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V. J. Lumelsky, M. S. Shur, and S. Wagner, “Sensitive skin,” Sensors Journal, IEEE, vol. 1, pp. 41-51, 2001.10.1109/JSEN.2001.923586Search in Google Scholar
D. Curone, E. L. Secco, L. Caldani, A. Lanatà, R. Paradiso, A. Tognetti, and G. Magenes, “Assessment of sensing fire fighters uniforms for physiological parameter measurement in harsh environment,” IEEE Transactions on Information Technology in Biomedicine, vol. 16, pp. 501-511, 2012.10.1109/TITB.2011.2182615Search in Google Scholar
H. Leng and Y. Lin, “Design and fabrication of a MEMS/NANO-skin system for human physiological response measurement,” in Sensors and Smart Structures Technologies for Civil, Mechanical, and Aerospace Systems 2010, March 8, 2010 - March 11, 2010, San Diego, CA, United states, 2010, pp. The Society of Photo-Optical Instrumentation Engineers (SPIE); American Society of Mechanical Engineers; KAIST.10.1117/12.846934Search in Google Scholar
K. Arshak and O. Korostynska, Advanced materials and techniques for radiation dosimetry: Artech House, 2006.Search in Google Scholar
A. N. Sokolov, M. E. Roberts, and Z. Bao, “Fabrication of low-cost electronic biosensors,” Materials Today, vol. 12, pp. 12-20, 2009.10.1016/S1369-7021(09)70247-0Search in Google Scholar
K. Arshak and O. Korostynska, “Thin- and thick-film real-time gamma radiation detectors,” IEEE Sensors Journal, vol. 5, pp. 574-580, 2005.10.1109/JSEN.2005.850992Search in Google Scholar
C.-M. Yang, W.-T. Huang, T.-L. Yang, M.-C. Hsieh, and C.-T. Liu, “Textiles digital
sensors for detecting breathing frequency,” in 5th International Workshop on Wearable and Implantable Body Sensor Networks, BSN 2008, in conjunction with the 5th International Summer School and Symposium on Medical Devices and Biosensors, ISSS-MDBS 2008, June 1, 2008 - June 3, 2008, Hong Kong, China, 2008, pp. 276-279.Search in Google Scholar
P. Rai, P. Shyamkumar, S. Oh, H. Kwon, G. N. Mathur, V. K. Varadan, and M. P. Agarwal, “Smart healthcare textile sensor system for unhindered-pervasive health monitoring,” in Nanosensors, Biosensors, and Info-Tech Sensors and Systems 2012, March 12, 2012 - March 15, 2012, San Diego, CA, United states, 2012, pp. The Society of Photo-Optical Instrumentation Engineers (SPIE); American Society of Mechanical Engineers.10.1117/12.921253Search in Google Scholar
A. Dittmar and A. Lymberis, “Smart clothes and associated wearable devices for biomedical ambulatory monitoring,” in 13th International Conference on Solid-State Sensors and Actuators and Microsystems, TRANSDUCERS ‘05, June 5, 2005 - June 9, 2005, Seoul, Korea, Republic of, 2005, pp. 221-227.Search in Google Scholar
T. Vervust, G. Buyle, F. Bossuyt, and J. Vanfleteren, “Integration of stretchable and washable electronic modules for smart textile applications,” Journal of The Textile Institute, vol. 103, pp. 1127-1138, 2012/10/01 2012.Search in Google Scholar
M. Pacelli, G. Loriga, N. Taccini, and R. Paradiso, “Sensing fabrics for monitoring physiological and biomechanical variables: E-textile solutions,” in 2006 3rd IEEE-EMBS International Summer School and Symposium on Medical Devices and Biosensors, ISSS-MDBS 2006, September 4, 2006 - September 6, 2006, Cambridge, MA, United states, 2006, pp. 1-4.10.1109/ISSMDBS.2006.360082Search in Google Scholar
R. R. Fletcher and S. Kulkarni, “Wearable doppler radar with integrated antenna for patient vital sign monitoring,” in 2010 IEEE Radio and Wireless Symposium, RWW 2010, January 10, 2010 - January 14, 2010, New Orleans, LA, United states, 2010, pp. 276279.10.1109/RWS.2010.5434220Search in Google Scholar
SmartLife. (2012). Garments that Sense: E textile Solution to Remote Health Monitoring. Available: http://www.smartlifetech.com/Search in Google Scholar
B. Kapilevich and B. Litvak, “Microwave sensor for accurate measurements of water solution concentrations,” in APMC Asia-Pacific Microwave Conference, Bangkok, 2007, pp. 1-4.10.1109/APMC.2007.4554682Search in Google Scholar
J. D. Boon and J. M. Brubaker, “Acoustic-microwave water level sensor comparisons in an estuarine environment,” in OCEANS, Quebec, Canada, 2008, pp. 1-5.10.1109/OCEANS.2008.5151893Search in Google Scholar
B. Jackson and T. Jayanthy, “A novel method for water impurity concentration using microstrip resonator sensor,” in Recent Advances in Space Technology Services and Climate Change (RSTSCC), Chennai, India., 2010, pp. 376-379.10.1109/RSTSCC.2010.5712872Search in Google Scholar
C. Bernou, D. Rebière, and J. Pistré, “Microwave sensors: a new sensing principle. Application to humidity detection,” Sensors and Actuators B: Chemical, vol. 68, pp. 8893, 2000.Search in Google Scholar
O. Korostynska, A. Mason, and A. I. Al-Shamma’a, “Proof-of-Concept Microwave Sensor on Flexible Substrate for Real-Time Water Composition Analysis,” presented at the ICST 2012: 6th International Conference on Sensing Technology, Special focus on Sensors for Agriculture and Environmental Monitoring, Kolkata, India, 2012.10.1109/ICSensT.2012.6461739Search in Google Scholar
T. Nacke, A. Barthel, C. Pflieger, U. Pliquett, D. Beckmann, and A. Goller, “Continuous process monitoring for biogas plants using microwave sensors,” in 12th Biennial Baltic Electronics Conference (BEC) Tallinn, Estonia, 2010, pp. 239-242.10.1109/BEC.2010.5630738Search in Google Scholar
K. Y. You, J. Salleh, Z. Abbas, and L. L. You, “A rectangular patch antenna technique for the determination of moisture content in soil,” in Progress in Electromagnetics Research Symposium, PIERS 2010 Cambridge, July 5, 2010 - July 8, 2010, Cambridge, MA, United states, 2010, pp. 850-854.Search in Google Scholar
A. Mason, O. Korostynska, S. Wylie, and A. I. Al-Shamma’a, “Non-destructive evaluation of an activated carbon using microwaves to determine residual life,” Carbon, vol. 67, pp. 1-9, 2014.10.1016/j.carbon.2012.06.034Search in Google Scholar
O. Korostynska, A. Arshak, P. Creedon, K. Arshak, L. Wendling, A. I. Al-Shamma’a, and S. O’Keeffe, “Glucose monitoring using electromagnetic waves and microsensor with interdigitated electrodes,” in IEEE Sensors Applications Symposium, SAS, New Orleans, LA, USA, 2009, pp. 34-37.10.1109/SAS.2009.4801772Search in Google Scholar
A. Mason, S. Wylie, A. Thomas, H. Keele, A. Shaw, and A. Al-Shamma’a, “HEPA Filter Material Load Detection Using a Microwave Cavity Sensor,” International Journal on Smart Sensing and Intelligent Systems, vol. 3, pp. 322-337, Sep 2010.10.21307/ijssis-2017-395Search in Google Scholar
A. Al-Shamma’a, A. Mason, and A. Shaw, “Patent: Non-Invasive Monitoring Device,” US2012150000 (A1), WO2010131029 (A1), EP2429397 (A1), 2012.Search in Google Scholar
J. N. Lange and S. S. Shope, “Microwave Properties of Drilling Fluids,” Geophysics, vol. 46, pp. 322-332, 1981.10.1190/1.1441203Search in Google Scholar
D. A. Kidwell, J. C. Holland, and S. Athanaselis, “Testing for drugs of abuse in saliva and sweat,” Journal of Chromatography B, vol. 713, pp. 111-135, 1998.10.1016/S0378-4347(97)00572-0Search in Google Scholar
L. Yu, Y. Lu, and X. Zhu, “Smart hospital based on internet of things,” Journal of Networks, vol. 7, pp. 1654-1661, 2012.Search in Google Scholar
A. J. Jara, M. A. Zamora, and A. F. G. Skarmeta, “An Internet of things-based personal device for diabetes therapy management in ambient assisted living (AAL),” Personal and Ubiquitous Computing, vol. 15, pp. 431-440, 2011.10.1007/s00779-010-0353-1Search in Google Scholar
X. Li, R. Lu, X. Liang, X. Shen, J. Chen, and X. Lin, “Smart community: An internet of things application,” IEEE Communications Magazine, vol. 49, pp. 68-75, 2011.10.1109/MCOM.2011.6069711Search in Google Scholar
J. Pascual Espada, “Design service-oriented collaborative virtual objects within Internet of things,” Journal of Ambient Intelligence and Smart Environments, vol. 4, pp. 483-484, 2012.10.3233/AIS-2012-0174Search in Google Scholar