Diplome
von Grigori Grabovoi



DIPLOME


D I P L O M A

HB No. 941085

The present diploma is issued to Grabovoi Grigory Petrovich to certify that in 1980 he was admitted to the Tashkent Order of Red Banner of Labor State University named after V.I. Lenin and in 1986 completed the full course of the said university on the specialty of Mechanic By the decision of the State Examination Commission of June 30, 1986 Grabovoi G.P. is qualified as Mechanic.

Chairman of the State Examination Commission (affixed)

Rector (affixed)

Secretary (affixed)

City of Tashkent, July 1, 1986
Registration No. 21707

Official seal:
Uzbek SSR
Ministry of Higher and Specialized Secondary Education of the Uzbek SSR
Order of Red Banner of Labor State University named after V.I. Lenin




DIPLOMA УT No. 729642

The present diploma is issued to Grabovoi Grigory Petrovich to certify that in 1995 he was admitted to the medical college affiliated to the Moscow regional refresher school and in 1996 completed the full course of the said college in specialty General Medicine

By the decision of the State Examination Commission dated of July 2, 1996 Grabovoi Grigory Petrovich is qualified as Paramedic.

Chairman of the State Examination Commission (affixed)

Director (affixed)

Secretary (affixed)

Town of Ramenskoe, July 04, 1996

Registration No. 5642

Official seal:
Central Directorate of Public Health of the Moscow Oblast
Moscow Regional Refresher School



INTERNATIONAL INFORMATION
INTELLECTUAL NOVELTY
REGISTRATION CHAMBER IIINRC

МРПИИН

C E R T I F I C A T E - L I C E N S E

Registration No. 000283 Cipher 00012 Code 00015

Discovery, invention, novelty (technology, project etc.): METHOD

Grabovoi Grigory Petrovich

Annotation:
Procedure of transferring the information of any event into geometrical form described by orthodox mathematics has been developed. To change an event a special computer program transfers the initial form into the form that changes the event in a required way. The program is based on the calculations of angular coefficients between the changed and added forms, i.e. a four-fold integral is calculated by the Runge-Kutt method. Added forms, given a special pulse, perform control at any distance. The use of computer technology may be helpful in the control of information in medicine, in high technologies and others.

Brief name: COMPUTER TECHNOILOGY OF DISTANT CONTROL

Main idea:

International information-intellectual novelty registration chamber submits the intellectual property for registration to the International Register of Global Systems of Information, this property being acknowledged, as a creative activity, by the Academic Council of the IIINRC and by other structures as

METHOD

The present Certificate-License is a document that entitles the owner to use this information- intellectual novelty as a property in international markets of all countries of the world.

Chairman of the Chamber,
full member of the International
Academy of Informatization
and the New York Academy of Sciences (signature) E.S. Tyzhnenko-Davtian

Round seal:
International Registration Chamber. Moscow
Information-intellectual novelty Round seal:
THE INFORMATION-INTELLECTUAL NOVELTY
INTERNATIONAL REGISTRATION CHAMBER. MOSCOW

Date: December 19 1997



INTERNATIONAL INFORMATION
INTELLECTUAL NOVELTY
REGISTRATION CHAMBER IIINRC

МРПИИН

C E R T I F I C A T E - L I C E N S E

Registration No. 000285 Cipher 00014 Code 00015

Discovery, invention, novelty (technology, project etc.): MODEL

Grabovoi Grigory Petrovich

Annotation:
The novelty is in the principles of splitting the information based on the postulates of space and time common character in infinity and on the principles of combination of the known properties of space and time and the laws of their mutual development. A method of filing any information through the field of infinite points is diecovered. Space is regarded as an immutable structure of time. Time is considered as a function of space, and the point of reproduction of matter - as a consequence of time response to the change of space. These are contact points that are the points of filing of any information, and this makes it possible to create computer-based technological systems. The filed information provides a static design of “intelligent” machine and processes of its control. Information can also be filed in any matter with the use of an interrupted entry and regard it as information having no visible material carrier. This version of the applicable model of the filing may be used for a fundamentally new kind of computer technology that may be used for creating a required form of intelligence located in the air, vacuum or in any matter, through individual pulses of a special adapter to a computer.

Brief name: FILING OF INFORMATION IN ANY POINT OF SPACE-AND-TIME

Main idea:

International information intellectual novelty registration chamber submits the intellectual property for registration to the International Register of Global Systems of Information, this property being acknowledged, as a creative activity, by the Academic Council of the IIINRC and by other structures as MODEL

The present Certificate-License is a document that entitles the owner to use this information- intellectual novelty as a property in international markets of all countries of the world.

Chairman of the Chamber,
full member of the International
Academy of Informatization
and the New York Academy of Sciences (signature) E.S. Tyzhnenko-Davtian
Round seal:
International Registration Chamber. Moscow
Information-intellectual novelty Round seal:
THE INFORMATION-INTELLECTUAL NOVELTY
INTERNATIONAL REGISTRATION CHAMBER. MOSCOW

Date: December 19, 1997



INTERNATIONAL INFORMATION
INTELLECTUAL NOVELTY
REGISTRATION CHAMBER IIINRC

МРПИИН

C E R T I F I C A T E - L I C E N S E
Registration No. 000287 Cipher 00018 Code 00015
Discovery, invention, novelty (technology, project etc.): DISCOVERY
Grabovoi Grigory Petrovich
Annotation:
New fields of information are proposed determining the properties and places of location of any objects of information that cause self-development of non-destructive fields of creation, also determining concrete technologies of the non-destructive use of a creation field. Complete identity (on the principle of automorphism, isomorphism) of any objects of information is discovered with respect to the creating field of information (protocols of the results have been notarially attested in the UN).
The discovery of the creating field of information was realized through the representation of information objects being realized on the internal surface of the sphere of the past (known) information objects. A segment of the sphere corresponding to future information that determines the components of objects being created, is found as the area of the external surface of the sphere of known information objects, this surface being determined from the projections of the fields of objects being realized to the external surface of the sphere of known objects and arises from the interaction of the information fields that are criterionally identical with respect to the creating field, through the internal fields of spheres that are dynamic with respect to the objects of realization. The discovery makes it possible to realize any directions of creative development based on the principle of self-comprehension with the use of the method of orthodox mathematics.

Brief name: REPRODUCING SELF-DEVELOPING SYSTEMS REPRESENTING EXTERNAL AND INTERNAL FIELDS OF THE DIVERSITY OF CREATING SPHERES

Main idea:

International information intellectual novelty registration chamber submits the intellectual property for registration to the International Register of Global Systems of Information, this property being acknowledged, as a creative activity, by the Academic Council of the IIINRC and by other structures as DISCOVERY

The present Certificate-License is a document that entitles the owner to use this information- intellectual novelty as a property in international markets of all countries of the world.

Chairman of the Chamber,
full member of the International
Academy of Informatization
and the New York Academy of Sciences (signature) E.S. Tyzhnenko-Davtian
Round seal:
International Registration Chamber. Moscow
Information-intellectual novelty Round seal:
THE INFORMATION-INTELLECTUAL NOVELTY
INTERNATIONAL REGISTRATION CHAMBER. MOSCOW
Date: December 19 1997



INTERNATIONAL INFORMATION
INTELLECTUAL NOVELTY
REGISTRATION CHAMBER IIINRC

МРПИИН

C E R T I F I C A T E - L I C E N S E

Registration No. 000286 Cipher 00020 Code 00015

Discovery, invention, novelty (technology, project etc.): PRINCIPLE

Grabovoi Grigory Petrovich
Annotation:
A property of matter is discovered that makes it possible to receive practically immediately a necessary form on the basis of a single program incorporated to some interval of time (proof certified by a protocol is available). Computer technologies make it possible to ensure control of matter, recovery of organism tissues and its safety, control over machines, creation of matter by the principle of transferring the time to any matter - a principle of non-destructiveness of the time structure under changes in space; source of energy from the time of past events is unlimited, i.e. any event of the past can be split up by an infinite quantity of methods including also the method of a feedback - control of the time of future events. Actually, when using an applied apparatus on a conceptual basis, the time of past events can be used. Consequently, in the author’s opinion, any matter may be recovered from the set of “random” events in any time interval, and this means the illogicality of any destruction.

Brief name: TIME IS A FORM OF SPACE

Main idea:

International information intellectual novelty registration chamber submits the intellectual property for registration to the International Register of Global Systems of Information, this property being acknowledged, as a creative activity, by the Academic Council of the IIINRC and by other structures as PRINCIPLE

The present Certificate-License is a document that entitles the owner to use this information- intellectual novelty as a property in international markets of all countries of the world.

Chairman of the Chamber,
full member of the International
Academy of Informatization
and the New York Academy of Sciences (signature) E.S. Tyzhnenko-Davtian

Round seal:
International Registration Chamber. Moscow
Information-intellectual novelty Round seal:
THE INFORMATION-INTELLECTUAL NOVELTY
INTERNATIONAL REGISTRATION CHAMBER. MOSCOW

Date: December 19 1997



INTERNATIONAL INFORMATION
INTELLECTUAL NOVELTY
REGISTRATION CHAMBER IIINRC

МРПИИН

C E R T I F I C A T E - L I C E N S E

Registration No. 000284 Cipher 00020 Code 00015

Discovery, invention, novelty (technology, project etc.): PRINCIPLE

Grabovoi Grigory Petrovich

Annotation:
Transfer of the atlas of human morphology into a geometrical form makes it possible to diagnose an object in real time on the basis of video, photography, handwriting, initials etc. In this case it is possible to know the entire histology without tissue slicing, puncturing etc. The method allows to determine on a principal basis dangerous conditions of an organism, to remotely control vital activity and possibilities of its recovery in certain cases. Any other object can also be transferred into a geometrical form by means of digital processing of the knowledge of conditions of pipelines, oil lines, oil wells, natural and technogenetic catastrophes. Faults and deviations from specifications of machine operation in the past, at present and in future can also be diagnosed.

Brief name: TIME IS A FORM OF SPACE

Main idea:
International information intellectual novelty registration chamber submits the intellectual property for registration to the International Register of Global Systems of Information, this property being acknowledged, as a creative activity, by the Academic Council of the IIINRC and by other structures as PRINCIPLE

The present Certificate-License is a document that entitles the owner to use this information- intellectual novelty as a property in international markets of all countries of the world.

Chairman of the Chamber,
full member of the International
Academy of Informatization
and the New York Academy of Sciences (signature) E.S. Tyzhnenko-Davtian
Round seal:
International Registration Chamber. Moscow
Information-intellectual novelty Round seal:
THE INFORMATION-INTELLECTUAL NOVELTY
INTERNATIONAL REGISTRATION CHAMBER. MOSCOW

Date: December 19 1997







СЕРТИФИКАТ ДОСТОИНСТВА
SERTIFICATE OF ACHIEVEMENT
Настоящим подтверждаем, что экспертно-аттестационный совет фестиваля «В будущее через прошлое» постановил:

Examination council of the festival «Future through past»

присудить
awarded to Грабовому Григорию Петровичу
звание
ЛУЧШИЙ ЦЕЛИТЕЛЬ
title
BEST HEALER
по направлению
in Биоэнергоинформатика и прогнозирование 1997 г.

экспертно-аттестационный совет фестиваля
Examination council of the festival

Подпись печать печать подпись
Председатель совета д.мед.н., проф. Я.Гальперин
Chairman, doctor, professor J. Galperin signature
24.01.98 г.




RUSSIAN

ACADEMY OF NATURAL SCIENCES

on the basis of the Academy Statute

ELECTED

Grabovoi

Grigory Petrovich

A FULL MEMBER OF THE ACADEMY

in the section of

“Noospheric knowledge and technologies”

on the 9th of March 1998

President (signature) O. Kuznetsov

Chief Academic Secretary (signature) V. Tyminsky

NZT No. 458

Round seal:

Public Organization

Russian Academy of natural Sciences



INTERNATIONAL INFORMATIZATION ACADEMY





Международная Академия
информатизации
УДОСТОВЕРЕНИЕ № 11061
Академик

ГРАБОВОЙ

ГРИГОРИЙ ПЕТРОВИЧ
печать Международная Академия

Информатизации
Фотография
Печать
Президент
«10» 06 1998
подпись Личная
подпись
подпись
фотография
печать


INTERNATIONAL INFORMATIZATION ACADEMY

In General Consultative Status with

The Economic and Social Council of the United Nations

фотография 10.06.1998 № 10-11061

печать ACADEMICIAN

Grigori P.
Grabovoi
President
подпись


ITALIEN ACADEMY OF ECONOMY AND SOCIAL DEVELOPMENT



NEW YORK ACADEMY OF SCIENCES



RUSSIAN ACADEMY OF NATURAL SCIENCES

D I P L O M A

Presidium of the Russian Academy of Sciences
on the basis of Decision No. 108 dated June 11, 1998
decorates
Grabovoi
Grigory Petrovich
with the silver medal of the Academy
“For development of Medicine and Public Health”

the medal should be worn on the left-hand side of the chest

(signature) President of the Academy

(signature) Chief Academic Secretary

Reg. No. 46. Date: 15th of September 1998.

Round seal:
Public Organization
Russian Academy of Natural Sciences

Diploma of the silver medal winner of the Nobel prize-winner Academician I.P. Pavlov



ACADEMY OF ASTRONAUTICS

Round seal:

K.E.Tsiolkovsky
Academy of astronautics. Moscow
(affixed)

______________ bearer’s signature “ ” September 1998
K.E. Tsiolkovsky Academy of Astronautics
Certificate No. 1095
Grabovoi
Grigory Petrovic
is an honored member
of the Academy of Astronautics

President (signature)
of the Academy of Astronautics

Round seal:
K.E.Tsiolkovsky
Academy of Astronautics. Moscow


INTERNATIONAL ACADEMY OF SCIENCES OF NATURE AND SOCIETY

D I P L O M A

Presidium of the International Academy of Sciences of Nature and Society

based on Decision No. 19

decorates

Grabovoi
Grigory Petrovich

with a memorial medal of the Academy
“For services in the cause of the revival of Russia’s science and economy”

PETER-I
Registration No. 68-04
The medal should be worn on the left-hand side of the chest

President of the Academy
(signature)

V.P. Rassokhin Round seal:
International Academy of Sciences of Nature and Society
IASNS Chief Academic Secretary of the Academy

(signature)
V.G. Tyminsky


D I P L O M A

PRESIDIUM

of the International Academy of Authors of
Scientific Discoveries and Inventions

on the basis of Decision No. 10
dated “9” 06. 1998

D E C O R A T E S
Grabovoi Grigory Petrovich

with the silver medal of the Academy
“For services in inventiveness”

(Imprint of the medal)

The medal should be worn on the left-hand side of the chest

Reg. No. 012 Date 20.10.1998

PRESIDENT OF THE ACADEMY
(signature) CHIEF ACADEMIC SECRETARY OF THE ACADEMY
(signature)
Round seal:
International Union of Public Associations
International Academy of Authors of Scientific Discoveries and Inventions



THE FEDERATION OF AUTONOMOUS PRIORIES OF THE

SOVEREIGN ORDER OF SAINT YOHN OF IERUSALEM
KNIGHTS OF MALTA

PRO GRATIA NOSTRA ET OMNIUM BONA VOLUNTATE

NOS PRIOR MAGNUS

DECERNIMUS

ut omnibus presentibus et absentibus
hos notum sit:

Grigori P. Grabovoi

professione fidei, fidelitate
consuetudinibus Cavalleriae, eximia
probitate et virtute sua, ex odierno die
a nobis creatus et factus est Armiger

Nostri Sovrani Ordinis

ut digne prosequatur opera defensorum fidei et civilitatis
atque Cavalleriam sustineat.
Nostro firmo proposito et praecipua voluntate сoncedimus ei ut adscribatur pleno jure Ordini Nostro Sovrano ut semper et ubique fideliter observet nostra inviolabilia principia atque praecepta.
Secura conscientia animoque sereno, pro certo scientes nos consilium optimum cepisse, decernimus ut Nostro Ordini Sovrano ille admittatur.
Ut omnes et singuli fideles subiecti nostri hoc firmum et bene consideratum consilium nostrum clarissime cognoscant, sigillum ponimus et Nostra manu obsignamus.

Dominus Noster

eum adiuvet ut semper munere armigeri et defensoris virtutis dignum se habeat, infants atque sense semper defengat, ad omnia paratus usque ad contemptum ac sacrificium vitae suae dum excelsa munera atque iussa Cavalleriae pulchre et penitus exequatur.

datus in 25-10-1998
voluntate nostra Prior Magnus
Ac tobularii sigillo печати подпись


D I P L O M A

OF DOCTOR

of the Russian Academy of
Natural Sciences (RANS)

Д-PAEH No. 0071

President of the
Academy (signature)
O.L. Kuznetsov

Chief Academic
Secretary of
the Academy (signature)
V.G. Tyminsky

Moscow

Official seal of the Academy of
Natural Sciences
BY THE DECISION
Of the Dissertation Council
of the Novosibirsk scientific
Center “Noospheric knowledge and technologies”
of the RANS
Minutes No. 24 dated October 29, 1998
Grabovoi
Grigory Petrovich
is conferred with the academic degree of DOCTOR
of the Russian Federation of Natural Sciences

in specialty “Noospheric knowledge and technologies”

Chairman of the Dissertation
Council (signature) O.N. Lebedev

Chief Academic Secretary
of the Council (signature) A.S. Ovsiannikov




Professional Psychotherapeutic League

PPL

C E R T I F I C A T E No. 1314

Grabovoi
Grigory Petrovich

PPL President (signature)

Executive Director (signature)

Round seal:

International Public Organization.
Professional Psychotherapeutic League

123836, Russia, Moscow @ Barricadnaya St., Russian Medical Academy of post-graduate education.
Chair of psychotherapy including the course of sexopathology
Tel. 2754567, Fax 2419026 E-mail: vikgal@alia.ru, nsv@rtdmoxdel.ru


International Academy of Sciences of Nature and Society

PRESIDIUM of the
International Academy of Sciences of Nature and Society
on the basis of Decision No. 51
D E C O R A T E S

Grabovoi
Grigory Petrovich

with the memorial medal of the Academy
“For Development of Culture and Arts”

(signature)
President
(signature)
Secretary academician

Reg. No. 79, date: 02.12.1998



IIA

МАИ

DIPLOMA
of the International Competition Laureate
ELITE OF INFORMATIONOLOGISTS OF THE WORLD

ДИПЛОМ
Лауреата Международного конкурса
ЭЛИТА ИНФОРМАЦИОЛОГОВ МИРА

INTERNATIONAL INFORMATIZATION ACADEMY
Decision of Presidium № 55
December 25, 1998

GRIGORI P.

GRABOVOI
IS HONOURED WITH THE TITLE

THE INTERNATIONAL COMPETITION LAUREATE
«ELITE OF INFORMATIONOLOGISTS
OF THE WORLD»
печать
подпись подпись
I. Yuzvishin A. Khariton
President of the Academy Chancellor


МЕЖДУНАРОДНАЯ АКАДЕМИЯ ИНФОРМАТИЗАЦИИ
Постановление Президиума № 55
от25 декабря 1998

ГРАБОВОЙ
ГРИГОРИЙ ПЕТРОВИЧ

УДОСТОЕН ЗВАНИЯ

ЛАУРЕАТА МЕЖДУНАРОДНОГО КОНКУРС
«ЭЛИТА ИНФОРМАЦИОЛОГОВ
МИРА»
печать
подпись подпись
I. Yuzvishin A. Khariton
President of the Academy Chancellor


P A T E N T

of nobility

Russian society of
nobility and gentry New elite of Russia

C O U N T

Grabovoi
Grigory
Petrovich

December 28, 1998 No. 2074

Moscow


WORLD DISRTRIBUTED UNIVERSITY
(ВСЕМИРНЫЙ УНИВЕРСИТЕТ)
МЕЖДУНАРОДНЫЙ ЦЕНТР ИНФОРМАТИЗАЦИИ
CII B.P. 313 Uccle 3 1180 Bruxelles

НАСТОЯЩИМ ДОВОДИТСЯ ДО ВСЕОБЩЕГО СВЕДЕНИЯ, ЧТО

ГРИГОРИЮ П. ГРАБОВОМУ,

ЗАВЕРШИВШЕМУ КУРС ОБУЧЕНИЯ И ВЫПОЛНИВШЕМУ ВСЕ ТРЕБОВАНИЯ ВСЕМИРНОГО УНИВЕРСИТЕТА ДЛЯ ПОЛУЧЕНИЯ СТЕПЕНИ

ВЕЛИКИЙ ДОКТОР ФИЛОСОФИИ

ПРИСВАЕВАЕТСЯ НАСТОЯЩЕЕ ЗВАНИЕ С ПРЕДОСТАВЛЕНИЕМ ВСЕХ СООТВЕТСТВУЮЩИХ ПРАВ, ПРИВИЛЕГИЙ, ПОЧЕСТЕЙ И ОТЛИЧИЙ

16 апреля 1999 года

(Подпись,)

Президент

(Подпись,)

Ректор

Круглая печать:

Всемирный Университет (WDU)



WORLD DISRTRIBUTED UNIVERSITY
(ВСЕМИРНЫЙ УНИВЕРСИТЕТ)

МЕЖДУНАРОДНЫЙ ЦЕНТР ИНФОРМАТИЗАЦИИ
CII B.P. 313 Uccle 3 1180 Bruxelles

СЕРТИФИКАТ О ПРОФЕССИОНАЛЬНОЙ ПОДГОТОВКЕ

ВЫДАН

ГРИГОРИЮ П. ГРАБОВОМУ,

В ПОДТВЕРЖДЕНИЕ ЕГО ПРОФЕССИОНАЛЬНОГО ЗВАНИЯ

ПОЛНОПРАВНЫЙ ПРОФЕССОР,

присвоенное профессорско-преподавательским составом факультета
за обладание учёными степенями и званиями

с предоставлением всех соответствующих прав,
привилегий и обязанностей, в особенности, читать лекции,
организовывать семинары и коллоквиумы и обучать по переписке,
с помощью аудиовизуальных систем и других методов телекоммуникации

16 апреля 1999 года

(Подпись,)
Старший помощник

(Подпись,)
Ректор

(Подпись,)
Члены административного совета
Круглая печать:
Всемирный Университет (WDU)



R U S S I A N F E D E R A T I O N

THE SUPREME EXAMINATION AND EXPERT COMMITTEE

DIPLOMA OF

PROFESSOR

PR No. 0057

Moscow

R U S S I A N F E D E R A T I O N

By the decision of the Supreme Examination and Expert Committee No. 62 of April 20, 1999

Grabovoi Grigory Petrovich

is conferred with the academic rank of

PROFESSOR

in specialty 05.02.21

“Safety of objects of extreme complexity”

Chairman of the Supreme Examination and Expert Committee (signature)

Chief Academic Secretary of the Supreme Examination

and Expert Committee (signature)

Official seal:

Russian Federation. Moscow

Supreme Examination and Expert Committee



R U S S I A N F E D E R A T I O N

THE SUPREME EXAMINATION AND EXPERT COMMITTEE

DIPLOMA OF

DOCTOR OF SCIENCES

DT No. 0129

Moscow

R U S S I A N F E D E R A T I O N

By the decision of the Supreme Examination and Expert Committee No. 62 of April 20, 1999

Grabovoi Grigory Petrovich

is conferred with the academic degree of

DOCTOR OF ENGINEERING SCIENCES

Chairman of the Supreme Examination and Expert Committee (signature)

Chief Academic Secretary of the Supreme Examination

and Expert Committee (signature)

Official seal:
Russian Federation. Moscow
Supreme Examination and Expert Committee


Российская Федерация
АКАДЕМИЯ
медико-технических наук
организована 10 марта 1992 г.
Григорий Петрович
Грабовой
избран
действительным членом (академиком)

«12» мая 1999 г.

печать
Президент АМТН Ученый секретарь
Академик № 009305934 академик

подпись г. Москва подпись
RUSSIAN FEDERATION

ACADEMY

OF MTDICAL TEHNICALE SCIENCESv
founded in March 10, 1992

Grigory
Grabovoi

being elected active member
of academy

May 12, 1999 г.

Печать
President of Academy Chief Scientific Secretary

№ 009305934 of Academy

подпись Moscow подпись



INTERNATIONAL INTERACADEMIC UNION (IIU)
FOR SUPPORTING THE SCIENCES AND PROMOTING TRAINING OF SCIENTIFIC PERSONNEL

“Star of Vernadsky”

Established by the Presidium of the IIU on March 5 1999.
“Z.V.” No. II-014
By the decision of the IIU Presidium

No. 03-99 of May 25 1999

Grabovoi
Grigory
Petrovich

is decorated with the highest award of the IIU:

the 2nd degree “Star of Vernadsky”

Round seal:

International Interacademic Union

(signature)



R U S S I A N F E D E R A T I O N

SUPREME

interacademic

EXAMINATION BOARD

D I P L O M A

OF DOCTOR OF SCIENCES

DFM No. 0052
Moscow

R U S S I A N F E D E R A T I O N

By the decision of the Supreme Interacademic Examination Board
No. 0199-1D dated June 4, 1999
Grabovoi
Grigory Petrovich

is conferred an academic degree of
DOCTOR
of Physico-Mathematical Sciences
____________________________________________________________________ Chairman of the Supreme Interacademic Examination Board (signature)

Chief Academic Secretary of the Supreme Interacademic
Examination Board (signature)

Official seal:
International Interacademic Union
Supreme Examination and Expert Committee
Supreme Interacademic Examination Board


Emblem of the Academy

IAISB

city of Moscow

No. 023

_______ By the decision of the Presidium of the International Academy for

Integration of Science and Business (IAISB)
Dated “11” 06, 1999 (Minutes No. 19)

GRABOVOI GRIGORY PETROVICN

is conferred with the academic degree of
Doctor of Information Science and Management of the IAISB
President of the Academy (signature) Chief Academic Secretary (signature)

Round seal of the IAISB


Russian Agency for
Patents and Trademarks (19) RU (11) 2148845 (13) C1

(51) 7 G 01 V 9/00, 8/20

(12) DESCRIPTION OF INVENTION
to the patent of the Russian Federation
__________________________________________________________________________________ 1

(21) 99120836/28 (22) 07.10.1999v (24) 07.10.1999
(46) 10.05.2000 Bull. No. 13
(72) Grabovoi G.P.
(71) (73) Grabovoi Grigory Petrovich
(56) RU 2107933 C1, 27.03.1998. RU
2050014 C1, 10.12.1995. RU 2098850 C1,
10.12.1997
SU 1104459 A, 23.07.1984
(98) 115230, Moscow Kashirskoe highway 5-
1-66 to: Kopaev V.G.
(54) METHOD OF PREVENTION OF CATASTROPHES AND DEVICE FOR ITS REALIZATION
(57) The use for preventing natural or technogenetic catastrophes. Essence: luminous radiation signals from an element corresponding to the zone of a supposed catastrophe are processed with the aid of an optic system containing sensitive elements manufactured of a crystal, i.e. of rock crystal 2

made in the form of identical cubes arranged along the direction of radiation and placed inside a glass sphere. The last cube with the aid of an optical fiber is connected to a transducer which is connected through an amplifier to a processor system. In the optic system normalized radiation is formed. It is preferable to carry out scanning of various areas of the element made, for example, in the form of the map of a locality, in this case, a zone with increased characteristics of normalized radiation corresponds to the area of catastrophe generation. Thus for catastrophes of natural origin the area of catastrophe generation is featured with characteristics that exceed by 20-28% characteristics of other areas of the element, whereas for technogenetic catastrophes the corresponding increase amounts to 10-12%. Engineering result: increase in effectiveness with the simultaneous expansion of the application field of the claimed method and device. 2 p. and 6 z.p. of the claims, 3 ill. 3 4

Radiation

Fig. 1
5

The invention may be used for prevention of various catastrophic phenomena both of natural origin, i.e. catastrophic earthquakes, and technogenetic catastrophic phenomena, in particular, at industrial objects.
A technique most similar in its engineering essence to the claimed method is the one for preventing a catastrophe of natural origin - an earthquake, by means of registering and processing signals defining a situation in the area of a supposed catastrophe (see inventor’s certificate of USSR No. 1030496, cl. E 02 D 27/34, 1983). In compliance with a known technique vibro-signals in the form of lithosphere fluctuations coming from an earthquake epicenter are processed with the aid of the net of seismic detectors, thus obtaining electric signals. In the center of data collection, registration and processing the obtained electric signals are converted into command signals that are delivered to emitters made in the form of vibration sources. Generated signals or normalizing signals are delivered to the area of the seismic focus in the form of elastic wave vibrations. Dampening of seismic vibrations is realized during the interaction between high-frequency elastic vibrations ensuing from the vibration sources and low-frequency wave vibrations from the earthquake epicenter. A drawback of the known technique consists in its low effectiveness since a counteraction against a catastrophic earthquake is realized only at achieving a sufficient rate of its development, and because of this it is first necessary to obtain a number of forecasting signals in the center of data collection, registration and processing. In addition, the known method is limited in its functional capabilities since it may only be used for preventing earthquakes and is unfit for preventing other catastrophic phenomena, for example, those of technogenetic character.
A device most similar in its engineering essence to the claimed device is the one for preventing a catastrophe of natural origin - an earthquake, that contains a converter of 6
signals defining a situation in the area of a supposed catastrophe, a signal registration system and emitter generating the signals assisting in normalizing the situation in the area of the supposed catastrophe (see inventor’s certificate of USSR No. 838014, cl. E 02 D 31/08, 1981). In the known device the signal converter is represented by a vibro-transducer that converts mechanical vibrations occurring during an earthquake into electric signals whose magnitude is proportional to the amplitude of the mechanical vibrations. The system of signal processing consists of a preliminary amplifier, units of frequency generation, unit of automatic phase tracking wherein a usable signal is 180-deg out of phase, and power amplifier. The emitter is made in the form of a vibration compressor that generates vibrations that are in antiphase with vibrations occurring at an earthquake and that assist in normalizing the situation in the area of earthquake occurrence.
A drawback of this device consists in its limited functional capabilities since it is only applicable at the occurrence of a catastrophic earthquake. In addition, operation of the known device involves high costs due to unusually high power expenses that are predetermined by the necessity of generating powerful mechanical vibrations within a sufficiently long period of time. The task of this invention is to raise the effectiveness of the catastrophe prevention method with the simultaneous expansion of the functional capabilities of the claimed method and device used for realizing it, and to reduce the expenses for the method realization.
The solution of the said tasks is ensured by a new method of catastrophe prevention by means of the prompt forecast of an incipient catastrophe and by generating signals normalizing the situation in the area of the supposed catastrophe, this method being realized with the aid of a new device.
In compliance with the device the method of catastrophe prevention is realized by means of registration and processing of signals defining the situation in the area of the supposed 7
catastrophe, in this case, the signals of luminous radiation from an element corresponding to the area of the supposed catastrophe are processed with the aid of an optic system consisting of sensitive elements made of oriented crystals sequentially arranged towards the radiation being perceived, and normalized radiation is created in it for normalizing the situation in the area of the supposed catastrophe; in this case, the following is preferable: carry out continuos scanning of various areas of the element corresponding to the zone of the supposed catastrophe, thus determining the area of catastrophe generation by the increased characteristics of radiation outgoing from the optic system in comparison with radiation characteristics of other areas; the area of catastrophe generation should be determined by a 20-28% increase in the characteristics of radiation corresponding to this area as compared to the radiation characteristics of the two areas; the area of technogenetic catastrophe origin should be determined by a 10-12% increase in the characteristics of radiation corresponding to this area in comparison with the radiation characteristics of other areas.
In compliance with the invention the device for catastrophe prevention contains a converter of signals defining the situation in the zone of the supposed catastrophe, a system of signal registration and an emitter generating the signals promoting the normalization in this zone, in this case the signal converter consists of an element corresponding to the zone of the supposed catastrophe and an optic system containing sensitive elements made of oriented crystals sequentially arranged towards the luminous radiation perceived, these crystals are made in the form of identical cubes that are shifted relative to each other and have different orientations of optical axes, and corresponding planes of the cubes are arranged in parallel, a glass sphere accommodating the cubes that form with it a
8 continuous transparent structure, and transducer of normalized radiation connected by means of an optical fiber to a cube which is the last one in direction of radiation propagation, in this case the transducer is connected to a processor system fitted with a software package for processing the transducer signals; in this case the following is preferable: the signal converter should be made in the form of a combination of the optic system and the locality map where the occurrence of a catastrophic earthquake is supposed; the signal converter should be made in the form of a combination of the optic system and telemetering system with a monitor used for representing an element corresponding to the zone of the supposed technogenetic catastrophe; the processor system software package should be supplied with all possible parameters of the zones of supposed catastrophes.
Central to this invention is the theory of wave synthesis combined with the general reality formula developed by the applicant (see Doctoral Dissertation in Physicomathematical sciences, G.P. Grabovoi “Research and Analysis of Fundamental Definitions of Optic Systems for Forecasting Earthquakes and Catastrophes of Industrial Objects”. M, Publishing House of RANS, 1999 pp. 9-19). In compliance with the wave synthesis theory reality may be regarded as a periodical intersection of stationary fields with dynamic ones, in this case a synthesis of a dynamic wave with a stationary one arises in intersection zones. In crystals a similar process makes it possible, using an inverse task, to obtain dynamic components of the wave synthesis from the stationary crystal-shaped medium, i.e. to obtain the phase of time. With a certain arrangement of crystals in space normalization of the medium occurs, this medium being a source of a certain element of light. Thus a possibility arises to normalize the medium whose information is contained in the element of light. In addition it is possible to determine the time of the deviation from the standard as the resources of the optic system has been

9
exhausted, for example, to determine the time of an earthquake or catastrophe. Normalization of the situation in the zone of a supposed catastrophe is promoted by the use of emitter which is presented in the form of a microprocessor; normalization of the situation in the zone of a supposed catastrophe is carried out by means of an optic system consisting of oriented crystals sequentially arranged towards the direction of the luminous radiation perceived where the information of the emitting medium is coming. The emitting medium may be represented either by the locality map or the telemetering system with a monitor. As the light from the emitting medium is coming onto the sensitive elements of the optic system, the initial action of the emitting medium normalization by the first crystal occurs at the moment when the light element ensuing from the third crystal passes through the fourth crystal, and the next action of the normalization is realized as the light element passes through all of the crystals. The light is selected in the form of information carrier due to the fact that this will make it possible to visualize and register the laws of connections established by the general reality formula. Laser radiation may be used to intensify the process. The transducer of normalized radiation may be used in the capacity of a source of obtaining output data that might be made, say, in the form of a temperature-sensitive element connected with the last sensitive element. Registration of signals coming from the transducer will be realized with the aid of the processor system to which the transducer and emitter are connected. The use of the software package in the processor system that contains all possible parameters of the zones of supposed catastrophes allows to raise the efficiency of the claimed device. In a general way the claimed method and device make it possible to convert for the decrease or - for prevention, the information (in the form of luminous pulses) on catastrophes of both natural and technogenetic origin, in this case 10
the forecast and preventive actions of various catastrophic phenomena can be carried out from any point of space. The enclosed drawings depict the following: Fig. 1 - arrangement of sensitive elements in the optic system (view in projection to plane OX, OZ where OX - horizontal direction, OZ - vertical direction), Fig. 2 - arrangement of sensitive elements in the optic system (view in projection to plane OX, OY), Fig. 3 - general view of the device used for realizing the method for catastrophe prevention.
The device contains: sensitive elements 1, 2, 3, 4, 5, 6 and 7 made in the form of cubes equal in size placed in glass sphere 8 and forming with it a monolithic transparent system, optic fiber 9 connecting the last sensitive element with normalized radiation transducer 10, laser 11, element 12 corresponding to the zone of the supposed catastrophe made for instance in the form of the locality map, amplifier 13 of signals coming from the transducer, the amplifier being installed at the input of processor system 14 provided with the software program for processing the signals coming from the transducer and connected to display 15 and to emitter 16 of signals promoting the normalization of the situation in the zone of the supposed catastrophe, and object 17 generating biological signals.
The number of sensitive elements in the optic system may be selected as equal to 7, 14 and so on. Sensitive elements 1 - 7 are made of crystals, i.e. of rock crystal or diamonds and are manufactured in the form of cubes equal in size with each other, for example, with the face length of 20 mm. When the cubes are fixed by the material of glass sphere 8, side faces of all the cubes are arranged in parallel. The arrangement of cubes 1 - 7 and orientation of their optic axes are selected so that it involves preventive measures of catastrophic phenomena, for example, earthquakes with the implementation of harmonization. The cubes are shifted in two mutually perpendicular planes as shown in Fig. 1 and Fig. 2. Output parameters of the optic system are registered with the use of 11
normalized radiation transducer 10 arranged at the side of sphere 8 that is inverse with regard a sphere facing locality map 12. It is preferable that transducer 10 is made in the form of a low-inertial film element that serves, for example, as a temperature-sensitive element. Use of laser 11 makes it possible to raise measurement accuracy of signals coming from transducer 10. Applying an object that generates biological signals additionally promotes the normalization of the situation in the zone of the supposed catastrophe. The device operation is considered, when describing the claimed method of preventing catastrophes.
In compliance with the claimed method luminous radiation coming from element 12 corresponding to the zone of the supposed catastrophe, this element made, for example, in the form of full-scale locality map, is directed to the optic system consisting of glass sphere 8 accommodating sensitive elements 1 - 7 made of oriented crystals sequentially arranged towards the luminous radiation being sensed. When converting the luminous radiation in an optic system like this (see Fig. 3), emission of maximally normalized form of light volume occurs. Normalization is realized as the light element passes through sensitive elements 1 - 7 whose relative location causes the harmonization of this light volume, and this, in its turn, normalizes the situation in the zone of the supposed catastrophe. In this case the degree of reduction of a catastrophic phenomenon is in conformity with the value of light volume normalization. Signals from transducer of normalized radiation 10 after having passed amplifier 13 are transferred to processor system 14 containing the software package for processing the incoming signals. After processing the signals on display 5 the image of signal characteristics is obtained. When forecasting a catastrophic phenomenon, emitter 16 is activated, and additional signals are sent to the zone of the supposed catastrophe, these signals promoting the normalization of the situation in this zone. It is preferable to carry out continuous scanning of 12 various areas of element 12 that corresponds to the zone of the supposed catastrophe by means of consecutive absorption of radiation coming from element 12 at all sensitive elements 1 - 7. The area of catastrophe origin in this case is determined on the basis of the increase of radiation characteristics of this area in comparison with the radiation characteristics of other areas. When a natural catastrophe is generated, for example an earthquake, the area of catastrophe origin features radiation characteristics exceeding by 20-28% the characteristics of other areas of element 12. If radiation characteristics increase less than by 20%, no catastrophic phenomenon will occur, and in case of the increase in radiation characteristics by more than 28% conclusion may be made of the development of a catastrophic phenomenon of extraordinary nature; in the generation of a technogenetic catastrophe, e.g. related to the violation of the nuclear reactor technological cycle, the area of catastrophe origin is determined from the increase of radiation characteristics by 10-12%. If radiation characteristics increase less than by 10%, no catastrophic phenomenon will occur, and if they increase by more than 12%, extreme development of events may be expected.
Let us give examples of realizing the claimed method with the use of a prototype of the claimed device containing an optic system consisting of a glass sphere wherein seven sensitive elements are sequentially arranged, that are manufactured of rock crystal and made in the form of cubes equal in size and with faces of 20 mm long. A transducer of normalized radiation made in the form of thin-film temperature-sensitive element is connected through an optic fiber to the cube that is the last one in the direction of luminous radiation propagation. Through an amplifier the transducer is connected to the input of the processor system that is made to ensure the possibility of accelerated calculation of a four-fold integrator. Example 1. Generation of a catastrophic earthquake was studied in the region of Kamchatka. Glass sphere 8 with sensitive
13
elements 1 - 7 was placed at the distance of 250 mm from the full-scale map of Kamchatka, in this case the transducer of normalized radiation 10 was arranged on the surface of sphere 8 opposite to the surface that faced the map. Signals coming from transducer 10 passed through amplifier 13 and got onto processor system 14 where they were continuously processed, registered and brought to display 15. The measurements were carried out in the period that started at 9 h 03 min on June 26, 1999. An earthquake with the magnitude of 5.1 was forecast in the region of Kamchatka that took place at 9 h 03 min on July 3, 1999, and magnitude underestimation as a result of the use of the claimed device amounted to 0.4.
Example 2. Under the same conditions as in the previous example element 12 was scanned corresponding to the zone of supposed earthquake - map of Japan. An earthquake with the magnitude of 6.2 was forecast that took place at 9 h 03 min on July 3, 1999. Underestimation of the magnitude in comparison to the previously forecast value amounted to 0.8. Example 3. In conditions similar to those in example 1 the map of Alaska was scanned. The exact time of occurrence of an earthquake with the magnitude of 4.8 was forecast that took place at 19 h 26 min on July 4, 1999, and the underestimation of the magnitude amounted to 0.5. Example 4. In conditions similar to example 1 scanning of the map of the Philippines was carried out. The exact time of occurrence of an 14
earthquake with the magnitude of 4.0 was forecast that took place at 13 h 32 min on July 4, 1999, and the underestimation of the magnitude as a result of the use of the claimed device amounted to 0.2.
The analysis of the obtained data proves that in all cases full confirmation of the forecast phase was reached 7 days before the beginning with the exact time indication of earthquake beginning. The value of magnitude underestimation as a result of the use of the claimed device was within the range of 0.2 to 0.8. Advantages of the claimed method and device for its realization are the increase in effectiveness at the expense of accurate forecast of catastrophic phenomena generation beginning, possibility of remote normalization of the situation in the zones of supposed catastrophes. Simultaneously claimed method and device for its realization are more extensively used as compared to known ones because they may be used for getting prepared to catastrophes and preventing them with respect to both natural and technogenetic catastrophes with a full observance of ecological purity in their application. In addition expenses for their realization are reduced.

CLAIMS

15

1. Method of prevention of catastrophes including registration and processing of signals characterizing the situation in the zone of a supposed catastrophe differing in that the signals of luminous radiation from an element corresponding to the zone of the supposed catastrophe are processed with the aid of an optic system consisting of sensitive elements made of oriented crystals arranged sequentially towards the radiation being perceived, in so doing, normalized radiation is formed in the system for normalizing the situation in the zone of the supposed catastrophe.
2. Method according to claim 1 differing in that continuous scanning of various areas of an element corresponding to the zone of a supposed catastrophe is carried out, in this case the area of catastrophe generation is determined by the increased characteristics of radiation emitting from the optic system in comparison with the radiation characteristics of other areas. 3. Method according to claim 2 differing in that the area of generation of a catastrophe of natural origin is determined by the 20-28-% increase of the characteristics of radiation corresponding to this area in comparison to the radiation characteristics of other areas.
4. Method according to claim 2 differing in that the area of generation of a technogenetic catastrophe is determined by the 10-12-% increase of the characteristics of radiation corresponding to this area in comparison to the radiation characteristics of other areas.
5. Device for prevention of catastrophes containing a converter of signals characterizing the situation in the zone of a 16

supposed catastrophe, system of signal registration and emitter generating signals promoting the normalization of the situation in this zone differing in that the signal converter consists of an element corresponding to the zone of a supposed catastrophe and an optic system containing sensitive elements manufactured of oriented crystals arranged sequentially towards luminous radiation being perceived that are made in the form of identical cubes shifted relative to each other and having different orientations of optical axes, and corresponding planes of the cubes are arranged in parallel, a glass sphere accommodating the cubes that form with it a continuous transparent structure, and a transducer of normalized radiation connected by means of an optical fiber with a cube which is the last one in the direction of radiation propagation, in this case the transducer is connected to the processor system provided with a software package for processing the transducer signals.
6. Device according to claim 5 differing in that the converter of signals is made in the form of a combination of the optic system and map of locality where the generation of a catastrophic earthquake is supposed.
7. Device according to claim 5 differing in that the converter of signals is made in the form of a combination of the optic system and the telemetering system with a monitor used for representing an element corresponding to the zone of the supposed technogenetic catastrophe. 8. Device according to claim 5 differing in that the software package of the processor system comprises all possible parameters of the zones of supposed catastrophes.

Radiation

Fig. 2

Fig. 3





R U S S I A N F E D E R A T I O N

SUPREME

interacademic
EXAMINATION BOARD

C E R T I F I C A T E

OF PROFESSOR

PR No. 0182

Moscow

R u s s i a n F e d e r a t i o n

By the decision of the
Supreme interacademic examination board
No. 0208-П dated July 15, 1999

Grabovoi
Grigory Petrovich

is conferred with the academic rank of
PROFESSOR

in specialty “Analytical and structural-analytical instruments and systems”

Chairman of the Supreme Interacademic Examination Board (signature)

Chief Academic Secretary of the Supreme Interacademic
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By the decision of the Presidium of the International Academy for
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Dated “24” 08, 1999 (Minutes No. 40)

GRABOVOI GRIGORY PETROVICN

is conferred with the academic rank of
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in specialty of

System information science

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since 1991

GRABOVOI
GRIGORY PETROVICH

IS ELECTED A
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Grigory P. Grabovoi

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in

Tehnical Sciences

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and success in acbievment of noble ideals of thescientific progress
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