Data compression for underwater glider system using frequency sampling filters

Rosmiwati Mohd-Mokhtar; Muhammad Hilmi R.A. Aziz; M. R. Arshad; Nur Afande Ali Hussain

Data compression for underwater glider system using frequency sampling filters

Rosmiwati Mohd-Mokhtar^*, Muhammad Hilmi R.A. Aziz, M. R. Arshad, Nur Afande Ali Hussain

^*Corresponding author for this work

Universiti Sains Malaysia

Research output: Contribution to journal › Article › peer-review

2 Citations (Scopus)

Abstract

Data acquisition from underwater glider system yields large amounts of data. This may lead to a long computational time during the identification process. The raw data may also contain complex system disturbance information which may require a sophisticated optimization algorithm to achieve desirable results. In this paper, frequency sampling filters approach is used as a tool to compress the data and obtain meaningful parameter that describes the empirical model of the system. The use of finite impulse response model and the maximum likelihood method will play a role in eliminating the bias and noise effects of the glider data systems. By performing this procedure, the compressed, cleaned and unbiased data will be obtained, in which, it can be further used to develop a model of the glider system, also to analyze and observe for optimization and controller design purposes.

Original language	English
Pages (from-to)	227-235
Number of pages	9
Journal	Indian Journal of Marine Sciences
Volume	40
Issue number	2
Publication status	Published - Apr 2011
Externally published	Yes

Keywords

Data compression
Frequency sampling filters
Glider system

Cite this

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title = "Data compression for underwater glider system using frequency sampling filters",

abstract = "Data acquisition from underwater glider system yields large amounts of data. This may lead to a long computational time during the identification process. The raw data may also contain complex system disturbance information which may require a sophisticated optimization algorithm to achieve desirable results. In this paper, frequency sampling filters approach is used as a tool to compress the data and obtain meaningful parameter that describes the empirical model of the system. The use of finite impulse response model and the maximum likelihood method will play a role in eliminating the bias and noise effects of the glider data systems. By performing this procedure, the compressed, cleaned and unbiased data will be obtained, in which, it can be further used to develop a model of the glider system, also to analyze and observe for optimization and controller design purposes.",

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author = "Rosmiwati Mohd-Mokhtar and Aziz, {Muhammad Hilmi R.A.} and Arshad, {M. R.} and Hussain, {Nur Afande Ali}",

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AU - Aziz, Muhammad Hilmi R.A.

AU - Arshad, M. R.

AU - Hussain, Nur Afande Ali

PY - 2011/4

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N2 - Data acquisition from underwater glider system yields large amounts of data. This may lead to a long computational time during the identification process. The raw data may also contain complex system disturbance information which may require a sophisticated optimization algorithm to achieve desirable results. In this paper, frequency sampling filters approach is used as a tool to compress the data and obtain meaningful parameter that describes the empirical model of the system. The use of finite impulse response model and the maximum likelihood method will play a role in eliminating the bias and noise effects of the glider data systems. By performing this procedure, the compressed, cleaned and unbiased data will be obtained, in which, it can be further used to develop a model of the glider system, also to analyze and observe for optimization and controller design purposes.

AB - Data acquisition from underwater glider system yields large amounts of data. This may lead to a long computational time during the identification process. The raw data may also contain complex system disturbance information which may require a sophisticated optimization algorithm to achieve desirable results. In this paper, frequency sampling filters approach is used as a tool to compress the data and obtain meaningful parameter that describes the empirical model of the system. The use of finite impulse response model and the maximum likelihood method will play a role in eliminating the bias and noise effects of the glider data systems. By performing this procedure, the compressed, cleaned and unbiased data will be obtained, in which, it can be further used to develop a model of the glider system, also to analyze and observe for optimization and controller design purposes.

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KW - Frequency sampling filters

KW - Glider system

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JO - Indian Journal of Marine Sciences

JF - Indian Journal of Marine Sciences

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ER -

Data compression for underwater glider system using frequency sampling filters

Abstract

Keywords

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