1. Pedersen, L.D., Rose, W.W., Redsun, H., and Boghosian, S.H. (1990) Assessment of Sensors Used in the Food Industry. Dublin, CA: National Food Processors Association (Prepared for the U.S. Department of Energy under contract No. DE-AC07-76ID01570).

2. Kress-Rogers, E. (1993) New and Emerging Instrumentation for Quality Assurance. Trends in Food Science and Technology, 4:35-41.

3. Pedersen, L.D. (1991) Assessment of Sensors Used in the Food Industry. Food Control, 2(2):87-98.

4. Giese, J. (1993) Rapid Techniques for Quality Assurance. Food Technology, 47(10):52-60.

5. Withers, P. (1994) Ultrasonic Sensor for the Detection of Fouling in UHT Processing Plants. Food Control, 5(2):67-72.

6. Datta, A.K. Sensors and Food Processing Operations. In: Encyclopedia of Food Science and Technology., Y.H. Hui (ed.), Wiley-Interscience, New York, 1992, pp. 2327-2333.

7. Campbell-Platt, G. (1994) Food Control for Consumers, Regulators and Producers. Food Control, 5(2):99-102.

8. Omron Electronics. (1991) 'Fuzzy Logic' Simplifies Process Control. Food Engineering, 63(10):50-52.

9. Berne, S. (1994) An Expert (System) in Your Corner. Prepared Foods, 163(12):94-95.

10. Perez-Correa, J.R. and Zaror, C.A. (1993) Recent Advances in Process Control and their Potential Applications to Food Processing. Food Control, 4(4):202-209.

11. Swientek, R.J. Sensor Technology in the Food Industry — Composition Analysis Moves from the Lab to the Plant Floor. Proceedings of the 1991 Annual Meeting of the Instrument Society of America, Instrument Society of America, Research Triangle Park, NC, 1991, pp. 341-346.

12. Pedersen, H., Alex, T., Chu, H.L., Chung, W-J., and Sigel, G.H., Jr. Thin Polymer Films as Active Components of Fiber Optic Chemical Sensors. In: Proceedings ofSPIE: Chemical, Biochemical, and Environmental Fiber Sensors IV, R.A. Lieberman (ed.),1992, 1796:135-140.

13. Scotter, C. (1990) Use of Near Infrared Spectroscopy in the Food Industry with Particular Reference to its Applications to On/In-Line Food Processes. Food Control, 1(3): 142-149.

14. Liu, J.N., Shahriari, M.R., and Sigel, G.H., Jr. (1992) Development of a Porous Polymer pH Optrode. Optics Letters, 17(24):1815-1817.

15. Kokini, J.L. and Ho, C-T. (eds.) Quality Quantification and Enhancement for Combat Rations Final Report. Rutgers University Center for Advanced Food Technology, New Brunswick, NJ, 1994.

16. Shahriari, M.R., Sigel, G.H., and Zhou, Q. (1987) Porous Glass Fibers for High Sensitivity Chemical and Biochemical Sensors. Proceedings of SPIE, 838:348-352.

17. Ding, J.Y., Shahriari, M.R., and Sigel, G.H., Jr. (1991) Development of High Temperature Humidity Sensors Based on Porous Optical Fibers. International Journal of Optoelectronics, 5(4):385-393.

18. Rhodes, M.L., Listvan, M.A., and Wilson, M.L. Non-Contact Thermal Profiling for Food Processing and On-Line Control. Proceedings of the 1992 Meeting of the Instrument Society of America, Instrument Society of America, Research Triangle Park, NC, 1992, pp. 185-192.

19. Janata, J. and Bezegh, A. (1988) Chemical Sensors. Analytical Chemistry, 60:62R-74R.

20. Swientek, B. (1994) On-Line Sensors Open Up New Windows into the Process. Prepared Foods, 163(2): 86-88.

21. Bellon, V., Vigneau, J.L., and Sevila, F. (1994) Infrared and Near-Infrared Technology for the Food Industry and Agricultural Uses: On-Line Applications. Food Control, 5(l):21-27.

22. Pedersen, H., Chu, L., Henrikson, F.W., and Sigel, G.H., Jr. Fiber Optic Moisture Sensing for the Food Industry. In: Proceedings of the Food Processing Automation Conference., S.A. Shearer (ed.), ASAE Press, St. Joseph, MO, 1992, pp. 273-282.

23. Ling, P. and Ruzhitsky, V.N. Color Sensing of Food Materials Using Machine Vision. In: Proceedings of the Food Processing Automation Conference III, ASAE Press, St. Joseph, MO, 1994, pp. 71-80.

24. Asher, J.A., and Jackson, R.L. (1986) Noncontacting Optical Measurement and Inspection Systems. Proceedings of SPIE, 665:139-147.

25. Venkatasetty, H.V. (1992) Understand the Potential Uses of Electrochemical Sensors. Chemical Engineering Progress, 88(7):63-66.

26. Datta, A.K. Sensor Needs and their Development for On-Line Control of Food Processing Operations. Proceedings of the 1987 Winter Meeting of the American Society of Agricultural Engineers (ASAE), ASAE Press, St. Joseph, MO, 1989.

27. Kress-Rogers, E. (1991) Solid-state pH Sensors for Food Applications. Trends in Food Science and Technology, 2:320-324.

28. Giese, J. (1993) On-Line Sensors for Food Processing. Food Technology, 47(5):88-95.

29. Greenblatt, M., Tsai, P.P., Kodama, T., and Tanase, S. (1990) Humidity Sensor with Sintered ß- Ca(P03)2 for High Temperature Use. Solid State Ionics, 40:444-447.

30. Tsai, P.P., Tanase, S., and Greenblatt, M. (1989) High Temperature Humidity Sensing Materials. Materials Research Society Symposium Proceedings, 135:603-608.

31. DeRossi, D. (1989) Need Better Sensors? Try Using Polymers. Research and Development, 31(6):65-70.

32. Wur, S.L. and Scheinbeim, J.I. (1993) Effects of Moisture on the Piezoelectric Response of Thermally Stabilized Odd-Numbered Nylons. Bulletin of the American Physical Society, 38(1):484.

33. Feng, S. and Greenblatt, M. (1993) Proton Conductivity and Humidity Sensing Property at High- Temperature of a NASICON-based Composite Material, HZr2P3012ZrP20r Chemistry of Materials, 5:1277-1282.

34. Gardner, J.W., Surmer, H.V., and Tan, T.T. (1992) Application of an Electronic Nose to the Discrimination of Coffees. Sensors and Actuators B, 6:71-75.

35. Toko, K., Matsuno, T., Yamafuji, K., Hayashi, K., Ikezaki, H., Sato, K., Tokubo, R., and Kawarai, S. (1994) Multichannel Taste Sensor using Electric Potential Changes in Lipid Membranes. Biosensors & Bioelectronics, 9:359-364.

36. King, R.J. (1992) Microwave Sensors for Process Control Part 1: Transmission Sensors. Sensors, 9(9):68-74.

37. King, R.J. (1992) Microwave Sensors for Process Control Part 2: Open Resonator Sensors. Sensors, 9(10):25-29.

38. Pearson, R.M. and Job, C., (1994) Small Nuclear Magnetic Resonance (NMR) Spectrometers in Process Control. Proceedings of the Food Processing Automation Conference III, ASAE Press, St. Joseph, MO, 1994, pp. 366-375.

39. Wang, J. and Hayakawa, K. (1992) Thermal Conductivities of Foods at High Temperatures as Influenced by Moisture Contents. In: Activities Report and Minutes of Work Groups and Sub- Work Groups of the R&D Associates, 44(l):235-243.

40. Wang, J. and Hayakawa, K. (1993) Maximum Slope Method for Evaluating Thermal Conductivity Probe Data. Journal of Food Science, 58(6): 1340-1345.

41. Wang, J. and Hayakawa, K. (1993) Thermal Conductivities of Starch Gels at High Temperatures as Influenced by Moisture Content. Journal of Food Science, 58(4):884-887.

42. Voudouris, N. and Hayakawa, K. (1994) Simultaneous Determination of Thermal Conductivity and Diffusivity of Food Using a Point Heat Source Probe: A Theoretical Analysis. Lebensmittel Wissenschaft und Technologie, 27:522-532.

43. Samari, S. (1994) Ultrasonic Inspection Methods for Food Products. Lebensmittel-Wissenschaft und Technologie, 27:210-213.

44. Henning, B., Lucklum, R., Kupfernagel, B., and Hauptmann, P. (1994) Ultrasonic Sensor System for Characterization of Liquid Systems. Sensors and Actuators A, 41-42:476-480.

45. Gestrelius, H. (1994) Ultrasonic Doppler: A Possible Method for Non-Invasive Sterility Control. Food Control, 5(2):103-105.

46. Richardson, P.S. and Povey, M.J.W. (1990) Ultrasonic Temperature Measurement and its Potential for Food Processing Systems. Food Control, l(l):54-57.

47. Mizrach, A., Galili, N., and Rosenhouse, G. (1994) Determining Quality of Fresh Products by Ultrasonic Excitation. Food Technology, 48(12):68-71.

48. McFarlane, I. (1992) Use of In-Line Sensors and Closed-Loop Control for Food Manufacturing Processes. Institute of Chemical Engineering Symposium Series, 126:133-144.

49. Gogos, C., Esseghir, M., and Zafar, M. (1992) A Screw Pump Rheometer Based On-Line Rheology/Morphology Device. Proceedings of the Fifth Semiannual Meeting of the Mixing Study, 4:1-19.

50. Gogos, C.G., Bhakuni, S., Zafar, M., and Potlouri, R. (1994) On-Line Rheol-ogy for Process Control and Product Development. Proceedings of the Annual Meeting of the American Association of Cereal Chemists. In press.

51. Gogos, C.G. and Bhakuni, S. An On-Line Slit Rheometer for Measurement of Rheological Properties for Doughs. In: Food Extrusion Science and Technology, J.L. Kokini, C-T. Ho, and M.V. Karwe (eds.), Marcel Dekker, New York, 1992, pp. 255-261.

52. Joseph, J.P. (1993) Biosensor Theory and Applications: Part I. Sensors, ll(6):16-20.

53. Severs, A.H. (1994) Biosensors for Food Analysis. Trends in Food Science and Technology, 5:230-232.

54. Goldschmidt, M.C. (1993) Biosensors: Blessing or Bane? Journal of Rapid Methods and Automation in Microbiology, 2:9-15.

55. Burdick, J. (1994) Applying Dual Potentiometric Analyzers. Intech, 41(9):35-36,

56. Hegenbart, S. (1994) Designing Bakery Product: Merging Art and Science. Food Product Design, 3(10): 21-43.

57. Henrikson, F.W. (1992) Real-Time Moisture Sensing for Food Processing Systems. In: Activities Report and Minutes of Work Groups and Sub-Work Groups of the R&D Associates, 44(l):62-72.

58. Henrikson, F.W., Tong, C.C., Hayakawa, K., Greenblatt, M., Pedersen, H., Isied, S.S., Sigel, G.H., Scheinbeim, J. Shahriari, M.R., Newman, B.A., and Herskowitz, G.J. (1993) Moisture Sensors: From Research Laboratory to Food Processing Application. Proceedings of the American Institute of Chemical Engineers Conference on Food Engineering (CoFE), Chicago, IL.

59. Henrikson, F.W. (1994) Food Processing Control Using In-Line Moisture Sensors Developed at the Center for Advanced Food Technology. Proceedings of the American Institute of Chemical Engineers 1994 Annual Meeting, San Francisco, CA.

60. Newman, D.H. (1994) On-Line NIR Measurement System using Light Emitting Diode Technology. Food Science and Technology Today, 8(3):161-166.

61. Ohashi, E. and Karube, I. (1993) Sensors for the Food Industry. Food Control, 4(4): 183-188

62. Kress-Rogers, E., D'Costa, E.J., Sollars, J.E., Gibbs, PA., and Turner, A.P.F. (1993) Measurement of Meat Freshness In Situ with a Biosensor Array. Food Control, 4(3): 149-154.

63. Kent, M. (1990) Hand-held Instrument for Fat/Water Determination in Whole Fish. Food Control, 1(1): 47-53.

64. Payne, F.A., Hicks, C.L., Madangopal, S„ and Shearer, S.A. (1993) Fiber Optic Sensor for Predicting the Cutting Time of Coagulating Milk for Cheese Production. Transactions of the ASAE, 36(3):841-847.

65. Gestrelius, H., Mattila-Sandholm, T., and Ahvenainen, R. (1994) Methods for Non-Invasive Sterility Control in Aseptically Packaged Foods. Trends in Food Science and Technology, 5:379- 383.

66. Guenneugues, P., Chibois, S., and Trystram, G. (1990) Application of NADH Fluorosensor for On-Line Biomass Measurements in Yeast Fermentation on Whey Substrates. Food Control, 1(4): 236-241.

67. Trystram, G. and Pigache, S. (1992) Design, Operation and Evaluation of Several Analyzers. Food Control, 3(3): 161-168.

68. AbdelRahman, M. (1990) Advanced Sensor Development for the Food and Beverage Industry. Agricultural Engineering, 71:14-16.

69. Scotter, C.N.G. and Legrand, A. (1994) NIR Qualitative Analysis - A New Philosophy with Special Reference to Rapid NIR Screening for Fruit Juice Authenticity. Food Science and Technology Today, 8(3):167-171.

70. Horie, H., Fukatsu, S., Mukai, T., Goto, T., Kawanaka, M., and Shimohara, T. (1993) Quality Evaluation of Green Tea. Sensors and Actuators B, 1314:451-454.

71. Kress-Rogers, E., Gillat, P.N., and Rossell, J.B. (1990) Development and Evaluation of a Novel Sensor for the In Situ Assessment of Frying Oil Quality. Food Control, 1(3): 163-178.

72. Yam, K.L., Giannakakos, P., and Wu, F. (1992) A Review of Leak Detection Principles and Systems. Combat Ration Advanced Manufacturing Technology Demonstration Program Technical Working Paper 60, Rutgers University Center for Advanced Food Technology, New Brunswick, NJ.

73. Kemsley, E.K., Belton, P.S., McCann, M.C., Ttofis, S., Wilson, R.H., and Delgadillo, I. (1994) Spectroscopic Method for the Authentication of Vegetable Matter. Food Control, 5(4): 241-243.

Food Processing: Recent Developments A.G. Gaonkar (Editor)

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