Optimized fingerprint generation using unintentional emission radio-frequency distinct native attributes (RF-DNA)

NAECON 2014 - IEEE National Aerospace and Electronics Conference Pub Date : 2014-06-24 DOI:10.1109/NAECON.2014.7045829
Randall D. Deppensmith, Samuel J. Stone
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引用次数: 9

Abstract

Device discrimination has been effectively demonstrated using classification processes acting on RF-DNA features as input sequences. Device discrimination utilizing RF-DNA classifiers requires training signals representative of the expected test signals that capture device uniqueness. Current techniques divide collected signals into uniformly distributed and sized regions prior to generating the RF-DNA feature input sequences. This paper divided the collected signals using non-uniform regions tailored to the device operations. Early results indicate that using non-uniform regions for fingerprint generation do not result in increased detection performance for the specific signals considered.
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利用非故意发射射频固有属性(RF-DNA)优化指纹生成
设备歧视已被有效地证明使用分类过程作用于RF-DNA特征作为输入序列。利用RF-DNA分类器的设备识别需要训练信号代表捕获设备唯一性的预期测试信号。目前的技术在生成RF-DNA特征输入序列之前,将收集到的信号划分为均匀分布和大小的区域。本文采用针对设备操作的非均匀区域对采集到的信号进行了划分。早期的结果表明,使用非均匀区域生成指纹不会导致对特定信号的检测性能提高。
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NAECON 2014 - IEEE National Aerospace and Electronics Conference
NAECON 2014 - IEEE National Aerospace and Electronics Conference
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