DEVELOPMENT OF DIGITAL GEOTWIN BASED MOBILE CROWDSENSING DATA PROCESSING METHODS FOR MONITORING SYSTEM IN SMART CITY
According to data released by BPS, population growth in urban areas is increasing every year. In fact, it is estimated that in 2035 the percentage of urban population will reach 66.6% of the total population of Indonesia. This has the potential to cause new problems in the city. To overcome the p...
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| Format: | Theses |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/72094 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | According to data released by BPS, population growth in urban areas is increasing
every year. In fact, it is estimated that in 2035 the percentage of urban population
will reach 66.6% of the total population of Indonesia. This has the potential to
cause new problems in the city. To overcome the potential problems of the city, an
effective and efficient monitoring system is needed. One solution that can be
implemented is the Smart City concept that utilizes sensor technology, IoT, and
Cloud Computing. This technology can be used to monitor and obtain urban data
and information in real-time. However, distribution and deployment of sensor and
IoT infrastructure across cities will be time consuming and realtively expensive. As
an alternative, a new sensing paradigm has emerged, namely Mobile Crowdsensing
(MCS). MCS is a method of collecting data and information by the public using
mobile phones. The focus of this research is to examine and analyze the
development of a low-cost and efficient MCS data processing method in conducting
a Digital Geotwin based monitoring system. Digital Geotwin can represent objects
and conditions of the physical world into the digital world. In addition, Digital
Geotwin can improve spatial understanding of problems that occur in the field,
such as the location of problems and visualization of problem objects in 3D. The
development carried out in this study contains two aspects, the first is to increase
the accuracy of the location coordinates of problem objects based on the data
obtained from the MCS method. The second is building a 3D model of a problem
object and integrating it into a platform based on Digital Geotwin. The method of
increasing coordinate accuracy is done by adding the approximate coordinate
parameters from Google Maps as well as transforming the coordinate system. The
results of the evaluation of determining the coordinates show a fairly good increase
in accuracy. Meanwhile, the development of 3D models is carried out by utilizing
data in the form of photos of problem objects generated from MCS. Based on the
results of the user experience evaluation through a questionnaire assessing three
aspects, namely the comparative aspect, the satisfaction aspect, and the usability
aspect, stated that 3D utilization and visualization proved to be better than 2D
visualization. |
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