Page 690 - AI for Good Innovate for Impact
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AI for Good Innovate for Impact
can reach more than 110%, saving single-parking space, increasing parking spaces, improving
parking efficiency, and saving labor costs. There are also multiple projects under construction.
Before the AGV Robot assumes control of the vehicle, a 3D scanning system at the entrance
conducts a comprehensive dimensional inspection, including height measurement. If the vehicle
exceeds the maximum allowable height limit, the AGV Robot will abort the transportation
process. Simultaneously, the system triggers an automated warning notification to alert
operators of the oversize condition. Two radar sensors are positioned at opposite corners
of the AGV Robot, enabling 360-degree environmental monitoring. If a human or obstacle is
detected within its path, the AGV Robot will automatically halt or adjust its trajectory to ensure
safe navigation. Additionally, the robot’s operational zone is strictly segregated from human
activity as part of critical safety protocols.
2�2 Benefits of use case
With the continuous improvement of urbanization, the per capita car ownership continues
to grow rapidly, and the contradiction between supply and demand of urban parking lots is
becoming increasingly acute. A large number of parking lots built in the early stage cannot
meet the current parking needs in terms of planning and design.
Relevant data show that there is a shortage of 80 million parking spaces in China. The shortage
of parking spaces in large cities around the world is also a common urban governance problem.
The difficulty of parking not only affects the daily quality of residents, but also brings many
obstacles to the city's commercial activities, public services, etc., resulting in a huge waste of
time costs and a significant reduction in urban operation efficiency.
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