SMT201 AY2019-20G2 Ex2 JerryTohvan

Part 1: Study Area Map Components

FIGURE I

Study Area Map Components

Firstly, the above summarises an overview of the study area and its map components we want to consider in this suitability land analysis for the Communicable Disease Quarantine Centre in Bukit Gombak.

FIGURE II

Target Road Map

Figure II shows Bukit Gombak's Road Network that will be accounted in as an Accesibility factor in weighing the location suitability.

FIGURE III

Target Building Map

Figure III shows Bukit Gombak's Buildings that will be accounted in as an Health Risk factor in weighing the location suitability. We want the Disease Quarantine Centre to be further away from residential in order to ensure safe-zone. Health Risk factor will be prioritised as for the very fact that a Quarantine Centre exists, to ensure no further disease spreading. Bukit Gombak has mostly residential areas in its'subzone.

FIGURE III

Target Natural Features Map

FIGURE IV

Incomplete Waterway Target Inclusion. Applying buffering and merging of polygons in QGIS.

Figure IV shows Bukit Gombak's Natural Features that will be accounted in as an Natural Conservation factor in weighing the location suitability. The Natural features includes forest, park, water, and also waterway(canal, drain, stream). Waterway polygon was merged into the natural features in order to account in medium of disease transmission that could potentially cause disease spreading. We account this as risk factor that needed to be considered.

FIGURE V

Digital Elevation Map

Figure V shows Bukit Gombak's Elevation Map that will be accounted in as an Economical factor in weighing the location suitability. Most projects will always assess its cost in building. In estimation, slope inclination of about 15 degrees and beyond could add further costs to increase significantly as the risks become greater and the work becomes more difficult to build.

Part 2: Study Area Proximity Maps

FIGURE VI

Accessibility Factor: Road Proximity Map

After target map elements have been rasterised. We perform the raster proximity distance on its layer and apply binary model classification on all the factor layers. The legend of Proximity map layer indicates that the furthest distance from the roads is 796.304 metres.

FIGURE VII

Health Risk Factor: Building Proximity Map

Applying the same methods used on road proximity map, The legend of Proximity map layer indicates that the furthest distance from the buildings is 910 metres.

FIGURE VIII

Natural Conservation Factor: Natural Features Proximity Map

Next, the Figure VIII shows the Natural Features Proximity Map where the legend of Proximity map layer indicates that the furthest distance from the natural features is 948.117 metres.

FIGURE IX

Economic Factor: Slope Layer

Lastly, Figure IX shows the slope layer. The legend of Slope layer shows that the minimum and maximum values of the slope values are 0 and 34.5339 degrees respectively.

Criterion Scores for Map Components

FIGURE X

Accesibility Factor: Road Binary & Criteria Score

Figure X includes the accesibility binary model, where we prefer location under 200 m.

FIGURE XI

Health Risk Factor: Building Binary & Criteria Score

The Figure XI includes the health risk binary model where we prefer that buildings are 250 meters away from the Disease Quarantine Centre.

FIGURE XII

Natural Conservation Factor: Natural Features Binary & Criteria Score

Next, Figure XII includes the natural conservation risk binary model, where we prefer public natural features and waterways are 200 meters away from the centre.

FIGURE XIII

Economical Factor: Slope Binary & Criteria Score

Lastly, Figure XIII includes the economical factor binary model,where we locations where slope inclination is below or equal to 15 degrees.

Analytical Hierarchical Process Input Matrix & Approach

FIGURE XIV

SCB Associates' AHP Scoring Framework

The Analytical Hierachy Process provides a framework to assist the prioritisation of different factors in decision making. The method applies the pairwise comparison by evaluating relative importance of 2 factors. The matrix mathematics was applied in deriving appropriate weighting ratio by ensuring consistency ratio (consistency index/ratio index) is equal or less than 10%. Figure XIV shows the Pairwise comparson matrix's fundamental scale used.

FIGURE XV

AHP Scoring Framework for Accounting Factors

Next, we evaluate each factor with the corresponding grading scale in which the SCB's AHP model with automatically compute its consistency ratio. In summary, the priority that we will aim will be ensuring firstly that health risk is minimal. Second, the economic factor has to be reasonable as government facilities are built upon contribution of Singapore's citizen, thus we need to be accountable with every cent that we spent in developing the quarantine centre. Third, Natural Conservation comes next and Road Accessibility as the last priority. It would have been the best scenario to get the best of everything. However, when dealing in what we called as a VUCA world we live in, we have to be reasonable in determining whats a higher priority to be considered.