List of Presidents of the American Institute of Electrical Engineers (AIEE): Difference between revisions
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[[Image:AIEE Presidents 0236.jpg|thumb|right|AIEE presidents, including Steinmetz at center]] | |||
<p>[[Image:1920s photo past AIEE presidents 1795.jpg|thumb|right|A group of past presidents at the AIEE Chicago Convention, June 29, 1911. Photo appears on page 1773 of the 50th Anniversary special issue of "Electrical Engineering." Back row (l-r) Gano Dunn, Dugald C. Jackson, Louis A. Ferguson, Schulyer S. Wheeler, John W. Lied, and Bion J. Arnold. Front row (l-r) Francis C. Crocker, T. Commeford Martin, Frank J. Sprague and Charles P. Steinmetz.]] </p> | <p>[[Image:1920s photo past AIEE presidents 1795.jpg|thumb|right|A group of past presidents at the AIEE Chicago Convention, June 29, 1911. Photo appears on page 1773 of the 50th Anniversary special issue of "Electrical Engineering." Back row (l-r) Gano Dunn, Dugald C. Jackson, Louis A. Ferguson, Schulyer S. Wheeler, John W. Lied, and Bion J. Arnold. Front row (l-r) Francis C. Crocker, T. Commeford Martin, Frank J. Sprague and Charles P. Steinmetz.]] </p> | ||
<p>[[ | <p>[[Norvin Green|Norvin Green]], 1884-86, became the president of Western Union in 1878. He later was one of the founders of the AIEE in the early 1880s. </p> | ||
<p> | <p>[[Franklin Pope|Franklin L. Pope]], 1886-87, one of America’s first practicing electrical engineers. In addition to his inventions and patents, which greatly contributed to the field of electrical engineering, he authored several books in the genres of literature, history, and genealogy. </p> | ||
<p>[[ | <p>[[T. Commerford Martin|T. Commerford Martin]], 1887-88, editor of electrical magazines and an author of various works. He also worked for the U.S. Census Office from 1900-1915, where he wrote reports about electrical industries and utilities. </p> | ||
<p> | <p>[[Edward Weston|Edward Weston]], 1888-89, improved electrical instruments so that they would be more portable and that their measurements would become more accurate. In 1908, his standard cell became the universal standard of electromotive force. </p> | ||
<p>[[ | <p>[[Elihu Thomson|Elihu Thomson]], 1889-90, his invention of the 3 coil dynamo was the foundation to a successful electric lighting system that he and colleague E. J. Houston produced in 1879 through their company Thomson-Houston Electric Company. This company merged with Edison General Electric Company in 1892 to form General Electric Company. </p> | ||
<p> | <p>[[William Anthony|William A. Anthony]], 1890-91, professor of physics and mechanics at many U.S. universities. In addition to teaching, he also contributed articles to many electrical engineering magazines, and was an electric engineer consultant in New York City. </p> | ||
<p>[[ | <p>[[Alexander Graham Bell|Alexander Graham Bell]], 1891-92, most known for his invention of the telephone in 1876. </p> | ||
<p> | <p>[[Frank J. Sprague|Frank Julian Sprague]], 1892-93, founded the Sprague Electric Railway and Motor Company, which later developed an electric railway system in Richmond, Virginia using electric traction. </p> | ||
<p>[[Edwin | <p>[[Edwin Houston|Edwin J. Houston]], 1893-95, collaborated with Elihu Thomson to create a successful electric lighting system. In addition to his inventions, Houston was also a university professor, author, and engineering consultant. </p> | ||
<p> | <p>[[Louis Duncan|Louis Duncan]], 1895-97, served as an electrical engineering professor at Johns Hopkins University for 14 years. After retiring from his career in academia, Duncan was an engineering consultant for many traction, utility, and railway companies. </p> | ||
<p>[[ | <p>[[Francis B. Crocker|Francis B. Crocker]], 1897-98, pioneered the design for commercially successful motors. Crocker also supported the national and international standardization of electrical equipment. </p> | ||
<p> | <p>[[Arthur E. Kennelly|Arthur E. Kennelly]], 1898-1900, co-founded the Heaviside-Kennelly layer in the ionosphere with Oliver Heaviside in 1901, which contributed to the study of radio waves. </p> | ||
[[Carl Hering|Carl Hering]], 1900-01, an electrical engineer who researched storage batteries, designed and improved the electric furnace, and made discoveries regarding electromagnetic force. Hering also published works about mechanical and electrical engineering. | |||
<p> | <p>[[Charles Proteus Steinmetz|Charles P. Steinmetz]], 1901-02, worked on inventions for electric motors, generators, and street cars. In addition to his research, he was an electrophysics professor at Union University. </p> | ||
<p>[[ | <p>[[Charles F. Scott|Charles F. Scott]], 1902-03, created a new method for phase transformation called the “Scott Connection.” In 1911, Scott became an electrical engineering professor at Yale University, and he served as the head of the Electrical Engineering Program at the university. </p> | ||
<p> | <p>[[Bion J. Arnold|Bion J. Arnold]], 1903-04, pioneered street railways in numerous cities across the United States, and he helped to bring electricity to New York’s Grand Central Station. In addition to his work on railways, Arnold also invented a magnetic clutch and improved storage batteries. </p> | ||
<p>[[ | <p>[[John Lieb|John W. Lieb]], 1904-05, experimented with the Brush arc light system in the fall of 1877, which led him to work at the Brush Electric Company and later the Edison Electric Company. Leib also worked in Italy, where he directed the completion of Milan’s first electric trolley line in 1893. </p> | ||
<p> | <p>[[Schuyler Wheeler|Schuyler Skaats Wheeler]], 1905-06, worked with Francis B. Crocker on small electric motors. Wheeler invented the electric fire engine, the electric elevator, and the electric fan among other inventions. </p> | ||
<p>[[ | <p>[[Samuel Sheldon|Samuel Sheldon]], 1906-07, a physics and electrical engineering professor at Polytechnic Institute in Brooklyn, New York. While at the university, he expanded their laboratories to include physical, mechanical, and electrical engineering research. </p> | ||
<p> | <p>[[Henry Stott|Henry G. Stott]], 1907-08, the assistant engineer of Buffalo, New York’s underground cable and conduit system. In 1901, he became the supervisor for the Interborough Rapid Transit System in New York City. </p> | ||
<p>[[ | <p>[[Louis Ferguson|Louis A. Ferguson]], 1908-09, recommended the 3 phase a-c system for substations, and has made important contributions to the development of low voltage distribution. </p> | ||
<p> | <p>[[Lewis B. Stillwell|Lewis B. Stillwell]], 1909-10, the director of the Niagara Falls Power Company in 1897, and he became the director of the Rapid Transit Subway Company of New York City in 1900. In addition to his work as an engineer and a consultant, Stillwell was also an advocate for energy conservation. </p> | ||
<p>[[ | <p>[[Dugald C. Jackson|Dugald C. Jackson]], 1910-11, supervised the design and construction of several railway and power plants when he worked as an engineer at Sprague Electric Railway and Motor Company and later as an engineer for Edison General Electric Company. </p> | ||
<p> | <p>[[Gano Dunn|Gano Dunn]], 1911-12, became president of the J. G. White Engineering Corporation in 1913. Included among the company’s projects were the United States Naval Oil Base at Pearl Harbor, 13 transoceanic radio stations, and the first long-distance natural gas pipeline in California. </p> | ||
<p>[[ | <p>[[Ralph Mershon|Ralph D. Mershon]], 1912-13, an engineer whose most notable contribution to engineering is his work with high voltage transmission. Mershon also invented a 6-phase rotary converter, the compounded rotary converter, and a compensating voltmeter among other inventions. </p> | ||
<p> | <p>[[C. O. Mailloux|C. O. Mailloux]], 1913-14, the editor of Electric World, and supported the standardization of technical terms. </p> | ||
<p>[[ | <p>[[Paul Lincoln|Paul M. Lincoln]], 1914-15, invented the synchroscope. He also worked as an electrical engineer, and taught electrical engineering at Cornell University. </p> | ||
<p> | <p>[[John J. Carty|John J. Carty]], 1915-16, designed the “bridging bell”, which allowed extended telephone use to rural areas of the United States. Carty also announced AT & T’s intention to complete a transcontinental telephone line. </p> | ||
<p>[[ | <p>[[Harold Buck|Harold W. Buck]], 1916-17, supervised the experimental work that led to the development of the oil circuit breaker and other high voltage devices while working at General Electric Company. He also worked as the chief electrical engineer at the Niagara Falls Power Company, where he worked on the distribution of power across the U.S.-Canada border. </p> | ||
<p> | <p>[[Edwin W. Rice, Jr.|Edwin W. Rice, Jr]]., 1917-18, is considered one of the three fathers of General Electric. Rice filed over 100 patents for his inventions, which include oil switches of high capacity, arc lamps, and synchronous converters among other creations. </p> | ||
<p>[[ | <p>[[Comfort Avery Adams|Comfort A. Adams]], 1918-19, worked as an electrical engineering professor at Harvard University. His interest in welding technology led him to design the first alternating-current transformer, which allowed him to maintain contact with “real world” engineering work. </p> | ||
<p> | <p>[[Calvert Townley|Calvert Townley]], 1919-1920, an electrical engineer who worked on the installation and equipment maintenance of transit systems in the Northeast. Two of his most notable projects were working with electrical equipment in Boston’s South Terminal and the electrification of railroad lines leaving New York City. </p> | ||
<p>[[ | <p>[[Arthur Berresford|Arthur W. Berresford]], 1920-21, worked as an engineer for the Brooklyn City Railroad Company where he overhauled motors and assisted with trolley line construction. He later worked for the Riker Electric Company, which manufactured rheostats and electric controlling devices. </p> | ||
<p> | <p>[[William McClellan|William McClellan]], 1921-22, supervised the layout and installation of a high-voltage substation and the car equipment for the Erie Railroad. He also worked at University of Pennsylvania as a university professor and dean. </p> | ||
<p>[[ | <p>[[Frank B. Jewett|Frank B. Jewett]], 1922-23, worked as an engineer for AT&T, where his work demonstrated transatlantic radio telephony using a vacuum-tube transmitter. </p> | ||
<p> | <p>[[Harris Ryan|Harris J. Ryan]], 1923-24, a university professor at Cornell University and later Stanford University, where he researched high voltage phenomena. </p> | ||
<p>[[ | <p>[[Farley Osgood|Farley Osgood]], 1924-25, a traveling engineer who made inspections and installations for the New England Telephone and Telegraph Company. He also served as vice president and general manager of Public Service Electric and Gas Company (PSE&G). </p> | ||
<p> | <p>[[Michael Pupin|Michael I. Pupin]], 1925-26, taught mathematical physics at Columbia University. He also studied wave propagation, and applied his findings to long distance telephony experiments and research. </p> | ||
<p>[[ | <p>[[Cummings C. Chesney|Cummings C. Chesney]], 1926-27, a member of the Stanley Electric Manufacturing Company, which built the first revolving field type of alternator used in the United States. </p> | ||
<p> | <p>[[Bancroft Gherardi|Bancroft Gherardi]], 1927-28, improved telephone transmission circuits by demonstrating that telephone transmission followed the same laws of attenuation as lower frequency telegraph. </p> | ||
<p>[[ | <p>[[Randolph Schuchardt|Rudolph F. Schuchardt]], 1928-29, the chief electrical engineer at Chicago Edison Company. </p> | ||
<p> | <p>[[Harold Smith|Harold B. Smith]], 1929-30, one of the pioneers in developing high-voltage power transmission systems and equipment. </p> | ||
<p>[[ | <p>[[William Lee|William S. Lee]], 1930-31, president of W.S. Lee Engineering Corporation of New York and Charlotte. He also worked with James B. Duke in developing hydroelectric resources in the southern United States. </p> | ||
<p> | <p>[[Charles Skinner|Charles E. Skinner]], 1931-32, in charge of the insulation design and magnetic testing departments at Westinghouse Company, and he later organized a research division for the company’s engineering department. Skinner was also active in the field of international standardization. </p> | ||
<p>[[ | <p>[[Harry Charlesworth|Harry P. Charlesworth]], 1932-33, vice president of Bell Telephone Laboratories, Inc., where he directed the development and research of telephone communication. </p> | ||
<p> | <p>[[John Whitehead|John B. Whitehead]], 1933-34, a professor Johns Hopkins University. He also was commissioned as a major in the Corps of Engineers in the U.S. Army during World War I, and he served as an adviser to the Navy during World War II. </p> | ||
<p>[[ | <p>[[J. Allen Johnson|J. Allen Johnson]], 1934-35, served as the chief electrical engineer of the Buffalo Niagara Eastern Power Corporation. </p> | ||
<p> | <p>[[Edward Meyer|Edward B. Meyer]], 1935-36, was the chief electrical engineer of the Public Service Corporation of New Jersey. </p> | ||
<p>[[ | <p>[[Alexander MacCutcheon|Alexander M. MacCutcheon]], 1936-37, the chief engineer for the Reliance Electric and Engineering Company. </p> | ||
<p> William H. Harrison | <p>[[William Harrison|William H. Harrison]], 1937-38, member of the engineering staff at the American Telephone and Telegraph Company. He was later the plant engineer at the Bell Telephone System central office. </p> | ||
<p>[[John Castlereagh Parker|John Castlereagh Parker]], 1938-39 </p> | <p>[[John Castlereagh Parker|John Castlereagh Parker]], 1938-39 </p> | ||
Revision as of 15:38, 1 September 2011
AIEE Presidents, 1884-1961
Norvin Green, 1884-86, became the president of Western Union in 1878. He later was one of the founders of the AIEE in the early 1880s.
Franklin L. Pope, 1886-87, one of America’s first practicing electrical engineers. In addition to his inventions and patents, which greatly contributed to the field of electrical engineering, he authored several books in the genres of literature, history, and genealogy.
T. Commerford Martin, 1887-88, editor of electrical magazines and an author of various works. He also worked for the U.S. Census Office from 1900-1915, where he wrote reports about electrical industries and utilities.
Edward Weston, 1888-89, improved electrical instruments so that they would be more portable and that their measurements would become more accurate. In 1908, his standard cell became the universal standard of electromotive force.
Elihu Thomson, 1889-90, his invention of the 3 coil dynamo was the foundation to a successful electric lighting system that he and colleague E. J. Houston produced in 1879 through their company Thomson-Houston Electric Company. This company merged with Edison General Electric Company in 1892 to form General Electric Company.
William A. Anthony, 1890-91, professor of physics and mechanics at many U.S. universities. In addition to teaching, he also contributed articles to many electrical engineering magazines, and was an electric engineer consultant in New York City.
Alexander Graham Bell, 1891-92, most known for his invention of the telephone in 1876.
Frank Julian Sprague, 1892-93, founded the Sprague Electric Railway and Motor Company, which later developed an electric railway system in Richmond, Virginia using electric traction.
Edwin J. Houston, 1893-95, collaborated with Elihu Thomson to create a successful electric lighting system. In addition to his inventions, Houston was also a university professor, author, and engineering consultant.
Louis Duncan, 1895-97, served as an electrical engineering professor at Johns Hopkins University for 14 years. After retiring from his career in academia, Duncan was an engineering consultant for many traction, utility, and railway companies.
Francis B. Crocker, 1897-98, pioneered the design for commercially successful motors. Crocker also supported the national and international standardization of electrical equipment.
Arthur E. Kennelly, 1898-1900, co-founded the Heaviside-Kennelly layer in the ionosphere with Oliver Heaviside in 1901, which contributed to the study of radio waves.
Carl Hering, 1900-01, an electrical engineer who researched storage batteries, designed and improved the electric furnace, and made discoveries regarding electromagnetic force. Hering also published works about mechanical and electrical engineering.
Charles P. Steinmetz, 1901-02, worked on inventions for electric motors, generators, and street cars. In addition to his research, he was an electrophysics professor at Union University.
Charles F. Scott, 1902-03, created a new method for phase transformation called the “Scott Connection.” In 1911, Scott became an electrical engineering professor at Yale University, and he served as the head of the Electrical Engineering Program at the university.
Bion J. Arnold, 1903-04, pioneered street railways in numerous cities across the United States, and he helped to bring electricity to New York’s Grand Central Station. In addition to his work on railways, Arnold also invented a magnetic clutch and improved storage batteries.
John W. Lieb, 1904-05, experimented with the Brush arc light system in the fall of 1877, which led him to work at the Brush Electric Company and later the Edison Electric Company. Leib also worked in Italy, where he directed the completion of Milan’s first electric trolley line in 1893.
Schuyler Skaats Wheeler, 1905-06, worked with Francis B. Crocker on small electric motors. Wheeler invented the electric fire engine, the electric elevator, and the electric fan among other inventions.
Samuel Sheldon, 1906-07, a physics and electrical engineering professor at Polytechnic Institute in Brooklyn, New York. While at the university, he expanded their laboratories to include physical, mechanical, and electrical engineering research.
Henry G. Stott, 1907-08, the assistant engineer of Buffalo, New York’s underground cable and conduit system. In 1901, he became the supervisor for the Interborough Rapid Transit System in New York City.
Louis A. Ferguson, 1908-09, recommended the 3 phase a-c system for substations, and has made important contributions to the development of low voltage distribution.
Lewis B. Stillwell, 1909-10, the director of the Niagara Falls Power Company in 1897, and he became the director of the Rapid Transit Subway Company of New York City in 1900. In addition to his work as an engineer and a consultant, Stillwell was also an advocate for energy conservation.
Dugald C. Jackson, 1910-11, supervised the design and construction of several railway and power plants when he worked as an engineer at Sprague Electric Railway and Motor Company and later as an engineer for Edison General Electric Company.
Gano Dunn, 1911-12, became president of the J. G. White Engineering Corporation in 1913. Included among the company’s projects were the United States Naval Oil Base at Pearl Harbor, 13 transoceanic radio stations, and the first long-distance natural gas pipeline in California.
Ralph D. Mershon, 1912-13, an engineer whose most notable contribution to engineering is his work with high voltage transmission. Mershon also invented a 6-phase rotary converter, the compounded rotary converter, and a compensating voltmeter among other inventions.
C. O. Mailloux, 1913-14, the editor of Electric World, and supported the standardization of technical terms.
Paul M. Lincoln, 1914-15, invented the synchroscope. He also worked as an electrical engineer, and taught electrical engineering at Cornell University.
John J. Carty, 1915-16, designed the “bridging bell”, which allowed extended telephone use to rural areas of the United States. Carty also announced AT & T’s intention to complete a transcontinental telephone line.
Harold W. Buck, 1916-17, supervised the experimental work that led to the development of the oil circuit breaker and other high voltage devices while working at General Electric Company. He also worked as the chief electrical engineer at the Niagara Falls Power Company, where he worked on the distribution of power across the U.S.-Canada border.
Edwin W. Rice, Jr., 1917-18, is considered one of the three fathers of General Electric. Rice filed over 100 patents for his inventions, which include oil switches of high capacity, arc lamps, and synchronous converters among other creations.
Comfort A. Adams, 1918-19, worked as an electrical engineering professor at Harvard University. His interest in welding technology led him to design the first alternating-current transformer, which allowed him to maintain contact with “real world” engineering work.
Calvert Townley, 1919-1920, an electrical engineer who worked on the installation and equipment maintenance of transit systems in the Northeast. Two of his most notable projects were working with electrical equipment in Boston’s South Terminal and the electrification of railroad lines leaving New York City.
Arthur W. Berresford, 1920-21, worked as an engineer for the Brooklyn City Railroad Company where he overhauled motors and assisted with trolley line construction. He later worked for the Riker Electric Company, which manufactured rheostats and electric controlling devices.
William McClellan, 1921-22, supervised the layout and installation of a high-voltage substation and the car equipment for the Erie Railroad. He also worked at University of Pennsylvania as a university professor and dean.
Frank B. Jewett, 1922-23, worked as an engineer for AT&T, where his work demonstrated transatlantic radio telephony using a vacuum-tube transmitter.
Harris J. Ryan, 1923-24, a university professor at Cornell University and later Stanford University, where he researched high voltage phenomena.
Farley Osgood, 1924-25, a traveling engineer who made inspections and installations for the New England Telephone and Telegraph Company. He also served as vice president and general manager of Public Service Electric and Gas Company (PSE&G).
Michael I. Pupin, 1925-26, taught mathematical physics at Columbia University. He also studied wave propagation, and applied his findings to long distance telephony experiments and research.
Cummings C. Chesney, 1926-27, a member of the Stanley Electric Manufacturing Company, which built the first revolving field type of alternator used in the United States.
Bancroft Gherardi, 1927-28, improved telephone transmission circuits by demonstrating that telephone transmission followed the same laws of attenuation as lower frequency telegraph.
Rudolph F. Schuchardt, 1928-29, the chief electrical engineer at Chicago Edison Company.
Harold B. Smith, 1929-30, one of the pioneers in developing high-voltage power transmission systems and equipment.
William S. Lee, 1930-31, president of W.S. Lee Engineering Corporation of New York and Charlotte. He also worked with James B. Duke in developing hydroelectric resources in the southern United States.
Charles E. Skinner, 1931-32, in charge of the insulation design and magnetic testing departments at Westinghouse Company, and he later organized a research division for the company’s engineering department. Skinner was also active in the field of international standardization.
Harry P. Charlesworth, 1932-33, vice president of Bell Telephone Laboratories, Inc., where he directed the development and research of telephone communication.
John B. Whitehead, 1933-34, a professor Johns Hopkins University. He also was commissioned as a major in the Corps of Engineers in the U.S. Army during World War I, and he served as an adviser to the Navy during World War II.
J. Allen Johnson, 1934-35, served as the chief electrical engineer of the Buffalo Niagara Eastern Power Corporation.
Edward B. Meyer, 1935-36, was the chief electrical engineer of the Public Service Corporation of New Jersey.
Alexander M. MacCutcheon, 1936-37, the chief engineer for the Reliance Electric and Engineering Company.
William H. Harrison, 1937-38, member of the engineering staff at the American Telephone and Telegraph Company. He was later the plant engineer at the Bell Telephone System central office.
John Castlereagh Parker, 1938-39
F. Malcolm Farmer, 1939-40
Royal W. Sorensen, 1940-41
David C. Prince, 1941-42
Harold S. Osborne, 1942-43
Nevin E. Funk, 1943-44
Charles A. Powel, 1944-45
William E. Wickenden, 1945-46
J. Elmer Housley, 1946-47
Blake D. Hull, 1947-48
Everett S. Lee, 1948-49
James F. Fairman, 1949-50
Titus G. LeClair, 1950-51
Fred O. McMillan, 1951-52
Donald A. Quarles, 1952-53
Elgin B. Robertson, 1953-54
Alexander C. Monteith, 1954-55
Morris D. Hooven, 1955-56
Mervin S. Coover, 1956-57
Walter J. Barrett, 1957-58
L. F. Hickernell, 1958-59
James H. Foote, 1959-60
Clarence H. Linder, 1960-61
Warren J. Chase, 1961-62
B. Richard Teare, Jr., 1962-63
See also Presidents of the IRE and Presidents of the IEEE.
