19th century in the history of computer science

The French inventor Joseph Marie Jacquard (Joseph-Marie Jacquard, 07.07.1752 - 07.08.1834) invented a way to automatically control the thread when working on a loom. The method was to use special cards with drilled in the right places (depending on the pattern that was supposed to be applied to the fabric) holes. Thus, he designed a device for a loom, whose work could be programmed using special cards.

Card-driven loom

Joseph marie jacquard

Jacard cards

The work of the machine was programmed with the help of a whole deck of punched cards, each of which controlled one shuttle stroke. Moving on to a new pattern, the operator simply replaced one deck of punch cards with another. The creation of a loom, controlled by cards with holes punched on them and connected to each other in the form of a tape, is one of the key discoveries that led to the further development of computer technology.

Jacquard Punch Cards

The Alsatian Charles-Xavier Thomas de Colmar (1785–1870) became the pioneer of serial production of counting machines. Having introduced a number of operational improvements in the Leibniz model, in 1821 he began to produce in his Parisian workshop 16-bit calculators, which are known as “Thomas machines”. At first they were expensive - 400 francs. And produced in not too large quantities - up to 100 copies per year. But by the end of the century, new manufacturers appear, competition arises, prices drop, and the number of buyers increases.

The rapid development of mechanical calculators led to the fact that by 1890 a number of useful functions were added: memorizing intermediate results using them in subsequent operations, printing the result, etc.

Counting machine Charles-Xavier Tom de Colmar

Creating an inexpensive, reliable machines allowed to use these machines for commercial purposes and scientific calculations.

Magazine "Submarine" No. 2-1999 AIFMOMETER OF CARL THOMAS AND ITS MODIFICATIONS

Andre-Marie Ampère

The first electromagnetic telegraph was invented by the great physicist Andre-Marie Ampere (Andre Marie Ampere, 01.22.1775 - 06/10/1836) in 1820. The idea of ​​Ampere was that instead of pieces of paper or elder balls used as an indicator of the presence of voltage on the desired wire in “electrostatic” structures, use a magnetic needle that deviates when the current passes through the wire. Switching current on the transmitting side at Ampere was carried out in a completely modern way - using the keys with written letters. But in the current structure, this idea has not been embodied.

Home Computer Magazine No. 09-2002 WE TAKE THE DISTANCES ... (Pavel Lvovich Schilling Telegraph, Morse Code, Cyrus Field)

Weekly "Computerworld" №11-2002 HISTORY OF NETWORKS (From pigeon mail to Gigabith Ethernet)

Ada lovelace

The English mathematician CHARLES BEBBIDG (Charles Babbage, 1792-1871) put forward the idea of ​​creating a software-controlled counting machine that has an arithmetic unit, a control, input and print device.
The first Babbage-designed machine, the Difference Machine , worked on a steam engine. She calculated the tables of logarithms by the method of constant differentiation and put the results on a metal plate. The working model, which he created in 1822, was a six-digit calculator capable of performing calculations and printing numerical tables.

Simultaneously with the English scientist, she worked as a lady, Ada Byron, Countess of Lovelace, 1815-1852. She developed the first programs for the machine, laid many ideas and introduced a number of concepts and terms that have survived to the present.

Charles babbage

Part of the Differential Machine

Weekly "Computerworld" №17-2001 CHARLES BEBBIDGE - INVENTOR AND ... POLITECONOMY

Home Computer Magazine No. 10-2002 PRASHUR ( Charles Babbage, Ada Augusta Lovelace)

Magazine "Submarine"
№1-1998 LADY LAVLEYS - FIRST PROGRAMMER
№5-2002 ADA LAVLACE: A FLIGHT ON THE WINGS OF MATHEMATICS
№7-1999 HISTORY OF THE ORIGIN AND CREATION OF DIFFERENT COMPUTING MACHINES

Newspaper "INFORMATICS" LANGUAGE ADA

COMPUTER Magazine
№ХХ-2003 ANALYTICAL CHARLES BEBBID MACHINE (In the history of computer technology, the name of Charles Babbage occupies a special place. He created the first programmable computer, attempting to implement many ideas that will find their use in computer technology)

Difference machine, constructed from Babbage's records a hundred years after his death.

RECONSTRUCTED ANALYTICAL MACHINE

The Babbage analytic machine was built by enthusiasts from the London Science Museum. It consists of four thousand iron, bronze and steel parts and weighs three tons. True, it is very difficult to use it - with each calculation it is necessary several hundred (or even thousands) to turn the handle of the machine.

Numbers are recorded (dialed) on discs located vertically and set to positions from 0 to 9. The engine is driven by a sequence of punched cards containing instructions (program).

Babbage Punch Cards for Analytical Machine

Pavel L. Schilling

Pavel Lvovich Schilling (Schilling von Cannstat, Pavel Schilling von Cannstatt 5 (16) April 1786, Tallinn - July 25 (August 6) 1837, Petersburg) was born in Revel (Tallinn) into the family of Baron L. F. Schilling, commander of an infantry regiment. In 1802, he graduated from the First Cadet Corps in St. Petersburg and served for a year in the General Staff of the Russian army. In the years 1810-1812. worked as a translator at the Russian embassy in Munich (Germany), where he met the inventor of the electrolytic telegraph, S.T. Zemmering.

In 1828, after five years of electro-telegraphy, PL Schilling developed the world's first electromagnetic telegraph with a single magnetic arrow, equipped with a black and white circle and driven in turn by successively transmitted electrical signals, the combinations of which constituted the desired sign. However, before the public demonstration of the device it did not come.

Later, he creates an electromagnetic telegraph with a six-switch receiver. For his work, the scientist developed the first telegraph code, which marked the beginning of the binary coding system, in which black and white circles with magnetic arrows turning in the magnetic field of six coils played the role of ones and zeros. For the first time, a demonstration of the operation of the device took place on October 9 (21), 1832, at the scientist’s apartment on the Field of Mars in St. Petersburg. The text of the first memorable telegram in French was composed and transmitted by the Russian emperor Nicholas I. In Russian it sounded like this: "I was very glad to visit Mr. Schilling." The first lines of telegraph communication in 1832-1837. First, they interconnected the premises of the Winter Palace, then the Winter Palace with the Admiralty, and Peterhof - with Kronstadt. From that moment on, the era of electrical communications began.

Schilling telegraph, 1828

PL Schilling did not patent his design. In 1835, P.L. Shilling gave a report on the invention at the conference in Bonn. Information about this spread throughout Europe, and in 1837-1838. The Englishman W. Cook, together with the renowned physicist C. Wheatstone (“Wheatstone's Bridge”), received two patents for a design similar to that of Shilling, and even built a valid line along one of the English railways.

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In 1886, by the centenary of PL Shilling, the chief mechanic of the Petersburg telegraph, I.N. Devyankin, restored two remaining sets of Schilling telegraphs. Each set with the composition of the one- and six-switch apparatus with the calling device was mounted on the same table top. One of them is in the Polytechnic Museum, the other is in the Central Museum of Communications in St. Petersburg.

Magazine "Home Computer" №09-2002 WE TEMPT DISTANCES ...

The weekly "Computerworld" №11-2002 HISTORY OF NETWORKS

Newspaper "INFORMATIKA"
PAVEL LVOVICH SHILLING AND ELECTRIC TELEGRAPH
ON THE WAY TO TELEGRAPH

In 1828, Major-General of the Russian Army F. M. Slobodskoy created counting devices, which, together with special tables, made it possible to reduce arithmetic operations to addition and subtraction.

Joseph henry

Joseph Henry (Joseph Henry, December 17, 1779 - May 13, 1878) American physicist, first secretary of the Smithsonian Institution invented electromechanical RELAY . Henry was considered one of the greatest American scientists since Benjamin Franklin.

Relay Joseph Henry

The first electric telegraph was created in 1937 by the English inventors William Cook (William Fothergill Cooke, 1806-1879) and Charles Wheatstone (Charles Wheatstone, 1802-1875). Electric current through the wires was sent to the receiver. The signals triggered the arrows on the receiver, which indicated different letters and thus transmitted messages. The first message was sent by telegraph on July 25, 1837, by Charles Wheatstone from the Euston railway station. This message was received by William Fosergil Cook, who was in Camden district of London.

Cook and Wheatstone telegraph model

Thomas Fowler's Restored Counting Machine

In May 1840, Thomas Fowler presented his brainchild to King's College, London, in an accompanying note: “The machine was built by me, with my own hands, from wood, it is six feet in length, one in depth and three in height. If it could be made of metal, then it would be no more than a compact typewriter. ” Further, Fowler wrote: “The main feature of the machine is that instead of the usual decimal number system the record is used by triads (meaning the ternary number system). So, 1 and 2 are presented as usual, 1 and 2, and 3 is written as 10, for 4 is the record 11, 5 - 12, etc. ".

If we compare the “architecture” of Fowler’s machine with others, then in its conception the wooden machine noticeably surpassed not only mechanical analogs, but also the first ENIAC electronic machine Eckert-Mauchly. The ENIAC computer was actually an electronic version of the Pascalin, created 300 years earlier, with components assembled from vacuum tubes replaced by Blaise Pascal's gear designs. And, of course, Fowler's car was much simpler than Babbage's cars.

The weekly "Computerworld" №42-2002 DEARING MACHINE IN THE XIX CENTURY

Continuing the work of P. L. Schilling in the period 1839-1845. Boris Semenovich (Moritz Hermann von) Jacobi (Moritz Hermann von Jacobi, 09.21.1801 - 11.27.1874) - an outstanding Russian electrical engineer, academician, constructs several types of telegraph devices (the inventor of the direct-printing telegraph).

In 1842-1845, B.S. Jacobi built a telegraph with underground wires between St. Petersburg and Tsarskoye Selo.

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Only in 1844 an ode appeared telegraphic connection between Washington and Baltimore on the apparatus of S. Morse.

Newspaper "INFORMATIKA" BORIS SEMENOVICH YAKOBI

Jacobi Boris Semenovich, 1856

Morse samuel finley breeze

American artist Morse Samuel Finley Breeze (Samuel Finley Breese Morse, 04/27/171 - 04/02/1872) invented a new telegraph code , replacing the Cook and Wheatstone codes. He developed for each letter characters from dots and dashes.
Morse made a demonstration of his code, laying a 6-meter long telegraph wire from Baltimore to Washington and transmitting news about the presidential election. Already in 1844, Samuel Morse transferred from Baltimore to Washington the coded phrase "Your deeds are wonderful, Lord."

Magazine "Home Computer" №09-2002 WE TEMPT DISTANCES ...

The weekly "Computerworld" №11-2002 HISTORY OF NETWORKS

Later (in 1858), Charles Wheatstone created a system in which the operator, using Morse code, stuffed messages on a long paper tape that came into the telegraph. At the other end of the wire, the recorder stuffed the received message onto another paper tape. Telegraph performance is increased tenfold — messages are now being sent at a hundred words per minute.

A patent was issued for the Zinoviya.Y.Slonimsky calculating device - the addition and subtraction projectile summing machine, for which the author received the Demidov Prize. The device of this machine, according to the recall of academicians Fuss and Bunyakovsky, is based on a special arithmetic theorem, "quite remarkable, open and proven by Slonim."

In Russia, in addition to the Slonimsky device and modifications of the Kummer numerator, the so-called countable bars, invented in 1881 by Ioffe, were quite popular.

Solver Slonimsky

Staffel 1842

In 1945, the computer of the Israeli watchmaker Staffel (Izrael Abraham Staffel, 1814-1884) was demonstrated at the industrial exhibition in Warsaw, for which he received a silver medal. Now this machine is stored in the Museum of Technology in Warsaw. The presented computer could perform only operations of addition and subtraction. Shtaffel began his work in 1935, and in 1842 the computer was ready.

In 1846, the Staffel machine was demonstrated at the Academy of Sciences in St. Petersburg. The leading experts of that time, Viktor Yakovlevich Bunyakovsky and Boris Semenovich Jacobi, gave a positive assessment, and the computer was awarded the prestigious Demidov Prize. Later, the car was introduced to the Russian Emperor Nicholas I, who was so impressed by this invention that he ordered the inventor to give out the amount of 1,500 silver rubles.

The administration of the 1st World Industrial Exhibition in London awarded a medal to an exhibit of the Russian Empire - Israel’s Staffel Mechanical Computing Machine with the resolution “This is the best machine on display” .
Shtaffel introduced a 13-bit computing machine (second machine), performing four arithmetic operations, as well as raising to a power and extracting square roots. The car had additional digits for fractional numbers and was very convenient for practical calculations. Shtaffel master it for almost ten years at his own expense.
The advantage of the Staffel machine was that, when multiplying, it did not have to add the product from individual numbers, although it was purely mechanical — simple, and the algorithm of its operation was not based on multiplication formulas.

Unfortunately, the machine did not go into mass production. The cost of the car was high, and the demand for such mechanisms was still very small.

Machine Staffel, drawing from the magazine "Tygodnik Ilustrowany"

Kummer numerator

The world's first pocket calculator, initiated the development of mass computing tools for individual use. It was invented by the Pereburg music teacher G. Kummer in 1846 and named the “countable projectile” (later it was called the “ numerator ”). The main element of the device design is toothed counting slats.

In the 19th century, numerals in Russia were produced by I.E. Milky In the 1920s - 1930s, they were known under the names "Pioneer" and "Pocket Arithmometer", the latest model "Arithmetic line" was made in the USSR until the end of 1970.

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The English mathematician GEORGE BUL (George Boole, 02.11.1815-08.12.1644) published the paper "Mathematical Analysis of Logic". So a new branch of mathematics appeared. He was named Boolean algebra . Each value in it can take only one of two values: true or false, 1 or 0. This algebra is very useful to the creators of modern computers. After all, the computer understands only two characters: 0 and 1. It is considered the founder of modern mathematical logic.

Newspaper "INFORMATIKA" ARISTOTEL, LEIBNITZ, BUL

George boule

In the United States issued a patent D. Parmelyu on the first keypad summing machine.

Georg Schutz

Georg Schutz (Per Georg Scheutz, 09.23.1785-22.05.1873) is a Swedish lawyer, translator and inventor, best known for his innovative work in computer technology. The most famous work is the Schutz computing machine, invented in 1837 and assembled in 1843. The machine he did with his son Edward Schutz was based on Charles Babbage's difference machine. Улучшенная модель, примерно в размер фортепьяно, была создана в 1853 г. и впоследствии демонстрировалась на Всемирной выставке в Париже в 1855 г. В 1859 г. машина была продана британскому правительству. Шутц создал еще одну машину в 1860 г. и продал ее Соединенным Штатам. Машина предназначалась для создания логарифмических таблиц.

Машина Шутца

В 1854 г. французский механик Ш.Бурсель высказал предложение об использовании электрического тока для передачи звуковых сигналов. Через несколько лет эту идею реализовал для передачи музыкальных сигналов немецкий изобретатель Ф. Рейс («музыкальный телефон»).

В 1855 г. английский изобретатель Д.-Э. Юз (1831-1900) построил первый применимый на практике буквопечатающий телеграфный аппарат для передачи со скоростью 40 слов в минуту.

В том же году итальянский физик Джованни Казелли предложил конструкцию фототелеграфа для передачи на расстояние изображений, основанный на электрохимической записи при приёме. Телеграф передавал изображение текста, чертежа или рисунка, нарисованного на свинцовой фольге специальным изолирующим лаком. Контактный штифт скользил по этой совокпуности перемежающихся участков с большой и малой электропроводностью, «считывая» элементы изображения. Передаваемый электрический сигнал записывался на приёмной стороне электрохимическим способом на увлажнённой бумаге, пропитанной раствором железосинеродистого калия (феррицианида калия).

Фототелеграф Дж.Козелли, 1855 г.

Телеграфный аппарат Юза
Завод «Сименс и Гальске»

В 1857 году американец Томас Хилл (Thomas Hill, 1818-1891) создал первую многоразрядную машину. Машина Хилла была двухразрядной и в каждом разряде имела по девять расположенных вертикальными колонками клавиш и по храповому колесу. Машина Хилла была выставлена в Национальном музее в Вашингтоне, но конструктивные недостатки и малая разрядность помешали ее дальнейшему распространению.

Машина Хилла

Томас Хилл

Больман Александр-Наполеон Казимирович (1805-1887) предложил новый вариант русских счетов, дошедших до наших дней, Он изготовил свои счеты с 9 косточками в полных рядах. На этих счетах можно было возводить в степень, извлекать корни, вычислять сложные проценты и выполнять четыре арифметических действия.

В Швеции Мартин Виберг (Martin Wiberg, 4 сентября 1826-29 декабря 1905) на основе идей Бэббиджа и Шейца построил разностную машину меньшего размера, табулирующую функции с четвертыми постоянными разностями с точностью 15 знаков. Машина использовалась для расчёта и публикации печатных логарифмических таблиц.

Машина Виберга

Мартин Виберг

Сайрус Филд

The initiator of the laying of the telegraph line between the Old and the New World was an entrepreneur Cyrus West Field . The first laying of the transatlantic telegraph cable began on 6 August 1857 from a bay in the southwestern part of Ireland. But only the fifth expedition, which began on July 13, 1866, was successful. Two weeks later, on July 27, the Great Eastern approached Newfoundland and dropped anchor. This day is considered the day of the beginning of a permanent electrical connection between Europe and America.

INFORMATICA Newspaper No. 2001 (Summer) FIRST TRANS-ATLANTIC

Magazine "Home Computer" №09-2002 WE TEMPT DISTANCES ...

Viktor Yakovlevich Bunyakovsky

Viktor Yakovlevich Bunyakovsky (1804-1889) invented self-calculations, which were based on the principle of connected digital wheels (Pascal gears).

One of the first inventions in the field of domestic computing technology, the original attempt to improve the Russian accounts. By definition of the author himself, the name of the device - "self-calculation" was determined by the fact that "the setting of numbers - has a similarity with the throwing of stones, but at the same time the numbers are added together, and units of different categories are automatically placed in the appropriate places." The main purpose of the device is to perform multiple additions and subtractions.

In this device it was impossible to enter numbers greater than 14 (!). The device became widely known due to the authority of its inventor, Academician V.Ya. Bunyakovsky.
Bunyakovsky's improved self-computations are intended to add a large number of two-digit terms, but they can (although less conveniently) be subtracted. The device consists of a rotating brass disk, mounted on a wooden board, and a fixed metal ring with printed numbers (from 1 to 99).

Bunyakovsky's self-counters

Two copies of these improved self-accounts have come down to our time, one of which is stored in the Petrozavodsk Regional Museum, and the other in the Polytechnic Museum.

Literature: Maistrov, L. Ye., Petrenko, O. L. Instruments and instruments of historical significance: computers. M .: Science, 1981 - p.54-55.

Typewriter Remington

In 1867, the American publisher and politician Christopher Scholes (Christopher Sholes, 1819–1890), together with his friend Karl Glidden, invented an apparatus for sequential numbering of book pages. This simple device served as a prototype typewriter. Scholes patented his device in 1867.

After six years, the Scholes and Gliddenen typewriter, known as Remington No. 1, began to be produced by a solid weapon company, which in 1951 began to produce the first UNIVAC serial computer.

Among the first buyers of the machine was the famous American writer Mark Twain.

Scholes created about 30 machines and developed a keyboard similar to the modern one (with the QWERTY layout ). By the way, the Shift key was added only in 1878, before capital letters were located on the keyboard separately.

In 1936, Augustus Dvorak, dissatisfied with QWERTY , comes up with his own, more ergonomic layout, but by that time the popularity of the brainchild of Christopher Scholes was so great that, despite the merits, the layout of Dvorak does not spread.

Logic machine

In 1870 (one year before Babbage’s death), the English mathematician William Stanley Jevons (William Stanley Jevons, 09/01/1835 - August 13, 1882) constructed (probably, the first in the world) a “logical machine” allowing mechanization of the simplest inferences.

William Stanley Jevons

In the 1870s The French mechanical engineer J. Bodo invented telegraph devices, which allowed several messages to be transmitted simultaneously via the same cable.

Counting device by Frank Baldwin, 1875

Inventor Frank Baldwin (Frank Baldwin) suggested using a wheel with a variable number of teeth for the calculating device. Later F. Baldwin in Washington received a patent for his invention.

Fedor Venediktovich Yezersky

The representative of the Russian original accounting thought, a remarkable economist Fedor Venediktovich Yezersky (1836-1916) designed the abacus with a machine for multiplication and division. Along the long strip of the frame of these accounts are placed two rollers on which the tables are screwed. Rotating rollers, it was possible to receive private works, which were then added to the accounts.

Yezersky abacus

Alexander Graham Bell (Alexander Graham Bell, 03/03/1847– 02/08/1922 ), a Scotsman from Boston (Mass., USA), together with Thomas Whitson (1854-1934), constructed a device consisting of a transmitter (microphone) and receiver (speaker) . The microphone turned the voice sounds into alternating current. The current through the wires entered the speaker of another device, where the signals were again turned into the sounds of voices.

On February 14, 1876, Alexander Graham Bell filed an application for his invention - "The Telegraph, through which one can transmit human speech" (telephone).

So the phone appeared. For several decades, this type of communication has gained unheard of popularity and is on par with its older brothers - mail and telegraph.

A sketch of a telephone set made by Bell (presumably 1876)

Telegraph receiver typed dots and dashes

Thomas Edison

English scientist Joseph Swan (10/31/1828 - 05/27/1914) invented the light bulb. It was a glass flask, inside which was a carbon filament. To prevent the thread from burning out, Swan removed air from the flask.
The following year, the American inventor Thomas Edison (Thomas Alva Edison, 11.02.1847—18.10.1931) also invented the light bulb. In 1880, Edison began producing safe light bulbs, selling them for $ 2.5. Subsequently, Edison and Swan formed a joint company, Edison and Swan United Electric Light Company.

In 1883, experimenting with a lamp, Edison introduces a platinum electrode into a vacuum balloon, supplies voltage and, to his surprise, discovers that current flows between the electrode and the carbon filament. Since at that moment Edison's main goal was to extend the life of the incandescent lamp, he was not interested in this result, but the entrepreneurial American did get the patent. The phenomenon known to us as thermionic emission, then received the name "Edison effect" and for some time was forgotten.

Bulbs of J. Swana (1878) and T. Edison (1879)

Joseph swan

Russian mathematician and mechanic Pafnuti L. Chebyshev (1821-1894) creates a summing machine with continuous transmission of tens. In the created apparatus for the first time, automation of all arithmetic operations was achieved. In 1881, a prefix for the multiplier and multiplier was created. The principle of continuous transmission of dozens was widely used in various counters (N. Tesla’s speedometer) and computers (Mergend in the USA, Dyrant in Switzerland, etc.).

Chebyshev Arithmometer

Newspaper "INFORMATIKA"
MATHEMATIC (Pafnuty Chebyshev Lvov, Chebyshev arithmometer)
MECHANICAL CALCULATORS (The creation of the first mechanical counting devices associated with the names of V. Shikkarda, B. Pascal and G. Leibniz)

Paphnuti L. Chebyshev

Wilgodt Teofilovich Odner (Willgodt Theophil Odhner, 1846-1905), a Swede by nationality, lived in St. Petersburg and worked as a master of the expedition, which produces government money and securities. He made all of his patented inventions in Russia: a mechanical method of numbering money, a machine for making cigarettes, a mechanical box for secret voting, turnstiles.

However, the main achievement of Odner was the adding machine. I must admit that before Odner too there were arithmometers - systems of K. Thomas. However, they were distinguished by unreliability, large size and inconvenience in their work.

Wilgodt Teofilovich Odner

Wilgodt Odner died in 1906. His enterprise for the production of calculators passed to his heirs and lasted until 1917. In the first quarter of the 20th century, Odner counters were produced under various names throughout the world. It should be noted that in 1914 only the "Russian park" of such devices was 22 thousand units.

American engineer HERMAN HOLLERIT (Herman Hillerith, 1860-1929) took the patent "for a census machine". The invention included a punch card and sorting machine. Hollerith's punch card was so successful that it existed without any changes to this day.

Hollerith Tabulator

The idea to put data on punch cards and then read and process them automatically belonged to John Billings, and its technical solution belongs to Herman Hollerith.

The tabulator took cards the size of a dollar bill. The cards had 240 positions (12 rows of 20 positions). When reading information from punch cards, 240 needles penetrated these cards. Where the needle fell into the hole, it closed the electrical contact, as a result of which the value in the corresponding counter was increased by one.

The 80-column punch card developed by Cholerit did not undergo significant changes and was used as a storage medium in the first three generations of computers.

Magazine "Submarine"
No. 5-99 STATISTICAL MACHINE OF G. HOLLERIT
№6-99 FIRST UNIVERSAL CENSUS IN RUSSIA

Newspaper "INFORMATIKA"
COMPLEXES AND KITS (The founder of the counting-perforating technology, the direct predecessor of relay machines, is an American of German origin Herman Hollerith)

Dorr Felt (Dorr E. Felt, 1862–1930), together with R.Tarnt from Chicago, builds his Comptometer, the first calculator where numbers are entered by pressing keys.

One of the models of Comptometer

One of the models of the Adrift Burrows, 1910

William Burrows (William S. Burroughs, 1857–1898) offers a device similar to the Felt calculator, but more reliable.

In January 1886, William Burrows, manufacturer T. Metkalf, entrepreneur R. M. Scraggs and another entrepreneur H. Pai set up an American company of adders, one of the world's first firms engaged in the production of counting machines.

Journal "Home Computer" № 08-2002 MECHANIZATION

In Russia, S. Laptev, in Germany, G. Meisenbach, in Finland, F. Egloffstein and in the USA, M. Levi, independently from each other, invent a raster - splitting an image into dots using a special grid.

The forgotten machine of logical thinking of professor Alexander Nikolaevich Shchukarev

В 1893 году профессор университета в Одессе И.Слешинский опубликовал статью "Логическая машина Джевонса" ("Вестник опытной физики и элементарной математики", 1983 г., №7).

В дореволюционной России логическую машину построили Павел Дмитриевич Хрущев (1849-1909) и Александр Николаевич Щукарев (1884-1936), работавшие в учебных заведениях Украины.

Первым был проф. П.В. Хрущев. Экземпляр машины, созданный им в Одессе, получил "в наследство" профессор Харьковского технологического института Щукарев, где он работал начиная с 1911 года. Он сконструировал машину заново, внеся в нее целый ряд усовершенствований, и неоднократно выступал с лекциями о машине и о ее возможных практических применениях. Одна из лекций была прочитана в 1914 г. в Политехническом музее в Москве. Присутствовавший на лекции проф. A.N. Соков писал: "Если мы имеем арифмометры, складывающие, вычитающие, умножающие миллионные цифры поворотом рычага, то, очевидно, время требует иметь логическую машину, способную делать безошибочные выводы и умозаключения, одним нажатием соответствующих клавиш. Это сохранит массу времени, оставив человеку область творчества, гипотез, фантазии, вдохновения - душу жизни". Эти пророческие слова были сказаны в 1914 г.! (Журнал "Вокруг света", №18, статья А.Н. Сокова "Мыслительная машина"). Джевонс, первосоздатель логической машины, не видел для нее каких-либо практических применений.

К сожалению, машины Хрущева и Щукарева не сохранились. Однако, в статье "Механизация мышления" (логическая машина Джевонса), опубликованной профессором А.Н.Щукаревым в 1925 г.("Вестник знания", №12), дается фотография машины сконструированной Щукаревым и ее достаточно подробное описание, а также, что очень важно - рекомендации по ее практическому применению.

В Цюрихе фирма "Ганс Эгли" выпускает в течение 40 лет счетную машину Болле-Штайгера "Миллионер".

В 1897 г. изобретатель из Страсбурга Карл Фердинанд Браун (Karl Ferdinand Braun, 06.06.1850 - 20.04.1918) сконструировал первую электронно-лучевую трубку (кинкскоп, катодо-лучевая трубка). В немецкоговорящих странах кинескоп до сих пор называют трубкой Брауна.

Трубка Брауна

Карл Фердинанд Браун

В Дании, 29-летний лаборант технического сектора телефонной станции г. Копенгаген Вальдемар Паульсен (Valdemar Poulsen, 23.11.1869-23.06.1942) разработал конструкцию аппарата для магнитной записи звука. 1 декабря 1898 г. он запатентовал свое изобретение. Аппарат В. Паульсена получил название “телеграфон” - устройство, в котором запись производилась электрическим способом на тонкую стальную проволоку, намотанную на вращающийся цилиндр.

Телефон Паульсена, 1898

В 1899 году в России была построена линия беспроводной ( радио ) связи длиной 40 км. Зимой 1899—1900 гг. благодаря радиограмме, переданной по этой линии, ледокол «Ермак» спас рыбаков, унесенных штормом в море. Она была также успешно применена при спасении броненосца «Генерал-адмирал Апраксин», потерпевшего аварию у острова Гогланд на Балтике.