AUTONOMOUS LOGISTICS HEAVY-DUTY TRUCK
FOR INDUSTRIAL PARKS IN COMMERCIAL OPERATION
Technical Concepts
Our standardized autonomous driving solution for logistics vehicles in industrial parks revolves around highly advanced autonomous heavy-duty cargo trucks and tractors. It involves the synergy of intelligent connected road infrastructure and an intelligent cloud control system. This solution can be flexibly configured in terms of both hardware and software to meet specific customer and scenario requirements.
Labor cost
reductions
Decreased energy
consumption
Improved
safety
Enhanced
efficiency
Core Advantages
Low cost
Through deep architectural optimization and simplification of various autonomous driving algorithm parameters, we fully utilize every piece of computational resource, achieving a low-cost deployment of autonomous driving. Additionally, the system supports the cooperative deployment of vehicles and road equipment, further reducing vehicle sensor costs.
Completely unmanned
CiDi’s accurate perception solution organically combines different types of sensors such as cameras, LiDAR, millimeter-wave radar, and ultrasonic radars. This achieves a 360-degree, all-weather, and all-day surround view perception has no blind spots, ensuring the vehicle and transportation safety. At the same time, it provides remote safety backup, allowing for 7x24 unmanned operation with operator peace of mind.
Ultra-stability
Multiple backups for critical MCUs and redundant perception for critical areas are among processes that guarantee stable operation in various situations; creatively integrating artificial intelligence with optimal control technology, precisely managing vehicle power performance and motion states, achieving precise control and stable driving in all scenarios; achieving various ISO certifications*, with software architecture conforming to AUTOSAR standards; conducting safety assessments and designs through DFMEA and PFMEA. *Already certified for ISO9001, ISO21434, IATF16949, ISO 26262 CCC, and other relevant certifications, with ISO26262 certification application in progress.
True premarket installation
CiDi has established comprehensive collaboration processes with multiple major automobile manufacturers. All drive-by-wire and autonomous driving equipment is assembled with standardized original factory components, and the vehicles undergo rigorous extreme environment testing and simulation testing before leaving the factory. Compared to retrofitted driving vehicles, this results in a 70% increase in system stability**, based on laboratory testing: fault rate of controllers and sensors is calculated for every ten thousand kilometers driven.
Low cost
Through deep architectural optimization and simplification of various autonomous driving algorithm parameters, we fully utilize every piece of computational resource, achieving a low-cost deployment of autonomous driving. Additionally, the system supports the cooperative deployment of vehicles and road equipment, further reducing vehicle sensor costs.
Ultra-stability
Multiple backups for critical MCUs and redundant perception for critical areas are among processes that guarantee stable operation in various situations; creatively integrating artificial intelligence with optimal control technology, precisely managing vehicle power performance and motion states, achieving precise control and stable driving in all scenarios; achieving various ISO certifications*, with software architecture conforming to AUTOSAR standards; conducting safety assessments and designs through DFMEA and PFMEA. *Already certified for ISO9001, ISO21434, IATF16949, ISO 26262 CCC, and other relevant certifications, with ISO26262 certification application in progress.
True premarket installation
CiDi has established comprehensive collaboration processes with multiple major automobile manufacturers. All drive-by-wire and autonomous driving equipment is assembled with standardized original factory components, and the vehicles undergo rigorous extreme environment testing and simulation testing before leaving the factory. Compared to retrofitted driving vehicles, this results in a 70% increase in system stability**, based on laboratory testing: fault rate of controllers and sensors is calculated for every ten thousand kilometers driven.
Completely unmanned
CiDi’s accurate perception solution organically combines different types of sensors such as cameras, LiDAR, millimeter-wave radar, and ultrasonic radars. This achieves a 360-degree, all-weather, and all-day surround view perception has no blind spots, ensuring the vehicle and transportation safety. At the same time, it provides remote safety backup, allowing for 7x24 unmanned operation with operator peace of mind.
Use Cases
Liuzhou Automotive Manufacturing Zone

CiDi and DFLZ have jointly developed a "Vehicle-Road-Cloud-Cabin" flexible solution for autonomous logistics vehicles in industrial parks since 2021. They have conducted extensive road testing and demonstration verification in the Guangxi (Liuzhou) National-level Connected Vehicle Pilot Zone, utilizing China Mobile's 5G network. The autonomous driving test usage exceeds 99.2%.

The Chenlong Pilot MAX intelligent connected electric logistics solution has accumulated tens of thousands of operational kilometers. All performance indicators have been extensively validated and fully comply with unmanned standards. The vehicle addresses the pain points in industrial park logistics transportation and has successfully achieved fully unmanned operations within the park.

True driverless
True premarket installation
Low cost
Ultra-stability
Huawei Electronic Manufacturing Park

Since September 2020, CiDi has developed a proprietary intelligent driving system software , utilizing the Huawei MDC automotive-grade intelligent driving computing platform, collaboration proceeded with the BYD electric truck T8 as the target vehicle platform to create an industrial park logistics autonomous driving solution. CiDi implemented this solution successfully for short-haul autonomous transportation within the Huawei manufacturing park, serving scenarios such as warehouse-to-warehouse and workshop-to-workshop transportation of manufactured goods.

Enhanced efficiency
Lower cost