1. Digital Signal Processing for Step-Scan Phase and Electrochemical Potential Double-Modulation Fourier Transform Infrared Spectrometry
   Brevnov D.A.; Hutter E.; Fendler J.H.
   Applied Spectroscopy, 1 February 2004, vol. 58, no. 2, pp. 184-192(9), Ingenta.  
2. Commutative reduced biquaternions and their Fourier transform for signal and image processing applications.  
   Pei, Soo-Chang; Chang, Ja-Han; Ding, Jian-Jiun
   IEEE Transactions on Signal Processing, v 52, n 7, July, 2004, p 2012-2030, MathSciNet.  
3. Signal recognition: Fourier transform vs. Hartley transform
   Gelman L.; Sanderson M.; Thompson C.
   Pattern Recognition, December 2003, vol. 36, no. 12, pp. 2849-2853(5), Ingenta.  
4. Performance of dual tone multi-frequency signal decoding algorithm using the sub-band non-uniform discrete Fourier transform on the ADSP-2192 processor
   Subramaniam R.; Sharadh R.; Prabhu K.M.M.
   Microprocessors and Microsystems, 3 November 2003, vol. 27, no. 10, pp. 501-510(10), Ingenta.  
5. Signal processing methods to improve the performance of a compact Fourier transform spectrometer
   Prunet, Stephanie; Durieu, Cecile; Journet, Bernard
   Optical Engineering, v 42, n 4, April, 2003, p 985-993, Compendex.
6. Analytical Investigation and Estimation of Errors Involved in the Problem of Measuring the Parameters of a Harmonic Signal Using the Fourier Transform Method
   Khanyan G.S.
   Measurement Techniques, August 2003, vol. 46, no. 8, pp. 723-735(13), Ingenta.  
7. An optical fibre ethanol concentration sensor utilizing Fourier transform signal processing analysis and artificial neural network pattern recognition
   King D.; Lyons W.B.; Flanagan C.; Lewis E.
   Journal of Optics A: Pure and Applied Optics, 2003, vol. 5, no. 4, pp. S69-S75(1), Ingenta.  
8. Direct Probing of RNA Structures and RNA-Protein Interactions in the HIV-1 Packaging Signal by Chemical Modification and Electrospray Ionization Fourier Transform Mass Spectrometry
   Yu E.; Fabris D.
   Journal of Molecular Biology, 4 July 2003, vol. 330, no. 2, pp. 211-223(13), Ingenta.  
9. The Influence of Fast Fourier Transform on the Signal-Spectrum Estimation
   Medvedev S.Y.; Perov M.Y.; Yakimov A.V.
   Radiophysics and Quantum Electronics, March 2002, vol. 45, no. 3, pp. 239-245(7), Ingenta.  
10. Noise Influence On Estimation Of Signal Parameter From The Phase Difference Of Discrete Fourier Transforms
    ZHU L.-M.; LI H.-X.; DING H.; XIONG Y.-L.
    Mechanical Systems and Signal Processing, November 2002, vol. 16, no. 6, pp. 991-1004(14), Ingenta.  
11. Muon revolution frequency distribution from a partial-time Fourier transform of the g-2 signal in the muon g-2 experiment
    Orlov Y.; Ozben C.S.; Semertzidis Y.K.
    Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 21 April 2002, vol. 482, no. 3, pp. 767-775(9), Ingenta.  
12. Fourier Deconvolution in Non-self-deconvolving Conditions. Effective Narrowing, Signal-to-Noise Degradation, and Curve Fitting
    Lórenz-Fonfría V. A.; Villaverde J.; Padrós E.
    Applied Spectroscopy, 1 February 2002, vol. 56, no. 2, pp. 232-242(11), Ingenta.  
13. Tests of a new basis for signal processing. Computation and control, VI   
    Karen L. Shuman; Emily Cornell
    Mathematical and Computer Modelling, 33 (2001), no. 1-3,  265-271, MathSciNet.  
14. Fourier transform method for self-mixing interference signal analysis
    Wang M.
    Optics and Laser Technology, September 2001, vol. 33, no. 6, pp. 409-416(8), Ingenta.  
15. Polarization Modulation Fourier Transform Infrared Spectroscopy with Digital Signal Processing: Comparison of Vibrational Circular Dichroism Methods
    Hilario J.; Drapcho D.; Curbelo R.; Keiderling T. A.
    Applied Spectroscopy, 1 November 2001, vol. 55, no. 11, pp. 1435-1447(13), Ingenta.  
16. Signal processing using Fourier and wavelet transform for pulse oximery
    Kim, J.M.; Kim, S.H.; Lee, D.J.; Lim, H.S.
    Pacific Rim Conference on Lasers and Electro-Optics, CLEO - Technical Digest, v 2, 2001, p II310-II311, Compendex.
17. Large-signal analysis of CMOS analogue functional elements using Fourier-series approximations
    Abuelma'atti M.T.
    International Journal of Electronics, 1 June 2001, vol. 88, no. 6, pp. 665-675(11), Ingenta.  
18. The Gibbs' phenomenon from a signal processing point of view  
    Fay, Temple H.; Schulz, Klaus Gunther
    Internat. J. Math. Ed. Sci. Tech. 32 (2001), no. 6, 863--872, MathSciNet.  
19. Applications of Fourier Series in Classical Guitar Technique  
    James Hughes  
    College Math Journal: 2000, Volume 31, Number 4, Pages: 300-303.  
20. Discrete quaternion Fourier transform in signal processing systems.
    Chandrashekhar, H.; Nagaraj, M.
    Discrete mathematics and allied topics. J. Discrete Math. Sci. Cryptography 3 (2000), no. 1-3, 95--112, MathSciNet.  
21. Large signal analysis of low-voltage MOS analogue functional elements using Fourier-series approximations
    Abuelma'Atti M.T.
    International Journal of Electronics, 1 November 2000, vol. 87, no. 11, pp. 1301-1325(25), Ingenta.  
22. Wigner-related phase spaces for signal processing and their optical implementation.
    Mendlovic, David; Zalevsky, Zeev; Ozaktas, Haldun M.
    J. Opt. Soc. Amer. A 17 (2000), no. 12, 2339--2354, MathSciNet.  
23. Image Processing with Complex Wavelets  
    Nick Kingsbury  
    Philosophical Transactions: Mathematical, Physical and Engineering Sciences, Vol. 357, No. 1760, Wavelets: The Key to Intermittent Information? (Sep., 1999), pp. 2543-2560, Jstor.  
24. Best Fourier Approximation and Application in Efficient Blurred Signal Reconstruction
    Efromovich S.; Ganzburg M.
    Journal of Computational Analysis and Applications, January 1999, vol. 01, no. 1, pp. 43-62(20), Ingenta.  
25. Fourier models for non-linear signal processing
    Pages-Zamora, Alba; Lagunas, Miguel A.
    Signal Processing, July 1999, vol. 76, no. 1, pp. 1-16(16), Compendex.
26. A novel electric ion resonance cell design with high signal-to-noise ratio and low distortion for Fourier transform mass spectrometry
    Aliman M.; Glasmachers A.
    Journal of the American Society for Mass Spectrometry, October 1999, vol. 10, no. 10, pp. 1000-1007(8), Ingenta.  
27. Fourier series based nonminimum phase model for statistical signal processing.
    Chi, Chong-Yung
    IEEE Trans. Signal Process. 47 (1999), no. 8, 2228--2240, MathSciNet.  
28. Signal Detection in Underwater Sound Using Wavelets (in Applications and Case Studies)  
    Trevor C. Bailey; Theofanis Sapatinas; Kenneth J. Powell; Wojtek J. Krzanowski  
    Journal of the American Statistical Association, Vol. 93, No. 441. (Mar., 1998), pp. 73-83, Jstor.  
29. Signal processing of the auditory brainstem response: Clinical effects of variations in fast Fourier transform analysis
    Wilson, Wayne J.; Winter, Mark; Nohr, Carmel; Aghdasi, Farzin
    Proceedings of the South African Symposium on Communications and Signal Processing, COMSIG, 1998, p 23-28, Compendex.
30. Adaptive Model Selection Using Orthogonal Least Squares Methods  
    Jaroslav Stark  
    Proceedings: Mathematical, Physical and Engineering Sciences, Vol. 453, No. 1956. (Jan. 8, 1997), pp. 21-42, Jstor.  
31. Fast Quasi-Continuous Wavelet Algorithms for Analysis and Synthesis of One- Dimensional Signals  
    Stephane H. Maes  
    SIAM Journal on Applied Mathematics, Vol. 57, No. 6. (Dec., 1997), pp. 1763-1801, Jstor.  
32. Signal filtering of potentiometric stripping analysis using Fourier techniques
    Chow C.W.K.; Davey D.E.; Mulcahy D.E.
    Analytica Chimica Acta, 20 February 1997, vol. 338, no. 3, pp. 167-178(12), Ingenta.  
33. Digital signal processing for step-scan Fourier transform infrared photoacoustic spectroscopy
    Drapcho, David L.; Curbelo, Raul; Jiang, Eric Y.; Crocombe, Richard A.; McCarthy, William J.
    Applied Spectroscopy, 1 April 1997, vol. 51, no. 4, pp. 453-460(8),Compendex.
34. Characterization and modeling of drift noise in Fourier transform spectroscopy: implications for signal processing and detection limits
    Hazel, Geoff; Bucholtz, Frank; Aggarwal, Ishwar D.
    Applied Optics, v 36, n 27, Sep 20, 1997, p 6751, Compendex.
35. Ultrafast Optical Signal Processing Using Semiconductor Laser Amplifiers  
    R. Schnabel; R. Ludwig; W. Pieper; S. Diez; H. G. Weber  
    Philosophical Transactions: Mathematical, Physical and Engineering Sciences, Vol. 354, No. 1708, Nonlinear Optics for Information Processing and Communication. (Mar. 15, 1996), pp. 733-744, Jstor.  
36. Image Gathering and Digital Restoration  
    Carl L. Fales; Friedrich O. Huck; Rachel Alter-Gartenberg; Zia-Ur Rahman  
    Philosophical Transactions: Mathematical, Physical and Engineering Sciences, Vol. 354, No. 1716 (Oct., 1996), pp. 2249-2287, Jstor.  
37. An application of azo-dye-doped polymer films in optical signal processing using Fourier holograms
    Fleck B.; Dowling D. A.; Wenke L.
    Journal of Modern Optics, 1 July 1996, vol. 43, no. 7, pp. 1485-1493(9), Ingenta.  
38. Fourier Analysis and Wavelets: Applications to Signal Processing
    Saito, T.
    Denshi Joho Tsushin Gakkai Shi/Journal of the Institute of Electronics, Information and Communications Engineers, v 79, n 7, 1996, p 726, Compendex.
39. Signal spatial-filtering using the localized fractional Fourier transform
    Mendlovic D.; Zalevsky Z.; Lohmann A.W.; Dorsch R.G.
    Optics Communications, 1 May 1996, vol. 126, no. 1, pp. 14-18(5), Ingenta.  
40. Fourier plane non-linear filtering algorithm for active sonar signal processing
    Chan, Francis; Javidi, Bahram
    Conference Proceedings - Lasers and Electro-Optics Society Annual Meeting-LEOS, v 1, 1996, p 230-231, Compendex.
41. Evolution of an ion cloud in a Fourier transform ion cyclotron resonance mass spectrometer during signal detection: its influence on spectral line shape and position
    Nikolaev E.N.; Miluchihin N.V.; Inoue M.
    International Journal of Mass Spectrometry and Ion Processes, 20 October 1995, vol. 148, no. 3, pp. 145-157(13), Ingenta.  
42. Digital processing of Doppler signals using fast Fourier transform
    Jabczynski, J.; Szczesniak, A.
    Optica Applicata, v 25, n 4, 1995, p 281, Compendex.
43. Refractive index determination at high pressures using the Fourier transform signal of an FT spectrometer
    Johannsen P.G.
    Measurement Science and Technology, 1993, vol. 4, no. 2, pp. 237-239(3), Ingenta.  
44. Wavelets and adapted waveform analysis. A toolkit for signal processing and numerical analysis.
    Coifman, Ronald R.; Wickerhauser, M. Victor
    Different perspectives on wavelets (San Antonio, TX, 1993), 119--153, Proc. Sympos. Appl. Math., 47, Amer. Math. Soc., Providence, RI, 1993, MathSciNet.  
45. Implementation of Bayesian Parameter Estimation in Adaptive Control and Signal Processing  
    Rudolf Kulhavy  
    The Statistician, Vol. 42, No. 4, Special Issue: Conference on Practical Bayesian Statistics, 1992. (1993), pp. 471-482, Jstor.  
46. Using Fourier Analysis in Digital Signal Processing (in Computer Corner)  
    Lyndell M. Kerley; William P. Dotson  
    The College Mathematics Journal, Vol. 23, No. 4. (Sep., 1992), pp. 320-328, Jstor.  
47. Signal Processing by Model Neural Networks  
    F. C. Hoppensteadt  
    SIAM Review, Vol. 34, No. 3. (Sep., 1992), pp. 426-444, Jstor.  
48. Comments on 'Fourier analysis and signal processing by use of the Mobius inversion formula' by I. S. Reed et. al.
    Ananthashayana, V. K.  
    IEEE Transactions on Signal Processing, v 4, n 3, Mar, 1992, p 676, Compendex.
49. Transforms, Finite Fields, and Fast Multiplication  
    Patrick Chu  
    Mathematics Magazine: 1990, Volume 63, Number 5, Pages: 330-336.  
50. Fourier analysis and signal processing by use of the Mobius inversion formula
    Reed, Irving S.; Tufts, Donald W.; Yu, Xiaoli; Truong, T.K.; Shih, Ming-Tang; Yin, Xiaowei
    IEEE Transactions on Acoustics, Speech, and Signal Processing, v 38, n 3, Mar, 1990, p 458-470, Compendex.
51. Kronecker Products, Unitary Matrices and Signal Processing Applications  
    Phillip A. Regalia; Sanjit K. Mitra  
    SIAM Review, Vol. 31, No. 4. (Dec., 1989), pp. 586-613, Jstor.  
52. Saw-based chirp fourier transform and its application to analogue on-board signal processing
    Bakken, Petter M.; Ronnekleiv, Arne
    International Journal of Satellite Communications, v 7, n 4, Oct-Nov, 1989, p 283-293, Compendex.
53. Mathematics in signal processing. Proceedings of the conference held at the University of Bath, Bath, September 17--19, 1985.
    Edited by T. S. Durrani, J. B. Abbiss, J. E. Hudson, R. N. Madan, J. G. McWhirter and T. A. Moore.
    The Institute of Mathematics and its Applications Conference Series. New Series, 12. Oxford Science Publications. The Clarendon Press, Oxford University Press, New York, 1987. xvi+677 pp., MathSciNet.  
54. Computer Graphics for the Vibrating String  
    Howard Lewis Penn  
    College Math Journal: 1986, Volume 17, Number 1, Pages: 79-89.  
55. A Stochastic Characterization of the Sine Function  
    Benjamin Kedem
    The American Mathematical Monthly, Vol. 93, No. 6 (Jun., 1986), pp. 430-440, Jstor.   
56. Signal Processing Using Only Fourier Phase.
    Anderson, R. C.; Anderson, C. S.
    Optical Engineering, v 25, n 12, Dec, 1986, p 1316-1319, Compendex.
57. Signal processing with orthonormalized exponentials.
    Lai, David C.
    Math. Comput. Simulation 27 (1985), no. 5-6, 409--420, MathSciNet.  
58. Monocular Depth Perception from Optical Flow by Space Time Signal Processing    
    B. F. Buxton; Hilary Buxton    
    Proceedings of the Royal Society of London. Series A, Mathematical and Physical Sciences, Vol. 387, No. 1792. (May 9, 1983), p. 219, Jstor.  
59. A General Orthogonalization Technique with Applications to Time Series Analysis and Signal Processing  
    George Cybenko  
    Mathematics of Computation, Vol. 40, No. 161. (Jan., 1983), pp. 323-336, Jstor.  
60. Application of complexity of computations to signal processing.
    Winograd, S.
    Digital image processing (Bonas, 1980), 1--17, NATO Adv. Study Inst. Ser. C: Math. Phys. Sci., 77, Reidel, Dordrecht-Boston, Mass., 1981, MathSciNet.  
61. Solution of Integral Equation Important in Signal Processing of Radar and Sonar Hydrophone Array Outputs  
    J. H. Wilson  
    SIAM Journal on Applied Mathematics, Vol. 39, No. 1. (Aug., 1980), pp. 1-7, Jstor.  
62. Mathematical Foundations of Signal Processing  
    Richard B. Holmes  
    SIAM Review, Vol. 21, No. 3. (Jul., 1979), pp. 361-388, Jstor.  
63. On the Fourier transform of sequency limited signals with applications to delta modulation and medicine.
    Taylor, Fred J.; Shenoy, Varadaraj P.
    Internat. J. Systems Sci. 10 (1979), no. 9, 945--960, MathSciNet.  
64. A note on several orthogonal bases for digital signal processing.
    Toraichi, Kazuo; Igarashi, Akira; Ogawa, Hidemitsu
    Electron. Commun. Japan 60 (1977), no. 2, 1--7, MathSciNet.  
65. On coding and filtering stationary signals by discrete Fourier transforms.
    Pearl, Judea
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66. Fast Fourier transform for high- speed signal processing
    Corinthios M. J.
    IEEE Trans Comput, v C-20, n 8, Aug, 1971, p 843-6, Compendex.
67. Classes of Signal Processing Procedures Suggested by Exact Minimum Mean Square Error Procedures  
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    SIAM Journal on Applied Mathematics, Vol. 14, No. 6. (Nov., 1966), pp. 1199-1224, Jstor.  
68. Infinite Series and Taylor and Fourier Expansions.  
    James, Robert C.
    Mathematics Magazine 25 (1952) 269-272;26 (1952) 21-31.  
69. Certain Expressions Related to Fourier Series.  
    Dobbie, J. M.  
    Mathematics Magazine 17 (1943) 285-291.  
70. Some Introductory Exercises in the Manipulation of Fourier Transforms.  
    Cameron, Robert H.  
    Mathematics Magazine 15 (1941) 331-356.  

(c) John H. Mathews 2006