The method and system synthesis, transmission, reception, analysis and evaluation of the multivariate form, and multi-local spectrum signals

 

(57) Abstract:

The invention relates to methods of generating, transmitting, receiving, evaluating RF - and/or AF signals from the data carrier. The technical result - the capacity to increase the speed of sending and receiving data. The invention allows to switch from analog methods for forming a transmitted signal, and analyzing the received signal to digital methods, using tool support for integer arithmetic and logic that affects the specific physical, engineering, economic price of a product manufactured on the basis of this method. Analog devices is in demand only for interfacing with the channel environment of the spectral energy transfer media. 9 C. p. F.-ly, 2 ill., table 1.

The invention relates to methods of synthesis, transmission, reception, analysis and evaluation of the multivariate form, and multi-local spectrum signal data carrier, which allows to obtain the local time range of the form of the media signal source of the data in specified channels with modified values of high specific speed transmission/reception and high specific capacity data source in the spectrum of the signal energy carrier, with the nick of data than the existing systems of formation of the spectra and evaluation of the signals.

The known method and technical decision decoding channel of the output signal of class IV in the receiving device (see patent US N 4644564, CL 375/18, 1987, and G. D. Forney, "the Viterbi algorithm", Proceedings of the IEEE, Vol. 61, No. 3, March 1973, pp. 268-278, and G. Ungerboeck, "Adaptive Maximum-likelihood Receiver for Carrier-modulated Data Transmission Systems", IEEE Transaction on Communications, Vol. COM-22, No. 5, May 1974, pp. 624-636) performing digital methods of analysis of the temporal representation of the signal according to the classification proposed by E. R, Kretzmer, and P. Kabal and S. Pasupathy (P. Kabal and others, "Partial Response Signaling", IEEE Transactions on Communications, Vol. COM-23, No. 9, September 1975, pp. 921-934) with the flexibility of response to the modification of the frequency modulation signal of the modulator from the external input control, with the flexibility of the reaction for modification by an external input to control the speed input signal from an external data source, the modulator, but not allowing to analyze multiple signals with a specific speed and specific capacity larger than the boundary value of the limit above is achieved by means of tool parameters of the synthesis signal spectrum - filter partial temporal representation of the signal, and technology evaluation signal by maximum likelihood particular the Viterbi MLSE algorithm), certain statistical, temporal and spectral values of the deterministic signal in the partial memory device filter and the input signal receiver for MLSE algorithm that requires significant material costs.

The known method and the technical solution digital automatic phase-shifting modulator (see US patent N 4580277, CL 375/67, 1986), providing digital methods synthesis of the temporal representation of the signal BPSK, QPSK, MSK, FSK, having the flexibility of response to the modification of the frequency modulation signal of the modulator from the external input control, but do not have an external input control modulator and the input signal from the external modulator, i.e. the operational flexibility of control.

The known method and the technical solution on the basis of the digital filter, the partial response of the device (see patent US N 3388330, CL 325/42, 1968, see US patent N 3492578, CL 325/42, 1970), which carry the digital methods of synthesis of the temporal representation of the signal according to the classification proposed by Kretschmer, and have a flexible response to the modification of the frequency modulation signal of the modulator from the external input control, but does not allow multiple signals to share with the AMI signal memory partial filter device.

The known method and the technical solution based on the harmonic synths, multipliers, adders, filters, spectral shaper radio media data source (see US patent N 5920589, CL 375 - 206, 1995, and US patent N 5920590, CL 375 - 206, 1997, publication of the OFFICIAL GAZETTE, Vol. 1224 / N I, July, 6, 1999), which carry analog methods synthesis of the temporal representation of the local band signal and have a flexible response to the modification of the frequency modulation signal of the modulator, the speed input signal from an external data source, the modulator, but do not allow to synthesize multiple signals with a specific speed and specific capacity larger than the boundary value of the limit above is achieved by means of tool parameters of the synthesis signal spectrum - many analog synths harmonics, multipliers, adders, filters device.

The closest technical solution is the method and the device based on the digital filter, the partial response of the device (see patent US N 4558454, CL 375/18, 1985, and Bennett et al.,"On the Characteristics", IEEE Transactions on Computers, Vol. C-27, No. 12, Dec., 1978, page 1197-2002) performing digital methods synthesis of the temporal representation of the signal by Klas the Torah from the external input control, having the flexibility of response from the external input control on the modification of the speed input signal from an external data source, the modulator, but not allowing the formation of multiple signals with a specific speed and specific capacity larger than the boundary value of the limit from above, provided by the tool options of the spectrum synthesis filter partial temporal representation of the signal, certain statistical temporal and spectral values of the signal, deterministic data memory partial filter device and does not allow a separation range from zero (constant) component of the signal without additional conversion.

The technical result of the proposed invention is enhanced functionality, higher specific speed transmission (send) and receive (PFP) data data terminal equipment (DTE) through multivariate form, and multi-local spectrum signal data carrier (acoustic, magnetic, electromagnetic, etc. signals, hereinafter referred to as signal data carrier CSA) by increasing the flexibility of the synthesis and analysis of the spectrum of the CIS on the arguments of his modo method of the invention, that allows you to approach theoretical limit is technologically achievable with modern technology (elements) of the circuit) frequency range CSA when the hard limit (locality) spectrum DNS without using numerous real analog synth harmonics, multipliers, adders, filters, attenuators and other devices pairing transformations.

This technical result of two variants of the device of this invention, based on these and many other digital and analog devices, carrying out the synthesis and analysis of traces of field strength (under track here and below, refers to any distribution of the field strength of the carrier in the coordinates of the tension - time or amplitude distribution in the coordinates of the amplitude - time), namely analysis and synthesis of data LTD., synthesis of the quantized signal from the traces of tension fields, stored in memory, the materialization of the signal, amplification, modulation, demodulation, amplification and quantization of the signal, and then digital synthesis and analysis of the quantized signal, synthesis and analysis of data codes LTD., that is necessary and sufficient channel-forming operations tract, reach increased and changed the in way to achieve a technical result, the essence of which is described in the method of the invention), the increasing complexity and number of elements, synthesizing quantized signal integer arithmetic, the relationships between them, including inverse, and, as a consequence, the reduction and simplification of the elements of the analysis of the received quantized signal and identification data LTD.

Fig. 1 is a block diagram of the device of the invention by variant N 1 the device of the invention.

Fig. 2 is a block diagram of the device of the invention by variant N 2 devices of the invention.

In the block diagram of the implementation of the proposed technical solutions device according to the variant N 1 memory blocks store the absolute value of the time diagrams of signals: signal data carrier (DNS), carrier signaling (SNA), the carrier of the reference synchronization (NES), carrier annihilation of alarm signals and the reference synchronization (SLEEP) (initiated by the argument for the terminal in the memory of his time diagrams SIC, NES). Means of machine data channel (AAA), which provides the interface with the CCCS, bronirovanie, synthesis, recovery, mate, channeling, coupling, filtering, bronirovanie, analysis and conversion, is set to the l samples of the formation and evaluation of signal data carrier.

From images of the SIC, SLEEP, NES, SNA synthesize a temporary form of image composition signal data carrier, which is further referred to as signal SPE.

The list of elements Fig. 1: the input device 1 data source LTD AAA send, the transmitter ID-code 2 estimates of the number of memory block AAA send, the shift register and storage 3 calculated numbers of memory blocks AAA send the multiplexer 4 calculated numbers of memory blocks AAA send the decoder 5 access to the calculated number of memory block AAA send, memory 6 consists of blocks of memory timing signals AAA send and PFP, the storage register 7 summands points of time diagrams of signals AAA send the adder 8 summands points of time diagrams of signals AAA send d / a Converter 9 points in the time signal AAA send, filter low frequency 10 DNS, SNA, NES, SLEEP AAA send and PFP, the modulator 11 AAA send, adjustable amplifier 12 AAA send and PFP, chronister 13 AAA send and receiver, the demodulator 14 AAA PFP, analog-to-digital Converter 15 AAA PFP register 16 storage of the digital code Converter AAA PFP register storing the difference of 17 AAA PFP code Converter 18 AAA PFP, the output device 19 data AAA PFP in the receiver, LTD., crucial device 20 controls the AAA is dividing the difference of 24 code Converter AAA PFP, the degeneracy of the terminal AAA system send-PFP from AAA.

The implementation technology of the device of the invention is controlled by the terminal AAA invention. Terminal AAA, receiving arguments of their own version of the system transfer-PFP, has created a device configuration from the AAA system send-PFP. Under the arguments of the terminal AAA system send-PFP is a set of technical specifications for the system send-PFP. Under the function of terminal AAA system send-PFP is a set of data stored in the memory formed early image signal data carrier, and a set of device elements and interconnections of the elements of the block diagram of the device of the invention that implement the transmitter in the process of compiling a set of signal data carrier, in the process of optimizing a set of signal data carrier, in the Assembly process signals of a data carrier, in the process of adaptation canalobre elements AAA with channel migration environment signal data carrier transmitter and receiver, in the process of analysis and synthesis of the quantized signal in the receiver, the technical specification for the system send-PFP under the restrictions of the real and the artificial nature of the channel.

The interaction of the elements of the device are performed under control the RM has created the below listed items.

The input device 1 input AAA consists of the binary counters and shift registers, and performs input: registration arbitrary sequence of any arbitrary input data structure. - samples of the data source under the control of chronister 13 AAA send, that is, at moments defined by chronization 13 AAA send its clock input, output: unambiguous synthesis of sequences of parallel data structure the number of C-bit (in accordance with the value [Absolut bits/Hz] capacity spectrum signal Atribut equal to 5 bits/Hz) 5-bit binary numbers without a sign (where C is the number of digits C) the operation of partitioning the input data. The output code of the current time t0supplied to the input of the Converter code code 2 even and odd channels alternately.

The Converter code code 2 and the shift register and storage 3 tract AAA consist of two spatially separated, identical composition, the odd and even channels. The channels are considered on the example of the even.

The Converter code code 2 input code output code is input: the analysis of the timing chart of the memory 6 time diagrams of signals AAA PR IS/SUB>,...,t-M), the analysis code input device 1, the analysis codes chronister 13, output: initialization code number identifying one of the 256 K-th memory blocks of the memory 6. The Converter code code 2 multi-bit input code in a multi-bit output code is input: the analysis of the timing chart of the memory 6 time diagrams of signals AAA transfer, initiated by the code input device 1 input AAA and 8 diagrams data memory 6 time diagrams of signals AAA send previous minus 8 intervals AAA send (t-1, t-2, t-3,..., t-H,...,t-M) chronister 13, the output codes of the data memory 6 time diagrams of signals AAA send and device codes input 1 input AAA as the source-initiated time diagrams in the operational time tOper(operation time tOperequal to minus 8 intervals chronister 13, times t-1, t-2, t-3,...,t-8) from the current time t0asked by chronization 13 in accordance with the number of variables Atribut equal to 8 Units. (in accordance with degrees of freedom given by the number of variables [Attribut], belonging to a sequence of numbers[1/2, 1,2,3, . ..,7]), and the output initialization calculated (time tz-bit signed integer (where C is the number of positions equal to seven eight-bit number Czof which four positions correspond to the values Udnt[-1,...,-H]of the 16 Units. possible values and the other three positions correspond to the values of Ht[-1,...,-H]of 8 Units. possible values of H, and the next position is not empty index suffix z, corresponds to the values of SGNt[-1,...,-H]of 2 Units. possible values, i.e. the sign of the number Cz).

The shift register and storage 3 multi-bit multi-bit code number with a single-bit mnogopudovymi input code number and the input offset of the output code is 256 hex 256-bit shift register is calculated codes K-th block number memory 6 memory timing signals AAA send. According to the principle of temporal sequence of input code is received at the input of the Junior category, and shifts the beat of chronister 13 AAA send. Each of the 256 Units. bits of the shift register and storage 3 output codes are docnamespace multi-bit code number with a single-bit multi-bit input code control decoder, distributing the input code number to the output in accordance with the decrypted state of the input code of the control decoder comprising 2256, 512 Units. eight-bit inputs, operates on the principle of the eight-bit register switching input codes (calculated codes of rooms of memory blocks of the memory 6 AAA send) output by the decoding code direction, that is, the current tick codes chronister 13 AAA send. Each of 512 Units. the output codes of the multiplexer 4 is eight-bit binary code patterns in the number format Cz-bit signed integer. Output eight-bit code multiplexer 4 current time with the frequency of the cycles code LSB of chronister 13 AAA send commuted from all inputs of the multiplexer 4 to the output and is supplied to the input of the decoder 5.

The decoder 5 single-bit multi-bit input code to output multi-bit one-bit code consisting of [256 Units. plus 1 Ed.] single-bit outputs, performs initialization of one of the [256 Units. plus 1 Ed.] (decode deveciusagi code) code memory blocks memory 6 time diagrams of signals AAA send. The output code of the current time cycle time specified by chronization 13 AAA send to the clock input of the decoder 5 supplies A chart signal AAA send with a frequency of cycles code chronister 13 AAA send.

Memory 6 multivariate time diagrams of signals consists of memory blocks of the same type and similar device 6.1. devices total number of K Units. similar blocks of memory timing options signals CSA and 6. K+1. -th memory block [6.K+1] total number 1 Ed. similar blocks of memory timing options signals "standard" NES, and each of the memory blocks[6.1], [6.2],...,[6.K+1] stores a timing diagram version of the signal, different from other options (supplying when initializing the tire block number memory and reading of the memory block codes on the data bus is initialized by the address of the memory block is written to a memory block previously initialization tyre rooms of the block of memory addresses, data and record bus). In memory 6 AAA send consisting of 256 plus one of memory blocks, the number of address buses is necessary and sufficient for an arbitrary addressing an arbitrary point timing diagram. The number of data bus is necessary and sufficient to initialize them additional binary code with pre-specified allowable error numbers B(C,...) in the memory blocks[6.1], [6.2],...,[6.] And numbers S(C,... ) in the memory blocks with the name number not less than [6.K+1]. Address bus initialization arbitrary point B(C,...) and S(C,.. .) by b the th output code is one of 256 16-bit points to one of the 256 time diagrams CIS and one 16-bit point of time diagrams of signals of "standard" NES. Addressing to the memory blocks of the memory 6 is performed by the decoder 5, and the output code of points time diagrams - chronization 13 AAA send, as a consequence, the output code is a sequence of 256 plus one 16-bit point timing diagram of a signal. (In the block diagram of the device of the invention by variant N 2 the device of the invention is introduced plus the second 16-bit point timing diagram of the signal memory block [6.K+2] time diagrams of signals annihilation signal a "benchmark" of SLEEP and/or signal alarm). The output code of the current time cycle time specified by chronization 13 AAA send, is supplied to the input of the storage register 7 with the frequency of the cycles code LSB of chronister 13 AAA send. Memory 6 AAA PFP 6.K+1 consists of a block of memory [6.K+1] timing diagram of the signal "standard" NES of the same type and similar to the memory block [6.K+1] SEND. The memory block [6.K+1] PFP registers, stores, and supplies the selected codes in the three respective tires during a communication session, complete a timing diagram adopted in antiphase signal of "standard" SNE as standard amplitude and phase, that is the norm in the receiver.

The storage register 7 consists of a register of the multi-bit multi-bit code number with a single-bit multi-bit photoesage input the code number of the outputs in accordance with the decrypted by the States of the input code of the control decoder. The storage register 7 consists of [512 Units. plus 1 Ed.] bit storage register, where each digit has 16-bit dimension, and 10-bit control clocked decoder, distributing the input code 512 outputs in accordance with the decrypted States coming from chronister 13 AAA send one 16-bit register signals a "benchmark" NES. Output codes in current real-time register storing 7 supplies to the input of the adder 8, as a consequence, the output code is the composition of 512 Units. 16-bit summands of the time diagrams of the signals of 256 Units. time diagrams DNS, one 16-bit addend of the timing diagram of the signals of "standard" NES. The output code of the current time with the beat of the moment and with a frequency of cycles specified by chronization 13 AAA send, is supplied to the input of the adder 8.

The adder 8 consists of a multibit adder multi-bit number of input symbolic data components and output iconic multi-bit data number amount not exceeding the maximum number of bits of any number of input symbolic data. In the adder 8, consisting of plus 512 plus 1 plus 1 Ed. 16-bit inputs, are the summation of the input symbolic data without overflow and setting of m quantum code with a frequency of cycles code chronister 13 AAA send.

D / a Converter 9 is composed of clocked input multi-bit register and Converter digital code register into an analog level.

Filter low frequency 10 FTEs and PFP filter is a low frequency, the cutoff frequency is determined by the parameters of the signal CSA, SNA SNE.

The modulator 11 is the type of modulator AM, SSB, SDB, FM or carrier spectrum. In this device the amplitude modulator takes the signal at the carrier frequency of about 10 MHz signal external chronister 13.

Adjustable amplifier 12 supplies a signal AAA send to the channel, and the signal AAA PFP from a channel. Adjustable amplifier 12 PFP corrects "slow" change gear ratio of the channel correction gain argument supplied via control bus from a casting device 20 and the adjustable amplifier 12 transfer is not controlled from outside.

Chronister 13 consists of a pulse generator frequency (256822 kHz = 8.192 MHz) and of the binary counters and shift registers to create ratios and adder, shifting the phase of the entire grid of frequencies to work with odd channel. He forms grid control frequencies with two phases, corresponding to even and niceties signal, and supplies at its outputs the pulses. Chronister 13 FTEs to manage the zero frequency and generates the required duration and the delay of the pulses for the operation of elements of send. Chronister 13 PFP manage the harmonica "reference" signal carrier standard NES synchronization PFP filter Etalon 22 reference frequency and generates the required duration and the delay of the pulses for the operation of the elements of the PFP.

The demodulator 14 is a necessary type of demodulator for AM, SSB, SDB, FM or carrier spectrum.

Analog-to-digital Converter 15 is composed of clocked inverter input analog level in the multi-bit digital code output register, estimated to clock input signal evaluation supplies the 8-bit output register storing the code Converter evaluation of the even and odd channels of the channel signal.

Register 16 storing a multi-bit digital code code with a clock input, stores the 8-bit digital code that registers the digital code.

The register storing the difference of the 17 registers the multi-bit codes to clock input and consists of an 8-bit register storing code for clock input.

Code Converter 18 has a Converter code (8-bit code 5-the village of the Whigs registers, converts the binary sequence of any arbitrary structure of the multi-bit parallel digital code and enters data AAA PFP in CCCS, selects 5 bits and running a casting device 20 generates the output temporal sequence of binary output data samples of the data source (in accordance with the argument of the terminal value [Absolut bits/Hz] the information capacity of the signal spectrum is equal to 5 bits/Hz) performing the inverse of the input device 1 operations, as well as separates on the output of the temporal sequence into two sequences of binary output data of even and odd channels by splitting the output signal into odd and even channels.

Crucial device 20, clocked by the signal chronister 13, consists of the binary counters and shift registers, the selection of the code of UNC and definitions: module and phase of the signal is a "benchmark" NES; signal for automatic gain control PFP; the signal generation points of the evaluation channels; signal selection of even and odd channels. To determine the magnitude and phase of the signal "standard" fingering 256 points evaluation signal "reference", finds the point of zero phase, the module of amplitude, generates a signal on the control bus "slow" conclu automatic gain control of the receiver. Generates a control signal in accordance with the zero phase "standard" NES. Generates a signal forming selection of even and odd channels and 8-bit point timing diagram of the signal "reference" NES register 16 storage of the digital code Converter for delivery in the memory 6 (in memory block [6.To.+1] PFP), and the control signal reading/writing memory block [6.K+1] PFP and addresses of memory blocks [6.K+1] PFP.

The counter-decoder 21 of the formation of point estimates of the signals in the register storing the difference between 17 consists of a register. From the signal point of zero phase of a casting device 20 and the signal that defines the moment of registration of the channel signal of the phase detector 23 detects and generates the control pulse sequence with two phases, corresponding to the evaluation of the signals in the odd and even channels of the transmitter supplies last for the registration operation of the current code in the current moment.

Filter Etalon 22 has a band-pass filter defined by the frequency parameters of the signal SNE.

Phase detector 23 determines in relation to the phase frequency controlled generator time delay of the digitized signal receiver. Determines and sets the time of registration Kahn is a "standard" NES with points internal register storing the delay time in the filter Etalon 22 signal SNE. Phase detector 23, which consists of the binary counters and shift registers, generates the control frequency with the same phase, performing end-to-end time scanning of the moments of reception of the channel signal, and identifies the time of assessment and registration of the channel signal.

The adder highlight the difference between the 24 two-input adder iconic multi-bit digital code consists of two numeric 8-bit inputs determine the difference reducing code number register 16 and wichitaeagle code number memory block, numbered [6.K+1]-th PFP.

In the block diagram of the implementation of the proposed technical solutions device for option # 2 some of the arguments of the terminal in the memory timing diagrams SIC, NES, SNA and SLEEP. Tools of AAA, which provides: the interface with the CCCS, bronirovanie, synthesis, recovery, mate, channeling, coupling, filtering, bronirovanie, analysis and transformation, is the combination of a conveyor action of the devices performed to achieve a specified result over the DNS and over the timing of the formation and evaluation of signal data carrier.

The list of elements Fig.2:

the input device 1 data source LTD AAA send, pre the memory blocks AAA send the multiplexer 4 calculated numbers of memory blocks AAA send the decoder 5 access to the calculated number of memory block AAA send, memory 6 consists of blocks of memory timing signals AAA transfer, storage register 7 summands points of time diagrams of signals AAA send the adder 8 summands points of time diagrams of signals AAA send digital-to-analogue Converter 9 points in the time signal AAA send, filter low frequency 10 DNS, SNA, NES, SLEEP AAA send and PFP, the modulator 11 AAA send, adjustable amplifier 12 AAA send and PFP, chronister 13 AAA send and PFP, the demodulator 14 AAA PFP, analog-to-digital Converter 15 AAA PFP register 16 storage of the digital code Converter AAA PFP register storing the difference of 17 AAA PFP code Converter 18 AAA PFP, the output device 19 data AAA PFP in the receiver Ltd. crucial device 20 controls the AAA PFP, the counter-decoder 21 channel AAA PFP filter Etalon 22 SNE AAA PFP phase detector 23 AAA PFP degenerate terminal AAA system send-PFP from AAA.

The list of elements of the device of the invention is the same as option # 1, except for the differences presented in the description of Fig.2.

The operation of the device of Fig. 2 coincides with the functioning of the device of Fig.1, the signals of NES and SNA at the point of assessment, what led to the increase of [plus 1 Ed.] the number of single-bit outputs of the decoder 5, the increase of [plus 1 Ed.] the number of storage registers for signal SLEEP holding register 7 [plus 1 Ed.] the number of input symbolic data for the number of summands SLEEP adder 8, and so from the AAA withdrawn (K+1)-th memory block of the receiver memory 6, the adder highlight the difference between the receiver 24 and simplified AAA crucial device 20 due to the lack of memory 6 of the receiver.

This technical result of the ways (and the two variants of the device of this invention, based on these and many other digital and analog methods of carrying out the synthesis and analysis of traces of the field strength, the following in order temporal sequence and represent a single function pipeline process, namely analysis and synthesis of data LTD.; synthesis of the quantized signal from the traces of tension fields; the materialization of the signal; amplification; modulation; demodulation; amplification and quantization signal; analysis and synthesis of the quantized signal; analysis and synthesis of data codes LTD., that is necessary and sufficient operations in canalobre tract, achieved an increase and change the content of the traces of the tension field, ¢ the capacity of the synthesized quantized signal; and due to the systematic synthesis of signal reduction and simplification of operations analysis of the received quantized signal.

This technical result of the invention the sequential order of the provisional repetition of the processes enclosed in a necessary and sufficient actions and interactions of the operations in the further technological features listed below and described in the corresponding paragraphs of the description below.

The list of operations (actions) and the corresponding technological functions of a way to achieve a technical result.

Technological function TF_ 1. corresponds to the process of relating the management, control, diagnostic, and pairing resources in real-time elements of the system transfer - PFP channel migration environment signal time traces of tension fields, i.e. installation terminal AAA variants of modes AAA and OOD own and/or remote.

Technological function TF_2. corresponds to the assignment of a temporary pipeline technology transfer functions in AAA.

Technological function TF_3. corresponds to the formation of traces of field intensity images: wave packets, signals signaled method pre-structuring codes data source LTD.

Technological function TF_5. corresponds to the method of composing the image set signal wave packets.

Technological function TF_6. corresponds to the optimization over the set of images of the DNS.

Technological function TF_ 7. corresponds to the method of gathering the optimized set of images signals of wave packets.

Technological function TF_8. corresponds to a way of adapting canalobre elements AAA and materialization of the SPE.

Technological function TF_9. corresponds to the output of the SPE in the channel transmission power of the radio signal (RF).

Technological function TF_10. corresponds to the input method of the SPE from the receive channel RF energy.

Technological function TF_11. corresponds to a method of filtering and correction integrated DNS in PFP.

Technological function TF_12. corresponds to the quantization method in the DNS code estimate signal data carrier PFP AAA.

Technological function TF_13. conforms to the way bronirovania pipeline technological functions in PFP AAA.

Technological function TF_14. corresponds to the method of analysis and synthesis of the quantized signal, the decode signal AAA PFP.

T the th structuring and output AAA PFP in the CCCS.

Characteristics of functions and their interaction.

Technological function TF_1. is a function integrated in the AAA, the correlation of system resources send-PFP with TV Ltd. and channels of energy carriers signal data carrier (the nature of the real and/or artificially organized).

The output of the matching resources AAA is the generation of energy signal data carrier AAA, representing and wave packets.

Under resources LTD. mean standardized or not standardized protocols and interfaces LTD. Under the capabilities of channels, media energy signal data carrier refer to the standardized or non-standardized requirements and restrictions to the shared resource the nature or artificial channels of energy transfer.

Under resources AAA means a series of operations relating resources Ltd. with channels. Resources or ways AAA regulated by the requirements of the technical specification for the system send-PFP and define operations management, control, diagnostic, and correction system send-PFP from AAA, own AAA and operations, activities and architecture and elements of the AAA.

So, TF_ 1. technological function, performing the transformation (by choice of circuit and software resource) declared the AAA in one of the real AAA, has announced the formation of the AAA functions real AAA (during the initialization operations of analysis and synthesis of data LTD., synthesis of the quantized signal from the traces of tension fields, the materialization of the signal, amplification, modulation, demodulation, amplification and quantization signal, and further analysis and synthesis of the quantized signal analysis and synthesis codes data LTD; processes of forming image signals of wave packets of media data, the process of compiling a set of signal wave packets, process optimization of the set of signal wave packets, the Assembly processes of a data carrier, the processes of adaptation canalobre elements AAA with channel migration environment signal data carrier, the processes of analysis and synthesis of the quantized signal in PFP; in process control, monitoring, diagnostics, AAA and C is, the other words, the technological function TF_1. provides input unambiguous analysis of the input sequence of commands resource management AAA - arguments TF_1., the output unambiguous synthesis of a sequence of commands and data management technology functions AAA - arguments AAA TF_ 2. ,..., TF_8., TF_11., TF_12., TF_13.,..., TF_15. real-time metrics chronister in accordance with multivariate unambiguous flexible reaction to external modification of the operating modes of the receiver and transmitter AAA and LTD., a predefined functionality AAA and structured in TF_1., that is, the terminal resource management AAA, resources, technological functions TF_1., TF_2.,..., TF_8., TF_11., TF_12., TF_ 13.,..., TF_15. The AAA.

TF_ 2. forms a regular set of influences, initiating the operation and synchronization of the interaction of technological functions.

TF_ 3. generates an image signal wave packets for the specified channel strip media data, continuous and locally defined value band spectra of the signal of the data carrier, and the time trace of the intensity of the signal field generated wave packet data carrier is a temporary form of signal, the spectral trace of the spectral amplitudes of the trace of the spectrum of the wave packet are distinct, and their difference is the degree of freedom of encoding spectral trace field strength media. Additionally can be formed temporary form of traces of tension field service signals and signaling signals synchronization signal of the data carrier, which have a finite number of spectral points of evaluation in the receiver having a spectral shape of the track field strength, discrete and/or continuous on the interval spectrum signals with variations in their levels from maximum to zero, and traces of tension fields one of which is referred to as the image carrier reference synchronization - NES, and other existing temporary forms with different ratios of the phases and amplitudes of the spectra of the harmonic signals, traces of the field strength of which is hereinafter referred to as image signal data carrier alarm - SNA, and spectra of SNE and SNA exploded frequency spectrum trace field strength signal data carrier, and the maximum value of trace levels of field strength NES and SNA determined by the code size fractions NES and SNA to the whole value of the DNS, and the coefficients of the phases and amplitudes defined code identifying the NES and the SNA.

TF_ 4. structures codes Daniela structured data code data. Composed of sets of image signal data carrier feature sets of the various shapes of the spectra, and the elements of the set of wave packets is defined structured code data source LTD.

TF_ 6. optimizes over the set of images of wave packets to improve specific information capacity spectrum of the carrier signal, structured code data source LTD.

TF_ 7. collects from the optimized sets of images of the wave packets of media data images CSA, SLEEP, NES, SNA, and obtained a temporary form of an image signal will be referred to by way of composition of the signals of the data carrier - SPE.

TF_8. materializes the signal time traces of tension fields send. Adapt (if necessary and corrects) AAA to the channel migration environment by choosing the argument of terminal elements of the filter. The software tool calculates the elements of the real filters that meet with the allowable error of the deviations of the amplitude and group delay of the signal by the filter.

TF_ 9. and TF_10. modulate the SPE - bearing harmonics, which are adjustable amplifier transfer change in levels and broadcast in the channel data migration, and can traces of tension fields.

TF_ 11. filters and for the correction of frequency characteristics, phase (ACTH), uneven group delay (NGVS) communication channel adjusts the integral of the SPE.

TF_ 12. quantum with a given error transforms the signal of the SPE in the samples (xno) time trace of tension fields in PFP.

TF_13. forms a regular set of influences, initiating the operation and synchronization of the interaction of the technological functions of the receiver under control of the transmitter.

TF_14. deshifriral the set of points of the SPE code code AAA.

TF_ 15. completes processing operation and reception operation for the subsequent structuring of the data source CCCS operation of the code Converter AAA in the receiver code LTD.

TF_ 16. models LTD PFP and send. Converts code-code voice compression, data compression, error correction.

TF_17. simulates the channel PFP and transfer between AAA PFP and AAA send and performs the channel simulator and generators "white noise".

Next, description "a description of the Method of the invention provides for variants of the system transfer-PFP, calculated using the signal of the data carrier, the wave packet.

Item TF_ 1. Function F_2. Transformations are performed by the operations technological functions TF_ 2. chronister send over a regular sequence in continuous time structure of the signal generator send to form a real-time signal, i.e. quantum chronister receiver - NES, the point of valuation adopted in continuous time structure of the DNS for crucial functions of the receiver. Possible external synchronization chronister General chronization system send-PFP external signal. Technological function TF_2. provides: input - analysis of control commands function TF_1. resource management the transmitter to the AAA, and the output is the formation of quantum Etalon phase of the transmitter to determine the further receiver point estimate of the received signal, i.e. chronic PFP from the transfer and the formation of cycles, technology and service Gating pulses and pulse intervals in accordance with the multivariate unambiguous flexible reaction to external modification of functional States AAA functions TF_1. management of resources.

Item TF_3. The calculation of the image signals of the data carrier - CIS, wave packets, is technologically advance or in real time breadboard is strong arming sequence output function TF_3. numbers, patterns, possibly binary code (additional two's complement format) Bz-bit signed number (where B is the number of digits Bzand the next non-empty index suffix z is the sign of the number Bz), the direct values or increments of the function counts the CIS form B(C) operations direct calculation or by selecting the calculated early and ready data from storage Handbook in accordance with the multivariate unambiguous flexible reaction to external modification of the arguments (E, D, U and attributes Attribut, V, Atribut) DNS functions TF_1. resource management in the service time metric chronister TF_2.

Calculation of images of a temporary form of additional signals of the data carrier (NES - model synchronization, "standard" phase and, possibly, SNC - zero harmonic RF, "carrier", as well as control signals, control, diagnostics), obtained from different combinations of i's sequence numbers of harmonics, conducted previously or in real time technological functions standard TF_3.e., "carrier" TF_3.n., management TF_3.i. Technological functions TF_3.e., TF_3.n., TF_3.i. provide at the output an unambiguous statement of the sequence of the output options is immediate values or increments of the function counts the form of NES and SNA S(C) operations direct calculation or by selecting the calculated early and ready data from the store - Handbook in accordance with the multivariate unambiguous flexible reaction to external modification of the arguments of the additional signals of the data carrier functions TF_1. resource management in the service time metric chronister TF_2.

Calculation of temporary images form additional signal annihilation of SLEEP, exercising at the point of assessment DNS compensation signals NES and SNA (NES - model synchronization, SNC - zero harmonic RF, "carrier", as well as control signals, control, diagnostics) are previously or in real time technological function of the standard TF_3.a. Technological function TF_ 3. a. performs at the output unambiguous statement sequence output function TF_3. numbers, patterns, possibly, additional binary code format Bz-bit signed number, the direct values or differential function counts form of A DREAM(C) operations direct calculation or by selecting the calculated early and ready data from storage Handbook in accordance with the multivariate unambiguous flexible reaction to external modification of the arguments of the additional synchronization signals function TF_ 1. resource management in the 3.e., TF_3.n., TF_3.i. and TF_3.a. the arguments correction TF_1. from TF_ 14. as the process of differential correction SIC, NES, SNA, SLEEP.

Item TF_4. The method of pre-structuring data source LTD., conversion of a synchronous sequence of output data (CCCS send) technological functions TF_16. temporary metric chronister in output, possibly asynchronous, the sequence of data is performed in real-time technology TF_4. Technological function TF_4. provides: input - to-one analysis of an arbitrary sequence of input data samples of the data source and the output - to-one synthesis of sequence data with the structure number, possibly C-bit binary numbers without a sign (where C is the number of digits), the operation data is partitioned binary sequence of input samples in accordance with multivariate unambiguous flexible reaction to external modification of arguments (Sattribute) TF_1. resource management according to the law of the provisional repetition asked chronization TF_2. Send.

Item TF_5. The way to determine a set of image signals of a data carrier - the DNS is technologically advanced, real-time t - the analysis of arbitrary sequence output TF_ 4. and its own output data sequence of the form Cz-bit signed integer (where C is a multi-bit and multi-number, number of digits and the positions in which the degrees of freedom changes the amplitude, shape and phase spectra of the SIC, and the suffix z corresponds to the values of the 2 Units. possible values of the phases, i.e. the sign of the number Cz), a synthesis sequence data format Czbit number (possibly binary) operations of summation (normal or associative) current input and the previous output sequences in a certain temporal distance and the specified argument TF_1. (Atribut, the value of the history information of the carrier signal) and the appropriate response to a given argument capacitance range (Atribut, the amount of information capacity spectrum signal data carrier) TF_1. resource management, as well as the rationing of current and future conditions on sets (M and L) of the evaluation points of the samples of the signal, on the history data Cz-number. Set the DNS is Cz-three-position bit (amplitude, shape, phase) number, which identified the code for the automatic real-time technology TF_6. Technological function TF_ 6. according to the principle of temporal sequence provides: input - analysis of arbitrary sequence output TF_5. and its own output data sequence of the form Cz-bit signed integer, and the output is a synthesis sequence data format Czbit number (possibly binary) operations of summation (normal or associative) current input and the previous output sequences in a certain temporal distance and the specified arguments TF_1. resource management (H - order the history of the number counts of the evaluation signal, determining a quantitative value set, Atribut and other), as well as the rationing of current and future States of the set of evaluation points times the DNS on the history data Cz-number. Optimized set of images CSA is Cz-three-position bit (amplitude, shape, phase) number, which identified the IDs of all the positions of the images of the DNS in the composition of the SPE.

Item TF_7. The way to build an optimized set of image signals being technologically advanced, real-time technology TF_7. Technological function TF_ 7. according to the principle of temporal sequence on the Mat Bz-bit signed integer, and the output is a synthesis sequence data format of Bzbit number (possibly binary) operations of summation (normal or associative) current input and the previous output sequence in accordance with the reaction to the arguments TF_1. management of resources. The Assembly is Bz-bit number, which identified without overflow and valid error codes all items number as reference in the time of the composition of the SPE.

Item TF_ 8. Method adaptation canalobre elements of the system transfer - PFP to the channel environment of the transfer signal is technologically advanced, real-time technology TF_8. The transformation sequence output TF_ 7. in the continuous channel signal composition storage device analog patterns of UNC - materialization of the SPE are conducted in real time in the time metric counts the DNS of chronister TF_2., technological function TF_8. Technological function TF_8. provides: input - output analysis, possibly asynchronous sequence data structure format code Bz TF_7. according to the principle of temporal sequence, and the output is unambiguous synthesis sequence: the code unsigned, with rounding, that is, in the structure of the D-bit code) metric Converter DAC (D/A) Code input in the output Level" with the properties and attributes of shapes counts multiple spatial signal SPE is functionally consistent and possibly in parallel. Next TF_8. provides: input - analysis, possibly asynchronous sequence structure data format D code on a time metric counts the DNS of chronister TF_2. and temporal sequence functions TF_ 2. synchronous with the beat of the output signal of reference phase for the transmitter (synchronous with the cycle time of the evaluation output signal), and output is unambiguous synthesis of the sequence of output patterns of temporal pulse - finite and constant value of the time duration of the pulse, finite and constant values of the interval between pulses and functional variable value of the amplitude level of the pulse, setting the pulse energy of the finite temporal and amplitude intervals (proportional to the value of the variables are integers samples of the signal data carrier transmitter - D code) signal, and recovering a continuous channel signal, that is the materialization of the JV is the first unambiguous flexible reaction to external modification of the relevant arguments (the value of the spectrum band signal, the magnitude of the frequency point position of the lower limit of the range of signal values information capacity spectrum signal data carrier and filter settings) TF_1. resource management in a temporary metric counts the SPE of chronister TF_ 2. synchronously, functional, consistently. When modifying these early arguments technological function TF_ 8. according to the principle of temporal sequence provides: input - analysis of arguments TF_1. program algorithms of analysis and synthesis filters (Koara, Butterworth, Chebyshev types of low, high, bandpass frequencies of the order of 1, 2,..., 5) of circuit design physical implementation of the filter, and the output is a modification of the circuit elements of the filter calculated by the software tool arguments conversion elements of the filter to the spectrum of the SPE and the channel strip migration environment signal in accordance with the draft response to the arguments. The program of the invention is not given.

In addition, TF_ 8 performs the correction of the SPE on the arguments correction TF_ 1. from TF_14. as the modification process ACFH, NGVS filter, i.e. the integral correction signal in the filter.

Item TF_9. Converting a continuous analog signal patterns of the data carrier, the spectrum of the SPE in continuous Cana. Technological function TF_9 provides: input - pair source - TF_8., output - pair with the receiver, the channel carrier or guardian energy (two-wire line, coaxial cable, waveguide line, broadcasting or magnetic, or acoustic environment, and so on) and the transfer of spectral data carrier TF_8. method, frequency, or amplitude modulation, or methods of expansion or compression of the spectrum (for example, or FM standard 16F3 mobile or AM standard tertiary group V900 multichannel telephony, or the world Cup videomining signal recording systems PAL, SECAM standards of the International Electrotechnical Commission, or other) in the specified channels in accordance with channel parameters and conditions of the conjugations, but with better values of specific physical, engineering, economic costs and prices, since the range of the data carrier does not contain the zero harmonic component, and the lowest harmonic component in the spectrum can be achieved technological function TF_3.many more zero. Conversion TF_9. conducted in accordance with the multivariate unambiguous flexible response to the modification, it is possible, arguments TF_1. management of resources.< the data analog structure functions TF_9. is real-time technology TF_10. Technological function TF_10. provides: input - dual output operations TF_9., at the output of the dual input operation TF_9. in specified channels in accordance with channel parameters and conditions mates RF signal, but the same as TF_ 9. qualitative values of specific physical, engineering, economic costs and prices due to the properties of the spectrum of the source. Conversion TF_10. conducted in accordance with the multivariate unambiguous flexible response to the modification, it is possible, arguments TF_1. management of resources.

Item TF_ 11. Convert the channel signal analog patterns in the selective signal range continuous analog of the structure of the SPE is the breeding range of the SPE technology TF_11. Technological function TF_11. provides: input - interfacing with signal CSA, output - required frequency filtering of the spectrum of the CIS and the correction characteristics ACFH, NGVS channel communications integrated to optimize the signal to noise ratio, dynamic range of a signal in the final device of the receiver and the channel may perform consistent with the spectrum filtering or analog, ililu optimize the signal to noise ratio in the final device of the receiver, and recovery in the absence of "standard" phase of the evaluation signal in the decisive element chronister PFP (TF_13.) in accordance with the modification reaction of the functional States of the receiver arguments TF_1. resource management in real-time.

In addition TF_11. performs the correction of the SPE on the arguments correction TF_1. from TF_14. as the modification process ACFH, NGVS filter, i.e. the integral correction signal in the filter.

Item TF_12. The transformation of the time function of the filtered spectrum of CIS technology TF_ 11. in the temporal sequence of samples from the input signal CIS on the principle of temporal sequence of continuous channel signal CSA transmitter is carried out in real time in the time metric chronister technology TF_12. Technological function TF_ 12. provides: input - interfacing with signal functions TF_11. and analysis of the reception signal in the time Etalon phase NES PFP metric chronister time sequence (synchronous with the beat of the output of "standard" phase for the transmitter, synchronous with the cycle time of the evaluation output signal) and the output sequence, possibly asynchronous, with a time of pogreshnostei points by the method of exact likelihood) with necessary and sufficient accuracy assessment format Ds-bit code integer (where D is the number of digits Dsand the next non-empty index suffix s is the sign of Ds) in the time metric of the evaluation signal, SNDO of chronister TF_13. and code metric Converter ADC (A/D)) "entry Level exit Code" in accordance with multivariate unambiguous flexible reaction to external modification of the arguments of the functional States of the receiver TF_1. management of resources.

Item TF_ 13. Conversion operations technological functions TF_13. chronister PFP regular sequence, continuous time structure of the signal controlled oscillator chronister PFP to form a real-time signal - quantum chronister receiver, time of assessment taken in continuous time structure of the DNS for the ultimate receiver. Possible external synchronization chronister General chronization system send-PFP external signal. Technological function TF_13. provides: input - signal analysis "standard" phase NES PFP functions TF_11. and control commands function TF_ 1. resource management receiver AAA, and the output is the formation of quantum Etalon phase NES transmitter for point estimation of the received signal, Svalov PFP AAA in accordance with multivariate unambiguous flexible reaction to external modification of the functional States of the receiver AAA functions TF_1. management of resources.

Item TF_ 14. Converting, decoding a sequence of data samples of the quantization of the channel signal of the SPE in the sequence of output data decode a set of points of the SPE code code AAA PFP is a temporary metric TF_13. chronister technology TF_14. Technological function TF_14. provides: input - to-one analysis of an arbitrary sequence output TF_12., samples of the SPE, possibly asynchronous, with the structure of Dscode consisting of linear composition, in an unambiguous linear spatial evaluation system signal may, in the case of "standard" phase of the transmitter to the receiver in SNDO, the additive data of the waveform of the reference synchronization of linearly coupled with arguments (variable Retribut, the value of the share of energy SNE in the spectrum of the SPE, Retribut and possibly in the presence of harmonics of the RF value of the share of energy "carrier" and the other control signals of the SNA in the spectrum of the SPE, F) TF_1. transmitter AAA as reference the DNS structure Bzcode, that is, support the evaluation sequence in the receiver signal annihilation - SLEEP, and the output is unambiguous synthesis of the sequence of output data, it is possible asin is tov DNS sequential operations of subtracting the above compositions DNS and signals a "benchmark" of the RF phase and onwards (the normalization and rounding code as numbers) or table conversion or direct estimates of positional numeration forced accomplished the trimming operation, subsequent rounding according to the criterion of the identity of the types of evaluation criteria in the receiver and the final rounding by size (number of bits) of information specific capacity, and operations (through adaptation decisive element functions TF_14 to "slow" changes in transmission characteristics and properties of the channel) correction for automatic adjustment of the slow gain in accordance with the multivariate unambiguous flexible reaction to external modification of arguments (Atribut and V DNS) TF_ 1. resource management receiver. In addition, TF_14. synthesize arguments TF_1. resource management AAA on signal analysis of the processes of diagnostics and correction, and supplies the latter as arguments correction through TF_ 1. for TF_3., TF_8., TF_11. and TF_14. and TF_14. is the process of differential correction codes counts DNS.

Item TF_15. Operation in the receiver structure the data receiver Ltd. is a conversion operation code AAA in the receiver code OOD Assembly partitioned binary data sequence output TF_14. And enter in the OOD receiver is in constant metric, SNDO of chronister TF_13. in accordance with the multiple-reaction to the modification of the arguments of the operation modes of the receiver) TF_1. resource management AAA and the CCCS. The operation of the data transfer is completed TF_15.

Item TF_16. Model LTD PFP and transfer (inverter number code voice compression, data compression, error correction and other, other...) performs hardware and software of the computer.

Item TF_ 17. The channel model between AAA PFP and transfer system send-PFP exercise hardware simulator channel and software tools active generators "white noise". Internal generators of noise ensured compliance with technical service functions TF_3. created algorithms and hardware circuit decision arguments of the resource management TF_1. the function of the synthesis signal send AAA and external "noise" is a hardware tool.

Technological functions TF_ 11. , TF_12., TF_13. convert real-time multi-spatial signal CSA only necessary and sufficient assessment points (period of assessment points is equal to the reverse, and the frequency is equal to the direct value of the spectrum band signal data carrier).

Information confirming the possibility assisiant in the form the power and the local spectrum of the signal device and the method of synthesis and analysis of radio signals confirmed and demonstrated on real demonstration sample (the sample) device and method of creating, transmitting, receiving, evaluating, signals, devices, and methods, and synthesis and analysis of radio signals, the multivariate form, and multi-local spectrum.

The technical solution is carried out according to the scheme of solution of the sample. Achievement of specific speeds of data transmission from source CCCS to the receiver Ltd. in a predetermined frequency range when the hard limit (locality) spectrum of the carrier signal provided resources specified in the schema objects as real physical and technological objects.

The list of technological features demonstrations of the solutions of the invention are presented in the following table.

The list of technological features of the method of the invention, the list of elements of the device of the invention, the list of elements of the sample demonstrate the solution of the invention, as well as their mutual matches are presented in the table.

Data source LTD., receiver data LTD technology TF_16 simulates the resources of the computer. Us the MOU and hardware circuit design of the sample. Device TF_2. and TF_13. real and implemented elements of discrete logic speed up to 15 MHz.

Device interface AAA and OOD ensured compliance with technical functions TF_4, TF_15., created algorithms and hardware same devices sample TF_4. and TF_15.

The device of the synthesis signal send AAA ensured compliance with technical functions TF_1., TF_3., TF_5., TF_6., TF_7., created algorithms eponymous devices sample TF_1., TF_3., TF_5., TF_6., TF_7.

Device sample TF_1., TF_3., TF_5., TF_6., TF_7. and TF_4, TF_l5., and TF_ 16. same function simulates the computer resource 386-DX processor program with the algorithm for the 8086 processor. Resource signal processor with the capacity of 30 million operations per second, with the size of the memory object code command unit KB,and the sampling time is not more than 30 NS, the memory size code format data word DW (16 bits) less than 64 KB, and time of sampling more than 100 NSEC created by the algorithm implemented in Assembler language, will ensure that the technology functions in real time.

The filter unit TF_8., TF_11. (recovery of materialization of the analog signal) and send PFP AAA ensured the execution of the same technological function is lisovyy active filters required order Chebyshev or Butterworth, or Koera) types of low frequency (or band) elements of operational amplifiers family UD (LF 155).

Device pairing signal transfer and PFP AAA with the amplitude and frequency characteristics of the RF signal from the communication channel provided by the execution of the technological functions TF_ 9. and TF_10. created algorithm and a hardware circuit solutions of the same name device sample TF_9. and TF_10. The device TF_ 9. and TF_10. real and implemented active elements in the high frequency range (or the radio communication monitor). Sanitation device simulates a passive device TF_ 17 and active generators "white noise". Internal generators of noise ensured compliance with technical service functions TF_1., TF_3., TF_5., TF_6., TF_7., created algorithms and hardware circuit design, terminal resource management TF_ 1. same features the way the sample, and the external oscillator noise is a hardware tool.

The unit of analysis signal PFP AAA ensured compliance with technical functions TF_12., TF_13., created algorithms and hardware technical solutions of the same name devices TF_12., TF_13 sample. Device TF_ 12., TF_13 real and implemented elements of the analog functions TF_12., TF_13., TF_ 14. sample simulates a computer resource 8088 processor. Resource signal processor with the capacity of 1 million operations per second generated by the algorithm implemented in Assembler language, will ensure that the functions TF_12., TF_13., TF_14. in real time when the memory size of the object code command unit KB, sampling time, more than 100 NS, the memory size code format data byte DB (8 bits) less than one KB and time of sampling more than 100 NSEC.

Device operative management of resources and status indication signals and processes send and PFP AAA ensured compliance with technical functions TF_1. created algorithms and hardware technical solutions of the same name device TF_1. The device TF_1. simulates the computer resource 8088 processor and, in part, by elements of the real circuitry discrete logic speed up to 15 MHz. Resource signal processor with the capacity of 1 million operations per second generated by the algorithm implemented in Assembler language, will ensure that the technology functions TF_1. in real-time. The memory size of the object code command unit KB, sampling time, more than 100 NSEC. The memory size code format data byte DB (8 bit) less units KB, time is edstam the computer and the measuring device.

The advantages of this method over the known technical solutions are as follows:

- high specific information capacity range of video media (not less than two bits per one unit of the spectrum),

- high density data transfer rate (more than two bits per unit range of video radio frequency energy per unit time)

- limited spectrum in the low frequency range,

- limited spectrum of the carrier signal in the radio frequency range by direct formation of the radio spectrum or transfer videospicture method of amplitude or frequency modulation,

- no, as a variant, the spectrum is continuous, zero component in the low frequency range of the spectrum,

- no, as a variant, the spectrum is constant, the carrier component in the radio frequency range of the spectrum,

- arbitrary interval between the boundaries of the spectral carrier and constant-zero component in the low-frequency interval or constant carrier component in the radio frequency range,

- ensure the achievement of the standards to the radio spectrum in the path environment communication channels and the solution of the problem of modern radio engineering,

- obespechenie sequence data of any arbitrary structure,

- there is no need for statistical interim analysis and evaluation of the signal by the maximum likelihood sequence (Not MLSE) receiver

- no need radio adders and multipliers shapers constellation amplitude and vector signal spectrum,

- synthesis signal is conducted from the deterministic functions without the "noise" of the communication channel with necessary and sufficient, but given the inaccuracy of "noise" synthesis of digital signal arithmetic tool in the format of integer arithmetic.

The application.

Terminal functions

as the address technological functions and number operation code (CPC).

00 - TF_ 1-KOP 00, the ID of the control methods, monitoring, diagnostics, and mates resource elements of the system transfer - PFP and channel migration environment signal as a function of the system transfer-PFP, operator, user.

01-TF_3-COP, the magnitude of the frequency point position of the boundary spectrum of a signal.

02 - TF_3-COP, the magnitude spectrum of the signal.

03 - TF_3-COP, the value of the maximum signal amplitude.

04 - TF_3-COP, the identifier of the existing spectrum band signal is below or above the position of the boundary spectrum of a signal.

05 - TF_3-TO-06 - TF_3-COP, ID polarity band signal spectrum below the point position of the boundary spectrum of a signal.

07 - TF_3-COP, TF_4-COP, TF_5-COP, TF_14-COP, TF_15-CAP, value [V bit/sec] speed data transfer range.

08 - TF_3-COP, TF_4-COP, TF_5-COP, TF_14-COP, TF_15-CAP, value [Absolut bits/Hz] the information capacity of the signal spectrum.

09 - TF_3-COP, TF_4-COP, TF_14-COP, TF_15-COP, the values of breaks amplitude.

10 - TF_3-COP, TF_4-COP, TF_14-COP, TF_15-COP, the ID of the criterion distribution type breaks amplitude.

11 - TF_3-COP, TF_12-COP, TF_13-COP, TF_14-COP, amount and type of density distribution of Noise power in a given channel.

12 - TF_3-COP, the value of concentration of the main part of the signal energy in the spectrum of the channel strip.

13 - TF_3-COP, the value of the time interval signal.

14 - TF_3-COP, the value of the number of rooms times, meaningful life time signal, or amount forming vectors spectrum DNS.

15 - TF_ 3-COP, TF_4-COP, TF_5-COP, TF_6-COP, TF_7-COP, TF_ 8-COP 15, TF_ 11-COP 15, TF_12-COP, TF_14 - COP, the maximum dynamic range of the channel.

16 - TF_ 3-COP, TF_4-COP, TF_5 COP is Giovanni amplitude compositions signal data carrier, the Central moment of order zero and other orders of the statistical characteristics of the signals.

17 - TF_ 3-COP, TF_4-COP, TF_5-COP, TF_6-COP, TF_7-COP, TF_ 8-COP 17, TF_ 11-COP, TF_12-COP, TF_13-COP, TF_14-COP, TF_ 15-COP, ID, types of evaluation criterion PFP.

18 - TF_ 3-COP 18, the ID of the types of configuration sections harmonic curves, spectrum envelope signal components and a set of spectral shapes, defined in terms of the shape of the spectrum with a given number of zero spectral amplitudes.

19 - TF_3-COP, TF_4-COP, TF_5-COP, the value of (H) about the history of the number counts of the evaluation signal meaningful quantitative values set.

20 - TF_3-COP, TF_8-COP, TF_2-COP, ID registered initializing channel-forming element of the matrix elements of the materialization of the signal transfer system send - PFP.

21 - TF_6-COP, TF_7-COP, TF_12-COP, TF_13-COP, TF_14-COP, the ID code of the shares of NES and SNA.

22 - TF_ 6 - COP, TF_7-COP, TF_13-COP, TF_14-COP, the ID code of the ratios of the amplitudes, phases and frequencies of the SNA.

23 - TF_8-COP, TF_9-COP, the magnitude of power transfer.

24 - TF_10-COP, TF_11-COP, TF_12-COP, the value of the sensitivity PFP.

25 - TF_1-COP, the ID of the starting procedure and other procedures of the AAA and the CCCS.

26 - TF_1-COP ID number.

27 - TF_1-COP, ID state of the resource, signals and processes.

28 - TF_1-COP, ID, protocols and interface standards-LTD-AAA.

29 - TF_1-COP, ID, protocols, and standards interfaces RF channel.

30 - TF_1-COP, the ID of the achievement of the pair of source and / or receiver data channel transmission and / or reception of data.

31 - TF_1-COP, the ID of the arguments of the terminal and command structures and data.

32 - TF_1-COP, TF_2-COP, ID chronister send AAA.

33 - TF_1-COP, TF_3-COP, TF_11-COP, TF_12-COP, TF_13-COP, ID chronister PFP AAA.

34 - TF_ 3-COP, TF_13-COP, TF_14-COP, values of attributes NES, SNA signal.

35 - TF_3-COP, TF_14-COP, the value attribute of the SLEEP signal spectrum.

36 - TF_8-COP, ID metric Converter DAC "Code entry Level exit.

37 - TF_1-COP, TF_9-COP, TF_13-COP, ID pairing with channel and attributes modulation transfer.

38 - TF_1-COP, TF_10-COP, TF_13-COP, ID pairing with channel and attributes demodulation PFP.

39 - TF_14-COP, TF_8-COP, TF_13-COP, TF_4-COP, TF_14-COP, the IDA is the ID attribute of the active generators of "noise" AAA send.

41 - TF_1-COP, TF_3-COP, TF_8-COP, TF_11-COP, TF_13-COP, TF14-COP, the ID attribute correction signals to send and PFP AAA.

1. The method of synthesis, transmission, reception, analysis and evaluation of the multivariate form, and multi-local spectrum signals, namely, that perform the structuring codes of the data source, perform the synthesis signal of the data carrier transfer from the temporary traces of tension fields represented by vectors in a two-dimensional coordinate space-time and field strength, by means of which produce data transfer, form spectral-temporal locality of signal transmission from the time traces of tension fields modulate the signal time traces of the field strength of the carrier harmonics and regulate the amplifier of transmitter levels in the transmission channel, change adjustable receiver amplifier levels of carrier harmonics and demodulator them in the signal time traces of tension fields, quantum signal in the reports of the temporary track field strength in the receiver, perform the identification signal of the data carrier in the receiver by analyzing the patterns of temporal traces of tension fields, perform the structuring codes on the wave packets, synthesize the service signals by generating alarm signals, including identification of parameters of signals in the receiver, optimize the synthesized signals of the media data and service signals by optimizing the images of wave packets in the composition of images of wave packets in the signal data carrier and alarm signals form the signal transmission by assembling images of wave packets in the signal data carrier and signals alarm, form spectral-temporal locality of signal transmission by adapting to the channel environment transfer system signal transmitter-receiver, analyzing the signal by identifying the parameters of the signal wave packets.

2. The method of forming images of wave packets, wherein forming the images of the wave packets is the image signals data carriers (DNS) by calculating the temporal traces of the intensities of the field in the DNS is defined by the magnitude of the continuous strip local spectrum signal data carrier formed in the coordinate system of the frequency and amplitude of equidistant spaced vectors of alternating polarity at the beginning of the formation of the CSA, the total number of which determines the error inceleme, determined by the polarity of the lowest frequency forming range of the vector; the form of the spectrum of the CIS represented by the number of values, the total number of which is equal to half the total number of forming an array of vectors, consisting of segments of a sine curve, which is the envelope forming range of the same polarity vectors, which is symmetrical to the axis of frequency, symmetrical with respect to the normal to the axis of the frequencies passing through the middle of the spectrum of the CIS, and mirror-symmetric with the phase spectrum of the CIS-axis amplitude; the amplitude spectrum of the CIS represented by the number of values, the total number of which is limited by noise in the transmission medium, defined by the amplitude the maximum value of the forming range of the vector, and allowing in connection with such structure of its spectrum to allocate the array, which is a consequence of the temporal representation DNS equidistant time vectors having two different equal in magnitude vector, the phase of which is determined by the phase spectrum of the CIS, which are the amplitude of the DNS, increase the number of CIS spectra with different amplitudes, phases and forms, by quantization of the temporal traces of tension fields.

3. Way to inspire the same time, that calculate temporary form of traces of tension fields additional alarm signals that have a finite number of spectral points of evaluation in the receiver having a spectral shape of the track field strength of discrete and/or continuous on the interval spectrum signals, with variations in their levels from maximum to zero, and the trace of the field strength of one of the alarm signals is the image signal of the carrier reference synchronization (SNE), and other temporary signs of tension fields with different ratios of the phases and amplitudes of the harmonic signals and their spectra are the image signal data carrier alarm (SNA), while the spectra of SNE and SNA exploded frequency spectrum trace field strength DNS; calculate a temporary form of additional image signal that is similar to the DNS and the same spectrum with the DNS, which is the image carrier annihilation (SLEEP) standard sync and control signals, and at time points of assessment in the DNS is the sum of the signals NES, SNA and SLEEP is equal to zero; increase the number of spectra and/or SLEEP, and/or NES, or SNA quantization of the temporal traces of tension fields.

4. How to optimize images of wave packets of signals media diosna curves, eg its unipolar vectors, but are identical in amplitude and phase spectra of the SIC, the elements of which are defined structured source data source data, and the number of elements of which determines the degree of approximation of the specific information capacity of the CSA to Sendoneway the border and is bounded above by the number equal to the half of the amount forming the array of vectors; choose the DNS set DNS, which provides a minimal dependence of the phase image of the SIC with optimal ratio of the peak factor of the amplitude in the composition of images the DNS, and/or SLEEP, and/or NES, and/or SNA to the current value of these signals.

5. The method of Assembly of the transmission signals, characterized in that calculate the sum of the images of the SIC, and/or SLEEP, and/or NES, and/or SNA, which is the image of the composition of the signals of the data carrier (STOs) that implements a temporary representation of an array of equidistant time points, congruent arrays CSA, which has no more than one point representing the code number of the data source.

6. The way of adaptation to the channel environment transfer system signal transmitter - receiver, wherein the adapting of the SPE in the calculation of the signals included in the SPE, and/or CIS, and/or SLEEP, and/or NES, Il the La.

7. The method of identification of parameters of signals of wave packets, wherein the identified harmonic signal SNE, are synthesized on the NES scale similar frequencies, are there a frequency, a period which is equal to the distance between the equidistant points of the array generated by the DNS, and zero phase which coincides with the time position of the array elements; designerour strength values of the fields of the SPE of the receiver, taken from an array of time points in the structured data codes to the data sink.

8. The synthesis device, transmitting, receiving and evaluating multivariate form, and multi-local spectrum signal containing the transmitter, consisting of input devices, the input of which is the input of the transmitter, multiplexer, series-connected memory storage register, adder, digital to analogue Converter (DAC), filter, modulator and adjustable amplifier whose output is the output of the transmitter, and chronister whose outputs are connected to inputs of a multiplexer and memory, as well as other inputs, input devices, storage register, DAC and modulator, characterized in that the transmitter is entered decoder, to the clock input to the United Converter code code and the shift register and storage, while the outputs of the shift registers and storage are connected to the inputs of the multiplexer, the output of which is connected to the input of the decoder, and the output of the input devices connected to the inputs of the data source converters code - code of each of the channels to the inputs of chronicity and also to the inputs of the shift registers of the shift and store each of the channels connected to respective outputs of chronister, and to the inputs of codes memory code converters - code each of the channels connected to the output bus data memory, consisting of K + 1 memory blocks, to the data bus which is connected to the corresponding outputs of the decoder, and the address bus K + 1 memory blocks are combined and the inputs of the memory output data bus which are combined output data bus K + 1 memory blocks, and includes a receiver, made in the form of series-connected adjustable amplifier, the input of which is the input of the receiver, demodulator, filter low frequency (LPF), analog-to-digital Converter (ADC) register, adder highlight the difference, the register storing the difference, the code Converter and the output device, the output of which is the output of the receiver, and the output of which is connected to a clock input of the register storing the difference, when this output is low-pass through the filter of "standard" is connected with chronization whose outputs are connected respectively to the clock input of a casting device and the phase detector, one output of which is connected to a clock input of the register, the output of which is connected to the code input of a casting device, and the other output of the phase detector is connected to a recording input of counter-decoder, the third output of the phase detector is connected to a clock input of the ADC, the first, second and third outputs a casting device are connected respectively to the shift input of the output device, the control input of the controlled amplifier and the input of the zero phase of the counter-decoder, and the other outputs a casting device through a memory connected to the input wichitaeagle adder highlight the difference, and the memory consists of a single block of memory.

9. The synthesis device, transmitting, receiving and evaluating multivariate form, and multi-local spectrum signal containing the transmitter, consisting of input devices, the input of which is the input of the transmitter, multiplexer, series-connected memory storage register, adder, digital to analogue Converter (DAC), filter, modulator connected to inputs of a multiplexer and memory as well as other inputs, input devices, storage register, DAC and modulator, characterized in that the transmitter is entered decoder, to the clock input of which is connected to the corresponding output of chronister, and two channels, each of which has connected in series Converter code and the shift register and storage, while the outputs of the shift registers and storage are connected to the inputs of the multiplexer, the output of which is connected to the input of the decoder, and the output of the input devices connected to the inputs of the data source converters code - code of each of the channels to the inputs of chronicity which, and also to the inputs of the shift registers of the shift and store each of the channels connected to respective outputs of chronister, and to the inputs of codes memory code converters - code each of the channels connected to the output bus data memory, consisting of K + 2 blocks of memory to the data bus which is connected to the corresponding outputs of the decoder, and the address bus To + 2 memory blocks are combined and the inputs of the memory output data bus which are combined output data bus To + 2 memory blocks, and includes a receiver, made in the form of series-connected regulado-digital Converter (ADC), register, the register storing the difference of the code Converter and the output device, the output of which is the output of the receiver, and a filter of "standard", chronister, a casting device, a phase detector, the counter-decoder, the output of which is connected to a clock input of the register storing the difference, and the output low-pass through the filter of "standard" is connected with chronization whose outputs are connected respectively to the clock input of a casting device and the phase detector, one output of which is connected to a clock input of the register, the output of which is connected to the code input of a casting device, and the other output of the phase detector is connected to the register input of counter-decoder, the third output of the phase detector is connected to a clock input of the ADC, the first, second and third outputs a casting device are connected respectively to the shift input of the output device, the control input of the controlled amplifier and the input of the zero phase of the counter-decoder.

 

Same patents:

The invention relates to electrical engineering and can be used in communication systems operating under conditions of uncertain interference

The invention relates to radio

The data adapter // 2136116
The invention relates to a method and equipment for transmitting and receiving data in a network of mobile stations by using a terminal device such as a personal computer, connected to a digital mobile station via a standard serial port

The invention relates to the field of radio and can be used in communication systems operating under conditions of uncertain interference

The invention relates to radio engineering

The invention relates to electrical engineering and can be used at the reception signals of the quadrature amplitude-shift keying (QAM)

FIELD: communication systems using variable transfer process; optimizing modulation process and code repetition frequency in given hardware environment.

SUBSTANCE: in order to find most effective modulation and code repetition frequency process including code correction according to this criterion, communication system transmitter is provided with code packet coder and certain set of modulators having different modulation orders and modulating sub-packets that function as code words outputted from coder. Selector functions to select one of modulators by comparing product of modulation order by code repetition frequency which is, essentially, relationship between code packet size and number of information modulating characters and by comparing product of modulation order by code repetition frequency with threshold value.

EFFECT: enhanced effectiveness of found process.

29 cl, 6 dwg, 1 tbl

FIELD: radio engineering.

SUBSTANCE: demodulation device for octic phase-keyed signals receives input signal Rk(Xk, Yk) incorporating k quadrature component Yk and k cophasal component Xk and functions to generate L(sk, 0), L(sk, 1, and L(sk, 2) relaxed-solution values. Computer functions to calculate Zk by subtracting |Yk| level of quadrature signal component Yk from |Xk| level of cophasal signal component Xk. First selector chooses Zk for respective most significant bit of quadrature signal component Yk. Second selector chooses Zk for respective most significant bit of cophasal signal component Xk. Third selector is used to select output signal of second selector or "0" for respective most significant bit in Zk.

EFFECT: facilitated processing required in calculating minimal distance from signal received.

4 cl, 5 dwg

FIELD: radio communications; digital communication systems.

SUBSTANCE: proposed spectrum-division frequency modulator that incorporates provision for using frequency-modulated signals of high modulation index in communication systems where frequency resources are limited has two multipliers, two phase shifters, smoothing-voltage generator, two amplitude-phase modulators, carrier generator, adder, and frequency shift control unit.

EFFECT: enhanced noise immunity of communication systems.

3 cl, 15 dwg

FIELD: radio engineering.

SUBSTANCE: first calculator calculates soft value Λ of third demodulated symbol of 4 demodulated symbols by subtraction of distance 2a between two demodulated symbols of same axis of indication table from level , quadrature component Yk. Second calculator determines soft value Λ of fourth demodulated symbol by calculating using first variable α. Third calculator calculates soft value Λ of first demodulated signal by subtraction of distance 2a from level of common-mode component Xk. Fourth calculator determines soft value Λ of second demodulated symbol by calculating using second variable β.

EFFECT: higher efficiency.

5 cl, 14 dwg, 12 tbl

FIELD: radio engineering, possible use during coherent demodulation of signals with combined amplitude-phase manipulation.

SUBSTANCE: prototype device includes second memorizing device and logarithm computation block, while outputs of first and second analog-digital converters are connected, respectively, to first and second inputs of second memorizing device, output of which is connected to input of logarithm computation block, output of which is connected to second input of multiplier.

EFFECT: increased resistance of interference due to removal of false clamp point by phase on discriminatory characteristic.

4 dwg

FIELD: signals transmission equipment engineering.

SUBSTANCE: use of given method in systems for transmitting and receiving signals of quadrature amplitude modulation with low bearing frequency synchronization threshold makes it possible to decrease demodulation threshold due to provision of low synchronization threshold by bearing frequency. Result is achieved by adding to pack of M m-level quadrature amplitude modulation symbols of previously given symbols, part of which does not change from pack to pack, and another part is periodically inverted in some of packs. Due to that at receiving side components of quadrature amplitude modulation signals are singled out, appropriate for additional previously given symbols (frequency of which are known). On basis of these components, inversion frequency is determined, which provides for removal of ambiguousness in adjustment of receipt synchronization frequency, thus making it possible to approach Shannon threshold closely.

EFFECT: decreased demodulation threshold.

4 cl, 1 tbl, 9 dwg

FIELD: radio engineering; demodulation of sixteen-position quadrature amplitude keyed signals.

SUBSTANCE: newly introduced in prior-art sixteen-position quadrature amplitude keyed (KAM-16) signal demodulator are fifth and sixths counters and phase error correction unit; there units make it possible to execute following new operations with signal: counting of signal points within count interval, their quantity enabling evaluation of phase error due to unwanted lock-on; correction of calculated phase error in phase error correction unit.

EFFECT: enlarged functional capabilities.

2 cl, 5 dwg, 1 tbl

FIELD: information technology.

SUBSTANCE: present invention relates to methods of detecting hierarchically encoded data. In one detection scheme, log-likelihood ratio (LLR) is derived for code bits of the first data stream, based on received data symbols. Interference caused by the first data stream is evaluated. LLR is derived for code bits of the second data stream, based on the LLR for code bits of the first data stream and evaluated interference. LLR for code bits of the first data stream is decoded to obtain decoded data from the first data stream. Decoded data are recoded and re-modulated to obtain re-modulated symbols. Interference caused by the first data stream is evaluated based on the re-modulated symbols. LLR for the first data stream can be derived from received symbols in real time without buffering the received symbols. LLR for the second data stream can be derived after decoding the first data stream.

EFFECT: more efficient detection of hierarchically encoded data.

34 cl, 6 dwg

FIELD: physics.

SUBSTANCE: method of relaxed solution for demodulating a received signal α+iβ with quadrature amplitude modulation (QAM) involves deriving several values of a conditional probability vector, where each is a relaxed solution value which corresponds to the position of a stiff solution bit, using a function which includes an operation for conditional definition from the quadrature phase component and inphase component of the received signal. The method of solving for the conditional probability vector for demodulation of the first half of the complete number of bits is identical to the solution method for demodulating the remaining half of bits, and is determined by replacing the value of the quadrature phase component and the value of the inphase component with each other.

EFFECT: more accurate processing a received signal.

29 cl, 15 dwg

FIELD: information technologies.

SUBSTANCE: method is realised using the following facilities, where a DVB-T modulator comprises serially joined units, an interface, a randomiser, a Reed-Solomon encoder, a convolution interleaver, a convolution coder, a bit interleaver, a symbol interleaver, a QAM shaper, a calculator of reverse quick Fourier transform (RQFT calculator), a digital to analogue converter (DAC), a high-frequency unit (HF unit) and a shaper of pilot signals at the inlet of the QAM shaper, and also the following units are additionally introduced: a unit of packets breakdown, receiving information from the interface and sending it to the randomiser and a control unit, a register receiving signals from the randomiser and sending a signal to the Reed-Solomon coder and the convolution interleaver, the control unit receiving information from the unit of packets breakdown, and outlets are connected to all modulator units.

EFFECT: reduced requirements to a computing device due to optimisation of processes of synchronising operation of all units in whole, using less efficient computing devices.

1 dwg

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