Abstract:
The increasing number of people in cities has led to a significant increase in the volume
of garbage. However, conventional waste management systems are often unable to keep up
with this growth, resulting in the buildup of garbage and a negative impact on the
environment and public health. Hence, the optimizing of garbage transportation systems
becomes an urgent need for modern cities. The use of up-to-date information technology,
such as GPS and data analytic navigation systems, can help plan a more efficient and real-time
transport route, minimize travel time, and optimize available resources.
Besides the efficiency of the route, another aspect of which needs attention is timing and
consistent transport control. A delay in transporting trash can lead to excessive buildup,
creating unhygienic conditions and a potential disease spread. With accurate schedule
planning and good coordination between field officials, such problems can be avoided.
Furthermore, providing additional services options for transporting extra garbage may also
help cope with a bump in volume of garbage that occurs at certain times, such as at times of
a large celebration or event.
The success of optimizing the garbage management system depends not only on technical
factors but also on the active involvement of all stakeholders. Community participation in the
disposal of trash regularly and complying with the rule of waste management is a key. On the
other hand, managers and field officers must always provide the best services, with a deep
understanding of society's needs and the commitment to keep up the quality of service. Only
with close synergy between all parties can these optimizing efforts achieve optimal results
and contribute to the creation of clean, healthy, and sustainable urban environments.
