CN1120544C - Method and apparatus for directional radio communication - Google Patents

Abstract

The present invention relates to a method for directional wireless communication between a first website and a second website, and a mobile communication network. The method comprises the following steps: continuous communication data pulse trains transmitted from the second website is identified by the first website; a corresponding beam direction for the first website receives orderly communication data pulse trains is determined according to a plurality of adjacent beam directions; one or multiple beam directions transmitting signals to the second website from the first website are selected so that when the first website receives the orderly communication data pulse trains from different beam directions, two different beam directions are simultaneously selected and transmit the signals to the second website from the first website.

Description

The method and apparatus of directional radio communication

Technical field

The present invention relates to the method and apparatus of directional radio communication, wherein the signal between first base station and second base station is only to send on the direction of determining.Especially, but not only in this, the present invention can be used for using the cellular communications network of space division multiple access.

Background technology

In the cellular communications network of current realization, a base station transceiver (BTS) sends signal in order give to specify mobile radio station (MS), and this base station transceiver (BTS) generally sends signal in the whole sub-district of this base station transceiver service or cell sector.And space division multiple access (SDMA) system has been proposed now.In a space division multi-access, base station transceiver can not send signal to an appointment mobile radio station in whole sub-district or cell sector, and only can send signal along the beam direction from the mobile radio station received signal.The SDMA system can also allow the definite direction from the mobile radio station received signal of base station transceiver.

The SDMA system can obtain some advantages that surpass existing system.Particularly, because the beam that BTS sends is only sending on a specific direction, and the direction relative narrower, the power of transceiver can be focused on the narrow beam.Can determine that this method all can obtain signal to noise ratio preferably for the signal of base station transceiver transmission and the signal of base station transceiver reception.In addition, as the result of base station transceiver directional characteristic, can improve the signal to noise ratio of the signal of base station transceiver reception.And on sending direction, the directional characteristic of BTS allows on concentration of energy to a narrow beam, and the signal that makes BTS send can arrive distance mobile radio station far away, and power level is lower than the requirement of conventional BTS.This allows mobile radio station in the far local operate as normal of distance base station transceiver, thereby means the sub-district that can increase Cellular Networks or the area of cell sector.Result as increasing the sub-district area can reduce required base station number, thereby reduce network charges.The SDMA system generally needs some antenna elements so that obtain required transmission and a plurality of different beam directions of received signal.Provide a plurality of antenna elements to increase the sensitivity of BTS received signal.This means that bigger sub-district area can not produce adverse influence from the mobile radio station received signal to BTS.

The SDMA system also can increase the capacity of system, promptly increased the quantity of the mobile radio station that system can support simultaneously.Its reason is the directional characteristic of communication, and this characteristic means that BTS can pick up less interference from the mobile radio station other sub-district of using same frequency.When communicating by letter with the MS of an appointment in the related cell, BTS can produce less interference to the mobile radio station in other sub-district of using same frequency.

At last, the SDMA system allows to use simultaneously identical frequency to send signal to two or more different mobile radio stations that are positioned on the diverse location of same sub-district.This has increased the transmission quantity that Cellular Networks can be born greatly.

Can realize SDMA by analog-and digital-Cellular Networks, and can introduce multiple existing, such as GSM, DCS1800, TACS, the standard of AMPS and NMT.The SDMA system also can with such as time division multiple access (TDMA), code division multiple access (CDMA), other existing multiple access technology of frequency division multiple access (FDMA) technology is used.

A problem of SDMA system is the direction that needs to determine to send to mobile radio station signal.In some cases, can use the beam of a relative narrower to send signal to a mobile radio station from a base station transceiver.Therefore, need the quite accurately direction of this mobile radio station of assessment.If mobile radio station is carrying out with respect to the moving of base station transceiver, it can move to the cell area that adjacent beams covers from the cell area that one first beam covers.Base station transceiver need be judged should use adjacent beams but not first beam sends the time of signal to mobile radio station.Because first beam and adjacent beams in fact can be overlapped, so this judgement is complicated.

Another problem is to determine that according to the uplink signal that BTS receives from mobile radio station BTS sends the direction of signal to mobile radio station.But be different from BTS sends frequency from signal to mobile radio station to the frequency that BTS sends down link signal from mobile radio station.The frequency of using in up link and the down link signal different mean that the behavior of channel in the uplink direction is different from the behavior of the channel in the down link direction.Like this, the optimal direction of determining at the uplink signal optimal direction of down link signal always not.

Summary of the invention

Target of the present invention is to overcome these difficulties.

According to a first aspect of the invention, provide a kind of at mobile communications network the base station and mobile radio station between carry out the method for directional radio communication, the method comprising the steps of:

In of the continuous burst of described identification of base stations from the communication data that described mobile radio station transmitted;

According to a plurality of adjacent beam directions, each beam direction that definite communication data that is sequentially received by described base station happens suddenly;

Select described beam direction in order to signal is sent to described mobile radio station from described base station, thereby when definite described base station sequentially receives communication data when burst from two different beam directions, select this two different beam directions simultaneously, in order to described signal is sent to described mobile radio station from described base station, and when these two different beam directions are also non-conterminous, on these two beam directions and on the insertion beam direction, described signal is sent to described mobile radio station from described base station.

Like this, by embodiments of the invention, can compensate the qi justice that second website that moves to the zone that another beam covers from the zone that beam covers causes.Particularly, increased the probability that arrives second website from the signal of first website.

If different beam directions are non-conterminous, one of them may corresponding to one from the burst of the communication data of first website the off-path of process.The signal that sends to second website from first website may not necessarily pass through this off-path.Send by inserting on the beam direction, can reduce the influence that signal caused that detects through off-path at all.

First and second beam directions preferably can be used to predetermined a plurality of continuous signal that sends from first website.Alternatively, first and second beam directions are used to an independent signal that sends from first website only.Under possible situation, preferably only on an independent beam direction, send signal from first website.

The definite direction that receives each alphabetic data burst may be defined as the beam direction that receives peak signal.This direction is corresponding to providing the path of minimum decay for specifying to happen suddenly.Alternatively, the definite direction that receives the burst of each alphabetic data may be defined as the beam direction that receives through the signal of shortest path.

This method preferably includes a distance parameter that monitors a distance between expression first and second websites, if wherein the distance between first and second websites is less than a predetermined value, no matter the direction that receives first and second signals how, send signal to above-mentioned second website with the expanded-angle of a relative broad.In fact, this means if the distance between first and second websites less than critical distance, sends signal on the more relatively beam direction of quantity.If the distance between first and second websites less than above-mentioned predetermined value, can send signal to second website by relatively low power, if distance greater than predetermined value, can send signal by higher power.

According to a second aspect of the invention, provide a kind of base station of carrying out directional radio communication in mobile communications network with mobile radio station, described base station comprises:

Recognition device is in the continuous burst of described identification of base stations from the communication data that described mobile radio station transmitted;

Determine device, according to a plurality of adjacent beam directions, each beam direction that definite communication data that is sequentially received by described base station happens suddenly;

Sender device is in order to pass the signal to described mobile radio station;

Control device, select described beam direction in order to signal is sent to described mobile radio station from described base station, thereby when definite described base station sequentially receives communication data when burst from two different beam directions, select this two different beam directions simultaneously, in order to described signal is sent to described mobile radio station from described base station, and when these two different beam directions are also non-conterminous, on these two beam directions and on the insertion beam direction, described signal is sent to described mobile radio station from described base station.

The present invention is specially adapted to cellular communications network, and wherein first website is a base station transceiver.But should be appreciated that embodiments of the invention go for non-honeycomb directional radio communication network.Be to be understood that term " burst " in this article only represents a part of signal that receives from second website and do not attempt range of application of the present invention is restricted on the modular system such as GSM that wherein term " burst " has a specific implication in GSM.Alternatively, term " burst " can be meant from the specified portions of the data of second website transmission.

Description of drawings

In order to understand the present invention better and to realize the present invention, described by way of example referring now to accompanying drawing, wherein:

Fig. 1 shows the structure chart of a base station transceiver (BTS) and relevant cell sector thereof;

Fig. 2 shows the sketch of an aerial array and base station transceiver;

Fig. 3 shows the holding beam pattern that the aerial array of Fig. 2 provides;

Fig. 4 shows the structure chart of the digital signal processor of Fig. 2;

Fig. 5 illustrates the channel impulse response of four channels in eight channels.

Fig. 6 a-h shows expectation and receives the beam direction that MS sends to 8 continuous data bursts of base station transceiver;

Fig. 7 a-h shows according to one embodiment of present invention and sends to the beam of selecting in 8 continuous data bursts of a MS at a SDMA base station transceiver.

Embodiment

At first, wherein show three cell sectors 2 of a sub-district 3 of definition cellular mobile telephone network with reference to Fig. 1.Three cell sectors 2 provide service by relevant base station transceiver (BTS) 4.Each BTS 4 has a transceiver at a corresponding transmission and received signal in three cell sectors 2.The base station transceiver of a special use is provided respectively for each cell sector 2 like this.Thereby each BTS 4 can communicate by letter with the mobile radio station (MS) such as the mobile phone that is arranged in respective cell sector 2.

In the environment of a GSM (global system for mobile communications) network, present embodiment has been described.In gsm system, use frequency/time division multiple access F/TDMA system.Mode with burst sends data between BTS 4 and MS.It is the training sequence of given data sequence that data burst comprises one.The purpose of training sequence will be described below.In this frequency range, send each data burst by a predetermined time slot in the designated frequency band.Use a directional antenna array to allow to realize space division multiple access.Like this, in an embodiment of the present invention, will be by designated frequency band, assigned timeslot and assigned direction send each data burst.Can be at passing through designated frequency band, relevant channel of specific data burst definition that assigned timeslot and assigned direction send.As described below, in certain embodiments of the present invention, by similar frequency bands, the directions that identical time slot but two are different send identical data bursts.

Fig. 2 shows a structure chart as the aerial array 6 of the BTS 4 of transceiver.Be to be understood that 6 of arrays shown in Figure 2 serve in three cell sectors 2 shown in Figure 1.Two aerial arrays 6 are other two cell sectors, 2 services in addition.Aerial array 6 has 8 antenna element a ₁A ₈Each antenna element a ₁A ₈Between be spaced apart half wavelength, and be arranged in delegation along a vertical line.Each antenna element a ₁A ₈Be used to send and received signal, and can have the structure of any appropriate.Each antenna element a ₁A ₈Can be a dipole antenna, patch antenna or other suitable antenna arbitrarily.8 antenna element a ₁A ₈Defined a battle array control antenna 6 mutually jointly.

As everyone knows, each antenna element a of phase battle array control antenna 6 ₁A ₈Be provided the same signal that will send to a mobile radio station MS.But be provided for respective antenna unit a ₁A ₈The phase place of signal offseted each other.Be provided for respective antenna unit a ₁A ₈Phase difference between signals produced a directional transmissions pattern.Like this, from the signal of BTS 4 only in the cell sector 2 relevant, to send with array 6 along some direction.The directional transmissions pattern that array 6 is realized is phase deviation each other and by each antenna element a ₁A ₈The long mutually interference that occurs between the signal that sends and the result of destructive interference.In this, with reference to Fig. 3, this figure illustrates the directional transmissions pattern that realizes by aerial array 6.Can in graphic 8 directions of Fig. 3, provide a beam b on any one direction by control antenna array 6 ₁B ₈For example, can the control antenna array 6 at beam b ₅Or b ₆Direction on send signal to MS.As described below, also can on more than one beam direction, send signal simultaneously by control antenna array 6.For example, can be at beam b ₅And b ₆Send signal on the both direction of definition.The structure of 8 possible beam directions that Fig. 3 just can realize by aerial array 6 is represented.But in fact, between adjacent beams, have overlapping to guarantee that aerial array 6 provides service for all cell sectors 2.

By a Butler matrix circuit 8 each antenna element of control a ₁A ₈On the relative phase of the signal that provides, make it possible to send signal along the beam direction of expectation.Butler matrix circuit 8 provides a phase deviation function like this.Butler matrix circuit 8 has 8 input 10a-h and 8 outputs from BTS 4, and wherein each output all is output to each antenna element a ₁A ₈The signal that each input 10a-h receives comprises the data burst that will send.8 input 10a-h all represent to send the beam direction of specific data burst.For example, when Butler matrix circuit 8 received a signal on the first input 10a, Butler matrix circuit 8 offered each antenna element a to the signal on the input 10a with the phase difference that requires ₁A ₈To produce beam b ₁Thereby, at beam b ₁Direction on send data burst.Similarly, the signal that provides on input 10b causes at beam b ₂Direction on produce a beam, or the like.

As mentioned above, the antenna element a of aerial array 6 ₁A ₈Send signal from a MS received signal and to a MS.The signal of a MS transmission usually can be by 8 antenna element a ₁A ₈Receive.But at each antenna element a ₁A ₈Have a phase difference between each signal that receives.Thereby Butler matrix circuit 8 can be according to each antenna element a ₁A ₈The relative phase of the signal that receives is determined the beam direction of received signal.Thereby Butler matrix circuit 8 has 8 inputs, and the signal for each antenna element receives all has one from antenna element a ₁A ₈Input.Butler matrix circuit 8 also has 8 output 14a-h.Each output 14a-14h is all corresponding to a particular beam direction that can receive the specific data burst.For example, if aerial array 6 at beam b ₁Direction on receive a signal from a MS, then Butler matrix circuit 8 can be exported received signal on output 14a.At beam b ₂Direction on the signal that receives can cause on output 14b from Butler matrix circuit 8 output received signals, or the like.In a word, Butler matrix circuit 8 can be at antenna element a ₁ A ₈8 versions that are offset each other of last reception same signal.According to relative phase skew, Butler matrix circuit 8 is determined to have received the direction of above-mentioned received signal and is specified signal of output on the output 14a-h according to the direction of received signal at one.

Be to be understood that under some environment,, suppose that reflection has the expanded-angle of relative broad between MS and BTS4 because signal reflex seems and can transmit simultaneously from more than one beam direction from the independent signal of a MS or data burst.Butler matrix circuit 8 can provide a signal on each output 14a-h, and each output is corresponding to each beam direction that specification signal or data burst occur.Like this, can Butler matrix circuit 8 more than one output 14a-h on identical data burst is provided.But the signal on each output 14a-h can postpone each other if having time.

Each output 14a-h of Butler matrix circuit 8 is connected in the input of a corresponding amplifier 16 that amplifies received signal.For Butler matrix circuit 8 each output 14a-h an amplifier 16 is provided.Then handle amplifying signal by a corresponding processor 18, this processor processing amplifying signal makes BTS 4 can handle this signal so that the frequency of received signal is reduced to base band frequency.For this reason, processor 18 is removed carrier frequency component from input signal.And, for each output 14a-h of Butler matrix circuit 8 provides a processor 18.Then the received signal with analog form is converted to digital signal by a modulus (A/D) transducer 20.8 A/D converters 20 are provided, and each output 14a-h of Butler matrix circuit 8 all has one.Then by corresponding input 19a-h digital signal being input to a digital signal processor 21 carries out follow-up processing.

Digital signal processor 21 also has 8 output 22a-h, and each output is all exported one and indicated to be sent to a digital signal of specifying the signal of MS.Selected output 22a-h indicates to send the beam direction of signal.This digital signal is converted to analog signal by a digital-to-analogue (D/A) transducer 23.For digital signal processor 21 each output 22a-h a digital to analog converter 23 all is provided.Then processor 24 Analog signals, this processor are that analog signal that a handle will send is modulated to the modulator on the carrier frequency.Before processor 24 processing signals, signal is on the base band frequency.Then 26 pairs of signals that produced of an amplifier amplify and are delivered on the corresponding input 10a-h of Butler matrix circuit 8.For digital signal processor 21 each output 22a-h a processor 24 and an amplifier 26 all are provided.

Fig. 4 referring now to graphical figure signal processor 21.Should be appreciated that graphic each module needn't be corresponding to each unit that embodies an actual digital signal processor 21 of the present invention among Fig. 4.Particularly, among Fig. 4 graphic each module corresponding to the performed various functions of digital signal processor 21.In one embodiment of the invention, realized digital signal processor 21, and same unit can be carried out several functions by integrated circuit to small part.

Each signal that digital signal processor 21 receives on corresponding input 19a-h is imported into corresponding channel impulse response (CIR) estimator module 30.CIR estimator module 30 comprises memory capacity of storing received signal and the memory capacity of storing the channel impulse response of estimation.Channel impulse response estimator module 30 is used to estimate the channel impulse response of the channel of corresponding input 19a-h.As mentioned above, at the frequency range by selecting, the specific data burst that the beam direction of distributed time slot and received signal sends can define a relevant channel.Butler matrix circuit 8 is determined the beam direction of received signal, makes the signal that receives on the input 19a of digital signal processor mainly represent from beam b ₁The signal that receives of direction, or the like.Should be appreciated that and specifying the signal that receives in the input also can be included in the sidelobe of the signal that receives in the adjacent input.

Each data burst that sends to BTS 4 from mobile radio station MS comprises a training sequence TS.But the training sequence TS that BTS 4 receives _RXBecause of noise and multipath effect are distorted, wherein multipath effect produces interference between the phase ortho position of training sequence.A kind of interference in back is known as intersymbol interference.TS _RXAlso be subjected to the influence of the interference of other mobile radio station, for example be positioned at other sub-district or cell sector, use can cause the mobile radio station of the same frequency of combined channel interference.Be appreciated that from the specification signal of MS and can arrive BTS along path more than one, and aerial array 6 can from an assigned direction detect specification signal more than one version.CIR estimator module 30 handles are from input 19a received training sequence TS _RXBe stored in a reference TS in the data memory 32 _REFCarrying out crosscorrelation handles.Reference TS _REFIdentical with the initial training sequence that sends of mobile radio station.In fact received training sequence TS _RXBe a signal that is modulated onto carrier frequency, and reference TS _REFIn data storage 32, be stored as a bit sequence.Correspondingly, before carrying out crosscorrelation, the reference of storage is similarly modulated.In other words, the not distortion version that BTS 4 is received distortion training sequence and training sequence carries out relevant treatment.In an optional embodiment of the present invention, before it being carried out relevant treatment, received training sequence is carried out demodulation with reference.In this case, reference can have identical form with positive received training sequence once more.In other words, reference is not modulated.

Reference TS _REFWith received training sequence TS _RXAll have length L, and can be 26 positions corresponding to L data bit.Received training sequence TS _RXDistributing the definite position in the time slot can be uncertain.This is because the distance between mobile radio station MS and the BTS 4 can have influence on the data burst of MS transmission in the position of distributing in the time slot.For example, if a mobile radio station MS is far away relatively apart from BTS 4, compare with the mobile radio station MS situation nearer apart from BTS 4 so, training sequence can appear on the position after having distributed in the time slot.

Consider received training sequence TS _RXThe uncertainty of the position in distributed time slot is used reference TS _REFTo received training sequence TS _RXCarrying out the n correlations handles.Usually, n can be 7 or 9.N is an odd number preferably.The n correlations can be obtained on the relevant both sides in maximum usually and carry out.Received training sequence TS _RXAt reference TS _REFRelative position be offset a position between each serial correlation.Each position is equivalent in the training sequence and represents that postpones a section.Received training sequence TS _RXWith reference TS _REFThe tap of this relevant channel impulse response of expression of each independent relevant generation.N independent tap sequence of relevant generation with n value.

Referring now to Fig. 5, the figure shows channel impulse response corresponding to 4 channels in 8 of 8 direction in spaces possible channels.In other words, Fig. 5 shows the channel impulse response corresponding to 4 channels of a specific data burst that receives from mobile radio station on 4 directions in 8 beam directions, and data burst is on the frequency range and time slot of appointment.The x axle of each legend is the measurement to time delay, and the y axle is the measurement to relative power.Each line (or tap) expression that marks among the figure is received, corresponding to the multi-path signal of specifying correlation delay.Each legend has n line or tap, and one of them tap is relevant corresponding to each.

According to the channel impulse response of estimation, can determine that training sequence is in the position of distributing in the time slot.When obtaining received training sequence TS _RXWith reference TS _REFBetween optimum can obtain maximum values of tap when relevant.

At each channel, CIR estimator module 30 is also determined the continuous tap that 5 (or other suitable quantity) arbitrarily provide ceiling capacity.Calculate the ceiling capacity of an allocated channel according to following mode: $E=\underset{j=1}{\overset{5}{\mathrm{\Σ}}}{\left(h_j\right)}^2$

Wherein h represents by received training sequence TS _RXWith reference TS _REFThe tap amplitude that obtains of crosscorrelation.CIR estimator module 30 is by using a kind of ceiling capacity of sliding window setting technique estimation allocated channel.In other words, CIR estimator module 30 is considered 5 adjacent values at every turn and is calculated energy according to these 5 values.Select 5 consecutive values of given ceiling capacity to represent the impulse response of this channel.

Energy can be counted as the measurement from the relative intensity of a desired signal of specifying MS that BTS 4 is received on an assigned direction.Carry out this process at all 8 channels, these channels represent to receive 8 different directions of identical data burst.The signal that receives with ceiling capacity the path of process to the decay minimum of this signal.

An analysis module 34 is provided, the ceiling capacity that this module stores CIR estimator module 30 calculates at respective channel according to 5 consecutive values, and CIR estimator module 30 selects these 5 consecutive values to represent channel impulse response.Analysis module 34 also can be analyzed channel impulse response that CIR estimator module 30 determines so that determine the minimum delay.This delay is to received training sequence TS _RXIn the measurement that distributes the position in the time slot, thereby be relative measurement to signal propagation distance between mobile radio station and BTS 4.Channel with minimum delay has the signal of the beeline of passing.This beeline can be represented the circuit in the direct projection path between mobile radio station MS and the BTS 4 in some cases.

Analysis module 34 is used to determine the starting position of window, and this window is determined five values that ceiling capacity is provided.Time between then beginning according to a reference point and window is determined time delay.This reference point can be that all received training sequences in each branch began by relevant common time, and this time is corresponding to window edge the earliest or a similar common point of all branches.For the accurately relatively various delays of different channels, adopt a public timing ratio, this ratio depends on the synchronizing signal that BTS 4 provides for the TDMA pattern of control operation.In other words, received training sequence TS _RXDistributing position in the time slot is measurement to time delay.Should be appreciated that in known gsm system, the delay of an allocated channel for the timing advance information calculations is provided.Timing advance information is used to guarantee that the signal that mobile radio station sends to BTS drops on in its distributed time slot.Can determine timing advance information according to relative delay and the current timing advance information calculated.If mobile radio station is away from the base station, then BTS can instruct MS send its data burst in certain time, this time ratio time that mobile radio station MS sends data burst under more near the situation of BTS more early.

The analysis result that each analysis module 34 draws is imported into one and determines that expectation receives the beam selection control module 36 of the direction of specific data burst.This desired orientation can be to receive the beam direction with maximum intensity signal, and is perhaps optional, can be the direction that at first receives data burst.Then beam is selected module 36 these beam directions of storage and is carried out identical step at the next one burst that receives from mobile radio station.If two definite beam directions are identical in two continuous data bursts, then determine the signal of transmission from BTS to MS on the beam direction at this.In an optimum embodiment, the control base station transceiver is so that only send signal to MS on an independent beam direction in conventional environment.If but received the first and second beam direction differences that happen suddenly continuously, then BTS could send next signal to MS on the direction of direction that receives secondary signal and reception first signal.

If it is non-conterminous with the beam direction that receives second data burst that BTS receives the beam direction of first signal, then also inserting the transmission signal that BTS sent on the beam direction.For example, if determine that first burst is from beam b ₁Direction and second the burst from beam b ₃Direction, then the base station can be at beam b ₁, b ₂, and b ₃Direction on send signal to mobile radio station.

Referring now to Fig. 6 a-h and 7a-h, wherein illustrate the principle that the embodiment of the invention is used.Fig. 6 a-h illustrates and receives the beam direction that a mobile radio station sends to 8 continuous data bursts of base station.

Alternatively, the graphic beam direction of Fig. 6 can be considered to be under the situation that only should be an independent beam direction of each data burst selection, should be the beam direction that BTS sends to the continuous data burst selection of MS.First and second data bursts from mobile radio station MS are supposed to from beam b ₃Direction.Third and fourth data burst is supposed to from beam b ₄Direction.The the 5th and the 6th data burst is supposed to from beam b ₃Direction, the 7th data burst is supposed to from beam b ₅Direction.

BTS has been shown among Fig. 7 a-h has sent the beam direction that 8 continuous datas happen suddenly to MS.Because expectation is from beam b ₃Direction on receive first and second signals from mobile radio station, so BTS 4 is all at beam b ₃Direction on send first and second data bursts to mobile radio station.But because expectation is respectively from beam b ₃With beam b ₄Direction on receive the second and the 3rd burst from mobile radio station, so BTS is at beam b ₃With beam b ₄Direction on send the 3rd burst to mobile radio station.Expectation is from identical beam direction, i.e. beam b ₄Direction on receive third and fourth burst from mobile radio station.Correspondingly, 4 of BTS are at beam b ₄Direction on send the 4th burst.At beam b ₄Direction on receive the 4th burst that BTS receives, and BTS 4 is at beam b ₃Direction on receive the 5th burst.Like this, BTS is at beam b ₃With beam b ₄Direction on send the 5th burst.Expectation is from beam b ₃Direction on receive the 6th burst that BTS receives, expectation is from beam b ₅Direction on receive the 7th burst that BTS receives.Correspondingly, at beam b ₃With beam b ₅Direction on and insert beam, i.e. beam b ₄Direction on send the 7th burst to MS.At last, owing to BTS 4 expects respectively from beam b ₅With beam b ₃Direction on receive the 7th and the 8th burst, so BTS is at beam b ₃, b ₄And b ₅Direction on send the 8th burst.

In a modification of the foregoing description, receive two continuous data bursts from two different directions respectively, BTS will send a N continuous burst to MS on these two different directions and any direction of insertion.N can be the amount of bursts of any appropriate, for example 3 or 4.

Can find that said method is highly suitable for distance between BTS and the MS greater than the situation of a distance to a declared goal.This distance depends on home environment to a great extent, but can be greater than about 0.5km.If the distance of mobile radio station and BTS is less than 0.5km, then the expanded-angle by a broad sends the signal that arrives MS.This relates to selects several possible beam directions, for example 4 or more direction.Usually, being used for the power level of each beam when selecting more beam can be lower.

The mode of the distance between a kind of definite MS and the BTS is according to the timing advance information that provides the measurement of distance between BTS 4 and the MS.Owing to provide quite accurate result, so this first method is optimum in certain embodiments of the present invention.Alternatively, the expanded-angle of BTS received signal can be used as the measurement to distance between MS and the BTS.When the distance between BTS and the MS during greater than critical distance, the most Energy distribution that receive from MS are at one, on two or three beams.But when the distance between BTS and the MS during less than critical distance, the expectation Energy distribution of reception is on more beam.In order to determine expanded-angle, the channel impulse response that beam selects control module 36 relatively to obtain from each possible beam direction of specification signal.If most received energies are distributed on three or the beam direction still less, suppose that then distance between BTS and the MS is greater than critical distance.Alternatively, if most received energy, supposes then that distance between BTS and the MS is less than critical distance from four or the more beam direction.

Correspondingly, in an embodiment of the present invention, use two targeting signals that receive from MS to determine to send the mode of the direction of signal or all directions only to be used under the situation of distance between MS and the BTS 4 greater than critical distance to MS.When the distance between MS and the BTS 4 during less than critical distance, BTS 4 can send signal to MS by more relatively beam direction.The power level of using when the expanded-angle by relative broad sends usually can be less than the power level of using on beam or each beam during greater than critical distance when the distance between MS and the BTS 4.Select module 36 to select required power level by beam.

Generation module 38 is responsible for generation will be from the signal of digital signal processor 21 outputs.Generation module 38 has one and indicates to send to the speech of mobile radio station MS and/or the input 40 of information.Generation module 38 is responsible for the speech or the information that send to mobile radio station MS are encoded, and comprises a training sequence and a synchronizing sequence in signal.Module 38 also is responsible for producing modulation signal.According to signal that produces and the beam direction of determining, generation module 38 provides signal on the corresponding output 22a-h of digital signal processor 21.Generation module 38 also provides an output 50, and this output is used to the amplification that control amplifier 24 is provided, thereby guarantees that the signal on the main and auxiliary beam direction has the power level of requirement.

The output of channel impulse response module 30 also is used to signal balanced and that coupling receives from mobile radio station MS.Particularly, the effect of the intersymbol interference that is produced by multipath propagation in the received signal can be eliminated or alleviate to matched filter (MF) and equalizer module 42.Should be appreciated that matched filter (MF) and equalizer module have the input (not shown) of a reception from the received signal of MS.Speech that the responsible MS of recovery sends and/or the recovery module of information 44 receive the output of each modules 42.The step that the recovery module is finished comprises carries out the demodulation sign indicating number to signal.Speech that recovers or information are output in the output 48.

Though should be appreciated that and realized the foregoing description in the GSM cellular communications networks, the present invention can also be used to other digital cellular communications communication network and analogue cellular network.The foregoing description has used the phased array with 8 unit.Array certainly has the unit of any amount.Alternatively, phased array can be replaced by discrete directional antenna, and each antenna is all launched beam on an assigned direction.Under the situation of needs, the Butler matrix circuit can be by other suitable phase-shift circuit replacement arbitrarily.The Butler matrix circuit is a simulation beam maker.Certainly use the simulation beam maker of a digital beam maker DBF or any other adequate types.According to the signal that offers each unit,, also can array of controls produce beam more than 8 even under the situation of having only 8 unit.

Also can provide a plurality of phased array.Phased array can provide the beam of varying number.When the expanded-angle of a broad of needs, use cellular array with lesser amt, when the beam of a relative narrower of needs, use cellular array with larger amt.

Being appreciated that the foregoing description is described as from the Butler matrix circuit provides 8 outputs.Should be appreciated that in fact and in each output of Butler matrix, can export several different channels simultaneously.Those channels can have different frequency ranges.The channel of different time-gap also can be provided in corresponding output.Though independent amplifier has been described in the front, processor, in fact analog to digital converter and digital to analog converter can provide above-mentioned all parts by an independent unit with a plurality of input and output.

Be to be understood that embodiments of the invention have the application that is not limited only to cellular communications network.For example, embodiments of the invention can be used in any environment that needs directional radio communication.For example, can in PMR (ad Hoc wireless network) or similar network, use this technology.

The direction that does not need to determine to receive two continuous signals at two continuous signals.For example, can every N definite once expectation that happens suddenly receive the direction that data happen suddenly, wherein N is an appointment integer.For example, BTS can determine to receive the direction of one first burst and receive the 3rd direction that happens suddenly from MS.If this both direction difference, then BTS can send signal on this both direction.

Similarly, the direction of first website transmission signal can not make an immediate response from the preamble communication data burst of MS reception.In certain embodiments, the BTS sequenced communications data burst that can constitute according to one or more data burst that the front receives from MS is selected the different beam directions that are used to send.

Embodiments of the invention can have the application that is not limited only to cellular communications network.For example, embodiments of the invention can be used in any environment that needs directional radio communication.For example, can in PRN (ad Hoc wireless network) or similar network, use this technology.

Claims (10)

1. method of between the base station of mobile communications network and mobile radio station, carrying out directional radio communication, the method comprising the steps of:

In of the continuous burst of described identification of base stations from the communication data that described mobile radio station transmitted;

According to a plurality of adjacent beam directions, each beam direction that definite communication data that is sequentially received by described base station happens suddenly;

Select described beam direction in order to signal is sent to described mobile radio station from described base station, thereby when definite described base station sequentially receives communication data when burst from two different beam directions, select this two different beam directions simultaneously, in order to described signal is sent to described mobile radio station from described base station, and when these two different beam directions are also non-conterminous, on these two beam directions and on the insertion beam direction, described signal is sent to described mobile radio station from described base station.

2. according to the process of claim 1 wherein that described two beam directions are used for the predetermined a plurality of continuous signals that transmit from described base station.

3. according to the method for claim 1 or 2, the definite direction that wherein sequentially receives each data burst is defined as receiving the beam direction of peak signal.

4. according to the method for claim 1 or 2, the definite direction that wherein sequentially receives each data burst is defined as receiving the beam direction through the signal of shortest path.

5. according to the method for claim 1, also comprise the step that monitors the distance parameter of distance between described base station of expression and the described mobile radio station, if the distance between base station and the mobile radio station is less than predetermined value, utilize the expanded-angle of a relative broad to transmit signal to described mobile radio station, and irrelevant with the receive direction of these two signals.

6. according to the method for claim 5, if wherein the distance between base station and the mobile radio station is less than described predetermined value, utilize a relatively low power level to transmit signal to described mobile radio station, if and described distance utilizes higher power level to transmit described signal greater than described predetermined value.

7. according to the process of claim 1 wherein that described network is a cellular communications networks.

8. base station of in mobile communications network, carrying out directional radio communication with mobile radio station, described base station comprises:

Recognition device is in the continuous burst of described identification of base stations from the communication data that described mobile radio station transmitted;

Determine device, according to a plurality of adjacent beam directions, each beam direction that definite communication data that is sequentially received by described base station happens suddenly;

Sender device is in order to pass the signal to described mobile radio station;

Control device, select described beam direction in order to signal is sent to described mobile radio station from described base station, thereby when definite described base station sequentially receives communication data when burst from two different beam directions, select this two different beam directions simultaneously, in order to described signal is sent to described mobile radio station from described base station, and when these two different beam directions are also non-conterminous, on these two beam directions and on the insertion beam direction, described signal is sent to described mobile radio station from described base station.

9. base station according to Claim 8, wherein said control device is configured to monitor the step of the distance parameter of distance between described base station of expression and the described mobile radio station, if the distance between base station and the mobile radio station is less than predetermined value, utilize the expanded-angle of a relative broad to transmit signal to described mobile radio station, and irrelevant with the receive direction of these two signals.

10. base station according to Claim 8, wherein said control device is configured to control described sender device, to transmit predetermined a plurality of continuous signals on described two beam directions.

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