New matrix operation for DSP
 

AUTHOR Prof. Vadim Slyusar
    
You can contact author on swadim@inbox.ru
    
(RU)
     1. 302565, G01S 25/00. - .// . ., .., .., . ., .. - . 02.10.1989. - 17.11.1988. 4504355. - .

  2. 308235. G01S 7/36. .// .., .., .., .. - . 01.02.1990. - 14.11.1988. - 4502048. .

   3. 328583, G01S 7/36. . // . ., . ., . ., .. - pp. 01.08.1991. - pp 24.11.1989. - 4523185. - .

   4. 315248, G01S 25/00. - . // .., . ., . ., . . . 01.06.1990. - 26.09.1989. - 4521416. - .

  5. 314670. G01S 7/30. . // .., .., .. - . 01.06.1990. - 13.04.1989. - 4513469. - .

  6. 315150. G01S 7/28. . // . ., . ., . . - . 01.06.1990. - 28.08.1989. - 4520081. - .

  7. 323921. . // .., . ., . . - . 01.03.1991. - 07.04.1989. - 4513944. - .

  8. 325770, G01S 13/10. . // .., .., .. - . 05.05.1991. - 11.05.1989. - 4514925. - .

  9. 326901, G01S 13/16. - . // .., .., . . - . 03.06.1991. - 03.11.1989. - 4523196. - .

  10. 327209, G01S 7/28. . // .., .., .. - . 03.06.1991. - 07.05.1990. - 4530548. - .

  11. 326862, G06F 7/06. . // .., . ., .., .. - . 03.06.1991. - 18.09.1989. - 4521483. - .

  12. 1716455, G01S7/40. .// .. - 28.06.1990. - 4874058. - . 29.02.92, . 8.

PATENTS (RU)
    
1. .., .. 2054691, G01S7/292. . - 1992 . - . 20.02.96, . 5.

2. .., .., .. 2103768, H01Q3/36, G01R29/10. - . - 1992 . - . 27.01.98, . 3.

3. .., .., .. 2113759, H03D3/00. . - 1992 . - . 20.06.98, . 17.

4. .., .., .., .. 2111496, G01R23/00. . - 1992 . - . 20.05.98, . 14.

5. .., .., .., .. 2069003, G01S7/28. . - 1992 . - . 10.11.96, . 31.

6. .., .., .. 2042956, G01S7/285, G01S13/10. -- . - 1992 . - . 27.08.95, . 24.

7. .. 2054684, G01R23/16. - . - 1992 . - . 20.02.96, . 5. ( )

8. .., .. 94043137/09, G06F3/00. (). - 9.12.94. - : 1996.10.20. - 12.02.2000.

9. .., .., .. 94017043/09, G01R23/02. . - 20.04.94. . 20.08.95. - . 23, C. 92.     
    
PATENTS (UA)
  
1. Pat. of Ukraine 74447 2. IP8 H04J3/00, H04L5/00. METHOD OF TIME-DIVISION MULTIPLEX OF COMMUNICATION CHANNELS.// Sliusar Vadym vanovych, Stoliarchuk Yuri Vasyliovych, Utkn Yuri Vktorovych. Appl. 2004010222, Priority Data 12.01.2004. Official Publication Data 15.09.2004, Official Bulletin 9/2004. ( ).

The proposed method of time-division multiplex of communication channels can be used in communication systems with pulse coding of signals. The method provides a possibility to increase the throughput of the communication channel, without extending the bandwidth, by the time-division channeling of the coded message and the subsequent identification of the message in the receiver according to the probability distribution that differs from the Rayleigh distribution. Pulse envelope of each signal is formed according to the specified characteristic. Each pulse in the packet of pulses constituting the message is assigned a set position in time that is known on the reception side of the communication line. The receiver performs operations that provide the analog-to-digital conversion of the signal, the additional gating of the signal within fixed time intervals that are determined by periodically summing the signal samples at the output of the analog-to-digital converter, and determining the quadrature components of the signal pulse amplitudes. The length of the time interval for gating the signal is constant and less than a time interval between the adjacent pulses. According to the invention, the variants of the realization of the method in synchronous and asynchronous signal transmission modes are proposed.

2. Pat. of Ukraine 69256 A. IP8 H04J3/00 , H04L5/00. METHOD FOR TIME-DIVISION MULTIPLEXING OF SIGNALS IN A NARROW-BAND DATA TRANSMISSION CHANNEL// Sliusar Vadym vanovych, Stoliarchuk Yuri Vasyliovych. Appl. 20031212217, Priority Data 23.12.2003. Official Publication Data 16.08.2004, Official Bulletin 8/2004. ( ).

The proposed method for time-division multiplexing of signals in a narrow-band data transmission channel implies, for transmitting a coded information message presented as a sequence of pulse signals, distributing the said pulse signals over time intervals, with consideration for the subsequent selection of the signals according to the Rayleigh distribution, and forming the envelope of each pulse signal according to a specified characteristic. The proposed method consists in assigning to each pulse signal in the sequence a defined time interval that is known on the receiving side of the information transmission channel, accomplishing the analog-to-digital conversion of the pulse signal in the receiver, and decoding the information message by comparing the digital value of the signal amplitude with a specified threshold value within each time interval. To decode the information message by M digital samples, it is used the measured value of the amplitude of each of M pulse signals in the signal sequence corresponding to the message. Additionally in the receiver, after the analog-to-digital conversion of the signal and before decoding the information message, it is accomplished the additional gating of the digital samples at the output of the analog-to-digital converter by determining the total number of the samples in the sequential time intervals and comparing the said total number with a specified number.

3. Pat. of Ukraine 57660 A. IP8 G01P3/42. METHOD FOR MEASURING RADIAL VELOCITY OF A TARGET// Sliusar Vadym vanovych, Golovin Oleksii Oleksandrovych. Appl. 2002097728, Priority Data 27.09.2002. Official Publication Data 16.06.2003, Official Bulletin 6/2003. ( ).

The proposed method for measuring radial velocity of a target allows measurement accuracy to be increased. The method consists in measuring, by a digital meter, the repetition cycle of in-time-overlapping radar pulses reflected from the target, forming a data sample by summing the corresponding values of the pulse signal that are obtained in different periods of radar sounding pulses, performing the analog-to-digital conversion of the received pulse signal, and resolving the signal into quadrature components. The repetition cycle of the reflected radar pulses is estimated by using a modified likelihood function and exhaustive search of the plausible values with a specified step. According to the invention, variants are proposed that imply forming the quadrature components of the pulse signal by comparing the received signal with a reference signal and by the Hilbert transform.

4. Pat. of Ukraine 56922 A. IP8 G01S13/02, G01S13/06, G01S13/48, G01S13/74, G01S13/86, G01S13/87. METHOD FOR DETECTING AN AIR TARGET BY A COMB COMMUNICATION SYSTEM // Sliusar Vadym vanovych, Titov Igor Volodymyrovych. Appl. 2002119018, Priority Data 12.11.2002. Official Publication Data 15.05.2003, Official Bulletin 5/2003. ( ).

The proposed method for detecting an air target by a comb communication system consists in receiving, at each base station of the comb communication system, the signals relating to the target by an antenna array with a digitally controlled directional pattern, accomplishing analog-to-digital conversion of the signals in each channel of the antenna array, and forming the required antenna array directional pattern. The signals are received by several base stations located along the expected flight path of the target. The corresponding messages from the base stations, at which the target is detected, are transmitted to the next base stations located along the expected flight path of the target as well as to the central control terminal of the air space monitoring system. The present invention provides for increasing noise immunity and resolution capability in detecting air targets.

5. Pat. of Ukraine 56921 A. IP8 G01S13/02 G01S13/06 G01S13/48 G01S13/74 G01S13/86 G01S13/87. METHOD FOR RESOLUTION OF SIGNALS OUTSIDE THE RAYLEIGH SPECTRUM// Sliusar Vadym vanovych, Titov Igor Volodymyrovych, Saschuk Igor Mykolaiovych. Appl. 2002119017, Priority Data 12.11.2002. Official Publication Data 15.05.2003, Official Bulletin 5/2003. ( ).

The proposed method for resolution of signals outside the Rayleigh spectrum consists in selecting, for resolution of M signals for which the responses of a decision function is at the same local maximum point, 2M values H(Y1), H(Y2), , H(Y2M), of the decision function corresponding to random generalized angular directions Y1, Y2, , Y2M relative to the local maximum point, and estimating the generalized angular directions j1, j2, , j2M, from which the resolution of M signals is accomplished, by solving a set of equations, which analytically represent dependence of the responses of the decision function H(Y1), H(Y2), , H(Y2M) on the generalized angular directions Y1, Y2, , Y2M, relative to the unknown variables j1, j2, , j2M and the signal power values. For each of M signals, using the estimates of the angular coordinates jm obtained in solving the said set of equations. The proposed method provides for increasing resolution capability in detecting signals.

6. Pat. of Ukraine 55289 A. IP8 G01S13/58. METHOD FOR DIGITALLY MEASURING RADIAL VELOCITY OF A TARGET// Sliusar Vadym vanovych, Golovin Oleksii Oleksandrovych. Appl. 2002108252, Priority Data 17.10.2002. Official Publication Data 17.03.2003, Official Bulletin 3/2003. ( ).

The proposed method for digitally measuring radial velocity of a target allows the measurement accuracy to be increased due to digitally measuring the period of reflected radar pulses that are overlapped in time. The sample of measured signal values is generated by summing the reflected pulses received at different periods of sounding pulses. The received signal is exposed to analog-to-digital conversion and divided into quadrature components. For determining the period of reflected radar pulses, the modified maximum likelihood method is employed. According to the present invention, two variants of dividing the received signal into quadrature components: the variant with multiplication of the received signal by a reference signal and the variant with the use of Hilbert transform.

7. Pat. of Ukraine 52454 A. IP8 G08C17/00, H04B7/00, G01S13/00. METHOD FOR FORMING DIRECTIONAL PATTERN OF AN ACTIVE DISCRETE ANTENNA ARRAY WITH CONSIDERATION FOR MUTUAL INFLUENCE OF THE CHANNELS// Sliusar Vadym vanovych, Sliusar Ihor Ivanovych. Appl. 2002054340, Priority Data 27.05.2002. Official Publication Data 16.12.2002, Official Bulletin 12/2002. ( ).

The present invention relates to the radiolocation and can be used in radar systems with discrete antenna arrays in which digital methods for forming the directional pattern are employed. The proposed method provides for improving the directional pattern of an active discrete antenna array due to excluding mutual influence of the antenna channels. For this purpose, before digital-to-analog conversion, the signals are corrected in order to compensate distortions in each antenna channel.

8. Pat. of Ukraine 48659 A. IP8 H01J3/00, H04L5/00. METHOD OF TIME MULTIPLEXING OF NARROW-BAND COMMUNICATION CHANNELS// Sliusar Vadym vanovych, Utkn Yuri Vktorovych. Appl. 2001117511, Priority Data 05.11.2001. Official Publication Data 15.08.2002, Official Bulletin 8/2002. ( ).

The proposed method of time multiplexing of narrow-band communication channels implies that, for transmitting an information message, amplitude-phase coding of pulse signals is performed so that discrete values of the amplitude quadrature components of the signals are coded using defined combinations of information characters. The proposed method involves transmitting the modulated signals, forming the amplitude quadrature components of the signals, and measuring the amplitudes of these components. The measurement results are used for decoding the received information message. At the signal transmitter, assignment of the pulse signals of a coded multipulse information message to time slots is performed subject to the subsequent resolution of the signals in the range of frequencies which exceed the frequencies of the Rayleigh spectrum. The envelope of each pulse signal is formed according to a specified characteristic. Each pulse of the multipulse block has a fixed position in time relative to the first pulse of the block, which position should be known at the signal reception side.

9. Pat. of Ukraine 47918 A. IP8 H04J1/00, H04L5/00. METHOD FOR FREQUENCY-DIVISION MULTIPLEXING OF NARROW-BAND INFORMATION CHANNELS// Sliusar Vadym vanovych, Smoliar Viktor Hryhorovych, Stepanets Anatolii Mykhailovych, Sliusar Ihor Ivanovych. Appl. 2001117512, Priority Data 05.11.2001. Official Publication Data 15.07.2002, Official Bulletin 7/2002. ( ).

The proposed method for frequency-division multiplexing of narrow-band information channels involves accomplishing multifrequency coding of an information signal with specified fixed signal carrier spacing over the subchannels, and transmitting the multifrequency signal thus formed. In the receiver, the coded information signal is converted into the digital one. Then the digital signal is processed for forming the signal quadrature components and converted according to the fast Fourier transform algorithm. Using the fast Fourier transform algorithm results, the signal is decoded by determining quadrature amplitude components of each frequency carrier signal. For the processing according to the fast Fourier transform algorithm, the amplitudes of the information signal components are used that are determined by additionally gating the output readings of the analog-to-digital converter.

10. Pat. of Ukraine 47836 A. IP8 H04J3/00, H04L5/00. METHOD OF TIME-DIVISION MULTIPLEXING OF NARROW-BAND INFORMATION CHANNELS// Sliusar Vadym vanovych. Appl. 2001106762, Priority Data 03.10.2001. Official Publication Data 15.07.2002, Official Bulletin 7/2002. ( ).

The proposed method of time-division multiplexing of narrow-band information channels implies that the whole time interval is divided into fixed time intervals that in turn are divided into time subintervals. Each of the time subintervals is assigned for transmitting a part of a multipulse coded message. The pulse signals, formed in time slots thus assigned, are transmitted and then received by a receiver. In the receiver, the amplitudes of the pulses received are converted into digital readings by using analog-to-digital conversion. The information message is decoded by comparing pulse amplitudes in each time subinterval with a specified threshold level. In the transmitter, time spacing of the multipulse coded message is accomplished with consideration for the possibility of the subsequent resolution of the signal by the frequencies that exceed the frequencies of the spectrum according to Rayleigh distribution. The amplitude envelope of each pulse signal is formed according to a specified characteristic. Each of the multipulse signal pulses is assigned a fixed time position that is known at the receiving side. For the possibility to decode an information message using M readings of the digital amplitude signal, the amplitude of each of M pulses is measured.

11. Pat. of Ukraine 47835 A. IP8 H04J1/00, H04L5/00. METHOD OF FREQUENCY-DIVISION MULTIPLEXING OF NARROW-BAND INFORMATION CHANNELS// Sliusar Vadym vanovych, Smoliar Viktor Hryhorovych. Appl. 2001106761, Priority Data 03.10.2001. Official Publication Data 15.07.2002, Official Bulletin 7/2002. ( ).

The proposed method of frequency-division multiplexing of narrow-band information channels involves accomplishing multifrequency coding of an information signal with specified fixed signal carrier spacing over the subchannels, and transmitting the multifrequency signal thus formed. In the receiver, the coded information signal is converted into the digital one. Then the digital signal is processed for forming the signal quadrature components and converted according to the fast Fourier transform algorithm. Using the fast Fourier transform algorithm results, the signal is decoded by determining amplitude components of each frequency carrier signal. The frequency carrier spacing of the frequency-coded information message is accomplished with consideration for the possibility of the subsequent resolution of the signal by the frequencies that exceed the frequencies of the spectrum according to Rayleigh distribution, having regard to the information reliability.

12. Pat. of Ukraine 42613 A. IP8 G01S7/40. IMITATOR OF RADARS SIGNALS// Sliusar Vadym vanovych, Golovin Oleksii Oleksandrovych. Appl. 2001053271, Priority Data 15.05.2001. Official Publication Data 15.10.2001, Official Bulletin 9/2001. ( ).

This invention relates to radiolocation and computing engineering and can be used in simulators of operators of the radar. The simulator of radiolocation signals proposed has clock oscillator, radio-frequency generators, integrator, formers of reflected signals. To increase the accuracy of imitation to each of the formers, except of the first one, arithmetical-logical unit, multiplexer, the third, the fourth triggers, register and delay line are additionally included.

13. Pat. of Ukraine 25993 C2. IP8 H03D3/00. DIGITAL DETECTOR OF FREQUENCY// Sliusar Vadym vanovych. Appl. 94030867, Priority Data 08.12.1992. Official Publication Data 26.02.1999, Official Bulletin 1/1999. ( ).

14. Pat. of Ukraine 25855 C2. IP8 G01S7/292. METHOD OF PROCESSING FOR NON-COHERENT IMPULSES PACKET// Sliusar Vadym vanovych. Appl. 93101049, Priority Data 04.01.1993. Official Publication Data 26.02.1999, Official Bulletin 1/1999. ( ).

15. Pat. of Ukraine 25634 A. IP8 G01S13/10. METHOD OF MEASUREMENT OF RANGE // Sliusar Vadym vanovych. Appl. 96052198, Priority Data 05.06.1996. Official Publication Data 25.12.1998, Official Bulletin 6/1998. ( ).

16. Pat. of Ukraine 24955 C2. IP8 H03D3/00. DIGITAL FREQUENCY DETECTOR // Sliusar Vadym vanovych. Appl. 93101035, Priority Data 08.12.1992. Official Publication Data 25.12.1998, Official Bulletin 6/1998.

17. Pat. of Ukraine 22432 A. IP8 G01S13/00. METHOD OF TARGETS DETECTION // Sliusar Vadym vanovych. Appl. 96062358, Priority Data 14.06.1996. Official Publication Data 30.06.1998, Official Bulletin 3/1998. ( ).

18. Pat. of Ukraine 14531 A. IP8 G06F3/00. COMPUTER OF MULTIMEDIA// Sliusar Vadym vanovych, Sliusar Ihor Ivanovych. Appl. 94128016, Priority Data 13.12.1994. Official Publication Data 25.04.1997, Official Bulletin 2/1997. ( ).

19. 70 . Ѳ ί I ² ² ֲ˲ ˲ Ͳ Ͳ .// ͳ .., .., .., .. - 12.07.2000.

20. 33256. 7 G 01 S 13/08-13/44, G 01 S 7/02-7/46, H 02 K 15/00-15/16. в - . // .., .., .., .., .., .., ͳ .. - u200802466 26.02.2008. - 10.06.2008, . 11. ( ).

A device for analog-to-digital conversion includes analog signal inputs, a circuit of matching and amplification, input of external synchronization, an internal clock generator, a switching unit for clock signals, multichannel ADC, working memory modules, permanent memory, programmed logic integral circuit (PLIC), wherein a module for digital signal processing is presented as connected in series: a module of signal filtration, a digital correction module, a module for digital diagram making.

21. 33257. 7 G 01 S7/36, H 03 D13/00. Ѳ ֲ ²˲ʲ - . // .., .., .. - u200802467 26.02.2008. - 10.06.2008, . 11. ( ).

Method for correction of square unbalance with use of additional strobbing of counts of analog-digital transformer is in fact that one of square subchannels is assigned to be standard, and the other one as unbalanced, to each of square sub-channels one applies same control signal, with performing analog-digital transformation of control signal in each of square subchannels, one performs distribution of counts of ADT, then one switches off control signal and goes to processing of information signals.

22. 35175. (2006) G01S 13/00, G01S 13/44 (2008.1), G01S 7/00, H02K 15/00. в - Ҳ 3U. // .., .., .., .., .., .., ͳ .. - u200801514 05.02.2008. - 10.09.2008, . 17. ( ).

Device for analog-digital transformation in 3U format relates to area of radio engineering, to devices that have overall dimensions of format 3U with interface CompactPCI and CompactPCI Express, and can be used for digital processing of signals in systems of radio location, communication, etc.

23. 38235. (2006) G 01S 13/00, G 01S 7/00. ί ˲. // .., .., .., .., .., .., ͳ .. - u200810240 11.08.2008. - 25.12.2008, . 24. ( ).

Combining module for digital signal processing relates to area of radio-engineering, in particular to devices for multi-channel digital processing of signals, and can be used for digital processing of signals in systems of radio-location, communication.

24. 38252. (2006) G 01S 13/00, G 01S 7/02, H 02K 15/00. PC/104. // .., .. - u200810538 20.08.2008. - 25.12.2008, . 24. ( ).

Adapter modulus of format PC/104 relates to area of radio engineering, in particular to devices for multi-channel digital data processing, and can be used for digital processing of signals in systems of radio location, communication, etc.

25. 39243. (2006) G01S 13/00, G01S 7/00, H02K 15/00. в. // .., .., .., .., .., .., .., ͳ .. - u200813442 21.11.2008. - 10.02.2009, . 3. ( ).

Multi-channel receiving device that includes block of analog-digital transformation and signal processing. Additionally there is included block of receivers that includes N receiving modules that include antenna input, amplifier, frequency multiplier, heterodyne input, input of control signal, two square receiving channels and two analog outputs each, and power supply input, power supply module of receiver block, input of heterodyne signal, amplifier of heterodyne signal, splitter of heterodyne signal, input of control signal, amplifier of control signal, splitter of control signal.

26. 41297. (2006) G01S 7/36, H03D 13/00. Ѳ ²˲ʲ - . // .., .. - u200900296 15.01.2009. - 12.05.2009, . 9. ( ).

Method for additional strobbing of counts of analog-digital transformer that is in partial adding indications of analog-digital transformer (ADT) in fixed time intervals (strobes) that do not overlap, at that collection of signal indications within strobes is performed through weight processing. Formation of signal indications of strobes by results of collection of indications of ADT one performs with use or even and odd Hartley functions.

27. 42482. (2006) G 01 S 7/36, H 03 D 13/00. Ѳ ˲Ͳ-- Ѳ. // .., .., .., .., ͳ .. - u200900297 15.01.2009. - 10.07.2009, . 13. ( ).

Digital method for optimal reception of linear-frequency-modulated pulses (LFM) is in fact that received LFM signal with unknown initial phase and arbitrary form of envelope line is one performs its analog-digital transformation (ADT). Formed readings of ADT undergo partial adding in fixed time intervals (strobes) that do not overlap, at that collection of signal readings within boundaries of strobes is performed through weight processing.

28. 46666. (2006) G01S 7/36, H03D 13/00. Ѳ ²˲ʲ - . // .., .. - u200909210 07.09.2009. - 25.12.2009, . 24. ( ).

Method for additional strobbing counts of analog-digital transformer is in partial adding counts of analog-digital transformer (ADT) in fixed time intervals (strobes) that do not overlap, at that collection of dignal counts within strobes is performed through weight processing.

29. 46667. (2006) G01S 7/36, H03D 13/00. Ѳ ²˲ʲ - . // .., .. - u200909211 07.09.2009. - 25.12.2009, . 24. ( ).

Method for additional strobbing counts of analog-digital transformer is in partial adding counts of analog-digital transformer (ADT) in fixed time intervals (strobes) that do not overlap, at that collection of dignal counts within strobes is performed through weight processing.

30. 46668. (2006) G01S 7/36, H03D 13/00. Ѳ ί ֲ ײ OFDM ˲. // .., .. - u200909212 07.09.2009. - 25.12.2009, . 24. ( ).

Method for advancing compensation of Doppler effect at transfer of OFDM signals is in fact that in mode of entering communication by received pilot-signal one performs evaluation of Doppler frequency shift, for each of sub-carriers one calculates frequency correction that with opposite sign is used at formation of frequency counts of digital-analog transformers in session of transfer of total OFDM signal.

31. 47675. (2009) 7 G 01 S 13/08-13/44, G 01 S 7/02-7/46, H 02 K 15/00-15/16. ˲ ί ί ί ز. // .., .., .., .., .., .., ͳ .. - u200903986 22.04.2009. - 25.02.2010, . 4. ( ).

System for processing signals of receiving digital antenna grid that includes multi-channel digital receiving modules (BCPM), combining module, synchronizer, processor module, first combining (cross) plate. Output bus pf combining module is through split connector of the first combining (cross) plate connected to the data bus of processor module timing outputs of synchronizer are connected to timing inputs of the BCPM modules and combining module. Outputs of the BCPM are connected to signal inputs of combining module, output bus of combining module is through split connector of the first combining (cross) plate connected to data bus of processor module. To the system for signals from receiving digital antenna grid processing additionally the second combining (cross) plate is included. Output bus of control commands of synchronizer through the first split joints of the second combining (cross) plate is connected top respective bus of combining module. Timing outputs of synchronizer are connected to timing inputs of the BCPM and combining module through the second split joints of the second combining (cross) plate. Inputs of the BCPM are connected through the third split joints of the second combining (cross) plate to signal inputs of combining module.

32. 60938. H01Q 1/38 (2006.01).Ѳ ί Ʋ ˲. / .., .. - u201103249 21.03.2011. - 25.06.2011, . 12. ( ).

A method for manufacturing wireless network on a crystal comprises multilayer deposition of nanocircuit to backing of a crystal. Formation of multilayer topology of nanocircuit is performed under crystal surface via creation of nanocircuit pyramid-shaped construction. Two-dimensional nanoantenna arrays are arranged in a number of pyramid layers along edges thereof.

33. 63574. G01S 13/536 (2006.01). Ѳ ̲ Ҳ в Dz ̲. /ͳ .., .., .. , .., .., .., .. - u201103774 29.03.2011. - 10.10.2011, . 19. ( ).

Method for measurement of range and Doppler frequency shift in radar station (RLS) with quasi-continuous radiation is in the fact that for measurement of coordinates of targets one performs sounding of space with several packs of simple radio-pulses with different periods of signal following...

34. 66902 (2011.01) G01S 7/36 (2006.01) H03D 13/00. Ѳ ֲ ̲ Ų ˲ ί ί ز. / .., .., .. - u201107655 17.06.2011. - 25.01.2012, . 2. ( ).

Method for correction of inter-channel and quadrature non-identities of receiving channels of digital antenna array (DAA) that is in fact that for calculation of integral coefficients of correction for each r-th receiving channel of DAA one performs application of a control harmonic signal to the inputs of the antenna array, with calculation of integral coefficients for each r-th receiving channel of DAA. As voltages of received signals that are used for calculation of integral coefficients of correction for each r-th receiving channel of DAA and for direct correction of received signals one uses results of additional strobbing of readings of analog-digital transformers (ADT) through partial adding output codes of ADT in given time intervals (strobes).

35. 66357. (2011.01) G01R23/00. Ѳ ̲ Ͳ . / .., .. - u201110367 25.08.2011. - 26.12.2011, . 24. ( ).

Method for measurement of frequency of harmonic vibrations that includes operations of analog-digital transformation of signal, storage of its values in N following time instants. Operation of analog-digital transformation of signal one performs by sunchronous quadrature layout with uniform discretization. Evaluation of frequency of harmonic vibrations one calculates by set of N counts of each of quadrature components of voltages of signals.

36. 66358. G01S 7/36 (2006.01), H03D 13/00 (2006.01). Ѳ ²˲ʲ ˲. / .., ﳺ .., .. - u201110520 30.08.2011. - 26.12.2011, . 24. ( )

Method for additional strobbing digital readings of signals is in partial adding readings of analog-digital transformer (ADT) in fixed time intervals (strobes) that do not overlap. Formation of signal readings of strobes by results of collection of digital readings is preceded by preliminary digital I/Q demodulation of readings of ADT in mode of sliding window, this forms quadrature components of voltages of signal U(t), where t the number of the reading of ADT. Following additional strobing of readings of voltages of signals obtained in such way one performs through collection weight processing. Operations of preceding digital I/Q demodulation of readings of ADT in the mode of sliding window and following partial adding of digital readings of voltages of signals in fixed time intervals (strobes) one performs at once in two quadrature channels with formation of massifs of digital readings.

37. 66359. G01S 7/36 (2006.01), H03D 13/00 (2006.01). Ѳ ²˲ʲ ˲. / .., ﳺ .., .. - u201110521 30.08.2011. - 26.12.2011, . 24. ( ).

Method for additional strobbing of digital readings of signals is in partial adding readings of analog-to-digital converter (ADC) in fixed time intervals (strobes) that do not overlap. Operations of preliminary digital I/Q demodulation of readings of ADC in mode of sliding window and following partial adding of digital readings of voltages of signals in fixed time intervals (strobes) are performed at once in two quadrature channels with formation of massifs of digital readings.

38. 107094. G01S 13/00 (2016.01). Ѳ ² ֲ Ҳ '. / .., dz .. - u201510345 23.10.2015. - 2956//16 16.02.2016. - 25.05.2016, . 10. ( ).

39. 108632. H04B 7/22 (2016.01). Ѳ '. / .., .., .. - u201600700 29.01.2016. - 9240//16 10.05.2016. - 25.07.2016, . 14. ( ).

40. 110207. H04B 1/00 (2016.01). в ײ OFDM-˲ ֲ . / .., .., dz .. - u201604272 18.04.2016. - 16922//16 17.08.2016. -- 26.09.2016, . 18. ( ).

41. 115692. (2017.01) G 01 S 13/08, 13/44, G 01 S 7/02, H 02 K 15/00, 15/16. ˲ ί ί ί ز./ .., .., .., ͳ .., .., .., .. u201611076 04.11.2016. - 25.04.2017, . 8. ( ).

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47. .., . ., .. Ѳ ֲ ί Ҳ.// u201708576 21.08.2017.

        
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