KR20020041124A - Apparatus for estimating a traffic in a multi-sector antenna system of a mobile system - Google Patents

Abstract

PURPOSE: An apparatus for estimating traffic in a mobile communication multi-sector antenna system is provided to achieve a high-performance traffic estimation technique by simultaneously receiving the power received through a plurality of antenna beams using the reverse power supplied to a multiple beam or a multiple sector. CONSTITUTION: An apparatus for estimating traffic in a mobile communication multi-sector antenna system comprises N numbers of array antennas(100), a power sampler module(102), an N:1 switch module(104), a filter and amplifier module(106), a power detector module(108), and a system control and power value control module(110). The power sampler module(102) samples the power of a multiple beam received through 4 or 8 array antennas per each sector. The N:1 switch module(104) switches N numbers of received powers sampled by the power sampler module(102) at regular time intervals and processes them sequentially. The filter and amplifier module(106) converts the sequentially processed received powers into necessary band signals. The power detector module(108) converts the converted received powers into linear voltage values. The system control and power value control module(110) calculates the average power value of the powers received through the 4 or 8 array antennas(100) using the linear voltage values and computes the difference values between the calculated multiple beam average power values. Based on the computed difference values, the system control and power value control module(110) estimates inter-beam traffic.

Description

Apparatus for estimating call volume in mobile communication multi-sector antenna system {APPARATUS FOR ESTIMATING A TRAFFIC IN A MULTI-SECTOR ANTENNA SYSTEM OF A MOBILE SYSTEM}

The present invention relates to a call amount estimating technique required for a multi-sector antenna system in mobile communication. In particular, the present invention relates to a call amount estimating in a mobile communication multi-sector antenna system estimating a call amount using reverse power input into a multi-beam or multi-sector. Relates to a device.

Currently, mobile communication base stations in mobile communication systems can be classified into omni base stations and sector base stations, and most mobile communication systems take the form of sector base stations. In the case of such a sector base station, it is composed of three sectors or six sectors. Currently, a CDMA base station takes the form of a three sector base station.

However, the three-sector base station uses an antenna having a fixed beam width to serve an area in which each sector is fixed. As a result, an unbalanced distribution of the call volume in the area controlled by each sector results in maximum call volume. Frequency resources are allocated based on sectors having. Therefore, a sector with a small amount of call may have a low efficiency of using frequency resources, and a sector having a concentrated call amount may reduce a wireless channel use efficiency and reduce coverage. This raises the problem that the service efficiency is lowered and the frequency resource management / maintenance cost is excessive.

In addition, in the conventional mobile communication system employing a fixed three-sector base station, if the call volume distribution of the base station is changed, a countermeasure should be made manually, that is, the direction of the antenna installed on the tower in order to change the sector direction. The need for operators to make changes directly raises the question of not only being cumbersome and dangerous in terms of management, but also very inefficient in their working hours.

In order to solve this problem, a multi-sector antenna system has been proposed that enables the service area of a sector to be variably adjusted according to the distribution of call volume.

In order to implement such a multi-sector antenna system, call monitoring or estimating techniques are indispensable. Some problems have arisen in implementing the call estimating technique.

In other words, the conventional call volume monitoring technology estimates the call volume based on the forward power, and the system structure has to be interworked with the base station system, which raises the problem that the structure is complicated and inefficient. In addition, in such a structure, not only the cost is excessive, but also there is a problem in that the amount of money estimation is poor.

In particular, this problem is very sharp in a multi-sector antenna system using an array antenna of multiplexed (4 or 8) multiplexed beams per sector, so that multiple beams can be estimated for each antenna element. There is an urgent need for a currency estimating technique.

Accordingly, the present invention has been made in accordance with the above-described requirements, by simultaneously receiving the power received through a plurality of antenna beams in a system separate from the base station by using the reverse power input to the multiple beam or multiple sector, An object of the present invention is to provide an apparatus for estimating call volume in a mobile communication multi-sector antenna system, which enables to simplify, reduce costs, and implement high-performance call estimating technology.

In order to achieve the above object, the present invention provides an array antenna in an apparatus for estimating a communication amount in a mobile communication multi-sector antenna system for receiving a multiplexed beam through an array antenna composed of N pieces (where N is a multiple of 4) per sector. A power sampler module for sampling the power of the multiplexed beam received via; An N: 1 RF switch module configured to sequentially process 1 to N received powers sampled by the power sampler module at predetermined time intervals; A filter and amplifier module for converting received power sequentially processed by the N: 1 RF switch module into a required band signal having a predetermined magnitude; A power detector module for converting and detecting the received power converted by the filter and the amplifier module into a linear voltage value; Calculating the average power value of the received power through the N array antennas converted by the power detector module into the linear voltage value, calculating the difference value of the average power value between the multiplexed beams calculated, and based on the calculated difference value A power value control module for estimating a communication amount between beams; A system control module for providing a switching synchronization control signal to the N: 1 RF switch module according to the call amount estimation data calculated by the power value control module, and for generating a control signal between multiple channels of the device; Provided is a call amount estimating apparatus in a communication multi-sector antenna system.

1 is a block diagram illustrating an apparatus for estimating a call amount in a mobile communication multi-sector antenna system according to a preferred embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

100: antenna

102: power sampler module

104: N: 1 RF Switch Module

106: filter and amplifier module

108: power detector module

110: system control and power value processing control module

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present invention.

Prior to the description, an apparatus for estimating a call amount in a mobile communication multi-sector antenna system according to a preferred embodiment of the present invention presupposes using an array antenna of 4 or 8 multiplexed beams per sector.

The present invention is characterized by estimating the amount of call based on the reverse power of four or eight multiplexed beams per sector.

1 is a block diagram illustrating an apparatus for estimating a call amount in a mobile communication multi-sector antenna system according to an exemplary embodiment of the present invention, wherein N array antennas 100, a power sampler module 102, and an N: 1 switch module 104 are shown. ), Filter and amplifier module 106, power detector module 108, system control and power value control module 110.

As shown, the power sampler module 102 performs the function of sampling the power of the multiplexed beam received through the array antenna 100 composed of four or eight sectors. Such sampler module 102 may be comprised of, for example, a 20 dB directional coupler.

The N: 1 RF switch module 104 performs a function of sequentially processing by switching 1 to N received powers sampled by the above-described power sampler module 102 at predetermined time intervals.

The filter and amplifier module 106 performs a function of converting the received power sequentially processed by the N: 1 RF switch module 104 into a required band signal of a predetermined magnitude.

The power detector module 108 converts and receives the received power converted by the filter and amplifier module 106 into a linear voltage value. In addition, the power detector module 108 may set a predetermined passband, for example, the maximum frequency of the passband to be varied from 1 to 10 KHz, thereby removing noise components from the received power signal. That is, when an unwanted high frequency component such as noise is included in the power signal received through the antenna 100, the unnecessary component is removed.

In this case, the power detector module 108 is provided with a capacitor filter (not shown), and the noise filter removing function as described above may be performed by the capacitor filter, which is common in the art. Those who have knowledge will easily know.

System control and power value control module 110 according to a preferred embodiment of the present invention is the power of the received power through the four or eight array antenna 100 converted to a linear voltage value by the power detector module 108 described above. The average power value is calculated, the difference value of the average power value between the multiplexed beams is calculated, and the communication amount between the beams is estimated based on the calculated difference value.

In addition, the system control and power value control module 110 provides a switching synchronization control signal to the N: 1 RF switch module 104 according to the calculated call amount estimation data, multi-channel control of the call amount estimating apparatus according to the present invention Function to generate a signal. That is, the system control and power value control module 110 provides a switching synchronization control signal for a constant time interval operation of the N: 1 RF switch module 104, and detects each beam switching control signal and each beam receiving power and It performs a function of providing control signals between multiple channels to match storage synchronization.

In addition, the system control and power value control module 110 performs beam switching control of the multi-sector antenna system based on the above-mentioned call amount estimation data. In other words, it provides a criterion for determining the distribution / synthesis of the beams so that the estimated call volume can be uniformly distributed for each multiplexed beam based on the difference in the average power value between the multiplexed beams. It serves to provide the beam switch system of the system.

As mentioned above, although preferred embodiments of the present invention have been described and described, it should be understood by those skilled in the art that various modifications are possible within the scope of the following claims. That is, the apparatus for estimating the call volume according to the present invention is an example of a sub-system of a base station system having an adaptive variable sector beam, but may be extended and applied to other systems, for example, a switching smart antenna system.

Accordingly, the present invention can implement a call amount estimation technique in which the structure is simple, the cost is reduced, and the performance is improved by simultaneously receiving power received through a plurality of antenna beams as a separate system from the base station. In addition, since the balance of call volume in each sector of the base station can be implemented based on the estimated power value, there is an effect of efficiently utilizing frequency resources.

Claims (5)

An apparatus for estimating a call amount in a mobile communication multi-sector antenna system for receiving a multiplexed beam through an array antenna composed of N pieces (where N is a multiple of 4) per sector, A power sampler module for sampling power of the multiplexed beam received via the array antenna; An N: 1 RF switch module configured to sequentially process 1 to N received powers sampled by the power sampler module at predetermined time intervals; A filter and amplifier module for converting received power sequentially processed by the N: 1 RF switch module into a required band signal having a predetermined magnitude; A power detector module for converting and detecting the received power converted by the filter and amplifier module into a linear voltage value; Calculating an average power value of the received power through the N array antennas converted by the power detector module into a linear voltage value, calculating a difference value of the average power value between the calculated multiplexed beams, and calculating the difference A power value control module for estimating a communication amount between beams based on the value; And a system control module for providing a switching synchronization control signal to the N: 1 RF switch module according to the call amount estimation data calculated by the power value control module, and generating a control signal between multiple channels of the device. A call amount estimating apparatus in a mobile communication multi-sector antenna system. The method of claim 1, The apparatus for estimating a call amount in a mobile communication multi-sector antenna system, characterized in that the power sampler module comprises a directional coupler. The method of claim 1, And the power detector module removes a noise component from a received power signal by setting a preset passband. The method of claim 3, wherein The preset passband is 1 ~ 10KHz, the amount of call estimating apparatus in a mobile communication multi-sector antenna system. The method of claim 1, And the power value control and system control module performs beam switching control of the multi-sector antenna system based on the call amount estimation data.