Difference between revisions of "SMT201 AY2019-20G1 EX2 Kok Jim Meng"

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==Part 1: Map Layouts of Extractions==
 
==Part 1: Map Layouts of Extractions==
<table style="text-align: left; width: 100%;" cellspacing="0">
+
[[File:Jim Part1 v8.png|800px|center]]
<tr style="background-color: #32cd32; border-spacing: 0px;">
+
===Target Roads===
<td style="border: 1px solid #a7a2a2;"><div style="text-align: center;">'''Maps'''</div></td>
+
There is a higher number of target road networks in the central and eastern part of the Gombak study area. To build the quarantine centre, it is suitable to build at these areas due to the transportation of the materials for the construction of the quarantine centre.
<td style="border: 1px solid #a7a2a2;"><div style="text-align: center;">'''Description'''</div></td>
+
===Buildings===
</tr>
+
By using Master Plan 2014 Land Use and OSM’s buildings layer, I intersect them and classify them according to the building types. Residential buildings are saturated in the western side and northern side of the study area. Furthermore, military buildings (i.e. Bukit Panjang Camp) are at the central of the study area. In addition, train stations are at the eastern side of the study area. Hence, it is ideal to set up the quarantine centre at the southern side of the study area to stay away from those stated buildings.
 +
===Target Natural Features===
 +
According to the three types of nature features namely forest, parks, and water, the proposed quarantine centre needs to stay away from these nature features. Hence, it is ideal to set up the quarantine centre at the southern side of the study area.
 +
===Digital Elevation===
 +
The colours of the elevation are represented where green means flat land, orange-yellow means mid-level land, and red means high-level land. To fulfill the economic factor of building at gentle slope, it is suitable to build the quarantine centre at the green areas of the slope according to the raster.
 +
==Part 2: Map Layouts of Proximity==
 +
[[File:Jim Part2v3.png|800px|center]]
 +
===Proximity to Target Roads===
 +
The darker the values, the more suitable for the proposed quarantine centre to be constructed. Hence, this allows the accessibility of the transportation of the materials to construct the quarantine centre. With 5 metres by 5 metres resolution, the nearest road within the study area of Gombak is 0 metres. The furthest distance from the buildings is 743.303 metres.
 +
===Proximity to Buildings===
 +
The lighter the values, the more suitable for the proposed quarantine centre to be constructed. Hence, this is to ensure the quarantine centre to be built is staying away from the buildings. With 5 metres by 5 metres resolution, the nearest road within the study area of Gombak is 0 metres. The furthest distance from the roads is 838.466 metres.
 +
===Proximity to Target Natural Features===
 +
The lighter the values, the more suitable for the proposed quarantine centre to be constructed. Hence, this is to ensure the quarantine centre to be built is staying away from the nature features. With 5 metres by 5 metres resolution, the nearest road within the study area of Gombak is 0 metres. The furthest distance from the roads is 863.669 metres.
 +
===Slope===
 +
As mentioned earlier in first part of this Take Home Exercise, slopes are based on the elevation. The darker the values, the flatter the land is. Hence, the darker values are considered suitable for the quarantine centre to be constructed. With 30 metres by 30 metres resolution, the maximum steepness is approximately 36.419 degrees. As shown in the map, most areas of the study area are flat.
 +
==Part 3: Map Layouts of Criterion Scores==
 +
To standardize the criteria scores, I have used the min-max function. To get the minimum and maximum of the proximity layers, we can find out in the properties of the layers in the information section. The following shows an example of the minimum and maximum values of the proximity to roads layer.
 +
[[File:Jim information statv1.png|600px|center]]
 +
<div style="text-align: center;">''Figure 1: Maximum and Minimum values of Proximity to Roads Layer''</div>
 +
Thereafter, I have applied the min-max formula ((DN-min value)/(max value – min value)) to get the standardized criterion score by using the Raster Calculator.
 +
[[File:Jim old Raster Calculatorv1.png|600px|center]]
 +
<div style="text-align: center;">''Figure 2: Doing Standardisation formula by applying Min-Max for Proximity to Roads Layer''</div>
 +
After standardization, the value is range from 0 to 1.
 +
<br>
 +
[[File:Jim Part3v2.png|800px|center]]
 +
===Accessibility Score===
 +
The Accessibility factor is to make sure that the site of the proposed quarantine centre is as close as possible to the roads. Hence, the lower the value the better.
 +
===Health Risk Score===
 +
The Health Risk factor is to make sure that the site of the proposed quarantine centre is as far as possible to the buildings. Hence, the higher the value the better.
 +
===Natural Conservation Score===
 +
The Natural Conservation factor is to make sure that the site of the proposed quarantine centre is far as possible to the natural sites. Hence, the higher the value the better.
 +
===Economic Score===
 +
The Economic factor is to make sure that the site of the proposed quarantine centre is at lower elevation of the slope. Hence, the lower the value the better.
 +
==Part 4: Analytical Hierarchical Process (AHP)==
 +
[[File:Jim AHP Hierarchy v1.png|600px|center]]
 +
<div style="text-align: center;">''Figure 3: Jim Meng's AHP Hierarchy''</div>
 +
After standardization, the value is range from 0 to 1.
 +
Before computing AHP and to find out the suitability of building Communicable Disease Quarantine Centre, we have to decide criteria relevant to our goal which I have identified and arranged in the hierarchy illustrated in the above figure. This allows the incorporation and accommodation of both qualitative and quantitative criteria for assessing the suitability of building Communicable Disease Quarantine Centre. So, let’s start computing AHP.
 +
[[File:AHP Importance Framework jim.png|300px|center]]
 +
<div style="text-align: center;">''Figure 4: AHP Scoring Framework''</div>
 +
AHP provides a framework where it helps us to prioritise on the different factors in decision making. It requires evaluation of the pair-wise comparison matrices using measurement theory. The parameter that is used to check this is called the Consistency Ratio. The consistency ratio is a measure of how much variation is allowed and must be less than 10%.
 +
<p>
 +
Based on my assumption of the analysis hierarchy figure, I have prioritised the factors in the following from top to bottom:
 +
# Health Risk: People are greatest assets. Best is to prevent the disease spread to people living or working nearby, especially the military personnel
 +
# Natural Conservation: Climate, environmental, and heritage issue
 +
# Accessibility: Convenience for transporting patients and materials for building the centre
 +
# Economic: A country with stable governance, money can be earned back.
 +
<p>
 +
I have constructed the AHP as follows and I got 7% of the consistency check which fulfills the criteria of the consistency ratio. This indicates that the comparisons of criteria were perfectly consistent. Moreover, I have also gotten the derived weights.
 +
[[File:Jim Pairwise Comparison Matrix.png|600px|center]]
 +
<div style="text-align: center;">''Figure 5: Jim Meng's computed Pairwise Comparison Matrix''</div>
 +
[[File:Jim Consistency check.png|600px|center]]
 +
<div style="text-align: center;">''Figure 6: Weightage and Consistency Check computed after computing Pairwise Comparison Matrix''</div>
 +
==Part 5: Suitability Analysis==
 +
Based on the weights computed in AHP (which are equal to 1), we use Raster Calculator to calculate the suitability by applying the following formulas of using the criterion scores (Note: Both Economic Factor and Accessibility Factor need to be inverse):
 +
[[File:Jim Criteria Raster Calculator.png|600px|center]]
 +
<div style="text-align: center;">''Figure 7: Using Raster Calculator to compute Criteria Raster''</div>
 +
When visualized with single pseudocolour, the output is as follows:
 +
[[File:Jim Criteria Raster.png|300px|center]]
 +
<div style="text-align: center;">''Figure 8: The output of Criteria Raster after computing it in Raster Calculator''</div>
 +
Hence, we will reclassify them into based on this condition by using Reclassify Values (simple):
 +
<br>
 +
<center>
 +
<table>
 
<tr>
 
<tr>
 
<td style="border: 1px solid #a7a2a2;">
 
<td style="border: 1px solid #a7a2a2;">
1
+
'''Low Value'''
 
</td>
 
</td>
 
<td style="border: 1px solid #a7a2a2;">
 
<td style="border: 1px solid #a7a2a2;">
1
+
'''High Value'''
 
</td>
 
</td>
</tr>
 
<tr>
 
 
<td style="border: 1px solid #a7a2a2;">
 
<td style="border: 1px solid #a7a2a2;">
2
+
'''Replace with'''
 
</td>
 
</td>
 
<td style="border: 1px solid #a7a2a2;">
 
<td style="border: 1px solid #a7a2a2;">
2
+
'''Remark'''
 
</td>
 
</td>
 
</tr>
 
</tr>
 
<tr>
 
<tr>
 
<td style="border: 1px solid #a7a2a2;">
 
<td style="border: 1px solid #a7a2a2;">
3
+
0
 
</td>
 
</td>
 
<td style="border: 1px solid #a7a2a2;">
 
<td style="border: 1px solid #a7a2a2;">
3
+
0.31
</td>
 
</tr>
 
<tr>
 
<td style="border: 1px solid #a7a2a2;">
 
4
 
</td>
 
<td style="border: 1px solid #a7a2a2;">
 
4
 
</td>
 
</tr>
 
</table>
 
==Part 2: Map Layouts of Proximity==
 
<table style="text-align: left; width: 100%;" cellspacing="0">
 
<tr style="background-color: #32cd32; border-spacing: 0px;">
 
<td style="border: 1px solid #a7a2a2;"><div style="text-align: center;">'''Maps'''</div></td>
 
<td style="border: 1px solid #a7a2a2;"><div style="text-align: center;">'''Description'''</div></td>
 
<tr>
 
<td style="border: 1px solid #a7a2a2;">
 
1
 
</td>
 
<td style="border: 1px solid #a7a2a2;">
 
1
 
</td>
 
</tr>
 
<tr>
 
<td style="border: 1px solid #a7a2a2;">
 
2
 
</td>
 
<td style="border: 1px solid #a7a2a2;">
 
2
 
</td>
 
</tr>
 
<tr>
 
<td style="border: 1px solid #a7a2a2;">
 
3
 
 
</td>
 
</td>
 
<td style="border: 1px solid #a7a2a2;">
 
<td style="border: 1px solid #a7a2a2;">
 
3
 
3
</td>
 
</tr>
 
<tr>
 
<td style="border: 1px solid #a7a2a2;">
 
4
 
 
</td>
 
</td>
 
<td style="border: 1px solid #a7a2a2;">
 
<td style="border: 1px solid #a7a2a2;">
4
+
Not Suitable Site
 
</td>
 
</td>
 
</tr>
 
</tr>
</tr>
 
<tr>
 
<td style="border: 1px solid #a7a2a2;">
 
</td>
 
<td style="border: 1px solid #a7a2a2;">
 
</td>
 
</tr>
 
</table>
 
==Part 3: Map Layouts of Criterion Scores==
 
<table style="text-align: left; width: 100%;" cellspacing="0">
 
<tr style="background-color: #32cd32; border-spacing: 0px;">
 
<td style="border: 1px solid #a7a2a2;"><div style="text-align: center;">'''Maps'''</div></td>
 
<td style="border: 1px solid #a7a2a2;"><div style="text-align: center;">'''Description'''</div></td>
 
 
<tr>
 
<tr>
 
<td style="border: 1px solid #a7a2a2;">
 
<td style="border: 1px solid #a7a2a2;">
1
+
0.31
 
</td>
 
</td>
 
<td style="border: 1px solid #a7a2a2;">
 
<td style="border: 1px solid #a7a2a2;">
1
+
0.49
 
</td>
 
</td>
</tr>
 
<tr>
 
 
<td style="border: 1px solid #a7a2a2;">
 
<td style="border: 1px solid #a7a2a2;">
 
2
 
2
 
</td>
 
</td>
 
<td style="border: 1px solid #a7a2a2;">
 
<td style="border: 1px solid #a7a2a2;">
2
+
Good Suitable Site
 
</td>
 
</td>
 
</tr>
 
</tr>
 
<tr>
 
<tr>
 
<td style="border: 1px solid #a7a2a2;">
 
<td style="border: 1px solid #a7a2a2;">
3
+
0.49
</td>
 
<td style="border: 1px solid #a7a2a2;">
 
3
 
 
</td>
 
</td>
</tr>
 
<tr>
 
 
<td style="border: 1px solid #a7a2a2;">
 
<td style="border: 1px solid #a7a2a2;">
4
+
0.85
 
</td>
 
</td>
<td style="border: 1px solid #a7a2a2;">
 
4
 
</td>
 
</tr>
 
</tr>
 
<tr>
 
<td style="border: 1px solid #a7a2a2;">
 
</td>
 
<td style="border: 1px solid #a7a2a2;">
 
</td>
 
</tr>
 
</table>
 
==Part 4: Analytical Hierarchical Process==
 
==Part 5: Map Layout of Suitability==
 
<table style="text-align: left; width: 100%;" cellspacing="0">
 
<tr style="background-color: #32cd32; border-spacing: 0px;">
 
<td style="border: 1px solid #a7a2a2;"><div style="text-align: center;">'''Maps'''</div></td>
 
<td style="border: 1px solid #a7a2a2;"><div style="text-align: center;">'''Description'''</div></td>
 
</tr>
 
<tr>
 
<td style="border: 1px solid #a7a2a2;">
 
</td>
 
<td style="border: 1px solid #a7a2a2;">
 
</td>
 
</tr>
 
<tr>
 
 
<td style="border: 1px solid #a7a2a2;">
 
<td style="border: 1px solid #a7a2a2;">
 
1
 
1
 
</td>
 
</td>
 
<td style="border: 1px solid #a7a2a2;">
 
<td style="border: 1px solid #a7a2a2;">
1
+
Best Suitable Site
</td>
 
</tr>
 
<tr>
 
<td style="border: 1px solid #a7a2a2;">
 
2
 
</td>
 
<td style="border: 1px solid #a7a2a2;">
 
2
 
</td>
 
</tr>
 
<tr>
 
<td style="border: 1px solid #a7a2a2;">
 
3
 
</td>
 
<td style="border: 1px solid #a7a2a2;">
 
3
 
</td>
 
</tr>
 
<tr>
 
<td style="border: 1px solid #a7a2a2;">
 
4
 
</td>
 
<td style="border: 1px solid #a7a2a2;">
 
4
 
 
</td>
 
</td>
 
</tr>
 
</tr>
 
</table>
 
</table>
 +
</center>
 +
[[File:Jim Reclassify.png|600px|center]]
 +
<div style="text-align: center;">''Figure 9: Using Reclassify Values (simple) to reclassify the values to compute the Suitability Zones''</div>
 +
Thereafter, we visualise using single pseudocolour where the best suitable site (metric value of 1) is indicated by white zone and the good suitable site (metric value of 2) was indicated by the bright green pixels. Hence, the map is output as follows.
 +
[[File:Suitability1 v1.png|800px|center]]
 +
Next, we transform the suitability raster into a polygon using the Polygonize (raster to vector) function. Thereafter, we removed the metric value of 3 from the polygon’s attribute table as it is not a suitable site metric value.
 +
[[File:Jim Suitability2- Elevation.png|800px|center]]
 +
Furthermore, it is considered as a valid location due to that it lies at the mid-steep areas of the elevation between 43m to 130m.<p>
 +
Hence, we will digitise suitable sites in the tint and pale orange regions where natural features, road accessibility and nearby houses which are outside Gombak subzone are taken into consideration in the following figure where it shows the zoomed overview of the are using Google Satellite base.
 +
[[File:Jim Digitised Suitable Sites.png|800px|center]]
 +
To get the area of the digitised areas, I have used $area in the suitable sites layer's attribute table's field calculator by creating a new field called area. The following figure shows the digitised suitable sites and its areas where they fulfilled the criteria of at least 10,000m<sup>2</sup>.
 +
[[File:Jim Suitable Sites Areas.png|600px|center]]
 +
<div style="text-align: center;">''Figure 10: Jim Meng's digitised suitable sites and their areas which fulfilled at least 10,000m<sup>2</sup>''</div>
 +
All the suitable sites are digitized in that way is because we can allow accessibility comes into play and maintain the natural conservation where we can link the road network to the proposed sites and construct the quarantine centre without affecting the natural feature (i.e. park). Furthermore, these suitable sites are staying away from buildings and are laying on the mid-level lands based on the elevation as explained earlier and in the following map.
 +
[[File:Another Jim Suitability Zones and its Sites.png|800px|center]]
 +
In conclusion, I feel that the highlighted site (fid 9) is the most suitable site among all the 4 sites which has fulfilled at least 10,000m<sup>2</sup> of contiguous area as shown in the figure below. This is because it stays away from buildings, the site did not touch on the park, it has road accessibility, and the elevation is mid-level.
 +
[[File:Jim Best Suitable Site for Gombak.png|600px|center]]
 +
<div style="text-align: center;">''Figure 11: In my opinion, fid 9 is the best suitable site to build the quarantine centre''</div>
 +
==Comments & Recommendations==
 +
In this Take Home Exercise 2, we can see that there is a challenge to build a quarantine centre in the Gombak subzone due to the fact that there is high elevation in the subzone and there are residential houses nearby together with natural features such as parks. Furthermore, Bukit Panjang camp takes mostly of the area of the subzone. This means that when building this quarantine centre, it means that:
 +
# the communicable disease can affect to the people living nearby as well as the military personnel who are meant to defend our nation.
 +
# natural conservation such as parks are highly affected as residents will use this as a part of recreation and animals who live in these areas will have no habitats to live in
 +
<p>
 +
All in all, building a quarantine centre in Gombak subzone will cause a hoo-ha in terms of environmental issue and society issue.
 +
<p>
 +
One recommendation for the building of quarantine centre is we can look into the Master Plan 2014 Land Use map. I have aggregated the types of land use due to overwhelming land use classifications provided by the raw data. From the map, we can see that, the western side of Singapore has a lot of open space and we shall look into that subzone later.
 +
[[File:Jim Recommended LandUse.png|800px|center]]
 +
The subzone is Western Water Catchment where it has a lot of open space. For better analysis, we thereafter will only keep the land use classification which states open space, reserved sites, and nature preservation where open space and reserved sites allow us to find the suitable sites while nature preservation is for us to maintain natural conservation which is one of our factors.
 +
[[File:Jim Western Water Catchment Subzone with useful LandUse Legend.png|800px|center]]
 +
Thereafter, we shall add in target roads, buildings, and nature features into the subzone. Furthermore, we will look into the elevation as well.
 +
[[File:Jim WWC Subzone Land Use roads buildings natural.png|800px|center]]
 +
[[File:Jim WWCSubzoneLandUse DEM.png|800px|center]]
 +
From the two maps above, we can see that Western Water Catchment is a flat land subzone. Furthermore, there is high in accessibility and natural conservation factors and low in health risk factor in the north region and southwest region.
 +
<p>
 +
After standardizing the proximities, here is the composite map layout of the four factors. According to the criterion scores, blue colour represents the most suitable while red colour represents the least suitable in building the quarantine centre in the Western Water Catchment subzone. However, it seems that Western Water Catchment is in favor of accessibility and economic factor. Further analysis has to be done. As such, I will use the same AHP mentioned in this Take Home Exercise earlier.
 +
[[File:Jim Recommendation Standardised Proximity convert.png|800px|center]]
 +
Thereafter, we compute the suitability by using the same weights given by the AHP mentioned in this Take Home Exercise which gives the following Criteria_Raster which I will reclassify them where value 3 is Not Suitable Site, 2 is Good Suitable Site, and 1 is Best Suitable Site.
 +
[[File:Jim Recommended Criteria Raster.png|300px|center]]
 +
<div style="text-align: center;">''Figure 12: The output of Criteria Raster after computing it in Raster Calculator for the suitability of Western Water Catchment subzone''</div>
 +
[[File:Jim Reclassify for Recommended.png|600px|center]]
 +
<div style="text-align: center;">''Figure 13: Using Reclassify Values (simple) to reclassify the values to compute the Suitability Zones in Western Water Catchment subzone''</div>
 +
As such, it gives the following map output where both Good Suitable Site (value 2) and Not Suitable Site (value 3) are in the study area of Western Water Catchment.
 +
[[File:Jim Recommended Suitability for WWC subzone.png|800px|center]]
 +
Hence, I will digitise the suitable sites at the north central region of the study area which has high accessibility. Moreover, as mentioned earlier, that area also has low health risk and its flat land with almost no natural features. The following map shows the digitized suitable sites with its areas which are at least 10,000m<sup>2</sup>.
 +
[[File:Jim Recommended Suitable Sites for WWC Subzone.png|800px|center]]
 +
Further view of the suitable sites in OpenStreetMap and Google Maps Satellite will be shown here.
 +
[[File:Jim Recommended Suitable Sites OSM Google convert for WWC.png|800px|center]]
 +
In conclusion, Western Water Catchment is a suitable subzone as it has low elevation, very less nature features and buildings (especially residential buildings), and many target roads networks which fulfills our factors in building the quarantine centre. However, the land is currently used by Ministry of Defence (MINDEF) as it is used for SAFTI Live Firing Range. Hence, different government ministries such as MINDEF, Ministry of Health (MOH), and Ministry of National Development (MND) need to be involved in this proposal of building proposed quarantine centre by sacrificing a few land of the SAFTI Live Firing Range.
 +
==References==
 +
[https://data.gov.sg/dataset/master-plan-2014-subzone-boundary-no-sea 2014 Master Plan Subzone]<br>
 +
[https://data.gov.sg/dataset/master-plan-2014-land-use 2014 Master Plan Land Use]<br>
 +
[https://download.bbbike.org/osm/bbbike/Singapore/ BBBike OSM Data]<br>
 +
[http://asterweb.jpl.nasa.gov/gdem.asp ASTER Global Digital Elevation Model (GDEM)]<br>
 +
[https://www.google.com/url?sa=t&rct=j&q=&esrc=s&source=web&cd=17&ved=2ahUKEwi198HV87_lAhXhjuYKHWn1AnEQFjAQegQICRAC&url=http%3A%2F%2Fwww.scbuk.com%2FAHP%2520Template%2520SCBUK.xls&usg=AOvVaw002J8QfYIxOE_I9PYqrH8_ SCB Associates (AHP Template)] <br>
 +
[https://www.mpa.gov.sg/web/portal/home/port-of-singapore/circulars-and-notices/port-marine-circulars/detail/pc06-15 SAFTI Live Firing Area]

Latest revision as of 23:35, 10 November 2019

Part 1: Map Layouts of Extractions

Jim Part1 v8.png

Target Roads

There is a higher number of target road networks in the central and eastern part of the Gombak study area. To build the quarantine centre, it is suitable to build at these areas due to the transportation of the materials for the construction of the quarantine centre.

Buildings

By using Master Plan 2014 Land Use and OSM’s buildings layer, I intersect them and classify them according to the building types. Residential buildings are saturated in the western side and northern side of the study area. Furthermore, military buildings (i.e. Bukit Panjang Camp) are at the central of the study area. In addition, train stations are at the eastern side of the study area. Hence, it is ideal to set up the quarantine centre at the southern side of the study area to stay away from those stated buildings.

Target Natural Features

According to the three types of nature features namely forest, parks, and water, the proposed quarantine centre needs to stay away from these nature features. Hence, it is ideal to set up the quarantine centre at the southern side of the study area.

Digital Elevation

The colours of the elevation are represented where green means flat land, orange-yellow means mid-level land, and red means high-level land. To fulfill the economic factor of building at gentle slope, it is suitable to build the quarantine centre at the green areas of the slope according to the raster.

Part 2: Map Layouts of Proximity

Jim Part2v3.png

Proximity to Target Roads

The darker the values, the more suitable for the proposed quarantine centre to be constructed. Hence, this allows the accessibility of the transportation of the materials to construct the quarantine centre. With 5 metres by 5 metres resolution, the nearest road within the study area of Gombak is 0 metres. The furthest distance from the buildings is 743.303 metres.

Proximity to Buildings

The lighter the values, the more suitable for the proposed quarantine centre to be constructed. Hence, this is to ensure the quarantine centre to be built is staying away from the buildings. With 5 metres by 5 metres resolution, the nearest road within the study area of Gombak is 0 metres. The furthest distance from the roads is 838.466 metres.

Proximity to Target Natural Features

The lighter the values, the more suitable for the proposed quarantine centre to be constructed. Hence, this is to ensure the quarantine centre to be built is staying away from the nature features. With 5 metres by 5 metres resolution, the nearest road within the study area of Gombak is 0 metres. The furthest distance from the roads is 863.669 metres.

Slope

As mentioned earlier in first part of this Take Home Exercise, slopes are based on the elevation. The darker the values, the flatter the land is. Hence, the darker values are considered suitable for the quarantine centre to be constructed. With 30 metres by 30 metres resolution, the maximum steepness is approximately 36.419 degrees. As shown in the map, most areas of the study area are flat.

Part 3: Map Layouts of Criterion Scores

To standardize the criteria scores, I have used the min-max function. To get the minimum and maximum of the proximity layers, we can find out in the properties of the layers in the information section. The following shows an example of the minimum and maximum values of the proximity to roads layer.

Jim information statv1.png
Figure 1: Maximum and Minimum values of Proximity to Roads Layer

Thereafter, I have applied the min-max formula ((DN-min value)/(max value – min value)) to get the standardized criterion score by using the Raster Calculator.

Jim old Raster Calculatorv1.png
Figure 2: Doing Standardisation formula by applying Min-Max for Proximity to Roads Layer

After standardization, the value is range from 0 to 1.

Jim Part3v2.png

Accessibility Score

The Accessibility factor is to make sure that the site of the proposed quarantine centre is as close as possible to the roads. Hence, the lower the value the better.

Health Risk Score

The Health Risk factor is to make sure that the site of the proposed quarantine centre is as far as possible to the buildings. Hence, the higher the value the better.

Natural Conservation Score

The Natural Conservation factor is to make sure that the site of the proposed quarantine centre is far as possible to the natural sites. Hence, the higher the value the better.

Economic Score

The Economic factor is to make sure that the site of the proposed quarantine centre is at lower elevation of the slope. Hence, the lower the value the better.

Part 4: Analytical Hierarchical Process (AHP)

Jim AHP Hierarchy v1.png
Figure 3: Jim Meng's AHP Hierarchy

After standardization, the value is range from 0 to 1. Before computing AHP and to find out the suitability of building Communicable Disease Quarantine Centre, we have to decide criteria relevant to our goal which I have identified and arranged in the hierarchy illustrated in the above figure. This allows the incorporation and accommodation of both qualitative and quantitative criteria for assessing the suitability of building Communicable Disease Quarantine Centre. So, let’s start computing AHP.

AHP Importance Framework jim.png
Figure 4: AHP Scoring Framework

AHP provides a framework where it helps us to prioritise on the different factors in decision making. It requires evaluation of the pair-wise comparison matrices using measurement theory. The parameter that is used to check this is called the Consistency Ratio. The consistency ratio is a measure of how much variation is allowed and must be less than 10%.

Based on my assumption of the analysis hierarchy figure, I have prioritised the factors in the following from top to bottom:

  1. Health Risk: People are greatest assets. Best is to prevent the disease spread to people living or working nearby, especially the military personnel
  2. Natural Conservation: Climate, environmental, and heritage issue
  3. Accessibility: Convenience for transporting patients and materials for building the centre
  4. Economic: A country with stable governance, money can be earned back.

I have constructed the AHP as follows and I got 7% of the consistency check which fulfills the criteria of the consistency ratio. This indicates that the comparisons of criteria were perfectly consistent. Moreover, I have also gotten the derived weights.

Jim Pairwise Comparison Matrix.png
Figure 5: Jim Meng's computed Pairwise Comparison Matrix
Jim Consistency check.png
Figure 6: Weightage and Consistency Check computed after computing Pairwise Comparison Matrix

Part 5: Suitability Analysis

Based on the weights computed in AHP (which are equal to 1), we use Raster Calculator to calculate the suitability by applying the following formulas of using the criterion scores (Note: Both Economic Factor and Accessibility Factor need to be inverse):

Jim Criteria Raster Calculator.png
Figure 7: Using Raster Calculator to compute Criteria Raster

When visualized with single pseudocolour, the output is as follows:

Jim Criteria Raster.png
Figure 8: The output of Criteria Raster after computing it in Raster Calculator

Hence, we will reclassify them into based on this condition by using Reclassify Values (simple):

Low Value

High Value

Replace with

Remark

0

0.31

3

Not Suitable Site

0.31

0.49

2

Good Suitable Site

0.49

0.85

1

Best Suitable Site

Jim Reclassify.png
Figure 9: Using Reclassify Values (simple) to reclassify the values to compute the Suitability Zones

Thereafter, we visualise using single pseudocolour where the best suitable site (metric value of 1) is indicated by white zone and the good suitable site (metric value of 2) was indicated by the bright green pixels. Hence, the map is output as follows.

Suitability1 v1.png

Next, we transform the suitability raster into a polygon using the Polygonize (raster to vector) function. Thereafter, we removed the metric value of 3 from the polygon’s attribute table as it is not a suitable site metric value.

Jim Suitability2- Elevation.png

Furthermore, it is considered as a valid location due to that it lies at the mid-steep areas of the elevation between 43m to 130m.

Hence, we will digitise suitable sites in the tint and pale orange regions where natural features, road accessibility and nearby houses which are outside Gombak subzone are taken into consideration in the following figure where it shows the zoomed overview of the are using Google Satellite base.

Jim Digitised Suitable Sites.png

To get the area of the digitised areas, I have used $area in the suitable sites layer's attribute table's field calculator by creating a new field called area. The following figure shows the digitised suitable sites and its areas where they fulfilled the criteria of at least 10,000m2.

Jim Suitable Sites Areas.png
Figure 10: Jim Meng's digitised suitable sites and their areas which fulfilled at least 10,000m2

All the suitable sites are digitized in that way is because we can allow accessibility comes into play and maintain the natural conservation where we can link the road network to the proposed sites and construct the quarantine centre without affecting the natural feature (i.e. park). Furthermore, these suitable sites are staying away from buildings and are laying on the mid-level lands based on the elevation as explained earlier and in the following map.

Another Jim Suitability Zones and its Sites.png

In conclusion, I feel that the highlighted site (fid 9) is the most suitable site among all the 4 sites which has fulfilled at least 10,000m2 of contiguous area as shown in the figure below. This is because it stays away from buildings, the site did not touch on the park, it has road accessibility, and the elevation is mid-level.

Jim Best Suitable Site for Gombak.png
Figure 11: In my opinion, fid 9 is the best suitable site to build the quarantine centre

Comments & Recommendations

In this Take Home Exercise 2, we can see that there is a challenge to build a quarantine centre in the Gombak subzone due to the fact that there is high elevation in the subzone and there are residential houses nearby together with natural features such as parks. Furthermore, Bukit Panjang camp takes mostly of the area of the subzone. This means that when building this quarantine centre, it means that:

  1. the communicable disease can affect to the people living nearby as well as the military personnel who are meant to defend our nation.
  2. natural conservation such as parks are highly affected as residents will use this as a part of recreation and animals who live in these areas will have no habitats to live in

All in all, building a quarantine centre in Gombak subzone will cause a hoo-ha in terms of environmental issue and society issue.

One recommendation for the building of quarantine centre is we can look into the Master Plan 2014 Land Use map. I have aggregated the types of land use due to overwhelming land use classifications provided by the raw data. From the map, we can see that, the western side of Singapore has a lot of open space and we shall look into that subzone later.

Jim Recommended LandUse.png

The subzone is Western Water Catchment where it has a lot of open space. For better analysis, we thereafter will only keep the land use classification which states open space, reserved sites, and nature preservation where open space and reserved sites allow us to find the suitable sites while nature preservation is for us to maintain natural conservation which is one of our factors.

Jim Western Water Catchment Subzone with useful LandUse Legend.png

Thereafter, we shall add in target roads, buildings, and nature features into the subzone. Furthermore, we will look into the elevation as well.

Jim WWC Subzone Land Use roads buildings natural.png
Jim WWCSubzoneLandUse DEM.png

From the two maps above, we can see that Western Water Catchment is a flat land subzone. Furthermore, there is high in accessibility and natural conservation factors and low in health risk factor in the north region and southwest region.

After standardizing the proximities, here is the composite map layout of the four factors. According to the criterion scores, blue colour represents the most suitable while red colour represents the least suitable in building the quarantine centre in the Western Water Catchment subzone. However, it seems that Western Water Catchment is in favor of accessibility and economic factor. Further analysis has to be done. As such, I will use the same AHP mentioned in this Take Home Exercise earlier.

Jim Recommendation Standardised Proximity convert.png

Thereafter, we compute the suitability by using the same weights given by the AHP mentioned in this Take Home Exercise which gives the following Criteria_Raster which I will reclassify them where value 3 is Not Suitable Site, 2 is Good Suitable Site, and 1 is Best Suitable Site.

Jim Recommended Criteria Raster.png
Figure 12: The output of Criteria Raster after computing it in Raster Calculator for the suitability of Western Water Catchment subzone
Jim Reclassify for Recommended.png
Figure 13: Using Reclassify Values (simple) to reclassify the values to compute the Suitability Zones in Western Water Catchment subzone

As such, it gives the following map output where both Good Suitable Site (value 2) and Not Suitable Site (value 3) are in the study area of Western Water Catchment.

Jim Recommended Suitability for WWC subzone.png

Hence, I will digitise the suitable sites at the north central region of the study area which has high accessibility. Moreover, as mentioned earlier, that area also has low health risk and its flat land with almost no natural features. The following map shows the digitized suitable sites with its areas which are at least 10,000m2.

Jim Recommended Suitable Sites for WWC Subzone.png

Further view of the suitable sites in OpenStreetMap and Google Maps Satellite will be shown here.

Jim Recommended Suitable Sites OSM Google convert for WWC.png

In conclusion, Western Water Catchment is a suitable subzone as it has low elevation, very less nature features and buildings (especially residential buildings), and many target roads networks which fulfills our factors in building the quarantine centre. However, the land is currently used by Ministry of Defence (MINDEF) as it is used for SAFTI Live Firing Range. Hence, different government ministries such as MINDEF, Ministry of Health (MOH), and Ministry of National Development (MND) need to be involved in this proposal of building proposed quarantine centre by sacrificing a few land of the SAFTI Live Firing Range.

References

2014 Master Plan Subzone
2014 Master Plan Land Use
BBBike OSM Data
ASTER Global Digital Elevation Model (GDEM)
SCB Associates (AHP Template)
SAFTI Live Firing Area