Advanced Metal Detectors Dr. Serkan Aksoy 4. REFERENCES (CW) A Abdel-Rehim O. A., Davidson J. L., Marsh L. A., O’Toole M. D. , Peyton A. J., (2016), Magnetic polarizability tensor spectroscopy for low metal anti-personnel mine surrogates, IEEE Sensors Journal, vol. 16-10, 3775-3783. AETC, (1999), Processing techniques for discrimination between buried UXO and clutter using multi-sensor array data, SERDP Annual Report, CU-1121. Alfrod A., Kandoian A. G., (1940), Ultrahigh-frequency loop antennas, AIEE Transactions, 59, 843-848. Alumbaugh D. L., Newman G. A., Prevost L., Shadid J. N., (1996), Three-dimensional wideband electromagnetic modeling on massively parallel computers, Radio Science, 31-1, 1-23. Ambrus D, Vasic D, Bilas V., (2013), Active induction balance method for metal detector sensing head utilizing transmitter-bucking and dual current source, Journal of Physics: Conference Series, 450-1,1-6. Antonio J., Sandoval A., (2012), Los Detectores de Metales en Áreas Históricas: The Metal Detectors in Historic Areas, Trafford Publishing. Ao C. O., Braunisch H., Neil K. O., Kong J. A., Tsang L., Johnson J. T., (2001), Broadband electromagnetic induction response from conducting and permeable spheroids, Proc. SPIE, 4394, 1304-1315. Austin B. A., Boswell A., Perks M. A., (2014), Loss mechanisms in the electrically small loop antenna, IEEE Antennas and Propagation Magazine, 56-4, 142-147 (with comment and reply in 2015 issue). Awadalla K. H., Sharshar A. A., (1984), A simple method to determine the impedance of a loop antenna, IEEE Trans. on Antennas and Propagation, 32-11, 1248-1251. B Balanis C. A., (1997), Antenna Theory - Analysis and Design, 2th Edition, John Wiley and Sons Inc. Balanis C. A., (2005), Antenna Theory - Analysis and Design, 3th Edition, John Wiley and Sons Inc. Barrow B., Khadr N., DiMarco R., Nelson H. H., Chekcheyev S., (1998), Metal Detector, Patent of Ukraine, No: 31296. Bartoli M., Reatti A., Kazimierczuk M. K., (1994), High-frequency models of ferrite core inductors, 20th Int. Conf. on Industrial Electronics, Control and Instrumentation, 5-9 September, 1670-1675. Baum C. E., (1999), Detection and Identification of Visually Obscured Targets, Taylor & Francis. Barrick D. E., (1986), Miniloop antenna operation and equivalent circuit, IEEE Trans. on Antennas and Propagation, 34-1, 111-114. Barrow B., Bell T. H., Miller J., (2000), Characterization studies of the electromagnetic induction response of compact metallic objects for improved unexploded ordnance, 13th EEGS Symp. on the Application of Geophysics to Engineering and Environmental Problems, 20 February, 819-828. Boura A., (2016), Single-coil metal detector limits, Electroscope, 1-4. Bell T. H., Barrow B. J., Miller J. T., (2001), Subsurface discrimination using electromagnetic induction sensors, IEEE Trans. on Geoscience and Remote Sensing, 39-6, 1286-1293. Bergeler S., Ewald H., Krambeer H., Kubota E., (2005), Optical position monitoring using spatial filters for improved magnet-inductive prospection of metal pieces, Proc. SPIE, 5826, 679-686. Besser Associates, Applied RF Techniques Course, 480 San Antonio Road, Mountain View, CA. 94040 Bevan, B., (1983), Geophysical exploration for archaeology: An introduction to geophysical exploration. Midwest Archaeological Center Special Report 1. Bier G., Richards R., (1999), Detector training: It’s more than lecture and familiarization, Engineer, November, 46-49. Bladel J. G. V., (1960), Good conductors in low-frequency fields, IEEE Trans. on Antennas and Propagation, 10-5, 625-633. Blazek P., (2010), Intelligent Metal Detector, Bachelor Thesis, Czech Technical University in Prague. Boswell A., Tyler A. J., White A., (2015), Performance of a Small Loop Antenna in the 3 - 1 0 MHz Band, IEEE Antennas and Propagation Magazine, 47-2, 51-5 6 . Bozorth R. M., Chapin D. M., (1942), Demagnetizing factors of rods, Journal of Applied Physics, 13-5, 320- 326. Braunisch H., Ao C. O., O’Neill K., Kong J. A., (2000), Magnetoquasistatic response of a distribution of small conducting and permeable objects, IEEE International Geoscience and Remote Sensing Symposium (IGARSS '00), 4, 1424-1426, 24-28 July, Honolulu, HI, USA. Advanced Metal Detectors Dr. Serkan Aksoy Bruschini C., (1997), Evaluation of a commercial visualizing metal detector for UXO-mine detection: the HILTI ferroscan system, International Workshop on Sustainable Humanitarian Demining (SusDem 97), 6.18-6.27, Zagrep, Crotaria. Bruschini C., Gros B., (1997), A survey of current sensor technology research for the detection of land mines, International Workshop on Sustainable Humanitarian Demining (SusDem 97), 6.18-6.27, Zagrep, Crotaria. Bruschini C., Sahli H., (2000), Phase-angle-based EMI object discrimination and analysis of data from a commercial differential two-frequency system, Proc. SPIE, 4038, 1404-1419. Buschow K.H.J., (2009), Handbook of Magnetic Materials, Vol. 18, Elsevier B. V. C +Candy B., (2000), Metal Detector Basics and Theory, Technical Notes, Minelab. +Cargile D. M., Bennett H. H., Goodson, R. A., DeMoss T. A., Cespedes E. R., (2004), Advanced UXO Detection-Discrimination Technology Demonstration- Kaho'olawe Hawaii, Technical Report, Environmental Laboratory, U. S. Army Engineer Research and Development Center, USA. Carin L., (2000), On the wideband EMI response of buried UXO, UXO/Countermine Forum, May 1-5, Anaheim, CA Carin L., Won I. J., Keiswetter D., (1999), Wideband frequency- and time-domain EMI for mine detection, Proc. SPIE, 3710, 14-25. Chekcheyev S., (1998), Metal Detector, Patent of Ukraine, No: 31296. +Caruso M. J., (1998), A new perspective on magnetic field sensing, Sensors, 34-45. + Cauterman M., Martin J. L., Degauque P., Gabillard R., (1979), Numerical modeling for electromagnetic remote sensing of inhomogeneities in the ground, Proceeding of the IEEE, 67-7, 1009-1015. + Caverly R., Breed G., Cantrell W. H., Eron M., Garcia J. A., Kondrath N., Ruiz D. M. N., Walker J. L. B., (2015), Advancements at the lower end - Advances in HF, VHF, and UHF systems and technology, IEEE Microwave Magazine, 16-1, 28-49. +Chekcheyev S., (2009), Temperature stable metal detector, IEEE Trans. on Inst. & Meas., 58-6, 1907- 1910. +Chilakaa S. V., Riggsa L. S., Nelsonb H. H., Bellc T. H., (2004), Extremely low frequency response (below 30 Hz) of UXO-like objects, Proc. SPIE, 5415, 1280-1291. Connor M., Scott D. D., (1998), Metal detector use in archaeology - An introduction, Historical Archaeology, 32-4, 76-85. Contaxes N., Hatch A. J., (1969), High-frequency fields in solenoidal coils, Journal of Applied Physics, 40- 9, 3548-3550. Coggon J. H., (1971), Electromagnetic and electrical modeling by finite-element method, Geophysics, 36, 132-155. D Dalichaouch Y., Whitecotton B., McManus T., Kuhn S., Trammell H., Shelby R., Carin L., (2004), Wide frequency response of low metal mines, Proc. SPIE, 5415, 275-282. +Daniels D. J., (2008), UWB radar for the detection of buried ordnance, NATO/OTAN Report. Das Y., Toews J. D., (1996), Issues in performance evaluation of metal detectors, Canadian Centre for Mine Action Technologies, 1-17. Devore R., Bohley P., (1977), The electrically small magnetically loaded multiturn loop antenna, IEEE Trans. on Antennas and Propagation, 25-4, 496-505. E Ewald H., (2011), Electromagnetic Induction, Chapter 4 in Subsurface Sensing, Editors: A. S. Türk, A. K. Hocaoğlu, A. A. Vertiy, Wiley Publication. Ewald H., Kruger H., (2005), Inductive sensors and their applications in metal detection, 1st Int. Conf. on Sensing Technologies, 21-23 November, 567-572, Palmesrston North, New Zeland. F Advanced Metal Detectors Dr. Serkan Aksoy Fails E. B., Torrione P. A., Scott W. R., Collins L. M., (2007), Performance of a four parameter model for modeling landmine signatures in frequency domain wideband electromagnetic induction detection system, Proc. SPIE, 6553, 1-8. Fair-Rite Rods 4077484611, 77 Rod, http://www.fair-rite.com/product/rods-4077484611/. Flind E., (1980), Magnum metal detectors, Everyday Practical Electronics, Wimbourne Publishing, 1-11. Fortress Technology Inc., (1997), Metal Detector Basic and Theory, Scarborough, ON, Canada, 1997. +Fortress, (1999), Metal Detector Basics, v2-1, Technical Notes. Friss H. T., (1925), A new directional receiving system, Proceedings of the Institute of Radio Engineers, 13- 6, 685 – 707. Fuller B. D., (1971), Electromagnetic response of a conducting sphere surrounded by a conductive shell, Geophysics, 36, 9-24. G Galejs J., (1969), Antennas in Inhomogeneous Media, Pergamon Press. Gao P., Collins L., Moulton J., Makowsky L., Weaver R., Keiswetter D., Won I. J., (1999), Enhanced detection of land mines using broadband EMI data, Proc. SPIE, 3710, 2-13. Gao P., Collins L., Garber P. M., Geng N., Carin L.,(2000), Classification of landmine-like metal targets using wideband electromagnetic induction, IEEE Trans. on Geoscience and Remote Sensing, 38, 1352-1361. Garrett L. C., (2002), Modern Metal Detectors, RAM Publishing. Geng N., Garger P., Collins L., Carin L., (1998), Wideband electromagnetic induction for metal-target identification - Theory, measurement and signal processing, Proc. SPIE, 3392, 42-51. Geng N., Baum C. E., Carin L., (1999), On the low-frequency natural responses of conducting and permeable target, IEEE Trans. on Geoscience and Remote Sensing, 37-1, 347-359. Goggans P. M., Liu Q., (2015), A complex-envelope FDTD formulation using alternating in-phase and quadrature field variables, IEEE Trans. on Antennas and Propagation, 63-11, 5169-5175. Grant F.S., West G. F., (1965), Interpretation