KR100542116B1 - An apparatus for vertical cell transfer by requesting from cellular mobile and a method thereof - Google Patents

Abstract

The present invention relates to an apparatus and method for vertical cell switching at the request of a terminal, wherein the base station signal strength received from the wide cell and the narrow cell at the time of call establishment and the minimum base station signal strength level information required for the service to be provided. The terminal selects a cell and requests cell switching by using the base station signal-to-interference ratio received from the wide cell and the narrow cell during the call and the minimum base station signal-to-interference ratio level information required for the service to be provided. When a cell switch request is received from the terminal, the handover central controller in the base station controller controls the vertical cell switch according to the signal strength level and the load state of the corresponding cell base station. By doing so, in a hierarchical hierarchical cell environment composed of wide cells and narrow cells, load conditions between hierarchical cells can be controlled from a base station point of view, and continuous service can be provided to subscribers.

Base station, terminal, handoff, cell, switching

Description

An apparatus for vertical cell transfer by requesting from a cellular mobile and a method

1 is a schematic diagram of a vertical cell switching apparatus according to an embodiment of the present invention.

FIG. 2 is a detailed view of each part of FIG. 1.

3A and 3B are flowcharts illustrating operations of call setup of the vertical cell switching apparatus according to the embodiment of the present invention.

4A and 4B are operational flowcharts during a call of the vertical cell switching apparatus according to the embodiment of the present invention.

5 is a table showing the definition of the parameters.

* Description of main parts of drawing *

1: Terminal 2: Wide Cell Base Station

3: narrow-cell base station 4: base station controller

6: Radio resource management device 8: Handover central control device

11: radio access controller 12: switchboard / ATM switching device

The present invention relates to a cell switching apparatus and method vertically performed at the request of a terminal in a hierarchical hierarchical cell environment of a cellular system for providing a packet service.

In general, a code division multiple access (CDMA) cellular system uses soft handovers that do not convert frequencies during handover between base stations using the same frequency, and hard handover between base stations using different frequencies. Mobile carriers provide continuous services to mobile terminals through such handovers.

Soft handover is performed simultaneously with the first base station and the neighboring base station using the same frequency without changing the talk frequency when the terminal is at the boundary between cells, i.e., when it leaves the area of the home base station and enters the coverage of the neighboring base station. When the signal strength of the home base station falls below the reference value while transmitting and receiving, the connection with the base station is disconnected and the call can be maintained through the remaining base stations.

By using this soft handover method, natural handover can be achieved by eliminating the simplistic phenomenon of the analog system, and it is possible to maintain low call loss rate and high call quality.

On the other hand, when any one operator allocates different frequencies between adjacent base stations according to the call density from the viewpoint of the economics of the network design and the efficiency of the investment, the number of frequencies used among the adjacent base stations may be different. In this case, the soft handover cannot be applied when the terminal, which used a specific talk frequency of the home base station, moves to a neighboring base station (which is called a target base station) that does not have the same talk frequency. Hard handover must be performed.

However, the above soft and hard handover is a horizontal handover, which is difficult to apply in a hierarchical cell environment.

The current mobile communication is looking for an appropriate method for packet data transmission to support a variety of multimedia, one of the methods is considering a hierarchical cellular system.

In a hierarchical cellular system, a wireless network is formed by overlaying a wide cell serving a wide area and a narrow cell serving a relatively small area.

A wide area cell provides a medium to low speed data service for terminals moving at a relatively high speed, and a narrow area cell provides a high speed data service to a terminal having a low to medium low speed mobility with a wider bandwidth than a wide cell.

As described above, the conventional handover method, which is a horizontal cell switching method, is difficult to apply in a hierarchical cell environment, and packet service cannot be easily accommodated by a conventional handover algorithm.

The technical problem of the present invention is to solve the disadvantages of the prior art, and to provide a vertical cell switching apparatus and method for performing a vertical cell switching in response to the request of the mobile terminals, each base station in a hierarchical cell environment.

Vertical cell switching device according to a feature of the present invention for achieving the technical problem,

In a cellular system having a hierarchical cell structure, a cell switching device for receiving a cell switching request from a terminal to provide a vertical cell switching service,

A wide cell base station for providing a packet service at a first transmission rate to a terminal moving at a high speed by using a first frequency;

A narrow cell base station for providing a packet service at a second transmission rate to a terminal moving at a low speed using a second frequency;

And a base station controller for checking cell switching related information of the corresponding base station according to the cell switching request signal of the terminal and comparing the load state information of each base station reported from each base station to determine whether to switch the cell. ,

The first transmission rate is slower than the second transmission rate.

Vertical cell switching method according to a feature of the present invention for achieving the technical problem,

A method of performing vertical cell switching in a cellular system having a hierarchical cell structure,

A first step of the terminal selecting a cell by using the base station signal strength received from the wide cell and the narrow cell and the minimum base station signal strength level information required for the service to be provided when the call is established;

A second step of the terminal requesting cell switching by using the base station signal to interference ratio received from the wide cell and the narrow cell and the minimum base station signal to interference ratio level information required for the service to be provided during the call;

When the cell switching request is received from the terminal, the handover central control apparatus in the base station controller includes a third step of controlling the vertical cell switching according to the signal strength level and the load state of the corresponding cell base station.

Then, the present invention will be described with reference to the accompanying drawings with respect to embodiments so that those skilled in the art can easily carry out as follows.

1 is a block diagram of a vertical cell switching device according to an embodiment of the present invention.

Referring to Fig. 1, the vertical cell switching apparatus according to the embodiment of the present invention includes a terminal 1, a wide cell base station 2, a narrow cell base station 3, and a base station controller 4.

The terminal 1 operates in a duplex mode that can support both the wireless access standards of the wide cell 2 and the narrow cell 3, and is located in the communication area of the wide cell or narrow cell 3 and wants to be provided before the service is started. Attempt to connect by selecting a cell suitable for the service. In the case of a call, the terminal 1 determines whether to switch cells using information such as service type, data transmission rate, and received base station signal strength, and requests vertical cell switching from the base station controller 4 according to the determination result. And receives a control command for performing vertical cell switching to perform a cell switching procedure. The wide cell base station 2 provides packet services at low to medium speeds to the terminal 1 moving at high speed using the first frequency. The narrow cell base station 3 provides a high speed packet service for the terminal 1 moving at a low speed using the second frequency.

Referring to FIG. 2, the base station controller 5 includes a radio resource management device 6, a radio access control device 11, an exchanger connection / ATM switching device 12, and a base station synchronization control device 13. As shown in FIG.

The radio access control apparatus 11 controls the connection with the base station managed by the base station controller 4, and the exchange connection / ATM switching device 12 controls the connection with the network to which the base station controller 4 belongs. The base station synchronization control device 13 establishes synchronization with the base stations to facilitate data signal transmission. The radio resource management apparatus 6 manages radio resources for communication, and is composed of a radio resource allocation / release device 7 and a handover central controller 8, and the handover central controller 8 is horizontal. It consists of a horizontal cell switching control unit 9 for controlling the cell switching procedure and a vertical cell switching control unit 10 for controlling the vertical cell switching procedure to control the procedure for cell switching.

The vertical cell switching control unit 10 in the handover central control unit 8 sets basic parameters for vertical cell switching, and receives the terminal through the wide cell control device 15 or the narrow cell control device 20. In response to the request for vertical cell switching from 1), the load cell of each base station and the network information are used to manage vertical cell switching when possible. The vertical cell switching controller 10 compares the standard load factor, which is a parameter representing the load state of each cell, with the current load state of each cell by using the information of the network, and determines whether vertical cell switching is possible. Control to perform vertical cell switching for the terminal.

The wide cell base station 2 is composed of a wide cell control device 15, a digital signal processor 16, an analog signal processor 17, and an antenna 18. The wide cell control device 15 controls the interface to the lower blocks of the wide cell, manages the radio resources of the wide cell according to the radio resource management parameters received from the base station controller 4, and calls for vertical cell switching. Report the vertical cell switching request of the terminal in the area to the base station controller (4), the radio resources allocation and release procedure of the wide area cell for vertical cell switching under the control of the handover central controller (8) in the base station controller (4) Perform The digital signal processing unit 16 of the wide cell is a block for digital signal processing, and processes the audio and video coding, channel coding, baseband modulation, and pulse shaping information in the form of circuit or packet data transmitted through the base station controller 4. It transmits the signal through, and performs the reverse process of the transmission for the digital signal input from the analog signal processor 17 to receive the signal. The analog signal processing unit 17 of the wide cell is a block for analog signal processing, and is sufficient to use a power amplifier through a process for transmitting data input from the digital signal processing unit 16 through an intermediate frequency or a direct carrier frequency. In this case, the antenna 18 is transmitted to the wireless section. The received signal input from the antenna 18 is transmitted to the digital signal processor 16 by performing a reverse process of the transmission.

The narrow cell base station 3 is composed of a narrow cell control device 20, a digital signal processor 21, an analog signal processor 22, and an antenna 23. The narrow cell control device 20 controls the interface to the lower blocks of the narrow cell, manages the radio resources of the narrow cell according to the radio resource management parameters received from the base station controller, and the terminal in the call area for vertical cell switching Report the vertical cell switching request to the base station controller (4) and perform the radio resource allocation and release procedure of the narrow cell for the vertical cell switching under the control of the handover central controller (8) in the base station controller (4). . The digital signal processing unit 21 of the narrow cell device station 3 is a block for digital signal processing, and performs voice and video coding, channel coding, baseband modulation, and pulse shaping of information in the form of circuit or packet data transmitted through a base station controller. The signal is transmitted through the process, and the reverse process of the transmission is performed on the digital signal input from the analog signal processor 22 to receive the signal. The analog signal processor 22 of the narrow cell is a block for analog signal processing, and has sufficient power using a power amplifier through a process for transmitting data input from the digital signal processor 21 through an intermediate frequency or a direct carrier frequency. As a result, the antenna 23 is transmitted to the wireless section through the antenna 23, and the received signal input from the antenna 23 is transmitted to the digital signal processor 21 by performing a reverse process of transmission.

The terminal 24 is composed of a source codec 25, a terminal digital signal processor 26, a terminal analog signal processor 27, a terminal antenna 28, a terminal controller 35, and a user connector 38. .

The source codec 25 of the terminal 1 performs audio or video coding of the signal source information transmitted through the user connection unit 38 according to its form. The terminal digital signal processor 26 is composed of a transmitter 29 and a receiver 30 for digital signal processing. The transmitter 29 performs channel encoding, baseband modulation, and information on packet data transmitted through a source codec. Perform the pulse molding process. The receiving end 30 performs the reverse process of the transmitting end 29 with the digital signal input from the analog signal processing unit 27. The terminal analog signal processor 27 is composed of a transmitter 32 and a receiver 33 for analog signal processing. The transmitter 32 transmits data input from the terminal digital signal processor 26 through an intermediate frequency or a direct carrier frequency. Through the process for transmitting to the power amplifier using a power amplifier transmits to the wireless section through the terminal antenna 28 with sufficient power. The receiver 33 transmits the received signal input from the terminal antenna 28 to the terminal digital signal processor 26 by performing a reverse process of the transmitter 32. The base station signal-to-interference ratio estimating apparatus 31 located at the receiving end 30 of the terminal digital signal processing unit 26 and the base station signal strength estimating apparatus 34 located at the receiving end 33 of the terminal analog signal processing unit 27 are respectively provided from the base station. The strength of the received signal and the signal-to-interference ratio are estimated. The terminal controller 35 is composed of a service classifier 36 and a base station selection controller 37. The service classifier 36 checks the base station information broadcasted from the wide cell base station 2 and the narrow cell base station 3 to determine and classify from which cell the service to be provided is appropriate. The base station selection controller 37 estimates the base station signal strength of the base station signal-to-interference ratio estimator 31 located at the receiver 30 of the terminal digital signal processor 26 and the receiver 33 of the terminal analog signal processor 27. Parameters for signal switching between base stations (base station signal-to-interference ratio in case of a mobile terminal being called) and cell switching using the signal strength information of the wide cell base station 2 and the narrow cell base station 3 inputted from the apparatus 34. (The base station cell switching threshold value and the remaining timer in the base station cell switching threshold value) are compared. If this is satisfied, the base station selection control apparatus 37 compares whether or not the minimum base station signal strength (base station signal-to-interference ratio in the case of the terminal being called) to satisfy the call quality required from the corresponding cell, and the signal level is a call. If the quality can be satisfied, the base station is selected to receive the service.

The user connection unit 38 includes a display device 39 and a user input device 40. The display device 39 displays a wide cell (or narrow cell) currently registered by the terminal, or displays a wide cell (or narrow cell) currently in a call so that the user can recognize it. In addition, a wide cell (or narrow cell) that can be called for cell switching is displayed so that a user can request cell switching. The user input device 40 provides a function that allows the user to select a base station suitable for the service by using a function key when the user starts or receives the service. If the user disables the cell selection function by using the cell selection function parameter by the user, the base station selection controller in the terminal controller selects a base station suitable for the service. The terminal controller 35 requests to perform cell switching to the selected cell.

When there is a cell switch request from the terminal, the handover central control apparatus 8 checks the set base station standard load index parameter and network side cell switch related information. Then, by comparing this information with the load status information of each base station reported from the base station to determine whether to switch the cell, the cell switching procedure is performed when the cell switching is possible through appropriate load balancing. At this time, the handover central controller 8 controls all procedures such as radio resource allocation to the target base station, radio resource release of the home cell after cell switching, and the like.

Next, the operation of the vertical cell switching device according to the request of the terminal according to the embodiment of the present invention having such a configuration will be described.

3A and 3B are operation flowcharts when a call of a vertical cell switching device is requested by a terminal according to an embodiment of the present invention.

4A and 4B are flowcharts illustrating operations during a call of the vertical cell switching device at the request of a terminal according to an embodiment of the present invention.

3A, 3B, 4A, and 4B, the operation when the call is actually attempted and the call is substantially similar, and thus will be described together.

First, the vertical cell switching control unit 10 in the handover central control unit 8 sets basic parameters for vertical cell switching (S201, S301).

At this time, the base station observation timer for cell switching, the remaining timer in the base station threshold value, the base station cell switching threshold data transmission amount is set to the minimum base station signal strength to satisfy the other channel quality (S201). On the other hand, if the call is busy, the minimum base station signal-to-interference ratio is set to satisfy the channel quality of the provided service, and the base station observation timer for cell switching, the remaining timer in the base station cell switching threshold and the base station cell switching threshold are set (S301). . Such parameters are defined in FIG. 5.

On the other hand, the base station signal-to-interference ratio estimating apparatus 31 located at the receiving end 30 of the digital signal processing unit 26 of the terminal 1 and the base station signal strength estimating apparatus located at the receiving end 33 of the terminal analog signal processing unit 27. 34 estimates the strength of the signal received from the base station and the signal-to-interference ratio, respectively (S202 and S302).

In addition, the service classifier 36 checks the base station information broadcasted from the wide cell base station 20 and the narrow cell base station 3 to determine which cell the service to be provided is appropriate to receive and classifies. (S202, S302).

Then, the base station selection controller 37 is a base station signal-to-interference ratio estimator 31 located at the receiver 30 of the terminal digital signal processor 26 and a base station located at the receiver 33 of the terminal analog signal processor 27. Signal strength between base stations (base station signal-to-interference ratio in case of mobile terminal) and cell switching are obtained by using signal strength information of wide cell base station 2 and narrow cell base station 3 inputted from signal strength estimating apparatus 34. Parameters (base station cell switching threshold, remaining timer in base station cell switching threshold) are compared (S203, S303).

If this is satisfied, i.e., if the base station cell switching threshold is less than or equal to the reference value, and the remaining timer in the reference cell switching threshold is less than or equal to the reference time, the base station selection controller 37 is the minimum base station for satisfying the call quality required from the cell. Comparing whether the signal strength (base station signal-to-interference ratio in the case of a terminal being called) is greater than or equal to the reference signal level (S204, S304), and when the signal level is greater than or equal to the reference signal level that can satisfy the call quality, Choose.

By determining the cell selection function by the user (S205, S305), if it is turned on, the base station selection controller 37 displays the display device 39 displaying the currently registered wide cell (or narrow cell) of the terminal (S207). ), And displays a wide cell (or narrow cell) currently in a call so that the user can recognize it (S307).

Then, the base station selection control apparatus 37 displays the wide-area cell base station 2 or the narrow cell base station 3 available for cell switching so that the user can request cell switching (S207, S307).

Thereafter, the user selects a base station suitable for the service using the function key of the user input device 40 (S208, S308).

On the other hand, when the user disables the cell selection function by using the cell selection function parameter by the user, the base station selection controller 37 in the terminal controller 35 selects a base station suitable for the service (S206, S306). ).

Then, the terminal selection controller 37 requests the base station controller 4 to perform cell switching to the cell selected by the user or selected by the user (S209, S309). Here, the signal path is made through the base station that is currently connected.

When the cell switching request is received from the terminal, the handover central control apparatus 8 checks the set base station standard load index parameter and the cell switching related information of the network side (S210 and S310).

Then, by comparing this information with the load status information of each base station reported from the base station to determine whether the cell switching (S211, S311), the cell switching procedure is performed when the cell switching through appropriate load balancing is possible.

At this time, the handover central controller 8 issues a radio resource allocation command to the target base station, receives a report of completion of vertical cell switching procedure from the target base station, and controls all procedures such as releasing radio resources of the home cell after cell switching ( S212, S312).

By this process, the base station controller 4 performs a vertical cell switching process.

As described above, in the embodiment of the present invention, in a hierarchical cell environment consisting of a wide cell and a narrow cell, each terminal located in a communication area of a wide cell or narrow cell selects an appropriate cell before providing a service and provides a service. In case of a call, it determines whether to switch the cell using information such as service type, data transmission rate, base station signal strength, etc. By performing the cell switching procedure, it is possible to adjust the load state between the hierarchical cells from the base station point of view, and to continuously provide a high quality service to subscribers.

Claims (26)

In a cellular system having a hierarchical cell structure, a cell switching device for receiving a cell switching request from a terminal to provide a vertical cell switching service, A wide cell base station for providing a packet service at a first transmission rate to a terminal moving at a high speed by using a first frequency; A narrow cell base station for providing a packet service at a second transmission rate slower than the first transmission rate for a terminal moving at a low speed using a second frequency; And a base station controller for checking cell switching related information of the corresponding base station according to the cell switching request signal of the terminal and comparing the load state information of each base station reported from each base station to determine whether to switch the cell. , The base station controller is configured to perform vertical cell switching by comparing the load state of the cell with the standard load index, which is a parameter representing the load state of the corresponding cell using information of the network at the request of the terminal. Cell switching device. The method of claim 1, And the terminal operates in a dual (dual) mode to support both radio access standards of the first frequency and the second frequency. The method of claim 2, The base station controller, A radio access controller for controlling access to the narrow cell base station and the wide cell base station; An exchanger connection / ATM switching device for controlling the connection with the network; A base station synchronization control device for facilitating data signal transmission by establishing synchronization with the narrow cell base station and the wide cell base station; An apparatus for allocating / releasing radio resources for managing radio resources for communication; Vertical cell switching device including a handover central control unit for controlling the vertical cell switching by using the sequence information of each base station reported from the wide cell base station and the narrow cell base station and the load status and network information of each base station . delete The method of claim 3, The wide cell base station, A wide cell control device for controlling radio resource allocation and release; A digital signal processor for performing voice and video coding, channel coding, baseband modulation, and pulse shaping of information in the form of circuit or packet data; Transmitting the data input from the digital signal processor through an intermediate frequency or a direct carrier frequency through a antenna with a sufficient power using a power amplifier and transmitting the received signal input from the antenna Vertical cell switching device comprising an analog signal processor for transmitting to the digital signal processor in the reverse process of the process. The method of claim 3, The narrow cell base station, Narrow cell control device for controlling radio resource allocation and release; A digital signal processor for performing voice and video coding, channel coding, baseband modulation, and pulse shaping of information in the form of circuit or packet data; Transmitting the data input from the digital signal processor through an intermediate frequency or a direct carrier frequency through a antenna with a sufficient power using a power amplifier and transmitting the received signal input from the antenna Vertical cell switching device comprising an analog signal processor for transmitting to the digital signal processor in the reverse process of the process. The method of claim 3, The terminal, A terminal antenna for receiving an external radio signal and wirelessly transmitting an internal signal; An input device for receiving a selection of a user; A display device for displaying data; A source codec for performing audio or video coding of the signal source information input from the user input device in accordance with the form; Performs channel coding, baseband modulation, and pulse shaping on the packet data information transmitted through the source codec, and outputs the digital signal input from the outside by performing pulse shaping, baseband modulation, and channel coding. A digital signal processor for estimating the signal-to-interference ratio of the base station; Transmitting the data input from the terminal digital signal processor through an intermediate frequency or a direct carrier frequency to a wireless section through the terminal antenna with sufficient power using a power amplifier and inputted from the terminal antenna. A terminal analog signal processor for performing a reverse process of the received signal and transferring the received signal to the terminal digital signal processor, and estimating a signal strength of a base station;  Check the base station information broadcasted by the wide cell base station and the narrow cell base station to determine from which cell the service to be provided is appropriate to receive the service, and according to the signal strength information and the signal-to-interference ratio information of the base station. Vertical cell switching device that includes a terminal control to request cell switching. The method of claim 7, wherein The terminal digital signal processing unit A transmitter for performing channel encoding, baseband modulation, and pulse shaping on the information of the packet data transmitted through the source codec; Vertical cell switching device including a receiver for performing a reverse process of the transmitter for the digital signal input from the analog signal processor The method of claim 7, wherein The terminal analog signal processing unit, A transmitter for transmitting the data input from the terminal digital signal processor through a terminal antenna with a sufficient power by using a power amplifier through a process of transmitting data transmitted through an intermediate frequency or a direct carrier frequency; And a receiver for performing the reverse process of the transmitter to transmit the received signal input from the terminal antenna to the terminal digital signal processor. The method according to claim 8 or 9, The terminal controller, A service classifier for identifying and classifying from which cell the service to be provided is appropriate to receive the service by checking the base station information broadcast from the wide cell base station and the narrow cell base station; Signal strength between base stations using signal strength information of the wide cell base station and narrow cell base station inputted from the base station signal-to-interference ratio estimating apparatus located at the receiving end of the terminal digital signal processor and the base station signal strength estimating apparatus located at the receiving end of the terminal analog signal processing unit. And the parameters for cell switching are compared with each other, and if this is satisfied, whether the minimum base station signal strength is satisfied to satisfy the call quality required from the corresponding cell, and the service is provided when the signal level can satisfy the call quality. Vertical cell switching device comprising a base station selection controller for selecting a receiving base station. A base station controller, a broadband cell base station providing packet service at a first transmission rate to a terminal moving at high speed using a first frequency, and a packet service at a second transmission rate for a terminal moving at low speed using a second frequency. A terminal for receiving a mobile communication service through a narrow cell base station providing a, A terminal antenna for receiving an external radio signal and wirelessly transmitting an internal signal; An input device for receiving a selection of a user; A display device for displaying data; A source codec for performing audio or video coding of the signal source information input from the user input device in accordance with the form; Performs channel coding, baseband modulation, and pulse shaping on the packet data information transmitted through the source codec, and outputs the digital signal input from the outside by performing pulse shaping, baseband modulation, and channel coding. A digital signal processor for estimating the signal-to-interference ratio of the base station; Transmitting the data input from the terminal digital signal processor through an intermediate frequency or a direct carrier frequency to a wireless section through the terminal antenna with sufficient power using a power amplifier and inputted from the terminal antenna. A terminal analog signal processor for performing a reverse process of the received signal and transferring the received signal to the terminal digital signal processor, and estimating a signal strength of a base station;  By checking the base station information broadcast from the wide cell base station and the narrow cell base station, it is determined from which cell the service to be provided is appropriate to receive the service, and cell switching is performed according to the signal strength information and the signal-to-interference ratio information of the base station. It includes a terminal control device for requesting, And the first transmission rate is slower than the second transmission rate. The method of claim 11, The terminal digital signal processing unit A transmitter for performing channel encoding, baseband modulation, and pulse shaping on the information of the packet data transmitted through the source codec; And a receiver for performing a reverse process of the transmitter on the digital signal input from the analog signal processor. The method of claim 11, The terminal analog signal processing unit, A transmitter for transmitting the data input from the terminal digital signal processor through a terminal antenna with a sufficient power by using a power amplifier through a process of transmitting data transmitted through an intermediate frequency or a direct carrier frequency; And a receiving end for transmitting the received signal input from the terminal antenna to a terminal digital signal processor by performing a reverse process of the transmitting end. The method according to claim 12 or 13, The terminal controller, A service classifier for identifying and classifying from which cell a service to be provided is appropriate to receive the service by checking base station information broadcasted from the wide cell base station and the narrow cell base station; Signal strength between base stations using signal strength information of the wide cell base station and narrow cell base station inputted from the base station signal-to-interference ratio estimating apparatus located at the receiving end of the terminal digital signal processing unit and the base station signal strength estimating apparatus located at the receiving end of the terminal analog signal processing unit. And the parameters for cell switching are compared with each other, and if this is satisfied, whether the minimum base station signal strength is satisfied to satisfy the call quality required from the corresponding cell, and the service is provided when the signal level can satisfy the call quality. A terminal comprising a base station selection controller for selecting the receiving base station. delete  Wide cell base station providing packet service at a first transmission rate to a terminal moving at a high speed using a first frequency and a second transmission slower than the first transmission rate for a terminal moving at a low speed using a second frequency A method of performing vertical cell switching in a cellular system having a hierarchical cell structure including a narrow cell base station providing packet service at a rate, A first step of selecting, by the terminal, a cell using base station signal strength received from the wide cell and the narrow cell and minimum base station signal strength level information required for the service to be provided; A second step of the terminal requesting cell switching by using the base station signal to interference ratio received from the wide cell and the narrow cell and the minimum base station signal to interference ratio level information required for the service to be provided during the call; And a third step of controlling, by the handover central control apparatus in the base station controller, the vertical cell switching according to the signal strength level and the load state of the corresponding cell base station when the cell switching request is received from the terminal. The method of claim 16, In the second step, if the cell selection function is turned on by the user, the user selects a corresponding base station from the base station information displayed on the display device of the terminal and makes a cell switching request;  And if the cell selection function is turned off by the user, requesting cell switching by using the base station signal-to-interference ratio level information of the base station selection controller in the terminal. The method of claim 16, In the first step, in order to set the minimum base station signal strength level required for the service to be provided by each terminal, the minimum base station signal strength level is classified for each service for the service that the terminal can support How to switch cells. The method of claim 16, In the first step, the vertical cell, characterized in that for requesting cell switching to the base station suitable for the service by comparing the minimum base station signal strength level required for the service to be provided by each terminal and the base station signal strength estimated by the terminal How to switch. The method of claim 16, In the second step, in order to set the minimum base station signal-to-interference ratio level required for the service that each terminal is busy, the terminal classifies the minimum base station signal-to-interference ratio level for each service for a service that can be supported. Cell switching method. The method of claim 16, In the second step, the vertical cell switching method characterized in that the base station is selected for the service by comparing the minimum base station signal-to-interference level required for the service that each terminal is busy with the base station signal-to-interference ratio estimated by the terminal; . The method of claim 16, The third step is a vertical cell switching method, characterized in that for displaying in the hierarchical cell environment a wide cell or narrow cell base station to which each terminal is currently registered through the display device. The method of claim 16, The third step is a vertical cell switching method, characterized in that for displaying in the hierarchical cell environment a wide cell or narrow cell base station to which each terminal is currently talking through the display device. The method of claim 16, The third step is a vertical cell switching method, characterized in that for displaying the wide-area cell or narrow cell base station capable of cell switching in the hierarchical cell environment through the display device. The method of claim 16, And in the third step, each terminal sets a cell selection function by the user to set a cell switching request by the user. The method of claim 16, The third step is a vertical cell switching method characterized in that each terminal allows the user to request cell switching by using a function key when the cell selection function by the user is set.

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