Difference between revisions of "SMT201 AY2019-20T1 EX1 Renata Dharma"
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The layers' dependent visibility was scaled to a minimum of 1:50000. This ensures that the map does not take too long to render while it was initially opened and that only meaningful base maps were used. At a lower scale, there is a need to see the individual roads and buildings surrounding lanes or roads. However, at a higher level, it is better for the specific area in Singapore to be seen so as to aid analyzing frequency base on each neighbourhood. | The layers' dependent visibility was scaled to a minimum of 1:50000. This ensures that the map does not take too long to render while it was initially opened and that only meaningful base maps were used. At a lower scale, there is a need to see the individual roads and buildings surrounding lanes or roads. However, at a higher level, it is better for the specific area in Singapore to be seen so as to aid analyzing frequency base on each neighbourhood. | ||
− | The image shows a map view at 1:50000 and another at map view 1:49999, where the planning area base map is visible. | + | The image shows a map view at 1:50000 (top) and another at map view 1:49999 (below), where the planning area base map is visible. |
− | [[File:Annotation at scale 1-50000.png|center|300px]] | + | [[File:Annotation at scale 1-50000.png|center|300px|map with scale 1-50000]] |
− | < | + | <br> |
− | [[File:Annotation 2019-09-15 043003.png|center|300px]] | + | [[File:Annotation 2019-09-15 043003.png|center|300px|map with scale 1-49999]] |
|} | |} | ||
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|- | |- | ||
| In the first stage, these data files were sourced: | | In the first stage, these data files were sourced: | ||
− | # | + | # Singapore Residents by Planning Area/Subzone, Age Group and Sex, June 2000 - 2018 from Department of Statistics Singapore |
− | # | + | # Singapore Master Plan 2014 Subzone and Planning Area 2014 boundary data from data.gov |
Inside the dataset: | Inside the dataset: | ||
# The relevant features include Population, Age Group, Planning Area, Subzone, Time (in years) | # The relevant features include Population, Age Group, Planning Area, Subzone, Time (in years) | ||
+ | # Subzone and Planning Area base maps from which contains the primary key attribute Subzone | ||
Data Processing: | Data Processing: | ||
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|- | |- | ||
| [[File:2010 total pop.png|300px]] <br> | | [[File:2010 total pop.png|300px]] <br> | ||
− | Table 1.1 generating Subzone, Population Count, Time respectively <br> | + | ''Table 1.1 generating Subzone, Population Count, Time respectively'' <br> |
Layer: SZ_SumPop2010 | Layer: SZ_SumPop2010 | ||
|| | || | ||
[[File:2018 total pop.png|300px]] <br> | [[File:2018 total pop.png|300px]] <br> | ||
− | Table 1.2 generating Subzone, Population Count, Time respectively <br> | + | ''Table 1.2 generating Subzone, Population Count, Time respectively'' <br> |
Layer: SZ_SumPop2018 | Layer: SZ_SumPop2018 | ||
|} | |} | ||
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|- | |- | ||
| [[File:2010 total aged pop.png|300px]] <br> | | [[File:2010 total aged pop.png|300px]] <br> | ||
− | Table 2.1 showing Aged Population Frequency at each Subzone in 2010 <br> | + | ''Table 2.1 showing Aged Population Frequency at each Subzone in 2010'' <br> |
Layer: SZ_SumAgedPop2010 | Layer: SZ_SumAgedPop2010 | ||
|| [[File:2018 total aged pop.png|300px]] <br> | || [[File:2018 total aged pop.png|300px]] <br> | ||
− | Table 2.2 showing Aged Population Frequency at each Subzone in 2018 <br> | + | ''Table 2.2 showing Aged Population Frequency at each Subzone in 2018'' <br> |
Layer: SZ_SumAgedPop2018 | Layer: SZ_SumAgedPop2018 | ||
|} | |} | ||
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|- | |- | ||
| [[File:2010 Proportion Aged Formula.png|300px]] <br> | | [[File:2010 Proportion Aged Formula.png|300px]] <br> | ||
− | Formula for calculating proportion aged within a subzone in 2010 <br> | + | ''Formula for calculating proportion aged within a subzone in 2010'' <br> |
Layer: Proportion_Aged_2010 | Layer: Proportion_Aged_2010 | ||
|| [[File:2018 Proportion Aged Formula.png|300px]] <br> | || [[File:2018 Proportion Aged Formula.png|300px]] <br> | ||
− | Formula for calculating proportion aged within a subzone in 2018 <br> | + | ''Formula for calculating proportion aged within a subzone in 2018'' <br> |
Layer: Proportion_Aged_2018 | Layer: Proportion_Aged_2018 | ||
|- | |- | ||
− | | The result will be a proportion column (in %) within the same layer: | + | | The result will be a proportion column (in %) within the same layer: <br> |
− | [[File:2010 Proportion Aged with proportion.png| | + | [[File:2010 Proportion Aged with proportion.png|400px]] <br> |
− | Proportion Column in % has been generated <br> | + | ''Proportion Column in % has been generated'' <br> |
Layer: Proportion_Aged_2010 | Layer: Proportion_Aged_2010 | ||
− | || The result will be a proportion column (in %) within the same layer: | + | || The result will be a proportion column (in %) within the same layer: <br> |
− | [[File:2018 Proportion Aged with proportion.png| | + | [[File:2018 Proportion Aged with proportion.png|300px]] <br> |
− | Proportion Column in % has been generated <br> | + | ''Proportion Column in % has been generated'' <br> |
Layer: Proportion_Aged_2018 | Layer: Proportion_Aged_2018 | ||
|} | |} | ||
+ | |||
+ | * Lastly, in order to calculate the percentage change, within each subzone, the total number of people belonging to the aged population in 2010 must be subtracted from the aged population in 2018, then divided by the aged population in 2010. Hence, the formula below is implemented via Field Calculator: <br> | ||
+ | |||
+ | {| class="wikitable" | ||
+ | |- | ||
+ | ! Formula for calculating Percentage Change between 2010 and 2018 | ||
+ | |- | ||
+ | | [[File:Percentage Change formula.png|300px]] <br> | ||
+ | Layer: Percentage_Change_2010_2018 | ||
+ | |- | ||
+ | ! Resulting Table | ||
+ | |- | ||
+ | | | ||
+ | [[File:2010 2018 Percentage Change Table.png|600px]] <br> | ||
+ | Layer: Percentage_Change_2010_2018 | ||
+ | |} | ||
+ | |||
+ | * Noticing that there are NULL values, these values were edited within the respective tables using the following formula through field calculator: <br> | ||
+ | [[File:2010 2018 Remove Null Formula.png|300px]] <br> | ||
+ | |||
+ | ===Part 2 Generated Maps=== | ||
+ | The above generated tables and columns were then used to join with the Master Plan 2014 Subzone Layer via the key attribute Subzone_N. | ||
+ | |||
+ | [[File:Total Aged Population in Each Subzone for 2010 without labels.jpg|centre|600px|Map 1: Total Aged Population in Each Subzone for 2010 ]] <br> | ||
+ | Classification: Natural Breaks (Jenks) <br> | ||
+ | Symbology: Colour Fill (red) <br> | ||
+ | |||
+ | [[File:Total Aged Population in Each Subzone for 2018 without labels.jpg|centre|600px|Map 2: Total Aged Population in Each Subzone for 2018 ]]<br> | ||
+ | Classification: Natural Breaks (Jenks) <br> | ||
+ | Symbology: Colour Fill (blue) <br> | ||
+ | |||
+ | [[File:Proportion of Aged Population in Each Subzone for 2010.jpg|centre|600px|Map 3: Proportion of Aged Population in Each Subzone for 2010]] <br> | ||
+ | Classification: Natural Breaks (Jenks) <br> | ||
+ | Symbology: Colour Fill (grey)<br> | ||
+ | |||
+ | [[File:Proportion of Aged Population in Each Subzone for 2018.jpg|centre|600px|Map 4: Proportion of Aged Population in Each Subzone for 2018]]<br> | ||
+ | Classification: Natural Breaks (Jenks) <br> | ||
+ | Symbology: Colour Fill (grey)<br> | ||
+ | |||
+ | [[File:Percentage Change of Aged Population in Each Subzone between 2010 and 2018.jpg|centre|600px|Map 5: Percentage Change of Aged Population in Each Subzone between 2010 and 2018]]<br> | ||
+ | Classification: Natural Breaks (Jenks) <br> | ||
+ | Symbology: Colour Fill (grey)<br> | ||
+ | Spatial pattern: From Map 5, the dark blue spots reveal that areas like Fernvale and Yio Chu Kang East and Kangkar are places with a decreasing number of citizens older than 65. On the other hand, subzones like Yio Chu Kang North, Kent Ridge, Pasir Ris, Bukit Merah experience a significant increase in the aged population. Taking this into account, it would be wise to evaluate redevelopment plans, ensuring that more elderly-friendly facilities are only added where the frequency of the aged population is high. Overall, it can be seen that Singapore is undergoing a silver tsunami. It is perhaps worth noting that an equal distribution of citizens by age can help foster more cohesive environments. | ||
+ | |||
+ | ===References=== | ||
+ | [1] https://data.gov.sg/dataset/school-directory-and-information <br> | ||
+ | [2] https://www.singstat.gov.sg/find-data/search-by-theme/population/geographic-distribution/latest-data <br> | ||
+ | [3] https://data.gov.sg/dataset/national-map-line <br> | ||
+ | [4] https://data.gov.sg/dataset/master-plan-2014-subzone-boundary-no-sea <br> | ||
+ | [5] https://data.gov.sg/dataset/master-plan-2014-land-use?resource_id=ea9f3b26-991f-48ea-ab58-e6b6d5fbaade <br> |
Latest revision as of 21:37, 15 September 2019
Part 1
Stage 1 |
---|
In the first stage, 1 data file was sourced:
Inside the datasets:
Data processing:
Visualising the layers:
|
Stage 2 |
In the second stage, 2 data files were sourced:
Inside the datasets: From the Road Selection Line dataset, the entire country's Road System Network was obtained, which included the major and minor roads. From the National Map Line dataset, major features for national map data represented in polyline form were found. Data includes road data like expressway, major roads, international boundary and contour lines. Data Processing: The data were categorized into 3 different colours: yellow, green and blue. As the island contour lines did not apply to this stage of the Take-Home Exercise, it has been removed so that only Major Road, Expressways and Intersections were shown. Visualising the layers: The vector representing Major Roads, Expressways and Intersections have been modified to a larger width so that it is more obvious on the map. By making use of layer ordering, by placing (2) over (1), the non-overlapping vectors would represent the Minor Roads. |
Stage 3 |
In the 3rd stage, 1 file was sourced:
Data Processing: The layer was modified to ensure consistent projection. Visualising the layers: The layers' dependent visibility was scaled to a minimum of 1:50000. This ensures that the map does not take too long to render while it was initially opened and that only meaningful base maps were used. At a lower scale, there is a need to see the individual roads and buildings surrounding lanes or roads. However, at a higher level, it is better for the specific area in Singapore to be seen so as to aid analyzing frequency base on each neighbourhood. The image shows a map view at 1:50000 (top) and another at map view 1:49999 (below), where the planning area base map is visible.
|
Part 2
Stage 1 | ||||||||
---|---|---|---|---|---|---|---|---|
In the first stage, these data files were sourced:
Inside the dataset:
Data Processing:
Part 2 Generated MapsThe above generated tables and columns were then used to join with the Master Plan 2014 Subzone Layer via the key attribute Subzone_N. Classification: Natural Breaks (Jenks) Classification: Natural Breaks (Jenks) Classification: Natural Breaks (Jenks) Classification: Natural Breaks (Jenks) Classification: Natural Breaks (Jenks) References[1] https://data.gov.sg/dataset/school-directory-and-information |