SPATIALLY BASED AIR QUALITY MONITORING NETWORK (CASE STUDY DKI JAKARTA)
<p align="justify">High air pollutant emissions occur in DKI Jakarta. The impact of air pollution makes it necessary to control air pollution. In order to control air pollution, a network of air quality monitoring models is needed. Modeling the air quality monitoring network requires...
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id-itb.:251792018-10-01T08:47:35ZSPATIALLY BASED AIR QUALITY MONITORING NETWORK (CASE STUDY DKI JAKARTA) Fawaid (15114039), Ahmad Indonesia Final Project INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/25179 <p align="justify">High air pollutant emissions occur in DKI Jakarta. The impact of air pollution makes it necessary to control air pollution. In order to control air pollution, a network of air quality monitoring models is needed. Modeling the air quality monitoring network requires several parameters, namely population density model, location of government offices, location of existing air monitoring stations, construction sites, multicriteria assessment results and distance between observation points. Modeling is done by determining potential points, selecting potential points, and selecting recommendation points. Determination of potential points is based on ESCAPE and UDARA criteria. Potential point selection is done using a zone model of potential monitoring points and discussion with the Sanitation Office. Selection point recommendations with multicriteria assessment and spatial distribution of the point. Modeling the air quality monitoring network results in a potential zone of monitoring point and 81 points of potential air quality monitoring locations. The potential points are selected by considering landuse, distance between points, and ease of licensing to get 53 recommendation points. The 53 recommendation points were selected with multicriteria assessment and spatial distribution to obtain the output of the 50 final points of the location of the air monitoring station for the entire DKI Jakarta area.<p align="justify"> text |
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<p align="justify">High air pollutant emissions occur in DKI Jakarta. The impact of air pollution makes it necessary to control air pollution. In order to control air pollution, a network of air quality monitoring models is needed. Modeling the air quality monitoring network requires several parameters, namely population density model, location of government offices, location of existing air monitoring stations, construction sites, multicriteria assessment results and distance between observation points. Modeling is done by determining potential points, selecting potential points, and selecting recommendation points. Determination of potential points is based on ESCAPE and UDARA criteria. Potential point selection is done using a zone model of potential monitoring points and discussion with the Sanitation Office. Selection point recommendations with multicriteria assessment and spatial distribution of the point. Modeling the air quality monitoring network results in a potential zone of monitoring point and 81 points of potential air quality monitoring locations. The potential points are selected by considering landuse, distance between points, and ease of licensing to get 53 recommendation points. The 53 recommendation points were selected with multicriteria assessment and spatial distribution to obtain the output of the 50 final points of the location of the air monitoring station for the entire DKI Jakarta area.<p align="justify"> |
| format |
Final Project |
| author |
Fawaid (15114039), Ahmad |
| spellingShingle |
Fawaid (15114039), Ahmad SPATIALLY BASED AIR QUALITY MONITORING NETWORK (CASE STUDY DKI JAKARTA) |
| author_facet |
Fawaid (15114039), Ahmad |
| author_sort |
Fawaid (15114039), Ahmad |
| title |
SPATIALLY BASED AIR QUALITY MONITORING NETWORK (CASE STUDY DKI JAKARTA) |
| title_short |
SPATIALLY BASED AIR QUALITY MONITORING NETWORK (CASE STUDY DKI JAKARTA) |
| title_full |
SPATIALLY BASED AIR QUALITY MONITORING NETWORK (CASE STUDY DKI JAKARTA) |
| title_fullStr |
SPATIALLY BASED AIR QUALITY MONITORING NETWORK (CASE STUDY DKI JAKARTA) |
| title_full_unstemmed |
SPATIALLY BASED AIR QUALITY MONITORING NETWORK (CASE STUDY DKI JAKARTA) |
| title_sort |
spatially based air quality monitoring network (case study dki jakarta) |
| url |
https://digilib.itb.ac.id/gdl/view/25179 |
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