2012
DOI: 10.1007/s00024-012-0501-9
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Application of Multi-Criteria Decision Analysis to Geoelectric and Geologic Parameters for Spatial Prediction of Groundwater Resources Potential and Aquifer Evaluation

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Cited by 44 publications
(26 citation statements)
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“…This condition results in a ratio of importance for each pair with the maximum difference of having one factor that is nine times more important than the other (Table 3). Based on expert opinions obtained from previous reports coupled with intuitive knowledge of the researchers on the APPCF characteristics in the area (discussed in section 3.6.1), the Saaty scale standard and the Kardi (2006) technique as used by Adiat et al (2013), the pair-wise comparison matrix for the selected aquifer hydraulic parameters shown in Table 3 was developed. Table 3 was solved to determine the aquifer hydraulic parameter weights by computing the sum of the value in each column in the table, using the total number of columns to divide each element in the matrix to produce the normalized matrix in Table 4.…”
Section: Ahp-mcda Methods and Its Applicability In Groundwater Potentimentioning
confidence: 99%
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“…This condition results in a ratio of importance for each pair with the maximum difference of having one factor that is nine times more important than the other (Table 3). Based on expert opinions obtained from previous reports coupled with intuitive knowledge of the researchers on the APPCF characteristics in the area (discussed in section 3.6.1), the Saaty scale standard and the Kardi (2006) technique as used by Adiat et al (2013), the pair-wise comparison matrix for the selected aquifer hydraulic parameters shown in Table 3 was developed. Table 3 was solved to determine the aquifer hydraulic parameter weights by computing the sum of the value in each column in the table, using the total number of columns to divide each element in the matrix to produce the normalized matrix in Table 4.…”
Section: Ahp-mcda Methods and Its Applicability In Groundwater Potentimentioning
confidence: 99%
“…Consequently, the Tr parameter was considered as the most significant parameter because the investigated area is underlain with aquifer formation with relative thick overburden as reflected in the higher TR values characterizing the area. Accordingly, for Tr and TR, a direct relation established in the area implies good groundwater potential (Adiat et al 2013). The hydraulic conductivity parameter, on the other hand, is considered as the next rated factor because the observed resistivity properties of the delineated aquifer formation in the area highly suggested a saturated formation (97 -600 Ωm, column 6 of Table 2), which indicates good groundwater potential in the area.…”
Section: Assessment Of Appcfs Hydrological Significancementioning
confidence: 99%
“…Therefore, GIS-based MCDA technique that efficiently combines multiple hydrological data to produce a reliable decision model is an effective tool to enhance the suitability analysis in an area of interest. Several researchers have used remote sensing and GIS-based MCDA in groundwater studies with effective results [21][22][23][24][25].…”
Section: Introductionmentioning
confidence: 99%
“…groundwater potentiality conditioning factors (GPCFs) often served as input indices synthesized for groundwater potentiality zones prediction in the investigated areas (Adiat et al, 2012;Jha et al, 2010). To mention few of the commonly used GPCFs input indices are lithology, drainage pattern, lineament density, soil and topographic slope, geoelectrical parameters (lithology layer's resistivity and thickness) etc (Akinlalu et al, 2017;Mogaji and Lim, 2016;Adiat et al, 2013). The combination of those used GPCFs for the potential zones modeling was effectively carried out through exploring the potential of the MCDA -AHP systemic approach.…”
Section: Introductionmentioning
confidence: 99%