KR100663193B1 - Beacon apparatus for hard hand-off - Google Patents

Abstract

The present invention relates to a beacon device for a hard handoff, specifically, a pilot channel signal generation unit for generating a pilot channel signal of a target cell; A synchronization channel signal generator for generating a synchronization channel signal of the cell; A paging channel signal generator for generating a paging channel signal of the cell; And an up-converter configured to modulate the signal generated by the pilot channel signal generator, the sync channel signal generator, and the paging channel signal generator into a signal of a predetermined frequency band. It is about.

The beacon device of the present invention generates a signal independently from the base station, generates not only a pilot channel but also an overhead channel signal such as a synchronization channel and a paging channel, and supports two or more communication schemes such as CDMA and EV-DO, and thus is unnecessary. Therefore, the same hard handoff effect as that of the base station can be achieved without the installation of the expensive base station, and there is an advantage of securing a wide range of coverage at low power.

Beacon, Pilot Channel, Sync Channel, Paging Channel, Handoff

Description

Beacon apparatus for hard handoff

1 is a schematic diagram illustrating the concept of a hard handoff.

2 is a block diagram showing the configuration of a beacon apparatus of the present invention.

The present invention relates to a beacon device for hard handoff, and more particularly to a beacon device for generating a pilot signal as well as other overhead channel signals.

In a wireless communication system such as CDMA, a mobile station such as a wireless terminal exchanges data through a fixed station such as a base station, which is fixedly installed in each region.

A user of a terminal in a region centered on a base station can make a call using a frequency band allocated through frequency allocation (FA). However, when a mobile station such as a wireless terminal moves from one base station to another base station or moves from one base station to another sector area, it is necessary to communicate by using a signal different from the previously used signal. When the communication signal is changed in this way, the communication is maintained without disconnection is called handoff.

In other words, the handoff refers to a function that allows data transmission such as a call of a mobile station such as a wireless terminal moving between the base station and the base station to be smoothly maintained without disconnection.

There are three major handoffs: soft handoff, softer handoff, and hard handoff.

Soft hand-off is performed when a handoff is performed between a base station or a sector belonging to the same frequency, the same frame offset, and the same exchange. In other words, the soft hand-off may be referred to as an inter-cell (base station) handoff.

Softer hand-off is a handoff occurring between sectors of the same base station. The handoff is performed by the base station itself irrespective of the exchange. In other words, the soft hand-off is a handoff between different sectors of one base station.

Hard hand-off is a "break before make" handoff that breaks an existing channel first before opening a new one. When a mobile station moves to a base station belonging to another switching station, the call channel goes to a different frequency channel. In case of change, it means handoff when changing to communication channel having different frame offset.

1 is a schematic diagram illustrating the concept of hard handoff.

The terminal 110 communicating through the base station 101 communicating in the frequency band of F1 obtains and registers information F2 of neighboring base stations from the base station 101.

As shown in FIG. 1, when the terminal moves to the boundary area between the base station 101 and the base station 102, the pilot signal D. F1 transmitted from the beacon 103 provided in the base station 102 in the frequency band of F1 is received. When the signal strength is above a predetermined level, the terminal 110 requests the base station for handoff.

The terminal 110 receiving the information from the beacon 103 receives the frequency assignment from the base station 102 to the F2 to open the traffic channel to continue the communication without interruption.

In order to continue the communication seamlessly while performing such a hard handoff, the terminal may prepare for communication in the new frequency band by providing information about the new base station in the frequency band of the previous base station 101 from the base station 102 to be newly allocated frequency. In general, this function is performed through the beacon 103 provided in the base station.

The beacon 103 receives the RF signal F2 from the base station 102 and converts it to another frequency allocation (FA) to output (RF copy beacon method), or receives a 10 MHz signal and an Even_sec signal from the base station 102. The pilot signal is generated to transmit only the pilot signal, and the sync channel and the paging channel of the overhead channel are transmitted from the base station 102 (pilot beacon method) to support hard handoff.

However, the RF radiation beacon has a disadvantage in that high coverage is required for the same coverage because the channel coverage using the same RF power is small, and the pilot beacon is weak in idle handoff or handoff between heterogeneous systems. In addition, the synchronization channel signal and the paging channel signal, which are overhead channel signals other than the pilot signal, have to be transmitted through a base station having a high installation cost.

In addition, in the case of the conventional beacon device must be connected to the base station has a disadvantage that can not be installed separately from the base station.

In order to solve the above problems, an object of the present invention is to provide a beacon device that can be installed independently of the base station and provides an overhead channel signal.

In order to achieve the above object, the present invention provides a pilot channel signal generation unit for generating a pilot channel signal of a target cell; A synchronization channel signal generator for generating a synchronization channel signal of the cell; A paging channel signal generator for generating a paging channel signal of the cell; And an up-converter configured to modulate the signal generated by the pilot channel signal generator, the sync channel signal generator, and the paging channel signal generator into a signal of a predetermined frequency band. To provide.

Here, the beacon device further comprises a GPS signal receiver for receiving a GPS signal, wherein the pilot channel signal generator, the synchronization channel signal generator and the paging channel signal generator using the signal received from the GPS signal receiver It is desirable to stay motivated.

In addition, the beacon apparatus generates a channel signal for generating an overhead channel signal used in a communication method other than the communication method used for generating a channel signal in the pilot channel signal generator, the synchronization channel signal generator, and the paging channel signal generator. It is preferable to further include a.

The pilot channel signal generation unit, the synchronization channel signal generation unit, and the paging channel signal generation unit preferably generate a CDMA overhead channel signal, and the channel signal generation unit generates the EV-DO channel signal.

In addition, the up-converter unit preferably supports multi-channel using a frequency hopping method.

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

2 is a block diagram showing the configuration of a beacon apparatus of the present invention.

The beacon apparatus of the present invention includes a GPS signal receiver 201, a pilot channel signal generator 211, a synchronization channel signal generator 212, a paging channel signal generator 213, an EV-DO pilot channel signal generator 220 ) And up-converter 230.

One of the features of the present invention is that it generates not only a pilot channel signal but also a synchronization channel signal and a paging channel signal for hard handoff. By doing so, there is an advantage that the handoff success rate can be improved not only in the traffic state of the existing network but also in the idle state.

Another feature of the present invention is to generate a pilot channel signal by receiving a signal from the base station for synchronization in the case of the conventional pilot beacon, etc., but in the case of the present invention is to synchronize using a GPS signal to separate signals from the base station The advantage is that there is no need to receive. That is, it is possible to generate beacons that operate independently from the base station.

Since the installation cost of the beacon is much lower than that of the base station, if only beacons can be installed and used for handoff without additional installation of the base station, there is an advantage that a high handoff effect can be achieved at a low cost.

Examine the specific configuration.

The GPS signal receiver 201 sets a reference time for receiving and synchronizing a GPS signal. When the beacon apparatus of the present invention receives a signal for synchronization from the base station, the present invention can achieve the effect even without the GPS signal receiver 201. However, when the GPS signal receiver 201 is provided as mentioned above, it is possible to produce a beacon device that can operate independently of the base station.

The pilot channel signal generator 211 generates a pilot channel signal of a cell in which a beacon apparatus is located in synchronization with time information received from the GPS signal receiver 201. Here, the pilot channel signal is used to obtain a synchronization signal of the reference RF signal and the PN code of the base station from the terminal, and is a signal spread with a PN (Pseudo Noise) code using W0, which is the first of the 64 Walsh codes.

The synchronization channel signal generator 212 generates a synchronization channel signal of a base station located in a corresponding cell. Here, the synchronization channel signal provides the base station identification information and the time information from the base station to the terminal, and the terminal receives the identification information of the base station and the time information of the frame synchronization based on the base station identification information and uses it at the time of initialization. Take advantage of.

The paging channel signal generator 213 generates a paging channel signal of the base station located in the corresponding cell. Here, the paging channel signal is provided to receive a message when the mobile station is in the idle state and the system connection state, the system information of the current base station, that is, the information of the neighboring base station, available service type, registration period, terminal identification number, Provides access parameters, power control related information, regional information of the base station.

The baseband signals generated through the pilot channel signal generator 211, the synchronization channel signal generator 212, and the paging channel signal generator 213 are changed into RF signals of the frequency band requested through the up-converter 230. Will be sent out.

In addition to the above components, various components used in the process of transmitting an RF signal such as an amplifier and a band pass filter are not related to the features of the present invention, and generally to those skilled in the art to which the present invention pertains. Since it is a well-known technology, a detailed description thereof will be omitted here.

On the other hand, the up-converter 230 preferably modulates the channel signal generated by using signals of various frequency bands using frequency hopping, so that multi-channel can be supported at the same time.

Meanwhile, the beacon apparatus of the present invention may transmit only a channel signal of any one communication method such as code division multiple access (CDMA), but may also be configured to transmit channel signals of two or more communication methods.

For example, the channel signal generator 210 may generate a CDMA channel signal, and may generate an EV-DO (Evolution Data Only) channel signal through a separate signal generator 220.

The beacon apparatus of the embodiment shown in FIG. 2 generates a CDMA channel signal from the channel signal generator 210 and generates and transmits a pilot channel signal among the EV-DO channel signals from the EV-DO pilot channel signal generator 220. For example, In this case, it is preferable that the CDMA channel signal performs frequency hopping and the EV-DO channel signal does not frequency hopping because it can optimize the handoff success rate.

Although FIG. 2 illustrates an example of transmitting a CDMA channel signal and an EV-DO channel signal together, the present invention is not limited to the embodiment shown in FIG. 2, and other communication schemes such as IMT-2000 instead of CDMA or EV-DO. It can also be configured to generate a channel signal used for.

In addition, as in the channel signal generator 210, the EV-DO channel signal may also generate all of the pilot, synchronization, and paging channel signals.

While specific embodiments of the present invention have been described above, the protection scope of the present invention is not limited to the matters exemplified in the above description, and various modifications can be made without departing from the scope thereof. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined by the claims below and equivalents thereof.

As described above, the beacon apparatus of the present invention generates a signal independently of the base station, generates not only a pilot channel but also an overhead channel signal such as a synchronization channel and a paging channel, and two or more communication schemes such as CDMA and EV-DO. Because of this, it is possible to achieve the same hard handoff effect as installing the base station without unnecessary expensive base station installation, and has the advantage of ensuring a wide range of coverage at low power.

Claims (5)

A pilot channel signal generator for generating a pilot channel signal of a target cell; A synchronization channel signal generator for generating a synchronization channel signal of the cell; A paging channel signal generator for generating a paging channel signal of the cell; And And an up-converter configured to modulate the signal generated by the pilot channel signal generator, the sync channel signal generator, and the paging channel signal generator into a signal of a predetermined frequency band. According to claim 1, wherein the beacon device Further comprising: a GPS signal receiving unit for receiving a GPS signal, And a pilot channel signal generator, a synchronization channel signal generator, and a paging channel signal generator to synchronize with each other using signals received from the GPS signal receiver. According to claim 1, wherein the beacon device And a channel signal generator for generating an overhead channel signal used in a communication method other than the communication method used for generating the channel signal in the pilot channel signal generator, the synchronization channel signal generator, and the paging channel signal generator. Beacon device for hard handoff, characterized in that. 4. The method of claim 3, wherein the pilot channel signal generator, the synchronization channel signal generator, and the paging channel signal generator generate a CDMA overhead channel signal, and the channel signal generator generates an EV-DO channel signal. Beacon device for hard handoff. The beacon device for hard handoff according to claim 1, wherein the up-converter unit supports multichannels using a frequency hopping method.

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