Advanced Sensors in Pr ecision Manufacturing
                          develop a procedure for rapidly evaluating the efficiency of vaccines;   323
                          such a procedure could quickly expedite the search for an effective
                          vaccine against the AIDS virus.



                     Further Reading
                          Barks, R. E., “Optical High Acidity Sensor,” Los Alamos National Laboratory, June
                             1991.
                          Bicknel, T. J., and W. H. Farr, “Acousto Optical/Electronic Processor for SAR,”
                             NASA Tech Briefs, 16, May 1992.
                          Bonnert, R., “Design of High Performance Digital Tachometer with Digital
                             Microcontroller,” IEEE Trans. Instrum., 38, 1104–1108 (1989).
                          Buser, R. A., and N. F. Rooij, “Resonant Silicon Structures,” Sensors and Actuators, 17,
                             145–154 (1989).
                          D’Amico A., and E. Verona, “SAW Sensors,”  Sensors and Actuators, 17, 66–66
                             (1989).
                          Fleming Dias, J., “Physics Sensors Using SAW Devices,” Hewlett-Packard J., 18–20,
                             December 1981.
                          Gast, T., “Sensors with Oscillating Elements,” J. Phys. E. Sci. Instrum., 18, 783–789
                             (1985).
                          Hayman, J. S., and M. Frogatt, “Ultrasonic Dynamic Vector Stress Sensor (UDVSS),”
                             Langley Research Center, 1992.
                          Hewlett-Packard, “Design and Operational Considerations for the HELDS-5000
                             Incremental Shaft Encoder,” Application Note 1011, Palo Alto, 1981.
                          Higbie, B. N., “Automatic Detection of Faults in Turbomachinery Bearings,” NASA
                             Tech Briefs, 16, May 1992.
                          Higbie, N., Technology Integration and Development Group Inc., Technical Report,
                             May 1992.
                          Huner, B., P. Klinkhachorn, and E. B. Everton, “Hybrid Clock Oscillator Modules
                             as Deposition Monitors,” Rev. Sci. Instrum., 59, 983–986 (1988).
                          Ito, H., “Balanced  Absorption Quartz Hygrometer,”  IEEE Trans. Ultrasonics,
                             Ferroelectrics, and Frequency Control, 34, 136–141 (1987).
                          Lokshin, A. M., “Hand/Eye Coordination for Microrobotic Motion—Utilizing
                             Vision Technology,” Caltech, 1991.
                          Los Alamos National Laboratory, Research Team, “Single Molecule Detection,”
                             January 1991.
                          Montgomery, J. L., “Force and Optical Sensors Controlling Robotic Gripper for
                             Agriculture,” Martin Marietta Corp., 1992.
                          Noble, M. N., D. N. Mark, and R. Blue, “Tracking Retroreflective Targets on a
                             Structure,” NASA Tech Briefs, 16, May 1992.
                          “Optical Sensor to Quantify Highly Acidic Solution—Sensing High Acidity without
                             Generating Waste,” LANL, Technology ‘91, 57–58 (1991).
                          Tien-Hsin Chao, “Experimental Optoelectronic Associative Memory,” NASA Tech
                             Briefs, 16, May 1992.
                          “Ultrasensitive Detection for Medical and Environmental  Analysis—Single
                             Molecule Detector,” LANL, Technology ‘91, 80–81 (1991).
                          Vaughan, A. H., “Reflective Strip Imaging Camera Sensor—Measuring a 180° Wide
                             Angle,” Caltech, NASA’s Jet Propulsion Laboratory, 1992.
                          Williams, D. E., “Laser Sensor Detecting Microfluor,” Ames Laboratory, July 1991.