SU972434A1 - Multi-channel digital seismoregistering system - Google Patents

Description

(54) / VlHOrOKAHA.nbHAH DIGITAL SERC.MOCHANGE

SYSTEM

Claims (2)

The invention relates to seismic survey and seismic imaging techniques for studying subterranean formations covered by a layer of water, in particular, to multichannel digital seismic recording systems, and can be used in offshore geophysical work on the shelf and in the ocean. A known multichannel digital seismic registration system comprising a towed digital receiver, an onboard digital receiver and a recorder made on the basis of a digital tape recorder with fixed recording heads 1. The disadvantage of the system is low throughput due to the bandwidth of low-frequency magnetic drives with fixed recording heads, as well as the high consumption of magnetic storage media, due to the fact that in a known device did not An estimate of the signal-to-noise ratio and the recording of information on the magnetic drive are carried out continuously. An intermediate high-frequency recorder based on a video recorder with rotating recording heads can be used to match the received digital information stream from the recorded m on the magnetic storage device, which allows several times to increase the throughput of digital seismic recording systems for implementing super-multi-channel seismic or high-frequency seismic. The closest technical solution to the invention is a multichannel digital seismic registration system comprising a series-connected towed digital receiving device, an on-board digital receiver, a digital filter, a coupler, a video recorder, an error corrector, and a control device whose output is connected to the inputs of two magnetic nodes. 2 However, for this high throughput system, a high consumption of magnetic storage medium is also characteristic. The aim of the invention is to reduce the consumption of magnetic storage media of a multichannel digital seismic recording system. The goal is achieved in that a multichannel digital seismic recording system containing a series-connected towed digital receiver, an on-board digital receiver, digital filter, interface device, video recorder and error corrector, as well as a control device whose output is connected to the inputs of two magnetic drives, an adaptive detector of the useful signal in noise, a device for delaying a code and a selector of channel clock pulses are introduced, while the signal synchronizing signal and the trigger inputs of the useful signal detector are respectively connected to the outputs of the error corrector, the channel clock pulse selector and the audio channel of the VCR recording, the first detector output is connected to the control input of the code delay device, and the second output is connected to the control input of the control device, and the clock selector input the channel pulses are connected to the output of the video tape recorder, and the output of the delay device code, whose input is connected to the output of the error corrector, is connected to the input of the control device laziness. In addition, the adaptive detector of the useful signal in noise contains a accumulating adder, two memory registers, a switch, a comparison circuit, a D-flip-flop, a scaling circuit, two AND elements and a counting flip-flop, the input of the accumulating adder being connected to the output of the error corrector, and the output is connected to the inputs of the memory registers and the first input of the comparison circuit, the second input of which is connected to the output of the switch, and the output circuit of the comparison is connected to the D input of the D-flip-flop, the output of which is connected to the control input of the control unit, the outputs of the memory registers, the control recording inputs of which are connected to the outputs of the AND elements, are connected to the inputs of the switch, the first inputs of the AND elements, the input of the Zero accumulating adder setting, the D-flip-flop input and the control input of the code delay device are connected to the output of the counting circuit, the input of which is connected to the output of the channel clock pulse selector, and the input of the counting trigger is connected to the audio output of the recording of the recorder, while the direct output of the counting trigger is connected to the control unit Aulus yuschim switch input and a second input of the first AND gate, and flip-flop inverse output countable connected to the second input of the second element I. In FIG. 1 shows a structural diagram of a multichannel digital seismic recording system; in fig. 2 - the same, the adaptive detector of a useful signal in shchumy; in fig. 3 - plots of signals at various points of the system, explaining the principle of the adaptive detector of the useful signal and the system as a whole. The multichannel digital seismic registration system (Fig. 1) comprises a towed digital receiver 1, an onboard digital receiver 2, a digital filter 3, an interface 4, an VCR 5 and an error corrector 6, and a control device 7 whose output is connected to the inputs two magnetic drives 8 and 9, an adaptive detector 10 of the useful signal in noise, a device 11 for delaying the code and a selector for 12 channel clock pulses, while the signal, clock and trigger inputs detect A 10 of the useful signal was respectively connected to the outputs of the fault corrector 6, the channel clock pulse selector 12 and the recording audio channel of the VCR 5, the first output of the detector 10 is connected to the control input of the code delay device 11, and the second output is connected to the control input of the control device 7, moreover, the input of the selector 12 channel clock pulses is connected to the output of the VCR 5, and the output of the device 11 delay code, the input of which is connected to the output of the error corrector 6, is connected to the input of the device 7 controls. Adaptive detector 10 of the useful signal in noise (Fig. 2) contains accumulating adder 13, two registers 14 and 15 of memory, switch 16, comparison circuit 17, D-trigger 18, scaling circuit 19, two elements 10 and 21, and a counting trigger 22, wherein the input of the adder 13 is connected to the output of the error corrector 6, and the output is connected to the inputs of memory registers 14 and 15 and the input of the comparison circuit 17, the second input of which is connected to the output of the switch 16, and the output of the comparison circuit 17 is connected to D input D -trigger 18, the output of which is connected to the control input of the control device 7 The outputs of the registers 14 and 15 of the memory, the control recording inputs of which are connected to the outputs of the elements 20 and 21, are connected to the inputs of the switch 16, the first inputs of the elements 20 and 21, the input of setting the accumulating adder to zero 13, the synchronizing input D-flip-flop 18 and the control input of the device 11 delay code connected to the output of the counting circuit 19, the input of which is connected to the input of the selector 12 channel clock pulses, and the input of the counting trigger 22 is connected to the output of the recording audio channel of the VCR 5 deleterious flop 22 is connected to a control input of the switch 16 and the second input of the first AND gate 20 and flip-flop inverse output countable 22 is connected to the second input of AND gate 21. Fig. 3 shows the output signal 23 of the channel clock pulse selector 12, the pulses 24 for controlling the acoustic source of the system at the output of the recording channel of the video recorder 5, the output code 25 of one channel of the error corrector 6, the signal 26 at the input of the scaling circuit 19, the output code 27 of accumulating adder 13, the code 28 at the output of the register 14 or 15 of memory, the signal 29 at the output of the D flip-flop 18. The multichannel digital seismic recording system works as follows. Reflected seismic signal type AG -sin u / c (t) t, where the D-attenuation coefficient is perceived by the towed digital receiver 1 and in serial binary form is transmitted to the input of the onboard digital receiver 2, which determines the polling order of receivers of the towed part of the system and the order of issuing digital information to the input of a digital tunable band-pass filter 3, from the output of which the information goes through the interface 4 to the input of the VCR 5. To the sound channel of the recording of the VCR 5 control pulses of the acoustic source of the system are used, which are used for the operation of the adaptive detector 10 of the useful signal in the circuits. When recording seismic information on a video recorder, the probability of its distortion increases, and, moreover, the information is recorded-read in a sequential form, therefore, in the process of reading the binary code from the video recorder 5 to the magnetic drives 8 and 9, the information goes to the error offset 6, where monitored, corrected and converted to a digital computer format. At the same time, the output signal of the VCR 5 is fed to the selector input of 12 channel clock pulses, the output signal 23 of which is fed to the clock input of the adaptive detector 10, the signal input of which from the output of the error corrector 6 receives a parallel binary code 25 of one of the NCnAi digital receiver 1 ) Ar 4inaJcCn-At) nAtL where L is the clock period of 23 channels; P - Natural number, and on the triggering input - impulses 24 controlling the acoustic source of the sietem with the period tn. Since the signal-to-noise ratio across all channels of the device I is almost the same, the adaptive detector of the useful signal only measures the signal-to-noise ratio for one channel. The adaptive detector 10 of the useful signal under the action of the output signal 23 of the channel clock selector 12 produces a pulse signal 26, which from the first output of the detector 10 is fed to the control input of the device 11 of the code delay with the delay time of the output signal of the corrector 6 error tj. At the same time, the detector 10 compares the signal accumulated in the elementary accumulation region Tj with a variable value of the Nnop level and produces at the second output a potential signal arriving at the control input of the control device 7 connecting the input of one of the accumulators 8 or 9, which work alternately to the output of the device 11 of the code delay and depending on the level of the output potential signal of the detector 10, corresponding to the signal-to-noise ratio, which generates the signals "Start or" Stop, guides discrete mode drives 8 and 9, and this reduction is achieved flow of the magnetic storage medium. The adaptive detector of a useful signal in probes works in a casual way. The accumulating adder 13 integrates the absolute values of the parallel binary code 25 of one of the channels of the system being towed, coming from the output of the error corrector 6. The integration interval T is determined by the recalculated circuit 19, the input of which receives the clock pulses of the 23 channel. The result 28 accumulated in the adder 13 at the end of the next summation interval L is written to one of the memory registers 14 or 15, which is currently in write mode and also goes to the input of the comparison circuit 17, to the second input of which through the switch The 16 comes from the output of register 15 or 14, which is currently operating in the storage mode. The control of the switch 16, as well as the selection of the recording or storage mode of the registers 14 and 15, is carried out by a counting trigger 22, to the input of which pulses 24 are received controlling the acoustic source of the system. The comparison circuit 17 compares the current sum 27 accumulated in the adder 13 for the next summation interval, with the result 28 of the last summation interval, for the current control of the acoustic source of the system, which corresponds to the noise level for the summation interval LJ, immediately before the next Impulse 24 controlling the acoustic source of the system, the level of the useful signal is much less than the noise level. The output signal of the comparison circuit 17 is fed to the D input of the D-flip-flop, at the output of which a potential control signal 29 is generated, which is fed to the control input of the control device 7. Thus, the structural construction of the system due to the introduction of an adaptive detector of the useful signal in noise, the device for delaying the code and the channel pulse selector and the use of control pulses for the acoustic source of the system at the output of the audio channel of the video recorder recorder provides a discrete (start-stop) operation of the magnetic drives. a reduction in the consumption of magnetic carrier of drives by 20–50% is achieved. 1. Multichannel digital seismic recording, and a system comprising successively connected towed digital receiving device, on-board digital receiver, digital filter, interface device, video recorder and error corrector, as well as a control device whose output is connected to the inputs of two magnetic drives so that, in order to reduce the consumption of magnetic storage media, an adaptive detector of the useful signal in noise, a device for delaying the code and selections are introduced into it the channel clock pulse, while the signal, clock and trigger inputs of the useful signal detector are respectively connected to the outputs of the error corrector, the channel clock pulse selector and the audio channel of the VCR recording, the first detector output is connected to the control input of the code delay device, and the second output is from the control input of the control device, the input of the channel pulse selector input connected to the output of the VCR, and the output of the delay device of the code whose input connected to the error corrector output, connected to the input of the control device. 2. The system of claim 1, wherein the adaptive detector of the useful signal in noise comprises an accumulating adder, two memory registers, a switch, a comparison circuit, a D-trigger, a scaling circuit, two AND elements and a counting trigger, and the input the accumulating adder is connected to the output of the error corrector, and the output is connected to the inputs of the memory registers and the first input of the comparison circuit, the second input of which is connected to the switch output, and the output of the comparison circuit is connected to the D input of the D-flip-flop, the output of which is connected to the control input control devices, the outputs of the memory registers whose control write inputs are connected to the outputs of the AND elements, are connected to the inputs of the switch, the first inputs of the AND elements, the input of setting the accumulating adder to zero, the D-trigger synchronizing input and the control input of the delay device the code is connected to the output of the scaling circuit, the input of which is connected to the output of the channel clock pulse selector, and the input of the counting trigger is connected to the audio output of the recording of the recorder, while the direct output account th flip-flop is coupled to a control input of the switch and a second input of the first AND gate, and flip-flop inverse output countable connected to the second input of the second member I. Sources of information received note in the examination 1.Avtorskoe Certificate USSR № 558236, cl. G 01 V 1/24, 1977. 2.Savit S.N. SieMS L.E.A-500- appa streaurer System Puce gth offshore Technology Conference, 1977, 2, p. p. 201-208 (prototype). (Reg. F (Pi / e.z PLA J LTUb w fl / y // pore fug.Z ff