PAVED: Pareto Front Visualization for Engineering Design

Cibulski, Lena; Mitterhofer, Hubert; May, Thorsten; Kohlhammer, Jörn

doi:10.1111/cgf.13990

Cited by 25 publications

(17 citation statements)

References 45 publications

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“…However, as a rule, the company solves not only the tasks of minimizing financial costs for disposal, but also a number of technical and technological tasks (ensuring the geomechanical stability of the mine field, ensuring the environmental friendliness of disposal processes, rational development of the subsoil) [25,26].…”

Section: Discussionmentioning

confidence: 99%

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Optimization of excess brines disposal methods at potash mining and processing plants

Shcherban

Gapchich

Жданов

et al. 2023

CI&CEQ

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The paper analyzes the positive and negative aspects of various technological solutions of the liquid brines use during the development of polymineral potash ore deposits, considers the problem of determining the choice of the optimal approach by taking into account geological, technical, environmental, and financial factors. The study of the issues of utilization and reduction of the liquid brines components of discharges in the production of potash fertilizers, the simultaneous reduction of valuable components loss with liquid discharges, and, due to this, increasing the production of potash fertilizers, and also the usage in the technology of mine brines, are an urgent and important scientific and engineering challenge of the potash industry. Technologically, several alternative solutions are possible to reduce the number of liquid by-products placed in sludge storages. A set of analytical methods was used in the work, including statistical data processing, modeling, pre-design studies of technological solutions, and assessment of economic costs. Excess brines of potash mining and processing plants are liquid waste obtained during the production of potashfertilizers - MOP ? SOP. The accumulation of excess brines in sludge storage facilities is estimated at millions of cubic meters per year. The expansion of the sludge storage facilities area and the construction of dams are only a temporary solution and associated with risks in design, construction, and operation of hydraulic structures, increasing the risks of brine leakage into open and underground water basins. This makes it necessary to use other methods of brine disposal. Depending on the nature of the processed polymineral potash ores, several methods can be used in combination for the the disposal of excess brines at once: backfiling, osmosis, injection into deep horizons, multistage evaporation. The most optimal combination of brine reduction technologies for potassium-magnesium processing plants raw materials is the following : 60% is disposed by usage of vacuum evaporation units , 20 % - by injecting excessive brines into deep absorbing horizons, 10-20% should be used for backfilling or production of additional products.

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Section: Discussionmentioning

confidence: 99%

“…The additional way of brine utilization is membrane technologies. A huge number of foreign and domestic publications, both fundamental and applied works, are devoted to the description of membrane technologies [21,[24][25][26][27][28][29][30][31][32][33], describing in detail the nuances of the membrane behavior in various processes.…”

Section: Introductionmentioning

confidence: 99%

Optimization of excess brines disposal methods at potash mining and processing plants

Shcherban

Gapchich

Жданов

et al. 2023

CI&CEQ

View full text Add to dashboard Cite

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“…Furthermore, our evaluation only involves five domain experts. This is a relatively common situation in design studies, where the presented visualizations often tackle very specific problems, which can be addressed by only a few experts [BSKR19, CMMK20, SIB*11, SFMB12, SMF*20]. A second limitation is that we only use a binary classifier.…”

Section: Discussionmentioning

confidence: 99%

“…Design studies in the automotive sector are mostly carried out for engineering design and anomaly detection. In the case of engineering design, efforts have been made to visualize in‐car communication networks [SIB*11, SFMB12] or the exploration of multi‐criteria alternatives for rotor designs [CMMK20]. Recent studies have been carried out making use of anomaly detection to detect error‐prone produced parts in test stations of large‐scale manufacturing processes [SMF*20, EJS*20].…”

Section: Related Workmentioning

confidence: 99%

RfX: A Design Study for the Interactive Exploration of a Random Forest to Enhance Testing Procedures for Electrical Engines

Eirich

Munch

Jäckle

et al. 2022

Computer Graphics Forum

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Random Forests (RFs) are a machine learning (ML) technique widely used across industries. The interpretation of a given RF usually relies on the analysis of statistical values and is often only possible for data analytics experts. To make RFs accessible to experts with no data analytics background, we present RfX, a Visual Analytics (VA) system for the analysis of a RF's decisionmaking process. RfX allows to interactively analyse the properties of a forest and to explore and compare multiple trees in a RF. Thus, its users can identify relationships within a RF's feature subspace and detect hidden patterns in the model's underlying data. We contribute a design study in collaboration with an automotive company. A formative evaluation of RFX was carried out with two domain experts and a summative evaluation in the form of a field study with five domain experts. In this context, new hidden patterns such as increased eccentricities in an engine's rotor by observing secondary excitations of its bearings were detected using analyses made with RfX. Rules derived from analyses with the system led to a change in the company's testing procedures for electrical engines, which resulted in 80% reduced testing time for over 30% of all components.

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“…Although trade-off analysis and provenance visualization are prominent areas of research, little work exists that looked at exploiting provenance information to specifically assist trade-off analysis. An exception is recent work by Cibulski et al [34], who developed an interactive Pareto front visualization tool to explore multi-criteria alternatives in engineering design. Since their focus is on trade-off analysis, they describe 13 design requirements for this domain, such as showing criteria ranges for simulation steering, supporting selections, and highlighting conflicting criteria; but they also describe one additional requirement for provenance pertaining to storing favorite alternatives for future comparison.…”

Section: Visualization In Trade-off Analysismentioning

confidence: 99%