KR20030047445A - Apparatus of generating reverse link traffic for testing smart sector system, and its method - Google Patents

Abstract

PURPOSE: An apparatus for generating a reverse channel signal for certifying a smart sector system and a method therefor are provided to generate a multi-CDMA(Code Division Multiple Access) reverse channel signal in consideration of wireless channel environment and use the generated multi-CDMA reverse channel signal as an input signal for the certification test of the smart sector system. CONSTITUTION: A channel control module(400) calculates a reception power value by wireless channel parameters voluntarily set in consideration of wireless channel environment, and controls the generation of a reverse channel signal by the calculated reception power value. A channel source module(100) generates a source channel signal having a random bandwidth used in a mobile communication system by the control of the channel control module(400), and divides the generated source channel signal into the number of source channel signals which is identical to the number of sectors on wireless channel environment. A channel adjusting module(200) adjusts sector-classified channel signals divided in the channel source module(100) in consideration of each sector-classified different cell, signal interference by the sector, the signal distribution characteristic of sector-classified subscribers, a voice activity ratio, and power control. A reverse channel generating module(300) divides a power of the channel signal adjusted from the channel adjusting module(200) by the control of the channel control module(400), and generates the reverse channel signal through the attenuation and analysis of the divided channel signals.

Description

Apparatus of generating reverse link traffic for testing smart sector system, and its method

The present invention relates to an apparatus and method for generating a reverse channel for verifying a smart sector system. More particularly, the present invention relates to a multiple reverse direction similar to that introduced into a multi-beam antenna in a wireless channel environment to verify the performance of the smart sector system. The present invention relates to a reverse channel generating apparatus and method for verifying a smart sector system for generating a channel signal.

In general, the mobile communication service has a poor balance of call volume between sectors, resulting in low efficiency of using a wireless channel, and in particular, when a call volume is concentrated in a specific sector, coverage is reduced. Therefore, in order to solve this problem, a smart sector system has been proposed that can adaptively change the sector according to the fluctuation of the call volume.

Here, in order to verify the performance of the smart sector system, a multiple CDMA reverse channel signal generation technique considering an actual wireless channel environment is required.

However, the conventional CDMA reverse channel signal generation technology has a separate CDMA signal generator and a radio channel emulator and is limited to one or two signal output channels, which is complicated to apply to a smart sector system. But the cost and efficiency was deteriorated.

In addition, to verify the performance of a smart sector system using an array antenna of four or eight multiplexed beams per sector, four or eight multiple signal outputs per sector are required. Although it is difficult to apply the signal channel, even if the signal channel is separated and used using a splitter, there is a problem in that the signal characteristics of the multi-beam antenna cannot be accurately modeled.

Accordingly, the present invention has been made to solve the above problems, and generates a multiple CDMA reverse channel signal considering the wireless channel environment and use it as an input signal for verification test of the smart sector system performance of the smart sector system It is an object of the present invention to provide a reverse channel generating apparatus and method for verifying a smart sector system for contributing to the efficient utilization of frequency resources by verifying and consequently balancing the call volume in each sector of the base station.

1 is a block diagram of an embodiment of a reverse channel generating apparatus for verifying a smart sector system according to the present invention;

FIG. 2 is a detailed block diagram of an embodiment of a reverse channel generating apparatus shown in FIG. 1; FIG.

3 is a flowchart illustrating a method for generating a reverse channel for verification of a smart sector system according to the present invention.

※ Explanation of code for main part of drawing

100: channel source module 200: channel adjustment module

300: reverse channel generation module 400: channel control module

500: power supply module

The apparatus of the present invention for achieving the above object, in the reverse channel generation apparatus for verification of the smart sector system, calculates the received power value by the radio channel parameter arbitrarily set in consideration of the radio channel environment, the calculation Channel control means for controlling the reverse channel signal generation by the received received power value; Channel supply means for generating a source channel having an arbitrary bandwidth used in a mobile communication system under the control of the channel control means, and distributing the generated source channel in the same number as sectors in a wireless channel environment; Adjusting the channel signal for each sector distributed by the channel supply means by the control of the channel control means in consideration of signal interference by different cells and sectors for each sector, signal distribution characteristics of subscribers for each sector, voice activity rate and power control Channel adjusting means for adjusting; And reverse channel generating means for distributing power of the channel signal adjusted from the channel adjusting means by the control of the channel control means, and generating a reverse channel signal through attenuation and synthesis of the power-distributed channel signal. Characterized in that.

In addition, the method of the present invention, in the reverse channel generation method for verification of the smart sector system, the value of the bandwidth (W), data rate (R) and background noise (N _o ) according to the system is determined, and each sector A first step of arbitrarily setting the number of subscribers in the na-beam; A second step of assuming a subscriber signal distribution characteristic, a voice activity rate, and a power control element in each sector or beam required to generate a reverse channel signal, and setting the assumed element to a value similar to a radio channel environment; A third step of defining and calculating interference by subscribers served by another cell or sector or by another beam; And calculating received power values in each sector and beam based on the information set in the first, second and third steps, and generating a reverse channel signal considering a wireless channel environment based on the calculated power values. And a fourth step.

On the other hand, the present invention, in order to generate a reverse channel for the verification of the smart sector system, the reverse channel generation device having a processor, the bandwidth (W), data rate (R) and background noise (N _o ) of the system A first function of determining a value and arbitrarily setting the number of subscribers in each sector or beam; A second function that assumes subscriber signal distribution characteristics, voice activity rate, and power control elements in each sector or beam required to generate a reverse channel signal, and sets the hypothesized element to a value similar to a radio channel environment; A third function of defining and calculating interference by subscribers served by another cell or sector or by another beam; And calculating received power values in each sector and beam based on the information set in the first function, the second function, and the third function, and generating a reverse channel signal considering a wireless channel environment based on the calculated power values. A computer readable recording medium having recorded thereon a program for realizing the fourth function is provided.

Hereinafter, a preferred embodiment of a reverse channel generating apparatus and method for verifying a smart sector system according to the present invention will be described in detail with reference to the accompanying drawings.

The apparatus of the present invention is applied to a CDMA system, an IMT-2000 system, a PCS system, a next generation mobile communication system, and the like.

1 is a block diagram of an embodiment of a reverse channel generating apparatus for verifying a smart sector system according to the present invention.

As shown in FIG. 1, the reverse channel generating apparatus includes a channel source module 100, a channel adjusting module 200, a reverse channel generating module 300, a channel control module 400, and a power supply module 500. Include.

The channel source module 100 selectively generates not only a CDMA signal having a bandwidth of 1.2288 MHz, which is a band of an existing cellular system, but also a wideband CDMA signal of 3.84 MHz, or any other wireless channel signal, to selectively generate a channel adjustment module 200. To pass.

That is, the channel source module 100 transmits the same number of CDMA channel signals as the number of sectors to the channel adjustment module 200 in order to apply an independent wireless channel environment for each sector.

The channel adjustment module 200 controls the CDMA channel source signal received from the channel source module 100 by signal interference by a different cell or sector for each sector and a subscriber of each sector under the control of the channel control module 400 to be described later. The radio signal is adjusted to a wireless channel environment in which signal distribution characteristics, voice activity rate, and power control are considered and transmitted to the reverse channel generation module 300.

The reverse channel generation module 300 distributes power so that the CDMA channel signal adjusted by the channel adjustment module 200 can have characteristics similar to the power received for each beam of the multi-beam antenna (installed in the smart sector system). It is used as an input signal for verification test of smart sector system.

The channel control module 400 receives driving power from the power supply module 500 to be described later, and controls the channel adjusting module 200 and the reverse channel generating module 300 according to the input channel environment information, respectively. In addition, the channel control module 400 has a monitoring matching function between each module and performs component control and monitoring matching within each module.

The power supply module 500 converts AC power to DC power and provides a bias and control signal source for each module.

FIG. 2 is a detailed block diagram of an apparatus for generating a reverse channel for verifying a smart sector system shown in FIG. 1.

As shown in FIG. 2, the channel source module 100 includes a signal generator 110, an up converter 120, a first switching unit 130, first to fourth bandpass filters 142, 144, 162, and 164. And second amplifiers 152 and 154, second switching unit 170, and power divider 180.

The signal generator 110 generates a baseband CDMA channel source and transmits it to the up converter 120.

The up converter 120 converts a baseband CDMA channel signal into an RF signal by operating by a reference frequency input from a local oscillator (not shown), and transmits the RF signal to the first switching unit 130.

The first switching unit 130 switches the RF signal received from the up converter 120 under the control of the channel control module 400 to the first band pass filter 142 or the second band pass filter 144. The first band pass filter 142 or the second band pass filter 144 removes an RF signal which is a channel source signal of an unnecessary band by a filtering operation, and finally, the amplifiers 152 and 154 and the band pass filter ( Only signals in a desired band are amplified and transmitted to the power divider 180 through the 162 and 164 and the second switching unit 170.

Here, the first switching unit 130 and the second switching unit 170 performs a switching operation to the same position by the control signal of the channel control module 400, for example, the band of the existing cellular system In order to generate the reverse channel signal corresponding to the first switching unit 130 is switched to the contact a, the second switching unit 170 is switched to the c contact, and eventually converted by the up converter 120 to the RF signal The channel source signal is filtered and amplified by the first band pass filter 142, the first amplifier 152, and the third band pass filter 162 to be delivered to the power divider 180.

In addition, in order to generate a reverse channel corresponding to a band of any other mobile communication system, the first switching unit 130 is switched to the b contact point, the second switching unit 170 is switched to the d contact point, and thus, the up converter. The channel source signal converted into the RF signal by the 120 is filtered and amplified in the band through the second bandpass filter 144, the second amplifier 154, and the fourth band pass filter 164. Is delivered).

The power divider 180 distributes the source channel signal transmitted through the second switching unit 170 to the channel adjusting module 200 by dividing the source channel signal by the same number of sectors to apply an independent wireless channel environment for each sector. do.

Here, the channel adjusting module 200 includes first to third channel adjusting units 210, 220, and 230 that can accommodate the number of sectors distributed by the power divider 180, and each of the channel adjusting units 210, 220, and 230 includes a first unit. To third voice activity adjustment switches 202, 212, 222 and first to third adjustment attenuators 204, 214, 224.

Accordingly, the channel adjustment module 200 divides the channel sectors distributed by the power divider 180 into the first voice activity adjustment switch 202, the second voice activity adjustment switch 212 and the third voice activity adjustment switch 222, respectively. Switching according to the voice activity rate of the cell subscribers. Therefore, the first to third adjustment attenuators 204, 214, and 224 adjust the channel signal by attenuation in consideration of interference or power control factors in a communication environment, and adjust the channel signal considering the voice activity rate by the switching operation. The channel signal is transmitted to the reverse channel generation module 300.

Here, the first to third voice activity adjustment switches 202, 212, 222 perform a fast switching operation by a control signal output by a parameter previously stored in the channel control module 300.

Meanwhile, the configuration of the reverse channel generation module 300 includes first to third power dividers 310, 320, and 330, distribution attenuators 315, 325, and 335 connected to the respective power dividers 310, 320, and 330, and a power synthesizer 340.

Therefore, the reverse channel generation module 300 is the maximum number of beams that can form a sector in the smart sector system by the first to third power divider (310, 320, 330) the channel signal adjusted in the channel adjustment module 200 As much as the sector signal, the separated channel sector signal is transmitted to the corresponding distribution attenuator (315,325,335).

The distribution attenuators 315, 325, 335 attenuate and adjust the signal levels for each beam so that the channel sector signals received may have similar characteristics to the multiple signals input to the smart sector system under the control of the channel control module 400. Transfer to synthesizer 340.

The power synthesizer 340 synthesizes the multi-channel sector signals separately adjusted for each beam, and delivers them to the input terminal of the switching subsystem of the smart sector system.

Accordingly, it may be determined whether the smart sector system performs normal operation using a multi-channel sector signal similar to an input signal in a wireless channel environment.

Meanwhile, the verification system according to the present invention provides dual band or broadband band characteristics to module components required for the system in order to operate in any system frequency band as well as the existing cellular system band and IMT-2000 system band. It is preferable that the branch constitutes a module.

3 is a flowchart illustrating a method of verifying a smart sector system according to the present invention, which is a flowchart for generating a multi-channel CDMA reverse signal having similar characteristics to that of a multi-beam antenna in an actual wireless channel environment.

As shown in FIG. 3, first, values of bandwidth (W), data rate (R) and background noise (N _o ) according to a system are determined (S301), and M (M is a natural number) of each sector or beam. When present, the number of subscribers in each sector or beam is set to N ₁ , N ₂ ,... N _m (S302).

Then, it is assumed that information necessary for generating a multi-channel CDMA reverse signal (S303).

That is, in step S303, the subscriber signal distribution in each sector or beam may have a Poisson distribution characteristic having a λ / μ average value in consideration of the subscriber signal distribution characteristics in each sector and the beam. Here, lambda is calls / sec in units of Poisson incoming call rate and μ is second / calls in units of call talk time.

In addition, the process (S303), considering the voice activity during the call, assumes that the probability that the voice activity rate is 1 is V, and the probability that the voice activity is 0 is (1-V). Each subscriber has different E _b / I _o values to satisfy the desired FER, which means that the reverse power control is slightly different for each subscriber. Here, the E _b / I _o value of each subscriber according to the power control has a log-normal distribution and has an arbitrary mean value and a standard deviation value.

Therefore, through the above process (S303), the signal distribution characteristics, voice activity rate, and reverse power control element of the subscriber in each sector or beam are set to values similar to those of the actual wireless channel environment (S304), and other cells, sectors or other The interference η by the subscriber receiving the service in the beam is defined, and the interference value by the subscriber defined above is calculated (S305).

Subsequently, the received power values C _i in each sector and / or beam are substituted by the variables and constant values set and calculated from steps S301 to S305 to Equations 1 and 2, respectively. ) And control the channel adjustment module 200 and the reverse channel generation module 300 based on the calculated power value to generate a multi-channel CDMA reverse signal considering the wireless channel environment (S306).

Therefore, the reverse channel signal generated as described above is transmitted to the smart sector system, thereby finally checking the performance of the smart sector system.

As mentioned above, preferred embodiments of the present invention are disclosed for the purpose of illustration, and those skilled in the art can improve and change various other embodiments within the spirit and technical scope of the present invention disclosed in the appended claims below. , Replacement or addition would be possible.

An apparatus and method for generating a reverse channel for verifying a smart sector system, which is implemented as described above, can be implemented in a single system for verifying a smart sector system. As a result, the system can be configured, and as a result, the call volume of each sector of the base station can be balanced, which is very useful for efficient utilization of frequency resources.

Claims (6)

In the reverse channel generator for verification of the smart sector system, Channel control means for calculating a reception power value according to a radio channel parameter arbitrarily set in consideration of a radio channel environment, and controlling generation of a reverse channel signal based on the calculated reception power value; Channel supply means for generating a source channel having an arbitrary bandwidth used in a mobile communication system under the control of the channel control means, and distributing the generated source channel in the same number as sectors in a wireless channel environment; Adjusting the channel signal for each sector distributed by the channel supply means by the control of the channel control means in consideration of signal interference by different cells and sectors for each sector, signal distribution characteristics of subscribers for each sector, voice activity rate and power control Channel adjusting means for adjusting; And Reverse channel generating means for distributing power of the channel signal adjusted from the channel adjusting means by the control of the channel control means, and generating a reverse channel signal through attenuation and synthesis of the power-distributed channel signal. Reverse channel generation apparatus comprising a. The method of claim 1, The channel supply means, Source channel generating means for generating a baseband source channel signal and converting the generated source channel into an RF signal by operating an upconverter according to a reference frequency; Source channel selecting means for selecting a use band of an arbitrary telecommunication system through the source channel generated by the channel generating means; And Source channel power distribution means for distributing the source channel signal selected by the channel selection means to the same number as the number of sectors in order to apply an independent radio channel environment for each sector. Reverse channel generation apparatus comprising a. The method according to claim 1 or 2, The channel adjusting means, Voice activity adjustment switching means for switching the source channel signal distributed from the source channel power distribution means to take into account the voice activity rate of the subscriber in the cell under the control of the channel control module; And Channel adjustment attenuation for adjusting the source channel signal in which the voice activity rate is considered by the voice activity adjustment switching means through attenuation of the channel signal to take into account interference or power control factors in a communication environment by the control of the channel control means. Way Including, And a plurality of said voice activity adjustment switching means and channel adjustment attenuation means are provided so as to correspond independently to a plurality of source channels distributed by said source channel power distribution means. The method according to claim 1 or 2, The reverse channel generating means, The channel signal adjusted by the channel adjusting means is distributed by the maximum number of beams that can form one sector in a smart sector system, and the distributed channel is attenuated by the control of the channel control means based on the distributed sector power. Sector power attenuation means for; And Sector power synthesizing means for synthesizing the channel signal adjusted and attenuated by the sector power distribution means and outputting a reverse channel signal Reverse channel generation apparatus comprising a. In the reverse channel generation method for verification of a smart sector system, A first step of determining values of bandwidth (W), data rate (R) and background noise (N _o ) according to the system, and arbitrarily setting the number of subscribers in each sector or beam; A second step of assuming a subscriber signal distribution characteristic, a voice activity rate, and a power control element in each sector or beam required to generate a reverse channel signal, and setting the assumed element to a value similar to a radio channel environment; A third step of defining and calculating interference by subscribers served by another cell or sector or by another beam; And Calculating received power values in each sector and beam according to the information set in the first, second and third steps, and generating a reverse channel signal considering a wireless channel environment based on the calculated power values. 4 steps Reverse channel generation method for verification of a smart sector system comprising a. In order to generate a reverse channel for verification of the smart sector system, the reverse channel generating device having a processor, A first function of determining values of bandwidth (W), data rate (R) and background noise (N _o ) according to the system and arbitrarily setting the number of subscribers in each sector or beam; A second function that assumes subscriber signal distribution characteristics, voice activity rate, and power control elements in each sector or beam required to generate a reverse channel signal, and sets the hypothesized element to a value similar to a radio channel environment; A third function of defining and calculating interference by subscribers served by another cell or sector or by another beam; And Calculating a received power value in each sector and beam based on the information set in the first function, the second function, and the third function, and generating a reverse channel signal considering a wireless channel environment based on the calculated power value 4 functions A computer-readable recording medium having recorded thereon a program for realizing this.