Expert forum “Digitalization & AI in Photonic Production”
The range of research aspects and innovations in digital photonic production is extensive – from digitally networked production systems in laser material processing to data fusion for AI-based process monitoring systems. Application examples include digital sensor technology for reliable brake-disk production or automated testing in battery production using laser-based ultrasonic excitation. Experts will also discuss the opportunities and limitations of AI support.
Expert forum “Functional Surfaces through Laser Processing”
Participants in the expert forum “Functional surfaces through laser processing” will have the opportunity to spend the whole day dealing with the efficient processing, functionalization and refinement of surfaces. The first part of the forum will provide an overview of various surface processing methods, e.g., for improving tribology, wear and corrosion protection of stressed components and for manufacturing extremely complex components. The second part of the forum will focus on electronic coatings and optical surfaces. One of the goals of the industry is to increase sustainability in battery cell production. By functionalizing layer-by-with laser radiation, the industry can produce components with less energy, fewer resources and minimal thermal stress on the workpiece.
Expert forum “Quantum Technology & Photonics”
Quantum technologies are currently being driven forward internationally at a cost of billions. We are at the beginning of a technical revolution that will enable fundamentally new applications. These include quantum imaging, quantum communication and quantum computing. The expert forum “Quantum Technology & Photonics” will give interested parties insight into the current status of R&D activities in this field. For example, experts will provide information on the latest developments in low-noise frequency converters as a key component for the development of the quantum internet. The use of quantum technology at Deutsche Telekom will also be highlighted as an application scenario.
Laser markets – Giving an edge to decision-makers
Managing directors, marketing managers and strategists will receive an overview of the laser markets in Europe, Asia and America at the Technology Business Day. In addition, experts will discuss technological trends in the use of laser technology in the energy sector. Technology conference – the centerpiece of AKL'24
At the beginning of the Gerd Herziger Session, Dr. Peter Leibinger (Chairman of the Supervisory Board of Leibinger SE), Dr. Christopher Dorman (Executive Vice President, Coherent) and Dr. Christoph Rüttimann (CTO, Bystronic Group) will address the question – from the perspective of technology suppliers – of how business models and value creation in laser technology are changing as a result of digitalization and AI. This panel discussion will be moderated by Prof. Constantin Haefner, Director of Fraunhofer ILT.
On April 18 and 19, 2024, experts from industry and science will also explain the status and prospects of laser material processing, laser beam source development and medical technology in 15 expert sessions. All AKL'24 participants will also have the opportunity to make contact with around 50 laser, component and system manufacturers at the exhibition accompanying the conference and discuss their questions in individual meetings.
Innovation Award Laser Technology 2024
On the evening of April 17, 2024, the Innovation Award Laser Technology 2024 will be presented in the Coronation Hall of Aachen City Hall in front of around 300 guests. Every two years, the Arbeitskreis Lasertechnik e.V. and the European Laser Institute ELI e.V. bestow this European science and technology award for outstanding innovations in the field of laser technology.
“Laser Technology Live” in Europe's largest laser system park.
The range of research aspects and innovations in digital photonic production is extensive – from digitally networked production systems in laser material processing to data fusion for AI-based process monitoring systems. Application examples include digital sensor technology for reliable brake-disk production or automated testing in battery production using laser-based ultrasonic excitation. Experts will also discuss the opportunities and limitations of AI support.
Expert forum “Functional Surfaces through Laser Processing”
Participants in the expert forum “Functional surfaces through laser processing” will have the opportunity to spend the whole day dealing with the efficient processing, functionalization and refinement of surfaces. The first part of the forum will provide an overview of various surface processing methods, e.g., for improving tribology, wear and corrosion protection of stressed components and for manufacturing extremely complex components. The second part of the forum will focus on electronic coatings and optical surfaces. One of the goals of the industry is to increase sustainability in battery cell production. By functionalizing layer-by-with laser radiation, the industry can produce components with less energy, fewer resources and minimal thermal stress on the workpiece.
Expert forum “Quantum Technology & Photonics”
Quantum technologies are currently being driven forward internationally at a cost of billions. We are at the beginning of a technical revolution that will enable fundamentally new applications. These include quantum imaging, quantum communication and quantum computing. The expert forum “Quantum Technology & Photonics” will give interested parties insight into the current status of R&D activities in this field. For example, experts will provide information on the latest developments in low-noise frequency converters as a key component for the development of the quantum internet. The use of quantum technology at Deutsche Telekom will also be highlighted as an application scenario.
Laser markets – Giving an edge to decision-makers
Managing directors, marketing managers and strategists will receive an overview of the laser markets in Europe, Asia and America at the Technology Business Day. In addition, experts will discuss technological trends in the use of laser technology in the energy sector. Technology conference – the centerpiece of AKL'24
At the beginning of the Gerd Herziger Session, Dr. Peter Leibinger (Chairman of the Supervisory Board of Leibinger SE), Dr. Christopher Dorman (Executive Vice President, Coherent) and Dr. Christoph Rüttimann (CTO, Bystronic Group) will address the question – from the perspective of technology suppliers – of how business models and value creation in laser technology are changing as a result of digitalization and AI. This panel discussion will be moderated by Prof. Constantin Haefner, Director of Fraunhofer ILT.
On April 18 and 19, 2024, experts from industry and science will also explain the status and prospects of laser material processing, laser beam source development and medical technology in 15 expert sessions. All AKL'24 participants will also have the opportunity to make contact with around 50 laser, component and system manufacturers at the exhibition accompanying the conference and discuss their questions in individual meetings.
Innovation Award Laser Technology 2024
On the evening of April 17, 2024, the Innovation Award Laser Technology 2024 will be presented in the Coronation Hall of Aachen City Hall in front of around 300 guests. Every two years, the Arbeitskreis Lasertechnik e.V. and the European Laser Institute ELI e.V. bestow this European science and technology award for outstanding innovations in the field of laser technology.
“Laser Technology Live” in Europe's largest laser system park.
The highlight of the congress will once again be the popular “Laser Technology Live” event on April 18, 2024, with around 60 live demonstrations and presentations in the Fraunhofer ILT laboratories. Researchers from the institute and the cooperating chairs at RWTH Aachen University will provide insights into the latest systems, processes and R&D results and will be available for in-depth discussions.
Forwarded from Algorithm of truth
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Iranian president Raisi and Iran's prime minister in "strange" helicopter emergency landing . First shared video.
https://discuss.itacumens.com/index.php?topic=12720
HUMAN AREA NETWORK DISCUSSION
VelMurugan
Soft Engg, IT Acumens
Co Admin
HUMAN AREA NETWORK DISCUSSION
VelMurugan
Soft Engg, IT Acumens
Co Admin
Algorithm of truth
https://discuss.itacumens.com/index.php?topic=12720 HUMAN AREA NETWORK DISCUSSION VelMurugan Soft Engg, IT Acumens Co Admin
Human society is entering an era of ubiquitous computing, when networks are seamlessly interconnected and information is always accessible at our fingertips. The practical implementation of ubiquitous services requires three levels of connectivity: Wide Area Networks (WAN), typically via the Internet, to remotely connect all types of severs and terminals; Local Area Networks (LAN), typically via Ethernet or WiFi connectivity among all the information and communication appliances in offices and homes; and Human Area Networks (HAN) for connectivity to personal information, media and communication appliances within the much smaller sphere of ordinary daily activities the last one meter.
What is RedTacton?
RedTacton is a new Human Area Networking technology that uses the surface of the human body as a safe, high speed network transmission path!!
RedTacton is a break-through technology that, for the first time, enables reliable high-speed HAN. In the past, Bluetooth, infrared communications (IrDA), radio frequency ID systems (RFID), and other technologies have been proposed to solve the "last meter" connectivity problem. However, they each have various fundamental technical limitations that constrain their usage, such as the precipitous fall-off in transmission speed in multi-user environments producing network congestion.
1. RedTacton uses the minute electric field emitted on the surface of the human body. Technically, it is completely distinct from wireless and infrared.
2. A transmission path is formed at the moment a part of the human body comes in contact with a RedTacton transceiver. Physically separating ends the contact and thus ends communication.
3. Using RedTacton, communication starts when terminals carried by the user or embedded in devices are linked in various combinations according to the user's natural, physical movements.
4. Communication is possible using any body surfaces, such as the hands, fingers, arms, feet, face, legs or torso. RedTacton works through shoes and clothing as well.
Basic Principle
RedTacton takes a different technical approach. Instead of relying on electromagnetic waves or light waves to carry data, RedTacton uses weak electric fields on the surface of the body as a transmission medium.
1. The RedTacton transmitter induces a weak electric field on the surface of the body.
2. The RedTacton receiver senses changes in the weak electric field on the surface of the body caused by the transmitter.
3. RedTacton relies upon the principle that the optical properties of an electro-optic crystal can vary according to the changes of a weak electric field.
4. RedTacton detects changes in the optical properties of an electro-optic crystal using a laser and converts the result to an electrical signal in an optical receiver circuit.
The three major functional features of RedTacton are highlighted below.
1. A communications path can be created with a simple touch, automatically initiating the flow of data between a body-centric electronic device and a computer that is embedded in the environment. For example, two people equipped with RedTacton devices could exchange data just by shaking hands. A wide range of natural human actions -- grasping, sitting down, walking, or standing in a particular place -- can be used to trigger RedTacton to start a networked process.
2. Using a RedTacton electro-optic sensor, two-way communication is supported between any two points on the body at a throughput of up to 10 Mbps. Communication is not just confined to the surface of the body, but can travel through the user's clothing to a RedTacton device in a pocket or through shoes to communicate with a RedTacton device embedded in the floor. Unlike wireless technologies, the transmission speed does not deteriorate even in the presence of large crowds of people all communicating at the same time in meeting rooms, auditoriums or stores. Because the body surface is the transmission path, increasing the number of connected users directly increases the available number of individual communication channels.
What is RedTacton?
RedTacton is a new Human Area Networking technology that uses the surface of the human body as a safe, high speed network transmission path!!
RedTacton is a break-through technology that, for the first time, enables reliable high-speed HAN. In the past, Bluetooth, infrared communications (IrDA), radio frequency ID systems (RFID), and other technologies have been proposed to solve the "last meter" connectivity problem. However, they each have various fundamental technical limitations that constrain their usage, such as the precipitous fall-off in transmission speed in multi-user environments producing network congestion.
1. RedTacton uses the minute electric field emitted on the surface of the human body. Technically, it is completely distinct from wireless and infrared.
2. A transmission path is formed at the moment a part of the human body comes in contact with a RedTacton transceiver. Physically separating ends the contact and thus ends communication.
3. Using RedTacton, communication starts when terminals carried by the user or embedded in devices are linked in various combinations according to the user's natural, physical movements.
4. Communication is possible using any body surfaces, such as the hands, fingers, arms, feet, face, legs or torso. RedTacton works through shoes and clothing as well.
Basic Principle
RedTacton takes a different technical approach. Instead of relying on electromagnetic waves or light waves to carry data, RedTacton uses weak electric fields on the surface of the body as a transmission medium.
1. The RedTacton transmitter induces a weak electric field on the surface of the body.
2. The RedTacton receiver senses changes in the weak electric field on the surface of the body caused by the transmitter.
3. RedTacton relies upon the principle that the optical properties of an electro-optic crystal can vary according to the changes of a weak electric field.
4. RedTacton detects changes in the optical properties of an electro-optic crystal using a laser and converts the result to an electrical signal in an optical receiver circuit.
The three major functional features of RedTacton are highlighted below.
1. A communications path can be created with a simple touch, automatically initiating the flow of data between a body-centric electronic device and a computer that is embedded in the environment. For example, two people equipped with RedTacton devices could exchange data just by shaking hands. A wide range of natural human actions -- grasping, sitting down, walking, or standing in a particular place -- can be used to trigger RedTacton to start a networked process.
2. Using a RedTacton electro-optic sensor, two-way communication is supported between any two points on the body at a throughput of up to 10 Mbps. Communication is not just confined to the surface of the body, but can travel through the user's clothing to a RedTacton device in a pocket or through shoes to communicate with a RedTacton device embedded in the floor. Unlike wireless technologies, the transmission speed does not deteriorate even in the presence of large crowds of people all communicating at the same time in meeting rooms, auditoriums or stores. Because the body surface is the transmission path, increasing the number of connected users directly increases the available number of individual communication channels.
Algorithm of truth
https://discuss.itacumens.com/index.php?topic=12720 HUMAN AREA NETWORK DISCUSSION VelMurugan Soft Engg, IT Acumens Co Admin
3. RedTacton can utilize a wide range of materials as a transmission medium, as long as the material is conductive and dielectric, which includes water and other liquids, various metals, certain plastics, glass, etc. Using ordinary structures such as tables and walls that are familiar and readily available, one could easily construct a seamless communication environment at very low cost using RedTacton. (Note that constraints are imposed by the length and environment of the propagating conductor, and by the thickness of the dielectric.)
Mechanism of communication with RedTacton
The transmitter sends data by inducing fluctuations in the minute electric field on the surface of the human body. Data is received using a photonic electric field sensor that combines an electro-optic crystal and a laser light to detect fluctuations in the minute electric field.
The naturally occurring electric field induced on the surface of the human body dissipates into the earth. Therefore, this electric field is exceptionally faint and unstable.
The photonic electric field sensor developed by NTT enables weak electric fields to be measured by detecting changes in the optical properties of an electro-optic crystal with a laser beam.
Features
RedTacton has three main functional features.
(1) Touch: Touching, gripping, sitting, walking, stepping and other human movements can be the triggers for unlocking or locking, starting or stopping equipment, or obtaining data.
(2) Broadband & Interactive: Bandwidth does not deteriorate even with duplex operations and simultaneous access by many users! Duplex, interactive communication is possible at a maximum speed of 10Mbps. Because the transmission path is on the surface of the body, transmission speed does not deteriorate in congested areas where many people are communicating at the same time.
(3) Any media: In addition to the human body, various conductors and dielectrics can be used as transmission media. Conductors and dielectrics may also be used in combination.
Mechanism of communication with RedTacton
The transmitter sends data by inducing fluctuations in the minute electric field on the surface of the human body. Data is received using a photonic electric field sensor that combines an electro-optic crystal and a laser light to detect fluctuations in the minute electric field.
The naturally occurring electric field induced on the surface of the human body dissipates into the earth. Therefore, this electric field is exceptionally faint and unstable.
The photonic electric field sensor developed by NTT enables weak electric fields to be measured by detecting changes in the optical properties of an electro-optic crystal with a laser beam.
Features
RedTacton has three main functional features.
(1) Touch: Touching, gripping, sitting, walking, stepping and other human movements can be the triggers for unlocking or locking, starting or stopping equipment, or obtaining data.
(2) Broadband & Interactive: Bandwidth does not deteriorate even with duplex operations and simultaneous access by many users! Duplex, interactive communication is possible at a maximum speed of 10Mbps. Because the transmission path is on the surface of the body, transmission speed does not deteriorate in congested areas where many people are communicating at the same time.
(3) Any media: In addition to the human body, various conductors and dielectrics can be used as transmission media. Conductors and dielectrics may also be used in combination.
Forwarded from Algorithm of truth
COPYRIGHT BY BOGDAN KONSTANTYNOWICZ
January the 30th, 2015
This all paper is sold subject to the condition that it shall not, by way of trade or otherwise, be lent, re-sold, any public performances, hired out, or otherwise circulated without the publisher's prior consent in any form of binding or cover other than that in which it is published and without a similar condition including this condition being imposed on the subsequent purchaser. Warning: this paper / all website is sold for private home use only.
© All rights reserved. No part of all this work covered by copyright hereon may be reproduced in any form or by any means - graphic, electronic, or mechanical - including photocopying, recording, downloading, uploading, taping, or storage in an information retrieval system, without the prior written permission of the copyright owner - © author Bogdan Konstantynowicz.
Berezyna and Lubuszany - the estate of Poniatowski-Tyszkiewicz-Potocki branch - the Knights Templar of the FREEMASONRY.
Miezonka-Swolna-Moscow-St Petersburg and the family history of Paszkowski-Armand-Konstantynowicz.
Education and information - Bogdan Konstantynowicz. Wywiad brytyjski, niemiecki i rosyjski, a niepodleglosc Polski w 1918.
Lista teorii konspiracyjnych - najwieksze teorie konspiracyjne w historii.
Teorie konspiracyjne, historia i genealogia rodu Konstantynowicz z Bialorusi.
Masoneria. Rosyjski wywiad wojskowy. Kluczowe zagadnienia.
Wstep i glowne uwagi o historii rodu Konstantynowicz na Bialorusi i w Rosji 1772 - 1917.
My research concerns many state intelligence networks created in the first half of the 18th century.
Initially it was a global political network of the Russian intelligence infiltrated by the British [1791], French [from the 40s of the 18th century] and Germans [1769/1776], and by the Polish independence conspiracy [was established 1792/1799] starting from a years 1870/1878.
Compare three dates:
1.
6 km to the south of the BRZEZIE was the palace in Wieniec founded in the early nineteenth century by the family of Miaczynski; in 1868 the property bought a Warsaw banker of Jewish origin and a great Polish patriot - Leopold Kronenberg.
2.
1870, Brown of London - takes over the Breguet company [below];
3.
and the letter of 1871 from Albert Pike to Mazzini.
Breguet cooperated also with Chambrier, V. Foy, the French government (dial telegraph in 1845), the Telegraph Company in 1863 (electric telegraph - Breguet System, late 19th century), in Britain in the 1860s and 1870s with Wood, Edward George b. in Clerkenwell, Islington, January 1812, d. 1896 from Cheapside, City of London, who was friend of Thomas Cooper, the Chartist (galvanic telegraph, Crossley's Telegraph in Halifax), d'Arlincourt (transmitter); Breguet patented a Telegraph Communicator - Breguet Alphabetical Type, circa 1870; manufactured the telephone transmitter (Boudet, Laborde, Breguet, Ader, Du Moncel, and others) and telephone receivers (Bell, Breguet, and others).
In 1877 telephones appears in Russia but in the Russian army experiments on telephone made in 1878.
L. Dyuflon and Dizeren in St. Petersburg established the Electrotechnical workshop on 1892, June 27. On 1896, December 14, L. Dyuflon, J. Dizeren and A. V. Konstantinovich [Apollon Konstantynowicz son of Wasyl Konstantynowicz] in St. Petersburg established The Factory of electromechanical structures when Tesla received a British patent on the design of the spark gap - rotating strap. 1898, K. F. Siemens, W. Siemens, A. V. Gvineria and A. Y. Rothstein in St. Petersburg established the Russian joint stock company of electrical plants 'Siemens and Halske'. 1899 were starting experiments on radio in Russian War Department. 1902 (1901), the Plant of electromechanical structures reorganized into a joint stock company 'Dyuflon, Konstantynowicz & Co', DECA.
January the 30th, 2015
This all paper is sold subject to the condition that it shall not, by way of trade or otherwise, be lent, re-sold, any public performances, hired out, or otherwise circulated without the publisher's prior consent in any form of binding or cover other than that in which it is published and without a similar condition including this condition being imposed on the subsequent purchaser. Warning: this paper / all website is sold for private home use only.
© All rights reserved. No part of all this work covered by copyright hereon may be reproduced in any form or by any means - graphic, electronic, or mechanical - including photocopying, recording, downloading, uploading, taping, or storage in an information retrieval system, without the prior written permission of the copyright owner - © author Bogdan Konstantynowicz.
Berezyna and Lubuszany - the estate of Poniatowski-Tyszkiewicz-Potocki branch - the Knights Templar of the FREEMASONRY.
Miezonka-Swolna-Moscow-St Petersburg and the family history of Paszkowski-Armand-Konstantynowicz.
Education and information - Bogdan Konstantynowicz. Wywiad brytyjski, niemiecki i rosyjski, a niepodleglosc Polski w 1918.
Lista teorii konspiracyjnych - najwieksze teorie konspiracyjne w historii.
Teorie konspiracyjne, historia i genealogia rodu Konstantynowicz z Bialorusi.
Masoneria. Rosyjski wywiad wojskowy. Kluczowe zagadnienia.
Wstep i glowne uwagi o historii rodu Konstantynowicz na Bialorusi i w Rosji 1772 - 1917.
My research concerns many state intelligence networks created in the first half of the 18th century.
Initially it was a global political network of the Russian intelligence infiltrated by the British [1791], French [from the 40s of the 18th century] and Germans [1769/1776], and by the Polish independence conspiracy [was established 1792/1799] starting from a years 1870/1878.
Compare three dates:
1.
6 km to the south of the BRZEZIE was the palace in Wieniec founded in the early nineteenth century by the family of Miaczynski; in 1868 the property bought a Warsaw banker of Jewish origin and a great Polish patriot - Leopold Kronenberg.
2.
1870, Brown of London - takes over the Breguet company [below];
3.
and the letter of 1871 from Albert Pike to Mazzini.
Breguet cooperated also with Chambrier, V. Foy, the French government (dial telegraph in 1845), the Telegraph Company in 1863 (electric telegraph - Breguet System, late 19th century), in Britain in the 1860s and 1870s with Wood, Edward George b. in Clerkenwell, Islington, January 1812, d. 1896 from Cheapside, City of London, who was friend of Thomas Cooper, the Chartist (galvanic telegraph, Crossley's Telegraph in Halifax), d'Arlincourt (transmitter); Breguet patented a Telegraph Communicator - Breguet Alphabetical Type, circa 1870; manufactured the telephone transmitter (Boudet, Laborde, Breguet, Ader, Du Moncel, and others) and telephone receivers (Bell, Breguet, and others).
In 1877 telephones appears in Russia but in the Russian army experiments on telephone made in 1878.
L. Dyuflon and Dizeren in St. Petersburg established the Electrotechnical workshop on 1892, June 27. On 1896, December 14, L. Dyuflon, J. Dizeren and A. V. Konstantinovich [Apollon Konstantynowicz son of Wasyl Konstantynowicz] in St. Petersburg established The Factory of electromechanical structures when Tesla received a British patent on the design of the spark gap - rotating strap. 1898, K. F. Siemens, W. Siemens, A. V. Gvineria and A. Y. Rothstein in St. Petersburg established the Russian joint stock company of electrical plants 'Siemens and Halske'. 1899 were starting experiments on radio in Russian War Department. 1902 (1901), the Plant of electromechanical structures reorganized into a joint stock company 'Dyuflon, Konstantynowicz & Co', DECA.
Forwarded from Algorithm of truth
Albert Pike [Albert Pike b. 1809, died 1891, was an attorney, soldier, writer, and Freemason, elected Sovereign Grand Commander of the Scottish Rite's Southern Jurisdiction in 1859, of thirty-two years] described in a letter wrote to Mazzini [Giuseppe Mazzini, 1805 - 1872, an Italian politician, journalist; "William R. Denslow lists Mazzini as a Mason, and even a Past Grand Master of the Grand Orient of Italy"], dated August 15, 1871, plans for three world wars necessary to bring the One World Order, and it is a "commonly believed fallacy that for a short time, the Pike letter to Mazzini was on display in the British Museum Library in London, and it was copied by William Guy Carr...".
It was the plan known as The Society of the Elect, and an outer circle, to be known as The Association of Helpers, and within The Society of the Elect, the real power was to be a 'Junta of Three'. The leader was Rhodes with Stead, Brett, and Alfred Milner, 1st Viscount Milner who was added to the society by Stead.
Rhodes had been planning this event for more than seventeen years (before 1872).
See: the letter of Pike to Mazzini in 1871, and Edward Brown - Breguet Company in 1870.
Stead had been introduced to the plan on 4 April 1889, and Brett had been told of it on 3 February 1890. In modified form, it exists to this day.
Russo-Turkish War (1877-1878) and Polish officers:
Army commandant:
Nikolaj Nikolajevic senior, Romanov; that is Mikolaj Mikolajewicz Romanow, b. 1831, d. 1891; Grand Duke, General Adjutant - 1856, General Field Marshal - 1878. Third son of Tsar Nicholas I and Tsarina Aleksandra Fedorovna, born as Charlotte / Charlotta Princess of Prussia. His older brothers were Tsar Alexander II and Grand Duke of Russia, Konstanty Mikolajewicz.
"... The Knights of the Order of the Garter are the leaders of the Illuminati hierarchy ...
[Queen Victoria, Alexandrina Victoria b. 1819 was daughter of Edward, Duke of Kent
(son of George III {his father Frederick, Prince of Wales and mother Augusta of Saxe-Gotha} + Charlotte of Mecklenburg-Strelitz 1744 - 1818 {her father Duke Charles Louis Frederick of Mecklenburg, Prince of Mirow, and mother Princess Elizabeth Albertine of Saxe-Hildburghausen})
and Victoria of Saxe-Coburg-Saalfeld 1786 - 1861
(1803 at Coburg, she married 1st to Charles, Prince of Leiningen; 2nd to Prince Edward, Duke of Kent {the TEMPLARS} and Strathearn, in 1818 at Amorbach. Victoria's father was Francis, Duke of Saxe-Coburg-Saalfeld and mother Countess Augusta of Reuss-Ebersdorf daughter of Karoline Ernestine of Erbach-Schönberg)]
... [mentioned above] Charlotte was the grandmother of Queen Victoria {Maltese Orders}, and whose son married the daughter of Frederick III of Hessen-Kassell {Frederick III of Hessen-Kassel / Friedrich III von Hessen- Kassel, born in 1747, the father of Auguste Wilhelmine Luise von Hessen-Kassel b. 1797 married Prince Adolphus, Duke of Cambridge, the son, of George III of the United Kingdom and Charlotte of Mecklenburg- Strelitz}.
Charlotte's brother was Charles II Grand Duke of Mecklenburg-Strelitz, whose daughter married the heir of the Prussian crown, Frederick William III.
Frederick II of Prussia was succeeded by his nephew, Frederick William II, who married Louise of Brunswick- Wolfenbuettel.
She was the sister of Frederick Duke of Brunswick, the Grand Master of the Strict Templar Observance, and who had convened the great Masonic convention at Wilhelmsbad in Hessen-Kassel.
Frederick Wilhelm II of Prussia was the father of Frederick William III, who became a member of the Order of the Garter.
Of Frederick William III and Louise' four children, three married the brothers and sisters of Csar Alexander I. Frederick William III's daughter, Charlotte of Prussia, married Paul's son, Czar Nicholas I, who succeeded Alexander I, and who also belonged to the Order of the Garter.
Frederick's son Wilhelm I married Augusta of Saxe-Weimar, the daughter of Nicholas' sister Maria Romanov.
It was the plan known as The Society of the Elect, and an outer circle, to be known as The Association of Helpers, and within The Society of the Elect, the real power was to be a 'Junta of Three'. The leader was Rhodes with Stead, Brett, and Alfred Milner, 1st Viscount Milner who was added to the society by Stead.
Rhodes had been planning this event for more than seventeen years (before 1872).
See: the letter of Pike to Mazzini in 1871, and Edward Brown - Breguet Company in 1870.
Stead had been introduced to the plan on 4 April 1889, and Brett had been told of it on 3 February 1890. In modified form, it exists to this day.
Russo-Turkish War (1877-1878) and Polish officers:
Army commandant:
Nikolaj Nikolajevic senior, Romanov; that is Mikolaj Mikolajewicz Romanow, b. 1831, d. 1891; Grand Duke, General Adjutant - 1856, General Field Marshal - 1878. Third son of Tsar Nicholas I and Tsarina Aleksandra Fedorovna, born as Charlotte / Charlotta Princess of Prussia. His older brothers were Tsar Alexander II and Grand Duke of Russia, Konstanty Mikolajewicz.
"... The Knights of the Order of the Garter are the leaders of the Illuminati hierarchy ...
[Queen Victoria, Alexandrina Victoria b. 1819 was daughter of Edward, Duke of Kent
(son of George III {his father Frederick, Prince of Wales and mother Augusta of Saxe-Gotha} + Charlotte of Mecklenburg-Strelitz 1744 - 1818 {her father Duke Charles Louis Frederick of Mecklenburg, Prince of Mirow, and mother Princess Elizabeth Albertine of Saxe-Hildburghausen})
and Victoria of Saxe-Coburg-Saalfeld 1786 - 1861
(1803 at Coburg, she married 1st to Charles, Prince of Leiningen; 2nd to Prince Edward, Duke of Kent {the TEMPLARS} and Strathearn, in 1818 at Amorbach. Victoria's father was Francis, Duke of Saxe-Coburg-Saalfeld and mother Countess Augusta of Reuss-Ebersdorf daughter of Karoline Ernestine of Erbach-Schönberg)]
... [mentioned above] Charlotte was the grandmother of Queen Victoria {Maltese Orders}, and whose son married the daughter of Frederick III of Hessen-Kassell {Frederick III of Hessen-Kassel / Friedrich III von Hessen- Kassel, born in 1747, the father of Auguste Wilhelmine Luise von Hessen-Kassel b. 1797 married Prince Adolphus, Duke of Cambridge, the son, of George III of the United Kingdom and Charlotte of Mecklenburg- Strelitz}.
Charlotte's brother was Charles II Grand Duke of Mecklenburg-Strelitz, whose daughter married the heir of the Prussian crown, Frederick William III.
Frederick II of Prussia was succeeded by his nephew, Frederick William II, who married Louise of Brunswick- Wolfenbuettel.
She was the sister of Frederick Duke of Brunswick, the Grand Master of the Strict Templar Observance, and who had convened the great Masonic convention at Wilhelmsbad in Hessen-Kassel.
Frederick Wilhelm II of Prussia was the father of Frederick William III, who became a member of the Order of the Garter.
Of Frederick William III and Louise' four children, three married the brothers and sisters of Csar Alexander I. Frederick William III's daughter, Charlotte of Prussia, married Paul's son, Czar Nicholas I, who succeeded Alexander I, and who also belonged to the Order of the Garter.
Frederick's son Wilhelm I married Augusta of Saxe-Weimar, the daughter of Nicholas' sister Maria Romanov.
Forwarded from Algorithm of truth
A third child of Frederick, Friedrich Karl Alexander of Prussia, married Maria's Romanov other daughter, Marie Luisa Alexandrina von Saxe-Weimar.
The son of Csar Nicholas, Constantine Nicholaievitch Romanov, Grand Duke of Russia, fathered Olga Constantinovna Romanov, who married George I King of Greece. George was a member of the Order of the Garter, as was his father, Christian IX of Denmark. ...".
Mikolaj Mikolajewicz married his cousin Aleksandra Oldenburg
[see Oldenburg in St Petersburg and the Duflon & Konstantynowicz Company. She was the daughter of Konstantin Friedrich Peter Georgievich Oldenburg (1812-1881).
Konstantin Friedrich Peter von Oldenburg, 1812-1881, m. Therese Wilhelmine Friederike Isabella Charlotte von Nassau, 1815-1871, with children:
1. Alexandra Friederike Wilhelmine von Oldenburg, m. Nikolaj Nikolajewitsch of Russia, 1831-1891
[Grand Duke Nicholas Nikolaevich of Russia / Nicholas Nicolaievich the Elder, 1831 - 1891, was the third son of Tsar Nicholas I of Russia and Alexandra Feodorovna. Field Marshal and the commander of the Russian army of the Danube in the Russo-Turkish War, 1877-1878]
with son: Peter Nikolajewitsch, 1864-1931;
2. Alexander Friedrich Konstantin von Oldenburg, 1844-1932, with son Peter Friedrich Georg von Oldenburg, 1868- 1924;
3.
Konstantin Friedrich Peter von Oldenburg, 1850-1906 m. in 1882, Agrippina Djaparidse / Agrippina JAPARIDZE, 1855-1926,
with daughter Alexandra von Oldenburg, Gräfin von Zarnekau, 1883-1957.
The JAPARIDZES - see Armand - PASZKOWSKI - DEMONSI home in Moscow and Konstantynowicz line of Moscow- Swolna-Miezonka-Lida.
Duke Konstantin Friedrich Peter Georgievich von Holstein-Gottorp of Oldenburg was the grandfather of Duke Peter Alexandrovich of Oldenburg as well as grandfather of Grand Duke Nicholas Nikolaevich, General of the Imperial Russian Army during World War I.
Above
Konstantin Friedrich Peter Oldenburg or Constantine Petrovich of Oldenburg began a flirtation with Agrippina; Agrippina's husband, Prince Tariel 'Daniel' Dadiani, was one of the officers under Duke Constantine's command; Dadiani were a branch of the Bagrationi Dynasty;
Agrippina was Tariel Dadiani's second wife but Agrippina in 1882 divorced Dadiani. 1882, Constantine entered into a morganatic marriage with Agrippina Japaridze; by the early 1890s, they were doing business in Odessa and Alexandrovsk (Zaporozhe).
See the Armands and Konstantynowiczs in Moscow and Alexandrovsk.
Prince Tarieli Taia Aleksandri Dadiani, b. 1842, m. first to Princess Sopio Dadiani b. 1838 daughter of Prince Levanti Shervashidze of the Guria. On June 28, 1882, Agrippina divorced Dadiani.
His father:
Prince Aleksandri Manuchari Dadiani.
And his grandfather:
Major-General H. E. Prince Nichola Giorgi Dadiani / Nikolai Georgievitch Dadianov / Bolshoi Niko, Lord of Kurdzu, b. 1764 - Duke of Mingrelia, fourth son of Katsia II Dadiani, Duke of Mingrelia.
Prince Aleksandri Kviti Niko Dadiani, b. 1864, m. Princess Nino Dadiani (b. 1868), younger daughter of Prince Tarieli Taia Dadiani, by his second wife, Princess Agrafina Countess von Zarnekau, daughter of Prince Konstantini Japaridze.
Eugene's ARMAND of Moscow brother - Emil E. ARMAND was married to Zofia Hacker / Sophia nee Osipovna Hecke (Hakker, Hacker, Hekke) from Estonia.
They had six children:
LEW ARMAND / Leo (1880 - 1942) + Japaridze-Saparov [Saparova Tamara Arkadevna - Japaridze married 2nd to Leo Emilievich ARMAND.
Saparov Arkady (1854 - before 1921), was married to Varvara Maypariani with the daughter
Tamara Arkadevna SAPAROV married 1st to Ivan Konstantinovich Japaridze, and
TAMARA SAPAROV - JAPARIDZE was 2nd married to Lev ARMAND / Lion Emilievich Armand (Inessa Armand relatives).
The son of Csar Nicholas, Constantine Nicholaievitch Romanov, Grand Duke of Russia, fathered Olga Constantinovna Romanov, who married George I King of Greece. George was a member of the Order of the Garter, as was his father, Christian IX of Denmark. ...".
Mikolaj Mikolajewicz married his cousin Aleksandra Oldenburg
[see Oldenburg in St Petersburg and the Duflon & Konstantynowicz Company. She was the daughter of Konstantin Friedrich Peter Georgievich Oldenburg (1812-1881).
Konstantin Friedrich Peter von Oldenburg, 1812-1881, m. Therese Wilhelmine Friederike Isabella Charlotte von Nassau, 1815-1871, with children:
1. Alexandra Friederike Wilhelmine von Oldenburg, m. Nikolaj Nikolajewitsch of Russia, 1831-1891
[Grand Duke Nicholas Nikolaevich of Russia / Nicholas Nicolaievich the Elder, 1831 - 1891, was the third son of Tsar Nicholas I of Russia and Alexandra Feodorovna. Field Marshal and the commander of the Russian army of the Danube in the Russo-Turkish War, 1877-1878]
with son: Peter Nikolajewitsch, 1864-1931;
2. Alexander Friedrich Konstantin von Oldenburg, 1844-1932, with son Peter Friedrich Georg von Oldenburg, 1868- 1924;
3.
Konstantin Friedrich Peter von Oldenburg, 1850-1906 m. in 1882, Agrippina Djaparidse / Agrippina JAPARIDZE, 1855-1926,
with daughter Alexandra von Oldenburg, Gräfin von Zarnekau, 1883-1957.
The JAPARIDZES - see Armand - PASZKOWSKI - DEMONSI home in Moscow and Konstantynowicz line of Moscow- Swolna-Miezonka-Lida.
Duke Konstantin Friedrich Peter Georgievich von Holstein-Gottorp of Oldenburg was the grandfather of Duke Peter Alexandrovich of Oldenburg as well as grandfather of Grand Duke Nicholas Nikolaevich, General of the Imperial Russian Army during World War I.
Above
Konstantin Friedrich Peter Oldenburg or Constantine Petrovich of Oldenburg began a flirtation with Agrippina; Agrippina's husband, Prince Tariel 'Daniel' Dadiani, was one of the officers under Duke Constantine's command; Dadiani were a branch of the Bagrationi Dynasty;
Agrippina was Tariel Dadiani's second wife but Agrippina in 1882 divorced Dadiani. 1882, Constantine entered into a morganatic marriage with Agrippina Japaridze; by the early 1890s, they were doing business in Odessa and Alexandrovsk (Zaporozhe).
See the Armands and Konstantynowiczs in Moscow and Alexandrovsk.
Prince Tarieli Taia Aleksandri Dadiani, b. 1842, m. first to Princess Sopio Dadiani b. 1838 daughter of Prince Levanti Shervashidze of the Guria. On June 28, 1882, Agrippina divorced Dadiani.
His father:
Prince Aleksandri Manuchari Dadiani.
And his grandfather:
Major-General H. E. Prince Nichola Giorgi Dadiani / Nikolai Georgievitch Dadianov / Bolshoi Niko, Lord of Kurdzu, b. 1764 - Duke of Mingrelia, fourth son of Katsia II Dadiani, Duke of Mingrelia.
Prince Aleksandri Kviti Niko Dadiani, b. 1864, m. Princess Nino Dadiani (b. 1868), younger daughter of Prince Tarieli Taia Dadiani, by his second wife, Princess Agrafina Countess von Zarnekau, daughter of Prince Konstantini Japaridze.
Eugene's ARMAND of Moscow brother - Emil E. ARMAND was married to Zofia Hacker / Sophia nee Osipovna Hecke (Hakker, Hacker, Hekke) from Estonia.
They had six children:
LEW ARMAND / Leo (1880 - 1942) + Japaridze-Saparov [Saparova Tamara Arkadevna - Japaridze married 2nd to Leo Emilievich ARMAND.
Saparov Arkady (1854 - before 1921), was married to Varvara Maypariani with the daughter
Tamara Arkadevna SAPAROV married 1st to Ivan Konstantinovich Japaridze, and
TAMARA SAPAROV - JAPARIDZE was 2nd married to Lev ARMAND / Lion Emilievich Armand (Inessa Armand relatives).
Forwarded from Algorithm of truth
Ivan Iaparidze was the son of Constantine Japaridze / Constantin Japaridze (Ivan b. ca 1860; his father Konstantyn died in 1860 !) from the upper Racha region of Georgia. Ivan Japaridze b. ca 1860, had sister Agrippina, Countess von Zarnekau, b. 1855, nee Agrippina Constantines Japaridze, and Ivan Japaridze's parents were Constantine and Melania Japaridze; named father Constantine died 1860].
His {Mikolaj Mikolajewicz} brother was Michal Mikolajewicz Romanow b. 1832, d. December 1909; Grand Duke of Russia, field marshal, chairman of the Council of State (1881-1905). In 1862-1882 he was the general-governor of the Caucasus. He worked in Tbilisi.
Grand Duke Mikhail Nikolayevich had son Grand Duke Alexander Mikhailovich - Sandro / Sasho who was a key figure in the development of the Russian air force; Alexander Mikhailovich (Sandro), b. 01 April 1866 in Tbilisi died 1933, Nice, France.
Alexander Mikhailovich (Sandro): Chief of the Commercial navigation and ports (1902-1905), during the First World war was in charge of the aviation in the army: paid much attention to the development of aviation industry in Russia [Duflon and Konstantynowicz Company], on his initiative, established flight schools, began preparing the first national flight training and 1914 appointed head of the organization of aviation business in the armies.
Alexander Mikhailovich (Sandro) was the Freemason, and he called himself Philalethes.
Receiving education at home in Georgia, often went for long voyages: 1886 - 1889 made a voyage round the world on the corvette 'Rynda' and in 1890 - 91, at his own yacht 'Tamara' traveled to India, described in his journals.
Grand Duke Michael Nikolaevich b. 1832, the fourth son of Tsar Nicholas I, died in Cannes on 18 December 1909; the funeral was in Russia; Field Marshal.
Mentioned
Nicholas I, Tsar of Russia was partner of Countess Olga Kalinowska [see Trubecki, Konstantynowicz, Oginski and Wola Pszczolecka] but she happened to be the mistress of Tsarevitch Alexander, the son of Tsar Nicholas I. Olga was pregnant by either the Tsarevitch or his father Nicholas I. On 10 October 1848 or in 1849 Olga gave birth to Prince Bogdan or Michael-Bogdan - Oginski by name and Romanov by gene.
I am presenting here several Poles fighting in the Russian army during the war 1877-78:
Artur Niepokojczycki / Niepokójczycki (1813-1881)
- Russian general. Pole. After graduating for some time he served in the General Staff.
NIEPOKÓJCZYCKI Artur, born in 1813 in the Niepokójczyce estate close to ZABINKA, died in Petersburg.
Arthur Adamovich Nepokojchitsky wasn't born in Slutsk.
His father ADAM NIEPOKÓJCZYCKI / Niepokojczycki was the district leader of the nobility - the Sluck marshal of nobility.
Arthur Adamovich Nepokojchitsky was born when the war with Napoleon rattled. Originated from the old German clan von-Upru, who moved to Poland.
The Niepokojczyce chapel of the Helvetic congregation was operated under the auspices of the family Rayski
[Evangelische Kirche Helvetischen Bekenntnisses / Evangelische Kirche, is the Calvinist church of the reformed trend; Calvinism is the dominant confession in Scotland and in the many cantons of Switzerland].
Niepokojczyce, is situated near Jamna / Jamno / Yamno [east district in BRZESC], the Kobryn county, Polesie; rural commune of Zbirohi / ZBIROGI [18 km north-east to the center of BRZESC] by the Muchawiec river.
Compare:
Rasna
- in the second half of the nineteenth century, it was bought by Calvinist Count Jan Grabowski. Already from the beginning of the nineteenth century, a small Calvinist church in the village stood where the mausoleum of the Grabowski family was located. The branch of this parish was Niepokojczyce under the patronage of the Rayskis.
Here in 1765 Tadeusz Matuszewicz was born - Polish politician, Minister of the Treasury of the Kingdom of Poland and Minister of Treasury of the Warsaw Duchy
His {Mikolaj Mikolajewicz} brother was Michal Mikolajewicz Romanow b. 1832, d. December 1909; Grand Duke of Russia, field marshal, chairman of the Council of State (1881-1905). In 1862-1882 he was the general-governor of the Caucasus. He worked in Tbilisi.
Grand Duke Mikhail Nikolayevich had son Grand Duke Alexander Mikhailovich - Sandro / Sasho who was a key figure in the development of the Russian air force; Alexander Mikhailovich (Sandro), b. 01 April 1866 in Tbilisi died 1933, Nice, France.
Alexander Mikhailovich (Sandro): Chief of the Commercial navigation and ports (1902-1905), during the First World war was in charge of the aviation in the army: paid much attention to the development of aviation industry in Russia [Duflon and Konstantynowicz Company], on his initiative, established flight schools, began preparing the first national flight training and 1914 appointed head of the organization of aviation business in the armies.
Alexander Mikhailovich (Sandro) was the Freemason, and he called himself Philalethes.
Receiving education at home in Georgia, often went for long voyages: 1886 - 1889 made a voyage round the world on the corvette 'Rynda' and in 1890 - 91, at his own yacht 'Tamara' traveled to India, described in his journals.
Grand Duke Michael Nikolaevich b. 1832, the fourth son of Tsar Nicholas I, died in Cannes on 18 December 1909; the funeral was in Russia; Field Marshal.
Mentioned
Nicholas I, Tsar of Russia was partner of Countess Olga Kalinowska [see Trubecki, Konstantynowicz, Oginski and Wola Pszczolecka] but she happened to be the mistress of Tsarevitch Alexander, the son of Tsar Nicholas I. Olga was pregnant by either the Tsarevitch or his father Nicholas I. On 10 October 1848 or in 1849 Olga gave birth to Prince Bogdan or Michael-Bogdan - Oginski by name and Romanov by gene.
I am presenting here several Poles fighting in the Russian army during the war 1877-78:
Artur Niepokojczycki / Niepokójczycki (1813-1881)
- Russian general. Pole. After graduating for some time he served in the General Staff.
NIEPOKÓJCZYCKI Artur, born in 1813 in the Niepokójczyce estate close to ZABINKA, died in Petersburg.
Arthur Adamovich Nepokojchitsky wasn't born in Slutsk.
His father ADAM NIEPOKÓJCZYCKI / Niepokojczycki was the district leader of the nobility - the Sluck marshal of nobility.
Arthur Adamovich Nepokojchitsky was born when the war with Napoleon rattled. Originated from the old German clan von-Upru, who moved to Poland.
The Niepokojczyce chapel of the Helvetic congregation was operated under the auspices of the family Rayski
[Evangelische Kirche Helvetischen Bekenntnisses / Evangelische Kirche, is the Calvinist church of the reformed trend; Calvinism is the dominant confession in Scotland and in the many cantons of Switzerland].
Niepokojczyce, is situated near Jamna / Jamno / Yamno [east district in BRZESC], the Kobryn county, Polesie; rural commune of Zbirohi / ZBIROGI [18 km north-east to the center of BRZESC] by the Muchawiec river.
Compare:
Rasna
- in the second half of the nineteenth century, it was bought by Calvinist Count Jan Grabowski. Already from the beginning of the nineteenth century, a small Calvinist church in the village stood where the mausoleum of the Grabowski family was located. The branch of this parish was Niepokojczyce under the patronage of the Rayskis.
Here in 1765 Tadeusz Matuszewicz was born - Polish politician, Minister of the Treasury of the Kingdom of Poland and Minister of Treasury of the Warsaw Duchy