S. Chamberlain scite author profile

To assure attainment and maintenance of desired water quality levels in our rivers and streams, systematic monitoring must be performed. A preliminary phase of the design of water quality surveillance systems is the specification of sampling frequencies and station locations throughout the basin; that is, the development of an adequate space/time sampling plan. The purpose of this paper is to present some quantitative methods which have been developed to identify candidate sets of sampling frequencies and station locations, and to establish priorities for implementing the different frequencies and locations. These methods are useful in the cost/effectiveness trade‐off analyses in surveillance system design, and are based on the surveillance system objective of pollution abatement in which it is desired to detect violations in state‐federal water quality standards. A spatial priority measure is developed which is dependent both on the water quality profile in the stream and on the information obtained from monitoring stations located in other reaches. Also, a temporal sampling priority rating is presented which is a measure of the effectiveness of the surveillance system with respect to its ability to detect the violations in the standards. To illustrate the quantitative methods, the procedures are applied to the Wabash River Basin.

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Finite state stochastic games: Existence theorems and computational procedures

Kushner

Chamberlain

1969

IEEE Trans. Automat. Contr.

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A model for numerical simulation of nonstationary sonar reverberation using linear spectral prediction

Chamberlain

Galli

1983

IEEE J. Oceanic Eng.

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S. Chamberlain

Underwater Acoustics: A Linear Systems Theory Approach

QUANTITATIVE METHODS FOR PRELIMINARY DESIGN OF WATER QUALITY SURVEILLANCE SYSTEMS¹

Finite state stochastic games: Existence theorems and computational procedures

A model for numerical simulation of nonstationary sonar reverberation using linear spectral prediction

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S. Chamberlain

Underwater Acoustics: A Linear Systems Theory Approach

QUANTITATIVE METHODS FOR PRELIMINARY DESIGN OF WATER QUALITY SURVEILLANCE SYSTEMS1

Finite state stochastic games: Existence theorems and computational procedures

A model for numerical simulation of nonstationary sonar reverberation using linear spectral prediction

Contact Info

Product

Resources

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QUANTITATIVE METHODS FOR PRELIMINARY DESIGN OF WATER QUALITY SURVEILLANCE SYSTEMS¹