RU2507682C2

RU2507682C2 - METHOD FOR END-TO-END ACTIVATION OF f1( 11)min → ±0mk INACTIVE ARGUMENTS "±0" → "+1/-1" OF ANALOGUE SIGNALS IN "MINIMISATION ZONES" OF "-/+" [mj]f(+/-) - "COMPLEMENTARY CODE" STRUCTURE ACCORDING TO ARITHMETIC AXIOM OF TERNARY NUMBER SYSTEM f(+1,0,-1) WHEN GENERATING ARGUMENTS OF ANALOGUE SIGNALS IN POSITION-SIGN CONDITIONALLY MINIMISED STRUCTURE THEREOF ±[mj]fусл(+/-)min (VERSIONS OF RUSSIAN LOGIC)

Info

Publication number: RU2507682C2
Application number: RU2012120593/08A
Authority: RU
Inventors: Лев Петрович Петренко
Original assignee: Лев Петрович Петренко
Priority date: 2012-05-21
Filing date: 2012-05-21
Publication date: 2014-02-20
Also published as: RU2012120593A

Abstract

FIELD: radio engineering, communication.

SUBSTANCE: invention can be used in monitoring and control systems in combination with arithmetic devices which perform various arithmetic procedures over arguments represented in the position-sign structure of arguments of analogue signals "Complementary code". In one version, the conversion structure is realised using logic elements AND, OR.

EFFECT: wider range of conversion.

5 cl

Description

Текст описания приведен в факсимильном виде.

The description text is given in facsimile form.

Claims

1. The way through activation f_one(eleven) min →^{± 0} m _k inactive arguments “± 0” → “+ 1 / -1” of the analog signals in the “Minimization Zones” of the “- / +” structure [m _j] f (+/-) - "Additional code"In accordance with the arithmetic axiom of the ternary number system f (+ 1,0, -1) in the formation of the arguments of analog signals in a positionally sign conditionally minimized structure^±[m _j] f_condition(+/-)_min (Variants of Russian logic), characterized in that of the positive arguments of the analog logical signals "- / +" [m _j] f (+/-) - "Additional code"Form consecutive conditionally" k "" minimization zones "with arguments (m _{j + 1})_k and (m _j)_k conditionally “j + 1” and “j” bits and perform a logical analysis of their activity both in the “k” “Minimization Zone” and the previous “Minimization Zones” by means of a functional parallel structure f_one(eleven) min through activation of inactive arguments “± 0” → “+ 1 / -1” of analog signals with the formation of the resulting argument^{± 0} m _k in the “k” “Minimization Zone”, which is activated when the arguments are simultaneously active (m _{j + 1})_k and (m _j)_k conditionally “j + 1” and “j” bits of the “Necessary Condition” in any of the previous “Minimization Zones”, as well as the active arguments or “Activation Condition 1”, including the active argument (m _{j + 1})_k "J + 1" bits and the active argument ( m _j)_k “J” of the discharge with a changed level of the analog signal both in the previous “Minimization Zones” and in the analyzed “k” “Minimization Zone”, or the arguments “Activation condition 2” are active, including the active argument (m _j)_{k + 1} "J" of the discharge of the subsequent "minimization zone", the active argument ( m _{j + 1})_k with a modified level of the analog signal "j + 1" discharge and the active argument (m _j)_k “J” of the discharge both in the previous “Minimization Zones” and in the analyzed “k” “Minimization Zone”, while the activation process f_one(eleven) min →^{± 0} m _k inactive arguments “± 0” → “+ 1 / -1” of the analog signals in the “Minimization Zones” are performed in accordance with the logical-dynamic process of the form

2. The way through activation f_one(eleven) min →^{± 0} m _k inactive arguments “± 0” → “+ 1 / -1” of the analog signals in the “Minimization Zones” of the “- / +” structure [m _j] f (+/-) - "Additional code"In accordance with the arithmetic axiom of the ternary number system f (+ 1,0, -1) in the formation of the arguments of analog signals in a positionally sign conditionally minimized structure^±[m _j] f_condition(+/-)_min, characterized in that of the positive arguments of the analog logic signals "- / +" [m _j] f (+/-) - "Additional code"Form consecutive conditionally" k "" minimization zones "with arguments (m _{j + 1})_k and (m _j)_k conditionally “j + 1” and “j” discharges and perform a logical analysis of their activity by means of a parallel-sequential functional structure f_one(eleven) min, which includes the logical function f_one(}) -OR to combine the converted arguments¹⁰ m _k and^1.01 m _k logical function f_one(&) - And "Activation conditions 1" and the logical function f₂(&) - And “Activation conditions 2” with the formation of a common argument (^{10 & 1.01} m _k), which is submitted for analysis to the system of the logical function f_four(&) - And as an argument of the previous “Minimization Zone”, they are submitted for analysis to all systems of logical functions f₅(&) - And - f_{n + 4}(&) - And all functional structures f_one(eleven) min of the following “Minimization Zones” to form the transformed arguments ↓_one(^{± 0} m _k-1) - ↓_{n + 1}(^{± 0} m _kn), which include f₂(}) -OR, and form the resulting activation argument in the corresponding "k" "minimization zone", while in the system of logical functions f_four(&) - And - f_{n + 5}(&) - And all functional structures f_one(eleven) min "Minimization zones" for the analysis give the converted argument^eleven m _k-1 The “necessary condition” for activating inactive arguments “± 0” → “+ 1 / -1” of the analog signals in the “Minimization Zones”, which is formed by the logical function f₃(&) - And when analyzing the arguments (m _{j + 1})_k and (m _j)_k conditionally “j + 1” and “j” bits in the “Minimization Zone”, and when they are active, the resulting argument is activated^{± 0} m _k, but with simultaneous activity of either argument¹⁰ m _k logical function f_one(&) - And “Activation conditions 1”, the system of which includes an active argument (m _{j + 1})_k "J + 1" bits and the active argument ( m _j)_k "J" discharge with a changed level of the analog signal, or with the simultaneous activity of the argument^1.01 m _k logical function f₂(&) - And “Activation conditions 2”, the system of which includes an active argument (m _j)_{k + 1} "J" of the discharge of the subsequent "minimization zone", the active argument ( m _{j + 1})_k with a modified level of the analog signal "j + 1" discharge and the active argument (m _j)_k "J" discharge in its "minimization zone", while activating the argument^{± 0} m _k functional structure f_one(eleven) min in the "k" "Minimization zone" is performed in accordance with the logical-dynamic process of a mathematical model of the form

Where

is a logical function f_one(&)-AND;

is a logical function f_one(})-OR;
“N” is the maximum number of “minimization zones” in the structure of positive arguments “- / +” [m _j] f (+/-) - "Additional code”Positionally located between“ k ”“ Minimization Zone ”and the first“ Minimization Zone ”, and the converted arguments ↓₂(^{± 0} m _k-1) - ↓_{n + 1}(^{± 0} m _kn) are formed by functional structures of the form

3. Functional parallel structure of end-to-end activation f_one(eleven) min →^{± 0} m _k inactive arguments “± 0” → “+ 1 / -1” of the analog signals in the “Minimization Zones” of the argument structure “- / +” [m _j] f (+/-) - "Additional code"In accordance with the arithmetic axiom of the ternary number system f (+ 1,0, -1) in the formation of analog signals in positionally sign conditionally minimized structure^±[m _j] f_condition(+/-)_min, characterized in that the logical functions f_one(&) - And, f₂(&) - And, f₃(&) - And, f_four(&) - And, f_one(}) -OR and f₂(}) -OR and logical functions f₅(&) - And - f_nk-6(&) - And, while functional relationships are made in accordance with mathematical models of the form

where are the converted arguments₂(^{± 0}m_k-1) -_{n + 1}(^{± 0}m_kn) form by means of functional structures of the form

4. Functional parallel structure f ₁ (11) min → ^{± 0} m _k inactive arguments “± 0” → “+ 1 / -1” of analog signals in the “Minimization zones” of the structure “- / +” [m _j ] f (+ / -) - “Additional code” in accordance with the arithmetic axiom of the ternary numeral system f (+ 1,0, -1) when forming the arguments of analog signals in a positionally signed conditionally minimized structure ^± [m _j ] f _conv (+/- ) _min , characterized in that the logical functions f ₁ (&) - And, f ₂ (&) - And, f ₃ (&) - And, f ₁ (&) - AND-NOT, f ₂ (& ) AND-NOT, f ₁ (}) - OR and logical functions f ₃ (&) - AND-NOT-f _{n + 2} (&) - AND NOT, while the function The connections are made in accordance with mathematical models of the form

Where

- logical function f ₁ (&) - H-HE,
and the transformed arguments ↓ ₂ ( ^{± 0} m _k-1 ) - ↓ _{n + 1} ( ^{± 0} m _kn ) are formed by functional structures of the form

5. Functional parallel structure f ₁ (11) min → ^{± 0} m _k inactive arguments “± 0” → “+ 1 / -1” of analog signals in the “Minimization Zones” of the structure “- / +” [m _j ] f (+ / -) - “Additional code” in accordance with the arithmetic axiom of the ternary numeral system f (+ 1,0, -1) when forming the arguments of analog signals in a positionally signed conditionally minimized structure ^± [m _j ] f _conv (+/- ) _min , characterized in that the logical functions f ₁ (} &) - OR-NOT, f ₂ (} &) - OR-NOT, f ₃ (} &) - OR-NOT, f ₁ (}) are introduced into the structure -OR, f ₂ (}) - OR, f ₁ (&) - AND, f ₂ (&) - AND-f _{n + 1} (&) - AND, while the functional relationships in made in accordance with mathematical models of the form

Where

- logical function f ₁ (} &) - OR NOT,
and the transformed arguments ↓ ₂ ( ^{± 0} m _k-1 ) - ↓ _{n + 1} ( ^{± 0} m _kn ) are formed by functional structures of the form