backward data and transmits the data to the respective base stations. And the restoring unit of the control station combines the first divided backward data and the second divided backward data to recover the backward data. In this case, each channel state of each base station is poor, and even if the overall allocated bandwidth is small, faster transmission becomes possible.

The division ratio may be calculated based on the rate of occurrence of reverse transmission data errors transmitted to the first base station and the second base station.

The mobile station informs the second base station that data is transmitted to the second base station before the data is transmitted to the second base station. After receiving the ACK for transmission from the second base station, the mobile station transmits the second received reverse data or the second split reverse direction A method of sending data may be used.

For example, if the reverse data is 110010100101 ..., the first base station transmits 110010100101 .. 110010100101 .. and the second base station transmits 110010100101 .. 110010100101 .. so that duplicate transmission and control The mobile station compares the received signals with each other and extracts them as one data, so that the transmission gain of the mobile terminal can be increased

In addition, the mobile terminal attempts to transmit the reverse data 110010100101 at a rate of 64 kbps to the first base station, but transmits 1011.0 million at a rate of 32 kbps when the wireless environment deteriorates or otherwise needs to be transmitted. At this time, a signal of 100011 can be transmitted to the second base station at 32 kbps (see the table below). And the received signals are combined again at the control station to recover one reverse data

Reverse data One One 0 0 One 0 One 0 0 One 0 One The first divided reverse data One 0 One One 0 0 The second split backward data One 0 0 0 One One

In the above table, although it is divided into 50:50, it is preferable that the ratio varies depending on the signal quality received at the base station.

That is, according to the present invention, a required data rate can be lowered when transmitting to a plurality of base stations in a handoff area or the like, and a fading gain can be obtained in a multiple fading environment. The system knows how to transmit from the terminal through the pre-appointment. That is, when data is transmitted to a plurality of base stations, the terminal informs the system of the information (using a reserved bit of the signaling message may be one of the embodiments), the following embodiments are possible . That is, when using the specific 3 bits as the information, the terminal is divided into a pair / hole intersection type transmission when set to 101, a redundant cross transmission with 4 bits in case of 110, and a partial intersection type with 8 bits in case of 001 If the terminal informs the system in real time when an event occurs through a signaling message, the terminal transmits the data in a pre-determined manner after a specific time after receiving the message for changing the transmission mode.

As described above, when data is transmitted according to the present invention, a data rate of a terminal transmitted to a first base station can be lowered and additional redundancy coding can be applied if necessary. In addition, diversity gain can be obtained with the second base station, and the system can take relatively low power required by the terminal. As a result, it is possible to cancel the degree of interference that may occur when a terminal transmits data to a plurality of base stations.

2 is a flowchart illustrating a method of communicating between multiple base stations and a mobile terminal according to the present invention.

2 includes a mobile terminal 100, a first base station 300, a second base station 500, a control station 700 and an MSC 900.

The mobile station searches for a second base station in step S102 when the mobile station enters the handoff area in the coverage of the first base station or when the reception rate of data transmitted from the first base station becomes less than a predetermined criterion and the signal quality becomes poor. Or the second base station may designate a set of base stations that are close to the first base station. Also, the mobile terminal can search for the base station having the highest reverse signal quality and select the base station as the second base station.

That is, in the case of a handoff at the first base station, all the base stations in the active set can be selected from the active set base stations to which signaling is provided, and the same sectors, BSCs (base station control stations), PCF / Only the base station in the base station can be selected. It is also possible to select a base station with the highest signal strength received by the base station except for the first base station. Or all of the base stations having a value equal to or greater than a certain threshold value (base station received signal strength) or satisfying a specific geographical condition (within the first base station radius of 100 meters).

The reverse data received at the first base station and the copy data received at the second base station are the same reverse data.

That is, the reverse data and the copy data are transmitted to different base stations, and the control station receives the received reverse data S105 and the copy data S106, compares the received reverse data S105 and the copy data S106, and error-corrects the reverse data (S107) The effect of lowering the reception ratio can be achieved.

FIG. 3 shows a flowchart of another embodiment of a method of communicating between multiple base stations and a mobile terminal according to the present invention.

The difference from the case of FIG. 2 will be described as follows. That is, the reverse data is divided into the first divided reverse data and the second divided reverse data and transmitted to the first base station and the second base station (S203, S204), and each divided reverse data is combined in the reverse direction Data is restored (S207).

A mobile communication multiple base station system according to the present invention is a mobile communication base station system including a first base station, a second base station, a mobile station and a control station, wherein the mobile station transmits reverse data to the first base station, The first base station and the second base station receive the reverse data and the copy data from the mobile terminal, respectively, and the control station transmits the reverse data to the copy data And extracts the reverse data,

It is possible to improve the data transmission speed and contribute to more stable data transmission by effectively performing the data transmission.

Therefore, the present invention is industrially applicable because it enables faster data reverse transmission in the mobile communication industry.

1 is a block diagram of a mobile communication multiple base station system according to the present invention.

2 is a flowchart illustrating a method of communicating between multiple base stations and a mobile terminal according to the present invention.

FIG. 3 shows a flowchart of a second embodiment of a method for communicating between multiple base stations and a mobile terminal according to the present invention.

DESCRIPTION OF THE EMBODIMENTS

100: mobile terminal 110:

120: Data transmission unit 300: First base station

500: second base station 700:

710: Receiving unit 720: Extracting unit or restoring unit

900: MSC (mobile switching center)

Claims (17)

delete A mobile communication base station system including a first base station, a second base station, a mobile terminal and a control station, Wherein the mobile terminal divides one piece of reverse data to be transmitted to the base station into first split reverse data and second split reverse data and transmits the first split reverse data to the first base station, 2 base station, Wherein the first base station and the second base station respectively receive the first split reverse data and the second split reverse data from the mobile terminal, And the control station combines the first split reverse data and the second split reverse data to recover the reverse data. delete 1. A multiple base station connected mobile terminal connected to a first base station and a second base station, A search unit searching for a second base station connected to the mobile terminal; And The method comprising: dividing one reverse data to be transmitted to a base station into first split reverse data and second split reverse data, transmitting the first split reverse data to the first base station and transmitting the second split reverse data to the second base station And a data transmission unit for transmitting the data to the base station. 5. The method of claim 4, Wherein the search unit searches for the second base station connected to the mobile station when the reverse transmission data error rate of the channel connected to the first base station becomes a predetermined value or more. 5. The method of claim 4, Wherein the search unit searches for the second base station connected to the mobile terminal when the mobile terminal enters the handoff area of the first base station. 5. The method of claim 4, Wherein the second base station is a base station having a lowest reverse transmission data error rate among base stations to which the mobile terminal is connected. 5. The method of claim 4, Wherein the division ratio of the first split reverse data and the second split reverse data is calculated based on a signal quality of a channel connected to the first base station and the second base station. delete A multi-base station control station connected to a first base station and a second base station for controlling the first base station and the second base station, A receiving unit receiving first divided backward data from the first base station and receiving second divided backward data from the second base station; And And a restoring unit for restoring the backward data by combining the first divided backward data and the second backward divided data, Wherein the mobile terminal divides one reverse data to be transmitted to the base station and generates the first split reverse data and the second split reverse data to transmit to the first base station and the second base station, soup. 11. The method of claim 10, Wherein the division ratio of the first split reverse data and the second split reverse data is calculated based on a signal quality of a channel connected to the first base station and the second base station. delete A mobile terminal connected to a first base station divides one reverse data to be transmitted to a base station into first split reverse data and second split reverse data and transmits the first split reverse data to the first base station, A transmission step of transmitting reverse data to a second base station; And The control station controlling the first base station and the second base station combines the first split reverse data received by the first base station and the second split reverse data received by the second base station into the reverse data, The method comprising the steps of: 14. The method of claim 13, Further comprising, before the transmission step, a channel checking step of confirming when a reverse transmission data error rate of a channel connected to the mobile station and the first base station becomes a predetermined value or more. Way. 14. The method of claim 13, Further comprising a confirmation step of confirming that the mobile terminal enters the handoff area of the first base station before the transmission step. 14. The method of claim 13, Wherein the second base station is a base station having a lowest rate of reverse transmission data error occurrence among base stations to which the mobile terminal is connected. 14. The method of claim 13, Wherein the division ratio of the first split reverse data and the second split reverse data is calculated based on a signal quality of a channel connected to the first base station and the second base station.

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