Difference between revisions of "XccessPoint Proposal"

In recent years, increasing attention has been paid to the issue of inequality in Singapore among parliament discussions and social policy studies. “This is what inequality looks like.” You Yenn Teo’s recent best seller book in 2018 uncovers the heightened tension on social inequalities in Singapore through illuminating an ethnographic presentation of the experiences of the less privileged Singaporeans. Moreover, in the recent Commitment to Reducing Inequality Index 2018 conducted by International Confederation Oxfam International, Singapore was ranked as one of the bottom 10 countries worldwide in inequality reduction.

The current state of inequality has motivated to use to delve deeper into the spatial inequality in Singapore which has not been widely examined in the past. We hope to understand inequality by examining the accessibility to many key essential facilities for an ordinary Singaporean living in Housing Development Board (HDB) units. The improvement in visibility to geospatial inequality through our application could provide policy makers a more justified and structured approach for strategizing future plans in mitigating inequality in different neighbourhoods.

Our project would like to develop geographical accessibility and spatial interaction model to study the accessibility of HDB units to facilities in Singapore. The aspects of accessibility to look into includes the distance to healthcare facilities (General Practitioner Clinics, Polyclinics and Hospitals), transportation infrastructure (MRT stations and Bus Stops), Schools, Police Stations, and Hawker Centres for all HDBs in different regions, planning areas and planning subzones. We hope to develop an accessibility study tool through Analytic Hierarchy Process and enable urban planners leverage on this open-source, interactive, reproducible and highly accessible tool to better strategize urban planning policies.

In summary, through our project, we aim to:

1. Study the spatial distribution of facilities and HDB units
2. Identify the areas with poor accessibility to essential facilities
3. Analyze and highlight regions with higher needs for certain facilities
4. Indicate whether there is a substantial difference in accessibility to facilities across regions, planning areas and planning subzones
5. Provide customizable input parameters on pairwise comparisons of facilities, thus allowing policy makers to generate overall Analytic Hierarchy Process accessibility score based on their prioritie
6. Evaluate results of analysis and provide recommendations for urban planners to enhance the accessibility to different facilities

Literature review of relevant research paper on spatial analysis of accessibilities are conducted to enhance our project methodology.

The table below shows a overall summary of our methodology

1. Data Preparation
   • Perform geocoding (Google API)
   • Change coordinate system to SVY21 (EPSG:3414)
   • Merging boundaries on different levels (region, planning area or subzone)
2. Set Accessibility Radius
   • Since comparing across facilities all over Singapore for each house is inefficient and computationally expensive, we will create a buffer of ~1km around each house and calculate distance to facilities within this radius only.
   • If no facilities are found, accessibility radius will be increased to beyond 1km
   • Next, compute minimum distance for each house to each type of facility using Euclidean Distance
3. Accessibility Calculation using Analyic Hierarchy Process
   • User will need to enter his/her priorities for the facility types in a pairwise matrix from -9 to 9
   • Calculate consistency
   Consistency Ratio (CR) = Consistency Index(CI)/ Random Index(RI) CI = (λmax -n) / (n-1) Where λmax is the maximum eigenvalue of the pairwise comparison vector and n is the number of attributes. Random Index is the mean of the resulting consistency index based on the order of the matrix
   • If the criteria entered by user is not consistent(CR>0.1), user will be prompted to reenter the priority
   • If consistent, weight for each facility will be calculated
   • Calculate weighted sum where each weight is multiplied by minimum distance to that facility.
   AHPi = SUM(Wj x Dij) where i is each house and j is each facility. Wj is weight of facility j and Dij is minimum distance from house i to facility j
   • This weighted sum forms the AHP score which is then plotted in the graph. The lower the AHP score, the higher the accessibility

Data Page

Our team first plans to display the locations of all the facilities in Singapore on a plot. We will also plot a Chrolopleth map where colour of the subzone represents the number of facilities in that subzone

Accessibility Page

Then we will calculate distance from each HDB to the facility selected (i.e. Healthcare Services in this case). We will plot it in a map of the region/planning area/subzone selected. We will also calculate boxplots comparing planning areas and subzones in the region selected.

Analytic Hierarchy Process

Finally, we will calculate AHP for all the houses based on the priority entered and plot it according to the boundaries selected.

1. Leong, C. (2018, May 30). Stay connected. Retrieved from https://www.ipscommons.sg/inequality-has-a-geographic-dimension-between-and-within-neighbourhoods-in-singapore/
2. Chua, M. (Ed.). (2018, February 18). Inequality is a threat - name it, and face it. Retrieved from https://www.straitstimes.com/singapore/inequality-is-a-threat-name-it-and-face-it
3. Here's why Singapore is one of the worst countries in reducing inequality. (2018, October 10). Retrieved from https://sbr.com.sg/economy/news/heres-why-singapore-one-worst-countries-in-reducing-inequality
4. Y., Byon, Y., & Yeo, H. (2018). Enhancing healthcare accessibility measurements using GIS: A case study in Seoul, Korea. Retrieved from https://doaj.org/article/5ee6f964387d4f2786136d21147dcd5e
5. Bunruamkaew, K. & Murayama, Y. (2011, nd). Site Suitability Evaluation for Ecotourism Using GIS & AHP: A Case Study of Surat Thani Province, Thailand. Retrieved from https://www.sciencedirect.com/science/article/pii/S1877042811013474#!
6. Salze, P., Banos, A., Oppert, J., Charreire, H., Casey, R., Simon, C., . . . Weber, C. (2011, January 10). Estimating spatial accessibility to facilities on the regional scale: An extended commuting-based interaction potential model. Retrieved from https://ij-healthgeographics.biomedcentral.com/articles/10.1186/1476-072X-10-2

Feel free to comments, suggestions and feedback to help us improve our project!