Electrical Science and Signal Theory Timeline
| 1600 | William Gilbert publishes De Magnete. Perhaps the first book that applied the scientific method of combining model, prediction, and observation into a systematic study of a phenomenon. He apparently first used the word "electric". |
| 1752 1769 |
Benjamin Franklin discovers that lightning
and electricity are the same. Publishes Experiments and Observations on Electricity, made at Philadelphia in America. |
| 1780 | Luigi Galvani shows that muscle reacts to electricity and develops a battery from metals and "vital fluids." |
| 1800 | Alessandro Volta develops the electric pile, a forerunner of the battery. |
| 1805 | Carl Frederich Gauss discovers the fast Fourier transform, but does not publish it. Rediscovered in 1965 by James Cooley and John Tukey. |
| 1807 | Jean Baptiste Fourier unsuccessfully defends his thesis on a theory of heat conduction, which contains the infinite "Fourier" series. |
| 1819 | Hans Oersted, a Danish physcist, discovers a relationship between electricity and magnetism by noting that current flow affects compass needles. |
| 1820 | André-Marie Ampère develops a mathematical theory inspired by Oersted's observations. In his publication several years later, Ampère uses the symbol i for "intensité de current", making j the symbol for &root;-1 for electrical engineers. |
| 1821- | Michael Faraday extends Oersted's observations, and proves experimentally many aspects of electromagnetism. |
| 1827 | Georg Ohm publishes Die galvanische Kette, mathematisch bearbeitet, a mathematical treatise on electricity. |
| 1829-31 | Joseph Henry, unaware of Faraday's work, develops electromagnets and discovers self-inductance. |
| 1853 | Hermann von Helmholtz, while working on "animal electricity," mathematically shows what is now known as Thévenin's Theorem. |
| 1862-73 | James Clerk Maxwell develops a comprehensive theory of electromagetism, culminating in Electricity and Magnetism, published in 1873. |
| 1883 | Léon Charles Thévenin publishes a paper describing his equivalent circuit. |
| 1880-87 | Oliver Heaviside develops the operational calculus, the mathematical ingredient of impedances. Previously, he had streamlined Maxwell's equations into the form we know them today. |
| 1888 | Heinrich Hertz experimentally verifies that electromagnetic fields propagate. |
| 1896 | Carl Steinmetz introduces complex numbers into calculations for AC circuits. |
| 1913 | Neils Bohr describes the physics of the hydrogen atom, ushering in quantum physics |
| 1919 | Lord Adrian shows, using a crude oscilloscope and electronic amplifiers, that neurons produce voltages pulses and that these cause muscle contractions. |
| 1922 | Sir Ronald Fisher develops the theory of maximum likelihood estimation. |
| 1927 | Harold Black (Bell Labs) develops the concept of negative feedback for electronic amplifier design. The idea led to feedback control systems. |
| 1928 | Harold Nyquist proves the Sampling Theorem. |
| 1933 | Jerzy Neyman and Egon Pearson rigorously prove the optimality of the likelihood ratio test, which provides the foundation for radar and digital communication. |
| 1947 | William Shockley, John Bardeen and Walter Brattain demonstrate the transistor at Bell Labs. |
| 1948 | Claude Shannon publishes "A Mathematical Theory of Communication" |
| 1948 | Norbert Wiener publishes Cybernetics, which describes modeling humans as communication and control systems. |
| 1949 | Norbert Wiener publishes Extrapolation, Interpolation, and Smoothing of Stationary Time Series, which describes the Wiener filter, the optimal noise-reduction linear filter. |
| 1958 | Arthur L. Schawlow and Charles Townes publish a paper describing what would become called the laser. |
| 1960 | Rudy Kalman derives the optimal filtering equations for dynamic systems using state variables. |
| 1964 | Paul Baran (Rand Corpration) develops the concept of a computer network that uses packet switching to route information. |
| 1965 | James Cooley and John Tukey rediscover the FFT algorithm, ushering in digital signal processing. |
| 1976 | Martin Hellman and Whitfield Diffie develop public key encryption. Soon thereafter, Ronald Rivest, Adi Shamir, and Len Adelman elaborate and commercialize the approach to create the RSA encryption standard. |