Abstract
The success of any perimeter intrusion detection system depends on three important performance parameters: the probability of detection (POD), the nuisance alarm rate (NAR), and the false alarm rate (FAR). The most fundamental parameter, POD, is normally related to a number of factors such as the event of interest, the sensitivity of the sensor, the installation quality of the system, and the reliability of the sensing equipment. The suppression of nuisance alarms without degrading sensitivity in fiber optic intrusion detection systems is key to maintaining acceptable performance. Signal processing algorithms that maintain the POD and eliminate nuisance alarms are crucial for achieving this. In this paper, a robust event classification system using supervised neural networks together with a level crossings (LCs) based feature extraction algorithm is presented for the detection and recognition of intrusion and non-intrusion events in a fence-based fiber-optic intrusion detection system. A level crossings algorithm is also used with a dynamic threshold to suppress torrential rain-induced nuisance alarms in a fence system. Results show that rain-induced nuisance alarms can be suppressed for rainfall rates in excess of 100 mm/hr with the simultaneous detection of intrusion events. The use of a level crossing based detection and novel classification algorithm is also presented for a buried pipeline fiber optic intrusion detection system for the suppression of nuisance events and discrimination of intrusion events. The sensor employed for both types of systems is a distributed bidirectional fiber-optic Mach-Zehnder (MZ) interferometer.
Highlights
Distributed fiber-optic sensors have been used in many commercial and defense applications
The success of any perimeter intrusion detection system depends on three important performance parameters: the probability of detection (POD), the nuisance alarm rate (NAR), and the false alarm rate (FAR)
A robust event classification system using supervised neural networks together with a level crossings (LCs) based feature extraction algorithm is presented for the detection and recognition of intrusion and non-intrusion events in a fence-based fiber-optic intrusion detection system
Summary
Distributed fiber-optic sensors have been used in many commercial and defense applications. The advantages of using fiber optic sensors in intrusion detection systems over conventional technologies are well recognized and include their immunity to electromagnetic interference, high sensitivity, no power required in the field, intrinsic safety in volatile environments, and high reliability and cost effectiveness over large distances. Min et al [9] proposed a real-time monitoring system using an audio sensor to detect abnormal activity in the vicinity of buried gas pipes They extracted a frequency domain feature using a nonlinear scale filter bank method and cepstral mean subtraction along with a combination of two classifiers using the Gaussian mixture model and multi-layer perceptron. Robust level crossings based signal processing algorithms are presented for detecting intrusion event and suppressing nuisance alarms in both outdoor fence-mounted and buried fiber-optic intrusion detection systems without significantly affecting sensitivity. Results are shown from real-time fiber optic sensing systems
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