Open AccessThe Autoregressive Moving Average with Exogenous Excitation Model for Acoustic Scattering from Underwater Objects
Author(s) -
Lubna Farhi,
Farhan Ur Rehman,
Agha Yasir Ali
Publication year - 2020
Publication title -
quaid-e-awam university research journal of engineering science and technology
Language(s) - English
Resource type - Journals
eISSN - 2523-0379
pISSN - 1605-8607
DOI - 10.52584/qrj.1802.23
Subject(s) - autoregressive model , underwater , frequency domain , signal (programming language) , autoregressive–moving average model , range (aeronautics) , statistics , computer science , mathematics , engineering , mathematical analysis , geology , oceanography , programming language , aerospace engineering
This study aims to identify and predict objects underwater using the autoregressive moving average with exogenous excitation (ARMX) model in such a way that the outcome of the model is similar to actual measurements. It is used for parameter estimation. This model is validated by comparing results in actual model with ARMX model, autoregressive with an exogenous variables, and Box Jenkins (BJ) model. The results are analyzed in frequency and time domain by using mean square error criterion. Initial results show that ARMX predicts the acoustic scattering response with an accuracy of 96%, while ARX provides an accuracy of 78%, and BJ model poorly estimates the signal with an accuracy of 35%. ARMX also provides higher accuracy of detection by 7-8% as compared to the existing techniques.