仪表(计算机编程)
计算机科学
软件
灵敏度(控制系统)
校准
爆炸物
国土安全部
接口(物质)
可靠性工程
系统工程
模拟
实时计算
工程类
电子工程
操作系统
气泡
最大气泡压力法
考古
有机化学
化学
统计
恐怖主义
历史
数学
作者
Eric Wallis,Todd M. Griffin,Norm Popkie,Michael A. Eagan,Robert F. McAtee,Danet Vrazel,Jim McKinly
摘要
Ion Mobility Spectroscopy (IMS) is the most widespread detection technique in use by the military for the detection of chemical warfare agents, explosives, and other threat agents. Moreover, its role in homeland security and force protection has expanded due, in part, to its good sensitivity, low power, lightweight, and reasonable cost. With the increased use of IMS systems as continuous monitors, it becomes necessary to develop tools and methodologies to ensure optimal performance over a wide range of conditions and extended periods of time. Namely, instrument calibration is needed to ensure proper sensitivity and to correct for matrix or environmental effects. We have developed methodologies to deal with the semi-quantitative nature of IMS and allow us to generate response curves that allow a gauge of instrument performance and maintenance requirements. This instrumentation communicates to the IMS systems via a software interface that was developed in-house. The software measures system response, logs information to a database, and generates the response curves. This paper will discuss the instrumentation, software, data collected, and initial results from fielded systems.
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