참고문헌 (27)

1. [1] A.E Fribance, Industrial Instrumentation Fundamentals, Tata McGraw Hill Publishing Co.Ltd.,New Delhi,1984. 

2. [2] http://www.humirel.com 

3. [3] http://www.sensorelement.com 

4. [4] U.Tietze and Ch.Schenk , Electronic Circuit Design and Applications, Narosa Publishing House, New Delhi,1992. 

5. [5] Philips, Portable Hygrometer, Application Note #019. 

6. [6] L. H Sherman, Sensor and Conditioning Circuits to Simplify Humidity Measurement, EDN 30,No 12 , pp. 179-188, 1985. 

7. [7] K. Arshak , K. Twomey and D. Heffernan , Development of a Novel Humidity Sensor with Error-Compensated Measurement System, Proceeding of 23rd International Conference on Microelectronics (MIEL 2002), Vol. 1, NIS, Yugoslavia, pp. 215-217, 2002. 

8. [8] T.T Lang , Computerized Instrumentation, John Wiley & Sons, France, 1991. 

9. [9] H. L. Penman and I. Long, A Portable Thermistor Bridge for Micro-meteorology Among Growing Crops, Vol. 26, pp. 77-80, 1949. 

10. [10] A.P. Brady, H. Huff and J.W McBain, Measurement of Vapour Pressure By Means of Matched Thermistors, Journal of Physical Colloid Chemistry, Vol. 55, pp. 304-311, 1951. 

11. [11] B.G. Richards, Measurement of the Free Energy of Soil Moisture by the Psychrometer Technique Using Thermistors, Moisture Equilibria and Changes in Soils Beneath Covered Areas , A Symposium in Print, Butterworths, Australia, pp. 39-46, 1965. 

12. [12] B.D. Kay and P.F. Low, Measurement of the Total Suction of Soils by a Thermistor Psychrometer, Soil Sciences Society of America, Proceedings, Vol.34, pp. 373-376, 1970. 

13. [13] Y. Nantou, Digital Ventilated Psychrometer, IEEE Transactions on Instrumentation and Measurements, Vol. 28, 1 , pp. 42 - 45, 1979. 

14. [14] R.F Coughlin and F.F Driscoll, Operational Amplifiers and Linear Integrated Circuits, Pearson Education, Inc., New Jersey, 2002. 

15. [15] http://www.doctronics.co.uk. 

16. [16] T.S Rathore, Digital Measurement Techniques, Narosa Publishing House, New Delhi,2003. 

17. [17] G.Mirsky, Microprocessors in Instrumentation, Mir Publishers, Moscow, 1987. 

18. [18] A.Chatterjee, S.Munshi, M.Dutta and A.Rakshit, An Artificial neural Linearizer for Capacitive Humidity Sensors, Proceedings of 17th IEEE Instrumentation and Measurement Conference, Baltimore, 2000. 

19. [19] S. Haykin, Neural Networks, A Comprehensive Foundation. Macmillan, 1994. 

20. [20] B.Martin del Brio and A.Sanz Molina, Neural Networks and Fuzzy Systems, RA-MA, Madrid, 1997. 

21. [21] J A.Freeman, Neural Networks: Algorithms, Applications, and Programming Techniques , Addison-Wesley, Massachusetts, 1992. 

22. [22] M.E Aggoune, F. Boudjema, A. Bensenouci, A. Hellal, S.V Vadari. and M.R El Mesai, Design of an adaptive-structure voltage regulator using artificial neural networks, Proc. of the 2nd IEEE Conference on Control Applications, Vancouver, Canada, pp. 337- 343, 1993. 

23. [23] L.F Pau. and F.S. Johansen, Neural Network Signal Understanding for Instrumentation, IEEE Trans on Inst & Meas, Vol. .39, 4 , pp. 558-564, 1990. 

24. [24] C.Charalambous, Conjugate gradient algorithm for efficient training of artificial neural networks, IEE Proceedings (Circuits, Devices and Systems), pp. 301-310, 1992. 

25. [25] G. D Magoulas, V. P Plagianakos, M. N Vrahatis, Hybrid Methods Using Evolutionary Algorithms for On-Line Training, Proc. of the IEEE International Joint Conference on Neural Networks, IJCNN 2001, Washington DC, USA, 3 , pp. 2218-2223, 2001. 

26. [26] T. Masters, and W.Land, A new training algorithm for the general regression neural network, IEEE International Conference on Systems, Man , and Cybernetics, Computational Cybernetics and Simulation , 3 , pp. 1990-1994, 1997. 

27. [27] Temperature Measurement Handbook, Stanford, Connecticut: Omega Engineering Inc., 1979.