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A new generation of couriers is born, GPS + automatic driving
What does a smart delivery robot look like, and how does it work? Users only need to download an app. Once the mobile phone initiates an order, the robot automatically matches with the user’s phone number and identity information. With just one tap on the app, the storage compartment of the robot unlocks, allowing the recipient to retrieve their package. Additionally, managers can monitor and control the robot’s movement through a centralized platform. This system provides real-time location tracking, usage statistics, service status, and user feedback, making the delivery process more efficient and secure.
The first provincial university science and technology achievement exhibition in Shaanxi Province, along with the third graduate innovation achievement exhibition and the school-enterprise docking conference, recently took place in Xi’an. The event showcased over 2,200 technological innovations from universities across China, including robotic couriers, 3D hand-painted artworks, and other advanced technologies. These innovations span various fields such as energy and chemical industries, non-ferrous metallurgy, equipment manufacturing, new-generation information technology, and advanced materials.
At the Changan University booth, the unmanned delivery robot demonstrated its capabilities to the audience. This “robot courier†was independently developed by Associate Professor Han Yi’s team. It can automatically acquire route point information based on pre-set paths. Using GPS-based self-navigation, the robot drives according to these points and delivers packages directly to the recipient. According to team member Fan, this logistics vehicle weighs 50 kilograms and has a range of up to 60 kilometers, with a maximum speed of 15 meters per second. The robot is equipped with a front-facing camera, GPS positioning, and a laser radar to detect road conditions and avoid obstacles. However, due to complex street environments and traffic regulations, it cannot yet operate on public roads. Instead, it is designed for use in controlled areas such as campuses or residential communities, where the environment is simpler and safer.