CN103596260B - The slotted synchronous method and system of multicarrier gsm system - Google Patents

Abstract

The present invention relates to the slotted synchronous method and system of multicarrier gsm system.The method includes：GSM base station signals to multicarrier carry out searching carrier, obtain carrier information；According to the carrier information, Base-Band Processing is carried out to each carrier wave using software and radio technique；The baseband signal of each carrier wave is carried out into cross-correlation with local sequence；The correlation peak obtained according to the cross-correlation judges synchronizing channel and Synchronization Burst sequence in broadcast channel, the position output time solt lock-out pulse using Synchronization Burst sequence in GSM frame structure.The present invention realizes multicarrier GSM slot synchronization functions, improves flexibility and the scalability of system, can adapt to different base station occasions, realizes the slot synchronization of self adaptation, simple and practical.

Description

The slotted synchronous method and system of multicarrier gsm system

Technical field

The present invention relates to moving communicating field and signal transacting, and in particular to same to a kind of time slot of multicarrier gsm system One step process, and a kind of slot synchronization system of multicarrier gsm system.

Background technology

Base station is the equipment of most power consumption in whole wireless network, and the power amplifier unit power consumption in base station is then base station power consumption More than 70%, therefore power amplifier technology is improved, the efficiency for improving power amplifier is to reduce the important means of base station power consumption.And base station is in work During load be dynamic change, the portfolio difference of busy and idle time is very big, such as GSM（Global System For Mobile Communications global system for mobile communications）GSM.What gsm mobile communication system was used It is time-division multiplex technology (TDMA), each basic frame includes 8 time slots, and multiple basic frames constitute a multi-frame, and user is carried out Call and related control signal only take up one of time slot (TimeSlot), thus to some carrier wave some when Between be not that 8 time slots all have signal in section, when telephone traffic is more, 8 time slots have signal, and few in telephone traffic When, little time slot only therein has signal.If intelligently turning off power amplifier unit in the time slot without business datum, so The consumption of power amplifier can be just saved, the power consumption of transmitter unit is reduced.And in current GSM repeaters, no matter equipment shape State is busy or not busy, and whether each time slot has CU, and the power amplifier unit in equipment is all normally opened, and power amplifier is in a device The energy of consumption is maximum, and this has resulted in the waste of the energy.But the premise for realizing timeslot shutdown is to realize that time slot is same Step.Time slot power detection can be just carried out after in slot synchronization, so that judge whether current time slots have service signal, if synchronous It is not accurate enough, call drop is will result in, so as to influence speech quality.And in the network optimization such as repeater edge device, due to lacking The signaling information of weary base band data, it is not easy to realize GSM slot synchronizations, so as to realize that accurate time slot power detection and time slot are closed It is disconnected.

The content of the invention

It is an object of the invention to overcome shortcomings and deficiencies of the prior art, there is provided the slot synchronization of multicarrier gsm system Method and system, can realize the time slot precise synchronization of multicarrier GSM base station signals, solve the mistake that baseband signal frequency deviation is brought Difference problem, for time slot power detection provide reference synchronization, it is often more important that for the timeslot shutdown of base station power amplification unit is provided Synchronizing information.

Technical scheme is as follows：

A kind of slotted synchronous method of multicarrier gsm system, comprises the following steps：

GSM base station signals to multicarrier carry out searching carrier, obtain carrier information；

According to the carrier information, Base-Band Processing is carried out to each carrier wave using software and radio technique；

The baseband signal of each carrier wave is carried out into cross-correlation with local sequence；

The correlation peak obtained according to the cross-correlation judges synchronizing channel and Synchronization Burst sequence in broadcast channel Row, the position output time solt lock-out pulse using Synchronization Burst sequence in GSM frame structure.

A kind of slot synchronization system of multicarrier gsm system, including：Searching carrier module, baseband processing module, cross-correlation Module, slot synchronization module；

The searching carrier module is used to carry out the GSM base station signals of multicarrier searching carrier, obtains carrier information；

The baseband processing module is used for according to the carrier information, and each carrier wave is carried out using software and radio technique Base-Band Processing；

The cross-correlation module is used to for the baseband signal of each carrier wave to carry out cross-correlation with local sequence；

The slot synchronization module is used for the synchronization that correlation peak is judged in broadcast channel obtained according to the cross-correlation Channel and Synchronization Burst sequence, the position output time solt synchronization arteries and veins using Synchronization Burst sequence in GSM frame structure Punching.

The present invention has the following advantages that and beneficial effect compared with prior art：

The present invention on the premise of base station signaling is lacked, by carrier track algorithm from motion tracking GSM carrier informations, according to Carrier information locking broadcast channel BCH（Broadcast Channel broadcast channels）, using radiotechnics, solve due to The problem that RF down coversions and the frequency deviation of Digital Down Convert are brought, at the same it is related using real number, Digital Signal Processing resource is reduced, Support that different application scenarios more importantly realize multicarrier GSM slot synchronization functions, improve system flexibility and Scalability, can adapt to different base station occasions, the slot synchronization of self adaptation be realized, than the slot synchronization based on signaling resolution Algorithm is simpler, convenient and practical.

Brief description of the drawings

Fig. 1 is the slotted synchronous method schematic flow sheet in one embodiment of multicarrier gsm system of the present invention.

Fig. 2 is the schematic flow sheet of step S11 in Fig. 1 embodiments.

Fig. 3 is the schematic flow sheet of step S12 in Fig. 1 embodiments.

Fig. 4 is the correlated results of SDR digital quadrature demodulations in one embodiment of the invention.

Fig. 5 is the schematic flow sheet of step S13 in Fig. 1 embodiments.

Fig. 6 is the schematic flow sheet of step S14 in Fig. 1 embodiments.

Fig. 7 is the slot synchronization system structured flowchart in one embodiment of multicarrier gsm system of the present invention.

Fig. 8 is the structural representation of searching carrier module in Fig. 7 embodiments.

Fig. 9 is the structural representation of baseband processing module in Fig. 7 embodiments.

Figure 10 is the structural representation of cross-correlation module in Fig. 7 embodiments.

Figure 11 is the structural representation of slot synchronization module in Fig. 7 embodiments.

Specific embodiment

The present invention is described in further detail with reference to embodiment and accompanying drawing, but embodiments of the present invention are not limited to This.

Embodiment one：

As shown in figure 1, for the flow of the slotted synchronous method of the multicarrier gsm system in the present embodiment of the invention is illustrated Figure, comprises the following steps：

S11, the GSM base station signals to multicarrier carry out searching carrier, obtain carrier information；

S12, according to the carrier information, Base-Band Processing is carried out to each carrier wave using software and radio technique；

S13, the baseband signal of each carrier wave is carried out into cross-correlation with local sequence；

S14, the correlation peak obtained according to the cross-correlation judge synchronizing channel and synchronization burst arteries and veins in broadcast channel Sequence is rushed, the position output time solt lock-out pulse using Synchronization Burst sequence in GSM frame structure.

The present invention on the premise of base station signaling is lacked, by carrier track algorithm from motion tracking GSM carrier informations, according to Carrier information locking broadcast channel BCH（Broadcast Channel broadcast channels）.Using radiotechnics, solve due to The problem that RF down coversions and the frequency deviation of Digital Down Convert are brought, at the same it is related using real number, Digital Signal Processing resource is reduced, Support that different application scenarios more importantly realize multicarrier GSM slot synchronization functions, improve system flexibility and Scalability, can adapt to different base station occasions, the slot synchronization of self adaptation be realized, than the slot synchronization based on signaling resolution Algorithm is simpler, convenient and practical.

For apparent technical scheme, the slotted synchronous method of multicarrier gsm system of the present invention is described below Technical scheme preferred embodiment.

In a preferred embodiment, for S11, as shown in Fig. 2 specifically, it may include following steps：

S111, IF bandpass sampling is carried out to intermediate-freuqncy signal, obtain digital intermediate frequency real signal；

S112, zero intermediate frequency treatment is carried out to the digital intermediate frequency real signal, obtain zero intermediate frequency baseband inphase component I_BJust Hand over component Q_B；

S113, to the zero intermediate frequency baseband inphase component I_BWith quadrature component Q_BSearching carrier is carried out, carrier information is obtained；

Bandpass sampling can be carried out to intermediate-freuqncy signal using Nyquist band logical sampling thheorem in the present embodiment, obtain numeral Intermediate frequency real signal S_B, while to S_BSignal carries out zero intermediate frequency treatment, obtains zero intermediate frequency baseband inphase component I_BWith quadrature component Q_B；

Wherein, the zero intermediate frequency treatment includes first order numeral NCO successively（Numerical Controlled Oscillator digital controlled oscillators）Treatment and low-pass filtering treatment；The S_BSignal carry out successively the first order numeral NCO treatment and Low-pass filtering treatment；The low-pass filtering treatment can be FIR（Finite Impulse Response finite impulse response (FIR)s）Filter Ripple, IIR（Infinite Impulse Response IIRs）Filtering or the filtering process of other forms；

According to known GSM searching carriers algorithm to zero intermediate frequency baseband inphase component I_BWith quadrature component Q_BCarry out carrier wave Search, obtains carrier information, and searching carrier specifically refers to the correlation technique that can provide GSM carrier informations, will not be described here.

For S12, as shown in figure 3, specifically, it may include following steps：

S121, according to the carrier information on current channel number to the zero intermediate frequency baseband inphase component I_BWith orthogonal point Amount Q_BAfter carrying out single pass Digital Down Convert treatment, then carry out sampling rate conversion and obtain baseband signal I₀And Q₀；

The carrier information that can be obtained according to the searching carrier, to zero intermediate frequency baseband signal I on current channel number_BAnd Q_B Carry out single pass Digital Down Convert（DDC, Digital Down Conversion）Treatment；

The single pass Digital Down Convert DDC treatment include second level numeral NCO treatment, filtering extraction process, shaping Filtering process, the high speed sequence to being exported after DDC treatment carries out sampling rate conversion, according to actual conditions setting it is relative with GSM yards OSR (the Over Sampling Ratio over-sampling rates of first speed integral multiple）Value, obtains the relatively low baseband signal I of speed₀And Q₀。 It is that PLD alleviates burden due to reducing processing speed, while when being conducive to the PLD to carry out Divide multiplexing, greatly save the hardware resource of device.The present invention can apply such as FPGA, CPLD, DSP PLD, Digit chip is conducive to realize.

Zero intermediate frequency baseband signal I_BAnd Q_BPass sequentially through second level numeral NCO treatment, filtering extraction treatment, at shaping filter Reason；The filtering extraction is processed as CIC（Cascaded Integrator Comb integrate dressing）Extraction, HB（HalfBand half Band）Extract, FIR is extracted or the filtering extraction of other forms is processed；The shaping filter is processed as FIR filtering, IIR and filters or it The filtering process of his form.Due to the signal processing technology using above-mentioned multi tate, relevant parameter can be carried out again according to software Set, therefore the carrier number supported can be increased and decreased according to application scenario, the bandwidth of support is also dependent on different applied fields Conjunction is set, and considerably increases flexibility and the scalability of system, simpler than the slot synchronization algorithm based on signaling resolution It is single, convenient and practical.

S122, using software radio digital quadrature demodulation technology, to the baseband signal I₀And Q₀Carry out complex demodulation, Obtain real number baseband signal；

The relatively low baseband signal I of the speed that is obtained to step S121₀And Q₀Complex demodulation is carried out, real number baseband signal is obtained S₀；The complex demodulation uses SDR digital quadrature demodulation technologies, and its principle is as follows：

For modulated signal by intermediate frequency band logical ADC（Analog Digital Conversion analog-to-digital conversions）Sampling with Afterwards, its mathematic(al) representation can be expressed as

S (n)=a (n) cos (ω_cn+ψ(n))

=I_Bcos(ω_cn)-Q_Bsin(ω_cn) （Formula 1）

S (n) in formula 1 is the digital medium-frequency signal after ADC samplings, component I in the same direction_B, quadrature component Q_BTo need to carry out The baseband signal of parsing.

According to carrier information to signal I_BAnd Q_BExtract and filtering process obtains baseband signal I₀And Q₀, and I₀And Q₀Just It is the baseband signal on current channel number.

According to complex orthogonal signal I₀And Q₀Modulated signal can be parsed, is used for the broadcast channel BCH of GSM It is Gaussian minimum frequency-shift GMSK（Gaussian Minimum Shift Keying Gaussian minimum frequency-shifts）Modulation, is that phase is entered Row integration, in order to obtain raw information, it is necessary to carry out differential, i.e., carries out differential, i.e., to ψ (n)

（Formula 2）

S in formula 2₀It is unmodulated symbol signal, the I₀(n) and Q₀N () is current sampling point, I₀And Q (n-1)₀ (n-1) it is upper a sampled point.

Mathematic(al) manipulation is carried out to it now,Launched according to mathematical formulae derivative, so to formula（2）Just Have：

（Formula 3）

The derivative of discrete series is exactly difference, and for the GSM signals of the GMSK modulation of single carrier, signal is Heng Bao Network, its amplitude is constant, i.e. I² ₀(n)+Q₀ ²N () is constant.If I² ₀(n)+Q₀ ²(n)=1, so having：

S₀=ψ (n) '=X_I(n-1)X_Q(n)-X_I(n)X_Q(n-1) （Formula 4）

By formula 1, formula 2, formula 3 mathematic(al) manipulation, show that formula 4 is real sequence, i.e. a real number baseband signal S₀.Due to using above-mentioned SDR digital quadrature demodulations technology, RF is solved（Radio Frequency）Down coversion and the lower change of numeral The frequency error that causes of frequency causes that correlation is poor, false synchronization problem.It is simultaneously related using real number, greatly reduce local sequence Storage, saved the hardware resource of device.

It is as shown in Figure 4 the correlated results of SDR digital quadrature demodulations, due to by sampling rate conversion, in the present embodiment S₀Data transfer rate be 4 times of GSM spreading rates, be not limited only to 4 times in actual application.

For step S13, as shown in figure 5, specifically, it may include following steps：

S131, the training sequence to Synchronization Burst sequence in GSM frame form in gsm mobile communication system carry out interpolation Produce local sequence；

S132, by the local sequence and the real number base band data carry out it is related it is cumulative draw correlation, then to described Correlation carries out modulus；

Can be according to the training sequence S of Synchronization Burst sequence in GSM frame form in gsm mobile communication system_TInterpolation is produced The local sequence S of life_L；Due to using SDR quadrature demodulation technologies, local sequence S_LMolding filtration is required no, Direct interpolation 4 enters again Row is related；

Because the autocorrelation of the Synchronization Burst sequence of gsm mobile communication system is very strong, by local sequence S_LWith reality Number base band data S₀Correlation is carried out according to formula 5 to add up, draw correlation R_x, then to R_xModulus obtains R₀。

（Formula 5）

For S14, as shown in fig. 6, specifically, it may include following steps：

S141, according to the baseband signal I₀And Q₀The signal power of current channel number is calculated, according to the signal power Size adaptation sets threshold value；

S142, the correlation is compared with the threshold value；If the correlation is more than the thresholding threshold Value, then it is GSM broadcast channel BCH to adjudicate present channel, while the current burst of judgement is Synchronization Burst sequence；

S143, when adjudicate this secondary burst be the Synchronization Burst sequence when, using the Synchronization Burst sequence Position in GSM frame structure is to the baseband signal I₀And Q₀Enter line delay, output time solt lock-out pulse；

Can be according to baseband signal I₀And Q₀Calculate the signal power P of current channel number₀, according to P₀Size adaptation setting Threshold value G₀；Threshold value G₀Store in a thresholding look-up table, P₀As the input of look-up table, according to P₀Size energy Adaptive setting threshold value G₀；

By the real number baseband signal R₀With G₀It is compared；If R₀More than G₀Then judgement present channel is GSM broadcast letters Road BCH, while the current burst of judgement is Synchronization Burst sequence；

When it is Synchronization Burst sequence to adjudicate this secondary burst, then using Synchronization Burst sequence in GSM frame structure In position to the baseband signal I₀And Q₀Enter line delay, output time solt lock-out pulse.

According to the slot synchronization pulse that above-mentioned slotted synchronous method is exported, for timeslot shutdown provides accurate synchronous letter Breath, can according to the time slot power of slot synchronization pulse detection GSM base station systems, so as to judge whether this time slot has CU, For no user timeslot shutdown power amplifier unit provides key parameter, therefore the consumption of power amplifier is greatlyd save, reduce transmitting single The power consumption of unit, reaches the purpose of green energy resource.The power of GSM signals each time slots is accurately calculated by formula 6, it is real Existing accurate detection time slot power P_T：

（Formula 6）

M in formula 6 counts to calculate signal power point.

Accordingly, below in conjunction with the accompanying drawings with specific embodiment to the skill of multicarrier gsm system slot synchronization system of the present invention Art scheme is described in detail.

Embodiment 2：

As shown in fig. 7, be the structural representation of the slot synchronization system of multicarrier gsm system of the present invention, including：

Searching carrier module 21, baseband processing module 22, cross-correlation module 23, slot synchronization module 24；

The searching carrier module 21 is used to carry out the GSM base station signals of multicarrier searching carrier, obtains carrier information；

The baseband processing module 22 is used for according to the carrier information, and each carrier wave is entered using software and radio technique Row Base-Band Processing；

The cross-correlation module 23 is used to for the baseband signal of each carrier wave to carry out cross-correlation with local sequence；

The slot synchronization module 24 is used for the correlation peak that is obtained according to the cross-correlation and judges same in broadcast channel Step channel and Synchronization Burst sequence, the position output time solt synchronization using Synchronization Burst sequence in GSM frame structure Pulse.

A preferred embodiment of the slot synchronization system of multicarrier gsm system of the present invention is described below.

It is respectively that searching carrier module 21, baseband processing module 22, cross-correlation module 23 and time slot are same as shown in Fig. 8 ~ 11 Walk the structured flowchart of module 24.

Searching carrier module 21 includes sampling unit 211, zero intermediate frequency processing unit 212, search unit 213；

The sampling unit 211 is used to carry out IF bandpass sampling to intermediate-freuqncy signal, obtains digital intermediate frequency real signal；Can adopt IF bandpass sampling is carried out to intermediate-freuqncy signal with Nyquist band logical sampling thheorem, digital intermediate frequency real signal S is obtained_B；

The zero intermediate frequency processing unit 212 is used to carry out zero intermediate frequency treatment to the digital intermediate frequency real signal, obtains in zero Frequency baseband inphase component I_BWith quadrature component Q_B；

To the S_BSignal carries out zero intermediate frequency treatment, obtains zero intermediate frequency baseband inphase component I_BWith quadrature component Q_B；Described zero IF processing unit 212 also includes that first order numeral NCO processes subelement 2121 and low-pass filtering treatment subelement 2122；It is described S_BSignal passes sequentially through the first order numeral NCO treatment subelement 2121 and low-pass filtering treatment subelement 2122；The low pass filtered Ripple treatment subelement 2122 can be the filtering process of FIR filtering, IIR filtering or other forms；

The search unit 213 is used for the zero intermediate frequency baseband inphase component I_BWith quadrature component Q_BCarry out searching carrier, Obtain carrier information；

Wherein, searching carrier specifically refers to the correlation technique that can provide GSM carrier informations, will not be described here.

The baseband processing module 22 includes：Digital Down Convert processing unit 221 and demodulating unit 222；

The Digital Down Convert processing unit 221 be used for according to the carrier information on current channel number to described zero in Frequency baseband inphase component I_BWith quadrature component Q_BCarry out single pass Digital Down Convert（That is DDC）After treatment, then carry out sample rate change Get baseband signal I in return₀And Q₀；

The Digital Down Convert processing unit 221 includes second level numeral NCO treatment subelement 2211, filtering extraction treatment Subelement 2212, shaping filter processes subelement 2213, carries out sampling rate conversion and obtains the relatively low baseband signal I of speed₀And Q₀。 It is that PLD alleviates burden due to reducing processing speed, while when being conducive to the PLD to carry out Divide multiplexing, greatly save the hardware resource of device.The present invention can apply such as FPGA, CPLD, DSP PLD, Digit chip is conducive to realize.

Zero intermediate frequency baseband signal I_BAnd Q_BPass sequentially through second level numeral NCO treatment subelement 2211, filtering extraction treatment Unit 2212, shaping filter processes subelement 2213；The filtering extraction treatment subelement 2212 can be extracted for CIC, HB half Extracted with extraction, FIR or the filtering extraction of other forms is processed；The shaping filter is processed as FIR filtering, IIR and filters or it The filtering process of his form.Due to the signal processing technology using above-mentioned multi tate, relevant parameter can be carried out again according to software Set, therefore the carrier number supported can be increased and decreased according to application scenario, the bandwidth of support is also dependent on different applied fields Conjunction is set, and considerably increases flexibility and the scalability of system, simpler than the slot synchronization algorithm based on signaling resolution It is single, convenient and practical.

The demodulating unit 222 is used for using software radio digital quadrature demodulation technology to the baseband signal I₀And Q₀ Complex demodulation is carried out, real number baseband signal S is obtained₀.Due to using above-mentioned SDR digital quadrature demodulations technology, RF is solved （Radio Frequency）The frequency error that down coversion and Digital Down Convert cause causes that correlation is poor, false synchronization problem.Together Shi Caiyong real numbers are related, greatly reduce the storage of local sequence, saved the hardware resource of device.

The cross-correlation module 23 includes interpolation unit 231 and related summing elements 232；

The interpolation unit 231 is used for the training sequence to synchronization burst SB in GSM frame form in gsm mobile communication system S_TCarry out interpolation and produce local sequence S_L；

The related summing elements 232 are used for the local sequence S_LWith real number base band data S₀Carry out correlation cumulative, obtain Go out correlation R_x, then to R_xAs a result modulus obtains correlation R₀。

The slot synchronization module 24 includes setup unit 241, decision unit 242, output unit 243；

The setup unit 241 is used for according to the baseband signal I₀And Q₀Calculate the signal power P of current channel number₀, root According to P₀Size adaptation set correlator threshold value G₀；

The decision unit 242 is used for the related accumulation result output R₀With the G₀It is compared；If R₀It is more than G₀Then judgement present channel is GSM broadcast channel BCH, while the current burst of judgement is Synchronization Burst sequence；

The output unit 243 is used for when it is the Synchronization Burst sequence to adjudicate this secondary burst, using described same Position of the step burst sequence in GSM frame structure is to baseband signal I₀And Q₀Enter line delay, output time solt lock-out pulse I₀With Q₀。

According to the slot synchronization pulse that above-mentioned slot synchronization system is exported, for timeslot shutdown provides accurate synchronous letter Breath, can according to the time slot power of slot synchronization pulse detection GSM base station systems, so as to judge whether this time slot has CU, For no user timeslot shutdown power amplifier unit provides key parameter, therefore the consumption of power amplifier is greatlyd save, reduce transmitting single The power consumption of unit, reaches the purpose of green energy resource.

The present invention on the premise of base station signaling is lacked, by carrier track algorithm from motion tracking GSM carrier informations, according to Carrier information locking broadcast channel BCH.Using SDR digital quadrature demodulation technique algorithms, solve due to RF down coversions and numeral The problem that the frequency deviation of down coversion is brought, at the same it is related using real number, reduce Digital Signal Processing resource；More importantly pass through Using SDR（Software Defined Radio software radios）The signal processing technology of multi tate, the carrier number of support can Increased and decreased according to application scenario, the bandwidth of support is set also dependent on different application scenarios, considerably increase and be The flexibility of system and scalability, realize multicarrier GSM slot synchronization functions, improve the flexibility of system and expansible Property, different base station occasions are can adapt to, the slot synchronization of self adaptation is realized, than the slot synchronization algorithm based on signaling resolution more Simply, it is convenient and practical.

Embodiment described above only expresses several embodiments of the invention, and its description is more specific and detailed, but simultaneously Therefore the limitation to the scope of the claims of the present invention can not be interpreted as.It should be pointed out that for one of ordinary skill in the art For, without departing from the inventive concept of the premise, various modifications and improvements can be made, these belong to guarantor of the invention Shield scope.Therefore, the protection domain of patent of the present invention should be determined by the appended claims.

Claims (8)

1. the slotted synchronous method of multicarrier gsm system, it is characterised in that comprise the following steps：

GSM base station signals to multicarrier carry out searching carrier, obtain carrier information；

According to the carrier information, Base-Band Processing is carried out to each carrier wave using software and radio technique；

The baseband signal of each carrier wave is carried out into cross-correlation with local sequence；

The correlation peak obtained according to the cross-correlation judges synchronizing channel and Synchronization Burst sequence in broadcast channel, profit Position output time solt lock-out pulse with the Synchronization Burst sequence in GSM frame structure；

The step of GSM base station signals to multicarrier carry out searching carrier, acquisition carrier information specifically includes：

IF bandpass sampling is carried out to intermediate-freuqncy signal, digital intermediate frequency real signal is obtained；

Zero intermediate frequency treatment is carried out to the digital intermediate frequency real signal, zero intermediate frequency baseband inphase component I is obtained_BWith quadrature component Q_B；Institute State zero intermediate frequency treatment includes first order numeral NCO treatment and low-pass filtering treatment successively；

To the zero intermediate frequency baseband inphase component I_BWith quadrature component Q_BSearching carrier is carried out, carrier information is obtained.

2. the slotted synchronous method of multicarrier gsm system according to claim 1, it is characterised in that described in the basis Carrier information, specifically includes the step of carry out Base-Band Processing to each carrier wave using software and radio technique：

According to the carrier information on current channel number to the zero intermediate frequency baseband inphase component I_BWith quadrature component Q_BCarry out list After the Digital Down Convert treatment of passage, then carry out sampling rate conversion and obtain baseband signal I₀And Q₀；

Using software radio digital quadrature demodulation technology, to the baseband signal I₀And Q₀Complex demodulation is carried out, real number base is obtained Band signal.

3. the slotted synchronous method of multicarrier gsm system according to claim 2, it is characterised in that it is described will be described every The step of baseband signal of individual carrier wave carries out cross-correlation with local sequence specifically includes：

Training sequence to Synchronization Burst sequence in GSM frame form in gsm mobile communication system carries out interpolation generation locally Sequence；

The local sequence and the real number base band data are carried out into related adding up and draws correlation, then the correlation is carried out Modulus.

4. the slotted synchronous method of multicarrier gsm system according to claim 3, it is characterised in that described in the basis The correlation peak that cross-correlation is obtained judges synchronizing channel and Synchronization Burst sequence in broadcast channel, using synchronization burst arteries and veins The step of rushing position output time solt lock-out pulse of the sequence in GSM frame structure specifically includes：

According to the baseband signal I₀And Q₀The signal power of current channel number is calculated, the size according to the signal power is adaptive Threshold value should be set；

The correlation is compared with the threshold value；If the correlation is more than the threshold value, adjudicate Present channel is GSM broadcast channel BCH, while the current burst of judgement is Synchronization Burst sequence；

When it is the Synchronization Burst sequence to adjudicate this secondary burst, using the Synchronization Burst sequence in GSM frame knot Position in structure is to the baseband signal I₀And Q₀Enter line delay, output time solt lock-out pulse.

5. the slot synchronization system of multicarrier gsm system, it is characterised in that including：Searching carrier module, baseband processing module, Cross-correlation module, slot synchronization module；

The searching carrier module is used to carry out the GSM base station signals of multicarrier searching carrier, obtains carrier information；

The baseband processing module is used for according to the carrier information, and base band is carried out to each carrier wave using software and radio technique Treatment；

The cross-correlation module is used to for the baseband signal of each carrier wave to carry out cross-correlation with local sequence；

The slot synchronization module is used for the synchronizing channel that correlation peak is judged in broadcast channel obtained according to the cross-correlation With Synchronization Burst sequence, the position output time solt lock-out pulse using Synchronization Burst sequence in GSM frame structure；

The searching carrier module includes sampling unit, zero intermediate frequency processing unit, search unit；

The sampling unit is used to carry out IF bandpass sampling to intermediate-freuqncy signal, obtains digital intermediate frequency real signal；

The zero intermediate frequency processing unit is used to carry out zero intermediate frequency treatment to the digital intermediate frequency real signal, obtains zero intermediate frequency base band same Phase component I_BWith quadrature component Q_B；The zero intermediate frequency treatment includes first order numeral NCO treatment and low-pass filtering treatment successively；

The search unit is used for the zero intermediate frequency baseband inphase component I_BWith quadrature component Q_BSearching carrier is carried out, is obtained and is carried Ripple information.

6. the slot synchronization system of multicarrier gsm system according to claim 5, it is characterised in that the Base-Band Processing Module includes：Digital Down Convert processing unit and demodulating unit；

The Digital Down Convert processing unit be used for according to the carrier information on current channel number to the zero intermediate frequency base band In-phase component I_BWith quadrature component Q_BAfter carrying out single pass Digital Down Convert treatment, then carry out sampling rate conversion obtain base band letter Number I₀And Q₀；

The demodulating unit is used for using software radio digital quadrature demodulation technology to the baseband signal I₀And Q₀Carry out plural number Demodulation, obtains real number baseband signal.

7. the slot synchronization system of multicarrier gsm system according to claim 6, it is characterised in that the cross-correlation mould Block includes interpolation unit and related summing elements；

The interpolation unit is used for the training sequence to Synchronization Burst sequence in GSM frame form in gsm mobile communication system Carry out interpolation and produce local sequence；

The local sequence and real number base band data are carried out related adding up and draw correlation by the related summing elements, then to institute Stating correlation carries out modulus.

8. the slot synchronization system of multicarrier gsm system according to claim 7, it is characterised in that the slot synchronization Module includes setup unit, decision unit, output unit；

The setup unit is used for according to the baseband signal I₀And Q₀The signal power of current channel number is calculated, according to the letter The size adaptation setting threshold value of number power；

The decision unit is used to be compared the threshold value；If the correlation is more than the threshold value, Judgement present channel is GSM broadcast channel BCH, while the current burst of judgement is Synchronization Burst sequence；

The output unit is used for when it is the Synchronization Burst sequence to adjudicate this secondary burst, using the synchronization burst arteries and veins Position of the sequence in GSM frame structure is rushed to the baseband signal I₀And Q₀Enter line delay, output time solt lock-out pulse.