Nuclear Engineering and Technology

Korean Nuclear Society (한국원자력학회)
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Advanced Technology Trends in Development of Land-Mine Detection Systems

  • Published : 2001.06.01
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Abstract

While the United Nations UN) agencies work to restrict the manufacture, sale, and use of land-mines worldwide, a massive clean-up effort is needed to find and destroy the estimated 100 million land-mines still buried around the world. Land-mines left behind from wars worldwide are one of the past century's main unsolved problems of war and remain the focus of humanitarian land-mine detection and removal primarily in Europe, Africa, Asia and Central and South America. For example, approximately 1 million anti-personnel mines and other various kinds which have been buried in the 249.4 km (155 miles) demilitarized zone (DMZ) of the Korean peninsular should be completely removed in historical process of the peaceful unification between South and North Korea. In this regard, the current trends of technologies linked to land-mine detection systems are surveyed.

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References

  1. T. Cousins et al., 'The Development of a thermal neutron activation (TNA) system as a confirmatory non-metallic land mine detector,' J. Radioanal. Nucl. Chem. 253 (1-2), 53 (1998) https://doi.org/10.1007/BF02385937
  2. Edward Clifford et al.' 'Second-Generation Thermal Neutron Activation for Confirmatory Land-Mine Detection,' Paper Invited to Applications of $^{252}Cf-II$ Session, Proc. 2000 ANS Meeting, San Diego, CA, 101-102, June (2000)
  3. J. McFee et al., 'Multisensor, Vehicle-Mounted, Teleoperated Mine Detector with Data Fusion,' Proc. SPIE Conf. Detection and Remediation Technologies for Mines and Mine-Like Targets III, Orlando, Florida, Vol. 3392, April (1998) https://doi.org/10.1117/12.324158
  4. F. Rotondo et al., 'Report on the Advanced Technology Demonstration (ATD) of the Vehicular-Mounted Mine Detection (VMMD) Systems at Aberdeen, Maryland and Socorro, New Mexico,' Document D-2203, Institute for Defense Analyses, October (1998)
  5. J. F. Briemeister, MCNP- A General Monte Carlo N-Particle Transport Code- Version 4A, ORNL, LA-12625-M (1993)
  6. LLNL, 'World's Fastest Solid-State Digitizer,' Energy & Tech. Review, UCRL-52000-94-4, 1-6, April (1994)
  7. LLNL, 'Micro Power Impulse Radar,' Sci. & Tech. Review, UCRL-52000-96-1/2, 16-29, January/February (1996)
  8. S. G. Azevedo et al., Statement of Capabilities: Micropower Impulse Radar (MIR) Technology Applied to Mine Detection and Imaging, LLNL, UCRL-ID-120801, March (1995)
  9. Ron Kelly, 'Stand-Off Detection Radar System,' Electromagnetic and Electronic Systems, Mine Detection Radar Division, JACOR, San Diego, CA 92121 (2000)
  10. E. M. A. Hussein, E. J. Waller, 'Landmine detection: the problem and the challenge,' Appl. Radiat. Isot. 53, 557 (2000) https://doi.org/10.1016/S0969-8043(00)00218-9
  11. A. G. Caffrey et al., 'Chemical agent and high explosive identification by spectroscopy of neutron-induced gamma rays,' IEEE Transactions on Nuclear Science 39, 1422 (1992) https://doi.org/10.1109/23.173218