Abstract
Fourier analysis has been widely used in communication theory and electrical engineering for many, many years and is very well treated in text books covering these fields, but Fourier analysis is also very -useful in many other aspects and it is increasingly being used in all branches of the physical science.
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Bibliography
Thomas, J.B, An Introduction to Statistical Communication Theory. John Wiley amp Son, 1969.
Champeney, D.C., Fourier Transforms and their physical Applications. Academic Press, 1973.
Papoulis, A., Systems and Transforms with Applications in Optics. McGraw-Hill, 1968.
Tretter, S.A., Introduction to discrete time signal processing. John Wiley amp Son, 1976.
References
Gossard, E.E. amp W.H. Hooke, Waves in the atmosphere. Elsevier Scientific Publishing Company 1975.
Lawrence, R.S, G.R. Ochs and S.F. Clifford, The use of scintillation to measure average wind across a light beam. Appl. Opt., 11, 239–243, 1972.
Gjessing, Dag T., A.G. Kjelaas and E. Golton, Small-scale atmospheric structure deduced from measurements of temperature, humidity and refractive index. Bound-Layer Meteors, 4, 475–492, 1973.
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© 1978 D. Reidel Publishing Company, Dordrecht, Holland
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Kjelaas, A.G. (1978). The Fourier Transform: Properties and Applications. In: Lund, T. (eds) Surveillance of Environmental Pollution and Resources by Electromagnetic Waves. NATO Advanced Study Institutes Series, vol 45. Springer, Dordrecht. https://doi.org/10.1007/978-94-009-9897-1_21
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DOI: https://doi.org/10.1007/978-94-009-9897-1_21
Publisher Name: Springer, Dordrecht
Print ISBN: 978-94-009-9899-5
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