Abstract
Sensors and sensor systems are vital to our awareness of our surroundings and provide safety, security, and surveillance, as well as enable monitoring of our health and environment. A transformative advance in the field of sensor technology has been the development of “Smart Sensor Systems”. The definition of a Smart Sensor may vary, but typically at a minimum a Smart Sensor is the combination of a sensing element with processing capabilities provided by a microprocessor. That is, Smart Sensors are basic sensing elements with embedded intelligence. The sensor signal is fed to the microprocessor, which processes the data and provides an informative output to an external user. A more expansive view of a Smart Sensor System, which is used in this article, is illustrated in Fig. 19.1: a complete self-contained sensor system that includes the capabilities for logging, processing with a model of sensor response and other data, self-contained power, and an ability to transmit or display informative data to an outside user. The fundamental idea of a smart sensor is that the integration of silicon microprocessors with sensor technology cannot only provide interpretive power and customized outputs, but also significantly improve sensor system performance and capabilities.
Keywords
Originally published in Interface Magazine, The Electrochemical Society, Vol. 19, No. 4, Winter, pg. 29–34, 2011. Reproduced by permission of The Electrochemical Society
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Bryzek J, Roundy S, Bircumshaw B, Chung C, Castellino K, Vestel M, Stetter JR (2006) Marvelous MEMS. IEEE Circuits Devices 22(2):8–28. ISSN 8755-3996
National Nanotechnology Initiative (2009) Nanotechnology-enabled sensing. Report on the National Nanotechnology Initiative workshop, Arlington, Virginia, 5–7 May. Available at http://www.nano.gov/
Shirke AG, Cavicchi RE, Semancik S, Jackson RH, Frederick BG, Wheeler MC (2007) Femtomolar isothermal desorption using microhotplate sensors. J Vac Sci Technol A 25:514–526
Linden D, Reddy TB (eds) (2002) Handbook of batteries, 3rd edn. McGraw-Hill, New-York
Mateu L, Moll F (2005) Review of energy harvesting techniques and applications for microelectronics. In: Proceedings of the SPIE microtechnologies for the new millennium, Bellingham, WA
Minazara E, Vasic D, Costa F, Poulin G (2006) Piezoelectric diaphragm for vibration energy harvesting. Ultrasonics 44:e699–e703
Liu CC, O’Connor E, Strohl KP (2006) A multichannel, wireless telemetric microsystem for small animal studies. IEEE Sens J 6:187–202
Otis B, Moritz C, Holleman J, Mishra A, Pandey J, Rai DY, Zhang F (2009) Circuit techniques for wireless brain interfaces. Invited paper. Conf Proc IEEE Eng Med Biol Soc 2009:3213–3216
Hunter GW, Xu J, Neudeck PG, Makel DB, Ward B, Liu CC (2006) Intelligent chemical sensor systems for in-space safety applications. In: 42nd AIAA/ASME/SAE/ASEE joint propulsion conference & exhibit, Sacramento, CA, 10–12 July 2006, Technical report AIAA-06-58419
Hunter GW, Xu JC, Evans L, Biaggi-Labiosa A, Ward BJ, Rowe S, Makel DB, Liu CC, Dutta P, Berger GM, Vander Wal RL (2010) The development of micro/nano chemical sensor systems for aerospace applications, SPIE Newsroom, June 2010. http://spie.org/x1004.xml
Hunter GW, Dweik RA (2008) Applied breath analysis: an overview of the challenges and opportunities in developing and testing sensor technology for human health monitoring in aerospace and clinical applications. J Breath Res 2:037020
Stetter JR, Hesketh PJ, Hunter GW (2006) Sensors: engineering structures and materials from micro to nano. Interface [Electrochemical Society] 15(1):66–69
Ni M, Stetter JR, Buttner WJ (2008) Orthogonal gas sensor arrays with intelligent algorithms for early warning of electrical fires. Sens Actuator B 130:889–899
Stetter JR (2009) Experimental methods in chemical sensor and sensor array evaluation and development In: Ryan MA, Shevade AV, Taylor CJ, Homer ML, Blanco M, Stetter JR (eds) Computational methods for sensor materials selection. doi:10.1007/978-0-387-73715-7-1. Copyright Springer Science + Business Media, LLC. ISBN 978-0-387-73714-0, pp 3–46
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Hunter, G.W., Stetter, J.R., Hesketh, P.J., Liu, C.C. (2012). Smart Sensor Systems. In: Shunin, Y., Kiv, A. (eds) Nanodevices and Nanomaterials for Ecological Security. NATO Science for Peace and Security Series B: Physics and Biophysics. Springer, Dordrecht. https://doi.org/10.1007/978-94-007-4119-5_19
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