Muhammad Ahsan
Department of Computer Engineering
College of Electrical and Mechanical Engineering (E& ME)
National University of Sciences and Technology (NUST) Rawalpindi
E-mail: ahsan_415@yahoo.com
Muhammad Younus Javed
Department of Computer Engineering
College of Electrical and Mechanical Engineering (E& ME)
National University of Sciences and Technology (NUST) Rawalpindi
E-mail: myjaved@ceme.edu.pk
Abstract
In adaptive beam forming, the beam produced by single sensor is cumulative result of all elements in SONAR. The side lobes produced by any sensor is cancelled by the neighboring sensors. When any sensor is defective then the interference is not cancelled and the beam pattern produces major degradation in beam pattern by producing the side lobes. Due to this factor, the detection of target becomes difficult. In this research, we have applied two types of filters blind and non-blind adaptive filters that cancel the interference caused due to defective sensors in SONAR. We have used adaptive filter when the desired beam pattern is known at the receiver or it is not known at the receiver side. It has been observed that even if up to 50% of the sensors are degraded, proposed systems works at its optimum level. Results show that adaptive filter is computationally efficient, works in presence of noise and operates in the environment when the actual beam pattern is known or not known at the receiver side. It has been noted that filter produces output that is very near to its optimum value. The results show that it is feasible to construct a real time acoustic beam former with realistic parameters using parallel processing architecture.
Keywords: SONAR, Beam former, Blind algorithm, Non-blind Algorithm, High Octave,
Medium Octave, Low Octave, Least Mean Square Estimation (LMS), Signal
to Noise ratio (SNR)
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