Applying the approximation method PAINT and the interactive method NIMBUS to the multiobjective optimization of operating a wastewater treatment plant

Hartikainen, Markus; Ojalehto, Vesa; Sahlstedt, Kristian

doi:10.1080/0305215x.2014.892593

Cited by 8 publications

(6 citation statements)

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“…For instance, Fu et al [20] compared the results of the optimization or urban wastewater systems using NSGA-II and ParEGO, a surrogate model-based multi-objective optimization algorithm [30]. More recently, Hartikainen et al [24] implemented the approximation method PAINT within an interactive optimization platform to construct computationally inexpensive surrogate problems for the original wastewater treatment problem.…”

Section: Abstract Wastewater Treatment Plant • Multiobjective Optimiz...mentioning

confidence: 99%

“…This approach is related to the concepts introduced by Lewis et al [31] that explore the idea of dynamic s-Pareto frontiers and preferences, or by Vallerio et al [47], which consider operational risks and uncertainties as additional objectives to solve multi-objective optimization problems of nonlinear dynamic processes. The idea of simulating possible realistic scenarios in a multiobjective formulation could be compatible with the interactive optimization platforms to analyze WWTP optimization problems proposed in recent years [22,24].…”

Section: Abstract Wastewater Treatment Plant • Multiobjective Optimiz...mentioning

confidence: 99%

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Multiplicity of solutions in model-based multiobjective optimization of wastewater treatment plants

et al. 2020

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Wastewater treatment process design involves the optimization of multiple conflicting objectives. The detection of different equivalent solutions in terms of objective values is crucial for designers in order to efficiently switch to the new optimal operation policies if changes in the process conditions or new constraints occur. In this work, the dynamic multi-objective optimization of a municipal wastewater treatment plant model is carried out. The aim is to simultaneously optimize an economic cost term and an effluent quality index. The selected process variables for the optimization are i) an aeration factor in the aerated tank previous to the clarifier, and ii) an internal recycle flow

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Section: Abstract Wastewater Treatment Plant • Multiobjective Optimiz...mentioning

confidence: 99%

Section: Abstract Wastewater Treatment Plant • Multiobjective Optimiz...mentioning

confidence: 99%

Multiplicity of solutions in model-based multiobjective optimization of wastewater treatment plants

et al. 2020

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“…Interactive methods save computation resources and reduce cognitive load by focusing only on solutions that are interesting to the DM. Interactive methods have proved their potential for multiobjective decision support in different environmental and forest management 3 1 INTRODUCTION applications (e.g., Tecle et al, 1994;Hartikainen et al, 2015Hartikainen et al, , 2016Eyvindson et al, 2018;Saccani et al, 2020).…”

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confidence: 99%

Interactive decision support and trade-off analysis for sustainable forest landscape planning under deep uncertainty

2022

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Sustainable environmental management often involves long-term time horizons, multiple conflicting objectives, and by nature, is affected by different sources of uncertainty. Many sources of uncertainty, such as climate change or government policies, cannot be addressed using probabilistic models, and, therefore, they can be seen to contain deep uncertainty. In this setting, the variety of possible future states is represented as a set of scenarios lacking any information about the likelihood of occurring. Integrating deep uncertainty into multiobjective decision support increases complexity, calling for the elaboration of appropriate methods and tools. This paper proposes a novel interactive multi-scenario multiobjective approach to support decision-making and trade-off analysis in sustainable forest landscape planning under multiple sources of uncertainty. It includes new preference simulation models aimed at reducing the decision-maker's cognitive load and supporting the preference elicitation process. The proposed approach is applied in a case study of long-term forest landscape planning with four sustainability objectives in twelve scenarios and a forestry expert as the decision-maker. The approach is demonstrated to be efficient in exploring trade-offs in different scenarios, helping the expert gain deep insights into the problem, understand the consequences of alternative strategies, and find the most preferred robust strategy.

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“…The solution process was carried out with the implementations of agents, NIMBUS and PAINT contained in the IND-NIMBUS software framework where the DM used a graphical user interface. For further implementation details of the two methods, see [11,8], respectively.…”

Section: Surrogate Agentmentioning

confidence: 99%

“…These problem include optimal control of a continuous casting of steel [4,5], intensity modulated radiotherapy treatment planning [6], optimizing congurations of an oxyfuel power plant process [7], operating wastewater treatment plant [8,9], optimal design and control of a paper mill [10], among others. For more examples of use of interactive methods in various elds see [11] and references therein.…”

Section: Introductionmentioning

confidence: 99%

Agent assisted interactive algorithm for computationally demanding multiobjective optimization problems

Ojalehto

Podkopaev

Miettinen

2015

Computers & Chemical Engineering

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Applying the approximation method PAINT and the interactive method NIMBUS to the multiobjective optimization of operating a wastewater treatment plant

Cited by 8 publications

References 38 publications

Multiplicity of solutions in model-based multiobjective optimization of wastewater treatment plants

Multiplicity of solutions in model-based multiobjective optimization of wastewater treatment plants

Interactive decision support and trade-off analysis for sustainable forest landscape planning under deep uncertainty

Agent assisted interactive algorithm for computationally demanding multiobjective optimization problems

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