Title :
A Framework for Detecting Hazardous Events Occurring in Transit With AutoID Technologies
Author :
Jones, Erick C. ; Weatherton, Yvette Pearson ; Gray, Bryce ; Armstrong, Hirotatsu ; Wei Chen
Author_Institution :
Dept. of Ind. & Manuf. Syst. Eng., Univ. of Texas at Arlington, Arlington, TX, USA
Abstract :
A multimodal automatic identification technology that can detect and monitor the movement of low dose radiation and communicate changing environmental conditions can prevent and/or reduce the negative impacts related to nuclear threats. This paper seeks to capitalize on scintillation nanoparticles research that has a better sensitivity and higher energy resolution for radiation detection than current systems. In summary, it is hypothesized that by further developing this research, any attempts to transport radiological materials in the U.S. will be minimized, or even preventable, through improved detection and monitoring. This section of the research evaluates the costs associated with the development of AutoID devices in order to make deployment more economical.
Keywords :
nanoparticles; nanosensors; radiation detection; radiology; scintillation; AutoID technology; US; environmental condition; hazardous event detection; low dose radiation movement; multimodal automatic identification technology; nuclear threat; radiation detection; radiological material transport; scintillation nanoparticle research; transit; Materials; Monitoring; Nanoparticles; Radiation detectors; Radiofrequency identification; Reliability; Environmental monitoring; multimodal sensors; nanocomposites; national security; radiation detector circuits; radio frequency identification; radiological dispersion devices; solid scintillation detectors; transportation;
Journal_Title :
Sensors Journal, IEEE
DOI :
10.1109/JSEN.2014.2324891
