KR100883268B1 - System and method for setting coverage of femtocell bts - Google Patents

Abstract

A femto cell base station coverage setting system and a method thereof for regularly maintaining the intensity of the Bluetooth pilot signal in a situation that the radio wave intensity is changed according to a peripheral status are provided to recognize the femto cell base station coverage and recognize the femto cell base station coverage stably. A femto cell base station(100) transmits radio signal for providing a mobile communications service. The control signal including corresponding base station information is radiated and the hand-off to the femto cell coverage is induced. The mobile terminal(200) receives the radiated control signal from the femto cell base station. According to the intensity of the received control signal, the hand-off of the femto cello is performed on the base station information included in the control signal.

Description

Femtocell base station coverage setting system and its method {SYSTEM AND METHOD FOR SETTING COVERAGE OF FEMTOCELL BTS}

The present invention relates to a femtocell base station coverage analysis system and method, and more particularly, to a femtocell base station by adding a Bluetooth pilot signal using an ISM (Industrial, Scientific, Medical) frequency band to the femtocell coverage The present invention relates to a femtocell base station coverage setting system and a method for allowing only predetermined mobile terminals to recognize corresponding femtocell coverage.

Existing mobile communication service has been progressed based on voice service-oriented business model. However, with the advent of various high-speed data service systems such as HSDPA and Mobile WiMAX, the weight of the wireless data service underline business is shifting.

However, even a system that provides such a high-speed data service has a channel capacity of only several Mbps, and the channel capacity is shared by hundreds of users located within base station coverage, and thus the available download speed per person is only tens to hundreds of Kbps. . Therefore, users who have experienced tens of Mbps speeds of wired and wireless LANs are greatly reduced in terms of satisfaction.

In order to solve this problem, according to the development of semiconductor technology, it can be manufactured inexpensively, and it can be installed at home or indoor and used by a few users (about 1 ~ 4), which can reach several Mbps per subscriber in mobile communication systems. Attempts have been made to provide transmission capacity.

In this regard, recently, a femtocell, which is a personal base station installed indoors and serving 1 to 4 subscribers, has been proposed. The femtocell is a combination of femto, which represents one-tenth of a trillion (10 to 15 squared), and a cell, which represents a unit of a service area in charge of one base station in mobile communication. It refers to a service that covers an area much smaller than the service radius, and connects a micro base station, which looks like a DSL modem, to a wired IP network in a home, thereby allowing free use of wired and wireless communication with a mobile phone. In addition, since mobile communication data is transmitted from the base station to the exchange immediately, rather than through an indoor repeater, the operator can reduce the network construction cost, improve the frequency load and improve the call quality, and also provide high-speed Internet services such as Wi-Fi as well as voice calls. Can provide. On the other hand, unlike Wi-Fi, which uses 2.4 GHz band, there is a risk of frequency interference with home appliances such as microwave ovens, femtocells have an advantage in that they can utilize the remaining frequency because there is no limitation in the use band.

In the femtocell coverage, ideally, in the home, when the femtocell is in charge of the service and leaves the door, the macro base station of the out-door is in charge of the service.

However, due to the characteristics of the wireless medium, such clear coverage is difficult to distinguish, and the coverage of the femtocell that is relatively small compared to the coverage of the macro base station is greatly influenced by the output of the macro base station, causing frequent hand off. do.

As a result, such a phenomenon acts as a barrier to a stable connection between a femtocell base station and a terminal and is recognized as the biggest obstacle to commercial femtocell commercialization.

 The present invention was created to solve the problems inherent in the prior art as described above, an object of the present invention, by adding a Bluetooth pilot signal using the ISM frequency band to the femtocell base station, the mobile terminal stably coverage of the femtocell In addition, only predetermined mobile terminals recognize the femtocell coverage, and transmit a radio signal for providing a mobile communication service having femtocell coverage inside a building, and a control signal including corresponding base station information. A femtocell base station for inducing a hand off to the femtocell coverage by radiating a; And a mobile terminal receiving a control signal radiated from the femtocell base station and performing a handoff to the femtocell based on base station information included in the control signal according to the strength of the received control signal. The present invention provides a femtocell base station coverage setting system.

Another object of the present invention, a) femtocell base station transmitting a radio signal to provide a mobile communication service having a femtocell coverage inside the building, and radiating a control signal including the base station information; b) receiving, by the mobile terminal located in the femtocell coverage, the control signal and comparing the strength of the received control signal with a set value; And c) performing, by the mobile terminal, handoff to femtocell coverage based on the base station information included in the control signal when the strength of the received control signal is greater than or equal to the set value. A femtocell base station coverage setting method is provided.

According to an aspect of the present invention for achieving the above object, a femtocell base station for setting the inside of the building to the femtocell coverage (boundary) to the outside of the building, the macrocell (macrocell) coverage outside the building A coverage setting system is provided: The system transmits a radio signal for providing a mobile communication service having femtocell coverage inside the building, and emits a control signal including corresponding base station information to hand off to the femtocell coverage. A femtocell base station for inducing (Hand Off); And a mobile terminal receiving a control signal radiated from the femtocell base station and performing a handoff to the femtocell based on base station information included in the control signal according to the strength of the received control signal. do.

Preferably, the femtocell base station emits the control signal to allow handoff to the femtocell coverage for a predetermined number of registered mobile terminals.

Preferably, the mobile terminal includes a control signal receiving module for recognizing the control signal, and handoff to the femtocell only when the strength of the control signal received through the control signal receiving module is equal to or greater than a set value. It characterized in that to perform.

Preferably, the control signal is characterized in that it comprises a Bluetooth pilot signal.

Preferably, the control signal receiving module, Bluetooth module for receiving the Bluetooth pilot signal, characterized in that it comprises a.

Preferably, the base station information includes a frequency assignment (FA) number and a base station ID (ID).

According to another aspect of the invention, the femtocell base station coverage setting method for setting the inside of the building to the femtocell coverage (Macrocell coverage) to the outside of the building bordering the building outer wall is provided. The method includes: a) a femtocell base station transmitting a radio signal to provide a mobile communication service having femtocell coverage inside the building, and radiating a control signal including corresponding base station information; b) receiving, by the mobile terminal located in the femtocell coverage, the control signal and comparing the strength of the received control signal with a set value; And c) performing, by the mobile terminal, handoff to femtocell coverage based on the base station information included in the control signal when the strength of the received control signal is greater than or equal to the set value. It is characterized by.

Advantageously, the method further comprises: d) performing a handoff to the macrocell when the strength of the received control signal is less than the set value while the mobile terminal is handed off to the femtocell coverage; Step; characterized in that it further comprises.

Preferably, the step a) is characterized in that to emit the control signal for allowing the handoff to the femtocell coverage only for a predetermined number of registered mobile terminals.

Preferably, the control signal is characterized in that it comprises a Bluetooth pilot signal.

Preferably, step b) is characterized in that the mobile terminal receives the Bluetooth pilot signal through a Bluetooth module and compares the strength of the received Bluetooth pilot signal with the set value.

Preferably, the base station information includes a frequency assignment (FA) number and a base station ID (ID).

According to the code information matching system and method of the RFID tag according to the present invention, even if the mobile terminal other than the registered mobile terminal detects the signal of the femtocell for a certain time around the building, it does not obtain approval from the Bluetooth pilot signal, so it is connected to the femtocell. Will not try.

In addition, according to the code information matching system and method of the RFID tag according to the present invention, a femtocell is faster and cheaper (when an operator applies a special plan) than a macro cell in a part of a building outside of a building as long as there is a Bluetooth pilot signal. Will be available.

In addition, according to the code information matching system and method of the RFID tag according to the present invention, the strength of the Bluetooth pilot signal can be kept constant even in a situation where the radio wave strength may vary depending on the traffic of the macrocell and the surrounding conditions. Stable coverage classification is possible.

In addition, according to the code information matching system and method of the RFID tag according to the present invention, when the service provider provides a low-cost plan to the femtocell, the terminal may display an indicator using a Bluetooth pilot signal, thereby minimizing the dispute problem of the fee. You can do it.

In addition, according to the code information matching system and method of the RFID tag according to the present invention, since the femtocell has a high probability of being used within the coverage of the macrocell, the signal of the macrocell is sufficiently strong even when the user enters the home, so that the terminal is idle. In the state, it is difficult to hand off to the femtocell, but if there is a pilot of the Bluetooth signal, the mobile terminal can be connected to the femtocell in the building regardless of the signal strength of the macrocell.

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

Figure 1 shows a schematic configuration diagram of a femtocell base station coverage setting system according to an embodiment of the present invention.

As shown in FIG. 1, a femtocell base station 100 for providing a specific mobile communication service by setting an inside of a building to femtocell coverage; Located inside the building set to femtocell coverage or outside the building set to macrocell coverage on the outer wall of the building to perform handoff to the corresponding coverage and receive mobile communication service accordingly. It has a configuration including a mobile terminal 200.

Here, the output of the macro cell is set to 20W, having a coverage of 500 ~ 1000m, while the femtocell has an output of several tens of mW, has a coverage of 10 ~ 20m. Through this, femtocells are implemented in buildings such as homes or indoors to provide a mobile communication service with a transmission capacity of several Mbps per subscriber to a small number of users (around 1 ~ 4).

The femtocell base station 100 transmits a radio signal for providing a mobile communication service having a femtocell coverage inside the building by distinguishing it from a macrocell coverage outside the building.

In addition, the femtocell base station 100 is a control signal including a base station information such as a frequency assignment (FA) number and a base station ID (ID), preferably, a Bluetooth pilot signal (Bluetooth) pilot signal (Pilot) band of 2.4GHz band Using the frequency of the Industrial, Scientific, Medical (ISM) band, the mobile terminal 200 detects this and induces handoff to femtocell coverage.

More specifically, the femtocell base station 100 transmits the Bluetooth pilot signal that can be recognized only by a predetermined number of registered mobile terminals, and causes the mobile terminal 200 that detects the signal to the strength of the detected pilot signal. Accordingly, handoff based on the base station information is performed.

That is, the femtocell base station 100 is implemented so that other mobile terminals other than the registered mobile terminal, for example, a building occupant, do not obtain an admission from the Bluetooth pilot signal even if the mobile terminals are located in the femtocell coverage for a predetermined time around the building. For example, only registered mobile terminals can provide specialized mobile communication services.

The mobile terminal 200 receives the pilot signal radiated from the femtocell base station 100 and performs handoff to the femtocell based on base station information according to the strength of the received control signal.

To this end, the mobile terminal 200 has a configuration including a Bluetooth module 210 for receiving a Bluetooth pilot signal transmitted from the femtocell base station 100, through this configuration the mobile terminal 200 is a Bluetooth module Only when the strength of the Bluetooth pilot signal received through 210 is greater than or equal to a set value, handoff to the femtocell coverage is performed.

On the other hand, even if the mobile terminal 200 is located in femtocell coverage, if the strength of the received pilot signal does not reach the set value, handoff to femtocell coverage is not performed.

In other words, femtocells with small corridors are more likely to be used within the coverage of macrocells due to frequency fluctuations.This means that even if a user enters a building with femtocell coverage, the macrocell signal is sufficiently strong to prevent handoff. This is to prevent the mobile terminal to smoothly handoff to the femtocell according to the strength of the pilot signal regardless of the signal strength of the macro cell.

Hereinafter, a femtocell base station coverage setting method according to a preferred embodiment of the present invention will be described with reference to FIG. 2. 2 is a schematic flowchart illustrating a femtocell base station coverage setting method according to an embodiment of the present invention.

First, the femtocell base station 100 transmits a radio signal to provide a mobile communication service having the femtocell coverage inside the building, and simultaneously emits a control signal including the base station information (S100-S200). Preferably, the femtocell base station 100 includes a control signal including base station information such as a frequency assignment (FA) number and a base station ID (ID). Preferably, the femtocell base station 100 transmits a Bluetooth pilot signal to a 2.4. It transmits by using the frequency of the GHz band ISM (Industrial, Scientific, Medical) band, the mobile terminal 200 detects this to induce a handoff to femtocell coverage. More specifically, the femtocell base station 100 transmits the Bluetooth pilot signal that only a predetermined number of registered mobile terminals 200 can recognize and causes the mobile terminal 200 to detect the detected pilot signal. The handoff is performed based on the base station information according to the strength. That is, the femtocell base station 100 is implemented so that other mobile terminals other than the registered mobile terminal, for example, a building occupant, do not obtain an admission from the Bluetooth pilot signal even if they are located in the femtocell coverage for a predetermined time around the building. For example, only registered mobile terminals can provide specialized mobile communication services.

Then, the mobile terminal 200 located in the femtocell coverage receives the control signal, and compares the strength of the received control signal with a set value (S300). Preferably, the mobile terminal 200 receives the Bluetooth pilot signal transmitted from the femtocell base station 100 through the Bluetooth module 210 and compares the strength of the received Bluetooth pilot signal with the set value.

Then, when the strength of the received control signal is greater than or equal to the set value, the mobile terminal 200 performs a handoff to femtocell coverage based on the base station information included in the control signal (S400). ). Preferably, the mobile terminal 200 performs a handoff to the femtocell coverage only when the strength of the Bluetooth pilot signal received through the Bluetooth module 210 is greater than or equal to a set value.

On the other hand, even if the mobile terminal 200 is located in femtocell coverage, if the strength of the received pilot signal does not reach the set value, handoff to femtocell coverage is not performed (S500).

On the other hand, when the mobile terminal 200 is handoff to the femtocell coverage, when the strength of the received control signal is less than the set value, and performs a handoff to the macrocell (S600).

Although the present invention has been described in detail with reference to the preferred embodiments, the present invention is not limited to the above-described embodiments, and the present invention belongs to the present invention without departing from the gist of the present invention as claimed in the following claims. Anyone skilled in the art will have the technical idea of the present invention to the extent that various modifications or changes are possible.

Currently, the Bluetooth module is installed in most mobile terminals, and the price is also a level that is not unreasonable to adopt the Bluetooth pilot basically in the femto cell, when applying the tocell base station coverage setting system and method thereof according to the present invention, Significant advances can be made in the installation, engineering and operation of femtocells.

The following drawings, which are attached in this specification, illustrate preferred embodiments of the present invention, and together with the detailed description of the present invention, serve to further understand the technical spirit of the present invention. It should not be construed as limited to.

1 is a schematic diagram of a femtocell base station coverage setting system in an embodiment of the present invention;

2 is a schematic flowchart for explaining a femtocell base station coverage setting method according to an embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

100: femtocell base station

200: mobile terminal

210: Bluetooth module

Claims (12)

In the femtocell base station coverage setting system for setting the inside of the building to the femtocell coverage (coverage) to the exterior wall of the building, the macrocell coverage of the outside of the building, A femtocell base station transmitting a radio signal for providing a mobile communication service having femtocell coverage inside the building, and inducing a handoff to the femtocell coverage by radiating a control signal including corresponding base station information; And And a mobile terminal configured to receive a control signal radiated from the femtocell base station and perform handoff to the femtocell based on base station information included in the control signal according to the strength of the received control signal. Femtocell base station coverage setting system. The method of claim 1, wherein the femtocell base station, And emit the control signal for allowing a handoff to the femtocell coverage for a predetermined number of registered mobile terminals. The method of claim 2, wherein the mobile terminal, And a control signal receiving module for recognizing the control signal, and performing a handoff to the femtocell only when the strength of the control signal received through the control signal receiving module is equal to or greater than a set value. Base station coverage setting system. The method according to any one of claims 1 to 3, wherein the control signal, A femtocell base station coverage setting system comprising a Bluetooth pilot signal. The method of claim 3, wherein The control signal, Includes a Bluetooth pilot signal, The control signal receiving module, A femtocell base station coverage setting system, comprising: a Bluetooth module for receiving the Bluetooth pilot signal. The method of claim 1, wherein the base station information, A femtocell base station coverage setting system comprising a frequency assignment (FA) number and a base station ID (ID). In the femtocell base station coverage setting method for setting the inside of the building to femtocell coverage (coverage) on the outer wall of the building, the macrocell coverage of the outside of the building, a) a femtocell base station transmitting a radio signal to provide a mobile communication service having femtocell coverage inside the building, and radiating a control signal including corresponding base station information; b) receiving, by the mobile terminal located in the femtocell coverage, the control signal and comparing the strength of the received control signal with a set value; And c) the mobile terminal performing a handoff to femtocell coverage based on the base station information included in the control signal when the strength of the received control signal is greater than or equal to the set value; A femtocell base station coverage setting method. The method of claim 7, wherein the method is and d) performing a handoff to the macrocell when the strength of the received control signal is less than the set value in the state where the mobile terminal is handed off to the femtocell coverage. A femtocell base station coverage setting method. The method of claim 7 or 8, wherein the step a) comprises: And radiating the control signal to allow handoff to the femtocell coverage for a predetermined number of registered mobile terminals. The method of claim 9, wherein the control signal, A femtocell base station coverage setting method comprising a Bluetooth pilot signal. The method of claim 10, wherein b), The mobile terminal receives the Bluetooth pilot signal through the Bluetooth module and compares the strength of the received Bluetooth pilot signal with the set value, femtocell base station coverage setting method. The method of claim 7, wherein the base station information, A method for setting femtocell base station coverage, comprising a frequency assignment (FA) number and a base station ID (ID).

Images