Publications

PAPERS

[1]

(1963) Skill Categories and the Allocation of Labour, with M. D. Steuer, British Journal of Industrial Relations, vol. 1, pp. 228-240.

[2]

(1964) The Random Walk Hypothesis of Stock Market Behavior, with C. W. J. Granger and O. Morgenstern, Kyklos, vol. XVII, pp. 1-30.

[3]

(1964) Non-Linear Analysis of Seasonal Variation, Proceedings of the American Statistical Association, pp. 196-199.

[4]

(1965) An Exploratory Study of the Bi-Spectrum of Economic Time Series, Applied Statistics, vol. XIV, no. 1, pp. 48-69.

[5]

(1965) Certain Problems in the Application of Mathematical Economics, in System Theory, Polytechnic Press, Polytechnic Institute of Brooklyn, pp. 315-320.

[6]

(1966) A Spectrum Analysis of Seasonal Adjustment, with H. Karreman, in Essays in Honor of Oskar Morgenstern, ed. M. Shubik, Princeton University Press, pp. 367-421.

[7]

(1967) Modern Methods of Power Spectrum Estimation, with C. Bingham and J. W. Tukey, IEEE Transactions on Audio and Electroacoustics, vol. AU-15, no. 2, pp. 56-66.

[8]

(1967) Analysis of Stochastic Processes in Economics, Kyklos, vol. XX, pp. 129-139.

[9]

(1967) Prediction for Non-Stationary Stochastic Processes, in Spectral Analysis of Time Series, ed. B. Harris, John Wiley & Sons, pp. 259-269. See subsequent Web paper below ([5] in Web Pages).

[10]

(1968) Costs of Flexibility, in Methods of Operations Research V, ed. R. Henn, Verlag Anton Hain, pp. 163-171.

[11]

(1968) An International Comparison of Consumption Functions, with E. P. Howrey, Kyklos, vol. XXI, pp. 737-748.

[12]

(1968) The Analysis of Data from Non-Stationary Time Systems, in Signal Processing, NATO Advanced Study Institute, Enschede, Holland, pp. (33-1)-(33-10).

[13]

(1970) Data Analysis of Biological Time Series, with H. Hoffman, R. Madden, C. S. Pittendrigh, and S. Skopik, COSPAR: Life Sciences and Space Research VIII, v.8, North-Holland Publ. Co., 1970, pp. 215-233. (Proceedings of the Annual COSPAR Conference, Prague, May 1969.)

[14]

(1971) Operating System Considerations for Statistical Computing, Applied Stat-istics, vol. 20, no. 1, pp. 45-55.

[15]

(1974) Computational Procedures for Time Series, Bull. of the IMA, vol. 10, no. 5/6, pp. 224-227.

[16]

(1979) The Architecture of Sperry Univac 1100 Series Systems, with B. R. Borgerson, P. E. Hagerty, and T. R. Rykken, Sixth Annual International Symposium on Computer Architecture, Philadelphia, PA, pp. 137-146.

[17]

(1982) Cartographic Computing Technology, Cartographica, vol. 19, no. 2, pp. 2-8.

[18]

(1986) Innovation in Computational Architecture and Design, ICL Technical Journal, vol. 5 issue 1, pp. 18-31.

[19]

(1991) A First Course in Analog VLSI Systems, with Boyd Fowler, Proceedings, Microelectronics Educators Conference 1991, July 1991.

[20]

(1992) CMOS Device Modeling for Subthreshold Circuits, IEEE Transactions on Circuits and Systems II: Analog and Digital Signal Processing, vol. 39, No. 8, August 1992, pp. 532-539.

[21]

(1993) The Computer as von Neumann Planned It, with D. F. Hendry, IEEE Annals of the History of Computing, vol. 15, No. 1, 1993, pp. 11-21.

[22]

(1993) An Analog Wavelet Transform Chip, with R. T. Edwards, Proceedings of 1993 IEEE International Conference on Neural Networks, San Francisco, CA, March 28-April 1, 1993, pp. 1247-1251.

[23]

(1993) Edited version of: First Draft Report on the EDVAC by John von Neumann, IEEE Annals of the History of Computing, vol. 15, No. 4, 1993, pp. 27-75.

[24]

(1997) A Device Model for Analog VLSI Circuits, with John Lazzaro.

[25]

(2000) Low Noise Readout using Active Reset for CMOS APS, with B. Fowler, J. Balicki, and J. Canfield, Proc. SPIE, Sensors and Camera Systems for Scientific, Industrial, and Digital Photography Applications, Morley M. Blouke; Nitin Sampat; George M. Williams; Thomas Yeh; Eds., Vol. 3965, pp. 126-135, San Jose, CA, January, May, 2000.

[26]

(2001) Low-FPN, High-Gain Capacitive Transimpedance Amplifier for Low-Noise CMOS Image Sensors, with B. Fowler, J. Balicki, D. How, Proc. SPIE, Sensors and Camera Systems for Scientific, Industrial, and Digital Photography Applications II, Morley M. Blouke; John Canosa; Nitin Sampat; Eds., Vol. 4306, pp. 68-77 San Jose, CA, May, 2001.

[27]

(2004) An Ultra Low Noise High Speed CMOS Linescan Sensor for Scientific and Industrial Applications, with B. Fowler, J. Balicki, D. How, S. Mims, and J. Canfield, Proc. SPIE, Electronic Imaging, San Jose, CA, Jan, 2004, Vol. 5301, pp. 222-231.

[28]

(2006) Reset Noise Reduction in Capacitive Sensors, with B. Fowler and S. Mims, IEEE TCAS-1, Vol. 53, No. 8, August 2006, pp. 1658-1669.

BOOKS

[1]

(1975) An Incremental Cost Model of Message Toll Telephone Services, with R. L. Breedlove, Lancaster Press, pp. 234.

[2]

(1980) Machine-Independent Organic Software Tools (MINT), with D. F. Hendry, H. J. Hermans, and R. K. Hessenberg, Academic Press (London) Ltd., pp. xii+ 340, ISBN 0.12.286980.X.

(1982) Second Edition, with D. F. Hendry, H. J. Hermans, and R. K. Hessenberg, Academic Press (London) Ltd., pp. xv+388, ISBN 0.12.286982.6.

(1985) Revised Second Edition, with D. F. Hendry, H. J. Hermans, and R. K. Hessenberg, Academic Press (London) Ltd., pp. xv+375, ISBN 0-12-286983-4.

Newer edition available online. See WEB BOOKS below.

WEB PAPERS

[1]

(2004) A VLSI Device Model for Analog Circuits, with J. Lazarro. The model described in this paper is included in the Chipmunk System which is currently maintained by John Lazzaro at Berkeley. This paper reports further work based on the 1992 paper CMOS Device Modeling for Subthreshold Circuits, IEEE Transactions on Circuits and Systems II: Analog and Digital Signal Processing, vol. 39, No. 8, August 1992, pp. 532-539. The review of this paper as submitted to the IEEE pointed out that since Spice can accurately describe any device behavior even when using incorrect values for the physical constants, there was no need for further work in this area. Since this view was obviously outside the bounds of scientific thought as I understand it, I did not pursue the matter.

[2]

(2008) Edited and Corrected version of Feynman's Nobel Lecture, 1965, with M. Gottlieb. Provided to the Nobel Foundation to replace the unedited version which was on their web site.

[3]

(2009) An Algorithm for Least-Squares Polynomial Approximation.

[4]

(2009) The tanh Transformation.

[5]

(2013) Prediction for Non-Stationary Stochastic Processes. Sequel to the 1967 paper Prediction for Non-Stationary Stochastic Processes, in Spectral Analysis of Time Series, ed. B. Harris, John Wiley & Sons, pp. 259-269.

WEB BOOKS

[1]

(2004) Machine-Independent Organic Software Tools (MINT), with D. F. Hendry, H. J. Hermans, and R. K. Hessenberg. This is a considerably revised version of the book shown above [2]. In addition, the complete software system is available as a zip file.

WEB BOOKS (edited)

[1]

(2008) I recovered Nyblen's book, The Problem of Summation in Economic Science, which had become unavailable except in major Research Libraries.

[2]

(2012) I recovered Ampere's Treatise on Electrodynamics, 1826, and translated it into English. The most important part of this work was recovery of the 2 Plates containing all of the Figures. The Figures show all of Ampere's experiments and form the basis of his work. The Google Books copies of this work do not include, as was Google's rule, the Plates which are foldouts bound at the back of the book. The original First and Second Edition of the Treatise are available in the Stanford Special Collections Library. The quality of these pages was sufficient, after image enhancement, to produce clearly readable Figures. In addition a considerable number of typos and omissions were corrected. The complete set of files providing both the original French, the translation, and all the Figures are available as a zip file. The edited French version is available as a PDF, as is the translated English version.

RECENT SEMINARS

[1]

(2007) Why Economists Cannot Predict the Past. Economic data do not describe the past or present in a way that permits useful extrapolation into the future or the past.

[2]

(2012) Unreliable Systems Built from Reliable Parts. This talk discusses the fact that current digital systems do not correctly preserve the data that they manipulate and store. Therefore it cannot be demonstrated that they are, or are not, functioning correctly.