SEARCH

SEARCH BY CITATION

References

  • American National Standards Institute (ANSI) (1997), American national standard for calibration—U.S. guide to the expression of uncertainty in measurement, ANSI/NCSL Z540-2-1997, Natl. Conf. of Stand. Lab., Boulder, Colo.
  • Blackwell, W. J., J. W. Barrett, F. W. Chen, R. V. Leslie, P. W. Rosenkranz, M. J. Schwartz, and D. H. Staelin (2001), NPOESS Aircraft Sounder Testbed-Microwave (NAST-M): Instrument description and initial flight results, IEEE Trans. Geosci. Remote Sens., 39(11), 24442453.
  • Bremer, J. (1979), Improvement of scanning radiometer performance by digital reference averaging, IEEE Trans. Instrum. Meas., 28(1), 4654.
  • Buderi, R. (1996), The Invention That Changed the World: How a Small Group of Radar Pioneers Won the Second World War and Launched a Technological Revolution, Simon and Schuster, New York.
  • Conglong, Z., J. B. Snider, and D. C. Hogg (1986), Computer demodulation technique for a dual-channel microwave radiometer, Adv. Atmos. Sci., 3(2), 189198.
  • Corbella, I., A. J. Gasiewski, M. Klein, V. Leuski, A. J. Francavilla, and J. R. Piepmeier (2002), On-board accurate calibration of dual-channel radiometers using internal and external references, IEEE Trans. Microwave Theory Tech., 50(7), 18161820.
  • Davenport, W. B., and W. Root (1987), An Introduction to the Theory of Random Signals and Noise, IEEE Press, Piscataway, N. J.
  • Davis, A., A. Marshak, W. Wiscombe, and R. Cahalan (1996), Scale invariance of liquid water distribution in marine stratocummulus, part 1: Spectral properties and stationary issues, J. Atmos. Sci., 53(11), 15381558.
  • Dicke, R. H. (1946), The measurement of thermal radiation at microwave frequencies, Rev. Sci. Instrum., 17, 268279.
  • Draper, N. R., and H. Smith (1998), Applied Regression Analysis, 3rd ed., John Wiley, Hoboken, N. J.
  • Hach, J. P. (1968), A very sensitive airborne microwave radiometer using two reference temperatures, IEEE Trans. Microwave Theory Tech., 16(9), 629636.
  • Han, Y., and E. R. Westwater (2000), Analysis and improvement of tipping calibration for ground-based microwave radiometers, IEEE Trans. Geosci. Remote Sens., 38(3), 12601276.
  • Hersman, M. S., and G. A. Poe (2000), Sensitivity of the total power radiometer with periodic absolute calibration, IEEE Trans. Microwave Theory Tech., 29(1), 3240.
  • Huang, N. E., Z. Shen, S. R. Long, M. C. Wu, H. S. Hsing, Q. Zheng, N.-C. Yen, C. C. Tung, and H. H. Liu (1998), The empirical mode decomposition and the Hilbert spectrum for nonlinear and non-stationary time series analysis, Proc. R. Soc. London, Ser. A, 454, 903995.
  • Institute of Electrical and Electronics Engineers (1996), The IEEE standard dictionary of electrical and electronic terms, IEEE Stand. 100, Piscataway, N. J.
  • International Organization for Standardization (ISO) (1993), International Vocabulary of Basic and General Terms in Metrology, 2nd ed., Int. Org. for Stand., Geneva, Switzerland.
  • Kelly, E. J., D. H. Lyons, and W. L. Root (1963), The sensitivity of radiometric measurements, J. Soc. Ind. Appl. Math., 11(2), 235257.
  • Kraus, J. D. (1966), Radio Astronomy, Cygnus Quasar, Powell, Ohio.
  • Kunzi, K., and A. Magun (1977), Statistical gain fluctuations of microwave amplifiers measured with a Dicke-radiometer, Math. Phys., 22, 404411.
  • Le Vine, D. M. (1990), The sensitivity of synthetic aperture radiometers for remote sensing applications from space, Radio Sci., 25(4), 441453.
  • Liljegren, J. C. (2000), Automatic self-calibration of ARM microwave radiometers, in Microwave Radiometry and Remote Sensing of the Earth's Surface and Atmosphere, edited by P. Pampaloni, and S. Paloscia, pp. 433441, VSP, Leiden, Netherlands.
  • McGrath, A., and T. Hewison (2001), Measuring the accuracy of MARSS—An airborne microwave radiometer, J. Atmos. Oceanic Technol., 18(12), 20032012.
  • Miller, C. K. S., W. C. Daywitt, and M. G. Arthur (1967), Noise standards, measurements, and receiver noise definitions, Proc. IEEE, 55(6), 865877.
  • Peckham, G. E. (1989), An optimum calibration procedure for radiometers, Int. J. Remote Sens., 10(1), 227236.
  • Racette, P., and J. R. Wang (1998), Passive millimeter- and sub-millimeter-wave imaging for atmospheric research, paper presented at International Society for Optical Engineering 12th Annual Symposium, Orlando, Fla., April .
  • Racette, P., J. R. Wang, P. Evans, R. Saunders, A. Gasiewski, and D. Jackson (1995), A calibration experiment using millimeter-wave imaging radiometer at the UK meteorological office calibration facility, paper presented at International Geophysics and Remote Sensing Symposium '95, Inst. of Electr. and Electron. Eng., Florence, Italy, July .
  • Racette, P., R. F. Adler, J. R. Wang, A. J. Gasiweski, D. M. Jackson, and D. S. Zacharias (1996), An airborne millimeter-wave imaging radiometer for cloud, precipitation, and atmospheric water vapor studies, J. Atmos. Oceanic Technol., 13(3), 610619.
  • Racette, P., M. Triesky, and D. C. Jones (1998), A multi-channel microwave radiometer uses reference averaging for calibration: Precision approaches that of a total power radiometer, paper presented at International Geophysics and Remote Sensing Symposium '98, Inst. of Electr. and Electron. Eng., Seattle, Wash., July .
  • Randa, J. (1998), Uncertainties in NIST noise measurements, Tech. Note 1502, Natl. Inst. of Stand. and Technol., Gaithersburg, Md.
  • Rohlfs, K., and T. L. Wilson (1996), Tools of Radio Astronomy, Springer, New York.
  • Ruf, C. S. (2000), Detection of calibration drifts in spaceborne microwave radiometers using a vicarious cold reference, IEEE Trans. Geosci. Remote Sens., 38(1), 4452.
  • Ruf, C. S., S. J. Keihm, and M. A. Janssen (1995), TOPEX/Poseidon Microwave Radiometer (TMR): I. Instrument description and antenna temperature calibration, IEEE Trans. Geosci. Remote Sens., 33(1), 125137.
  • Saunders, R. W., T. J. Hewison, S. J. Stringer, and N. C. Atkinson (1995), The radiometric characterization of AMSU-B, IEEE Trans. Microwave Theory Tech., 43(4), 760771.
  • Skou, N. (1989), Microwave Radiometer Systems: Design and Analysis, Artech House, Norwood, Mass.
  • Stelzried, C. T. (1968), Microwave thermal noise standards, IEEE Trans. Microwave Theory Tech., 16(9), 646655.
  • Tanner, A. B., and A. L. Riley (2003), Design and performance of a high-stability water vapor radiometer, Radio Sci., 38(3), 8050, doi:10.1029/2002RS002673.
  • Thomsen, F. (1984), On the resolution of Dicke-type radiometers, IEEE Trans. Microwave Theory Tech., 32(2), 145150.
  • Tiuri, M. E. (1964), Radio astronomy receivers, IEEE Trans. Mil. Electron., 8, 264272.
  • Ulaby, F. T., R. K. Moore, and A. K. Fung (1981), Microwave Remote Sensing: Active and Passive, vol. 1, Microwave Remote Sensing Fundamentals and Radiometry, Addison-Wesley, Boston, Mass.
  • Van Putten, A. F. P. (1996), Electronic Measurement Systems, Theory and Practice, pp. 110152, Inst. of Phys., Philadelphia, Pa.
  • Wait, D. F. (1967), The sensitivity of the Dicke radiometer, J. Res. Natl. Bur. Stand., 71(2), 127152.
  • Wentz, F. J., P. Ashcroft, and C. Gentemann (2001), Post-launch calibration of the TRMM microwave imager, IEEE Trans. Geosci. Remote Sens., 39(2), 415422.