一种验证无害犬类训练辅助器材的方法

A. Simon, Lucia Lazarowski, Sarah Krichbaum, Melissa Singletary, C. Angle, Paul Waggoner, Kelly Van Arsdale, Jason Barrow
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摘要

侦查犬被训练来定位各种物质,为公众和环境提供安全和保护,但获得训练物质的途径通常是有限的。各种各样的培训辅助工具已经被创造出来,以提供目标气味,作为使用实际物质材料的更安全或更容易获得的替代品,其中许多都是市售的。然而,用于创建和验证这些培训辅助工具有效性的方法很少被报道或提供给消费者,导致其使用的不确定性。最近,在侦察犬界有一股动力,要制定标准来衡量犬类训练辅助工具的制造和效用,但在确定如何开发可靠的犬类训练辅助工具以及应该使用哪些分析测量方法方面,进展甚微。虽然对独立评估培训援助的兴趣和需求是明确的,但开发人员通常不会发布必要的信息,无论是出于专有原因还是其他原因。透明的分析和程序将允许使用客观措施直接检查训练辅助工具,从而使犬队能够选择最佳工具来完成任务。为此,目前的手稿提供了一种逐步开发和验证新型犬训练辅助的方法,使用三过氧化三丙酮作为示例目标。这种方法可以应用于许多不同目标气味的训练辅助工具的创建,例如爆炸物、麻醉品、化学战剂或生物疾病和病毒。
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A method for validating a non-hazardous canine training aid
Detection dogs are trained to locate a variety of substances to provide security and protection for the public and the environment, but access to substances for training is often limited. Various training aids have been created to deliver target odors as safer or more accessible alternatives to using the actual substance material, many of which are commercially available. However, the methods used to create and validate the effectiveness of these training aids are rarely reported or available to consumers, leading to uncertainty regarding their use. There has been a recent drive in the detection canine community to create standards by which to measure the manufacture and utility of canine training aids, but little progress has been made in determining how a reliable canine training aid should be developed and which analytical measurements should be utilized. While the interest in and need for an independently evaluated training aid is clear, developers typically do not release the necessary information, whether for proprietary or other reasons. Transparent analysis and procedures would allow for direct examination of training aids using objective measures, which in turn would allow canine teams to select the best tool to achieve their mission. To this end, the current manuscript provides a stepwise method for the development and validation of a novel canine training aid, using triacetone triperoxide as an example target. This method can be applied to the creation of training aids of many different target odors, such as explosives, narcotics, chemical warfare agents, or biological diseases and viruses.
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