LSCM Logistics Summit 2025

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[ Technology Showcase ]

LSCM SHOWCASE

Key Project

LSCMPort Community System

Port Community System (PCS) is an innovative data-driven infrastructure and cross-enterprise platform. By leveraging blockchain and innovative cutting-edge technologies, PCS enables seamless tracking and visualisation of global supply chains and port logistics, reinforcing Hong Kong’s position as a leading global hub of shipping, trade and finance.

The PCS provides various core functions, including:

  1. One-stop round-the-clock real-time cargo tracking
  2. Linking up sea, land and air transportation information
  3. Analysis and status alert functions
  4. Mobile app to capture trucking and cargo receiving information
  5. AIS-based Port Information System
  6. VAS: One-Data-Multiple- Declarations System

Please scan this QR code to register for a free PCS pilot run account.

Key Project

LSCMPort Community System

Port Community System (PCS) is an innovative data-driven infrastructure and cross-enterprise platform. By leveraging blockchain and innovative cutting-edge technologies, PCS enables seamless tracking and visualisation of global supply chains and port logistics, reinforcing Hong Kong’s position as a leading global hub of shipping, trade and finance.

The PCS provides various core functions, including:

  1. One-stop round-the-clock real-time cargo tracking
  2. Linking up sea, land and air transportation information
  3. Analysis and status alert functions
  4. Mobile app to capture trucking and cargo receiving information
  5. AIS-based Port Information System
  6. VAS: One-Data-Multiple- Declarations System

Please scan this QR code to register for a free PCS pilot run account.

Key Project

lSCMCross-boundary Public Services (CBPS) Kiosk

Collaborated by LSCM and Digital Policy Office, this project aims to integrate advanced Continuous Re-authentication and Intrusion Detection technologies into the self-service machines that support government services. These customised solutions can enhance users’ data security and privacy, addressing the growing usage of self-service machines in public environment. By implementing these technologies, the project enables multiple users to securely access Hong Kong Government’s e-Services, safeguarding their information and reducing the risk of unauthorised session hijacking, which thus enhances the convenience and trust in public digital services.

Key Project

LSCMAutomated Hill Fire Surveillance System

Hill fires in Hong Kong are mostly caused by human activities such as the careless use of joss sticks and burning of joss papers in the Ching Ming Festival. These pose threats to human lives and city facilities. An effective approach is thus needed to detect hill fires. This project deploys Artificial Intelligence, video analytics, and robotic technologies for hill fire detection in the country parks of Hong Kong. This unique fusion of methodologies for hill fires detection has been proven successful in Hong Kong’s fire lookout facilities.

Key Project

LSCMAutomated Hill Fire Surveillance System

Hill fires in Hong Kong are mostly caused by human activities such as the careless use of joss sticks and burning of joss papers in the Ching Ming Festival. These pose threats to human lives and city facilities. An effective approach is thus needed to detect hill fires. This project deploys Artificial Intelligence, video analytics, and robotic technologies for hill fire detection in the country parks of Hong Kong. This unique fusion of methodologies for hill fires detection has been proven successful in Hong Kong’s fire lookout facilities.

Key Project

LSCMMulti-Robot Collaborated Object Transportation System

The Multi-Robot Collaborated Object Transportation System allows multiple small robots to collaboratively transport objects from any starting location to the designated location. The number of robots involved can vary, depending on the weight of the objects being transported. These robots can operate independently and autonomously without a central controller. They are equipped with sensors that allow them to detect the internal forces within the system, so as to avoid the happening of conflicting actions.

This System is designed and developed to transport construction materials in construction sites as there are space constraints and the materials transported are often very heavy. It can also be utilised for other material transportation purposes.

Key Project

LSCMElectronic Power Assist Cage Trolley System

This Electronic Power Assist Cage Trolley System is equipped with an intuitive control function. Electronic sensors are strategically embedded in the detachable wireless handle to measure the micro deformation of the materials when force is applied by the user. Based on the sensors’ value, the onboard AI controller calculates the torque vector at a frequency of 100 times per second. The torque is then amplified by two motors connected to the wheels of the trolley, enabling effortless control of the steering, forward movement, and backward movement of the trolley.

The use of the Electronic Power Assist Cage Trolley System is similar to that of traditional cage trolleys. The operator can easily control this trolley system to transport heavy items without any difficulty, which helps to minimise the risk of workplace injuries. Additionally, the trolley’s built-in regenerative braking system and mechanical holding brake allow it to be safely used on ramps.

Key Project

LSCMDetachable Follow-me Robot

With the aging population, the elderly service industry requires innovative technologies to alleviate the workload of the workers. Different from other robots, the Detachable Follow-me Robot developed by LSCM with platooning technology can help the workers deliver heavy items while autonomously following the workers in both indoor and outdoor environment. The robot is also equipped with automatic collision avoidance technology to prevent collisions with others when it is in use to enhance safety.

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