预未来,驭未来

Drive to future, Drive the future

Construction of High Precision Vector Map

Construction of high precision vector map can be customized according to the actual application site. Through the self-owned equipment and technology, we can tailor high precision 3D map used in autopilot system for disaster-stricken site, paving the way to establish the intelligent horizontal transportation.

Intelligent single vehicle system

subverting traditional automatic vehicles

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We adopt multi-sensor fusion mode to, in the case of ensuring multiple sets of safety redundancy of single vehicle, achieve functions such as autonomous planning of path, obstacle recognition, and targeted operating equipment alignment, completely breaking the relatively fixed operation mode in the original traditional automation scheme and letting the single vehicle really have the ability to work as a human driver.

Intelligent single vehicle system

subverting traditional automatic vehicles

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Vehicle Motion Control

Construction of high precision vector map can be customized according to the actual application site. Through the self-owned equipment and technology, we can tailor high precision 3D map used in autopilot system for disaster-stricken site, paving the way to establish the intelligent horizontal transportation.

Environmental Perception Technology

The environmental recognition and segmentation based on deep learning. In the field of autonomous driving, the vehicle’s computing unit replaces the human brain by acquiring sensor data, then using those data to analyze and deduce the information from the surrounded environment, thus can finally realizing controlling and planning the autonomous vehicle.

Q-Simulation platform

We have a precise simulation platform that can simulate real-world scenarios in various environments. This means we can simulate the most complicated operating conditions in order to train our vehicles.

End to End learning

The original data collected by the sensors is directly converted to the direction control command and sent to the vehicle. Such method can be applied to functions such as lane keeping, overtaking, obstacle avoidance, and intersection turning in the structured/unstructured road.

Vehicle positioning

We attempt to use a combination of LiDar, computer vision and inertial positioning methods, as well as localization and map construction solutions (SLAM). According to the actual test, our positioning accuracy is kept within 50mm.

Never forget why we started, and lead industry revolution

5H Standard of Driverless Commercial Vehicle

Highly Intelligent

高智能性

Highly Secure

高安全性

Highly Adaptive

高适应性

Highly Economical

高经济性

Highly Systematic

高系统性

上海西井信息科技有限公司
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Tel   /  (862)-33356855     Mail   /  hello@westwell.lab.com

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