May 04, 2012The Hong Kong Customs and Excise Department (C&ED) reports that RFID-based container locks can effectively improve the security, convenience and visibility of the customs process for cargo entering the airport. In November 2011, C&ED began testing three types of electronic locks (e-locks) in order to speed up the process of performing customs checks on containers filled with cargo. The solution, known as the Intermodal Transhipment Facilitation Scheme (ITFS), was implemented as a way to streamline the clearance of cargo passing through customs at Hong Kong International Airport for cargo destined for areas both domestic and outside of Hong Kong. The installation and consulting services were provided by the Hong Kong R&D Center for Logistics and Supply Chain Management Enabling Technologies (LSCM), according to Frank Tong, LSCM's director of research and technology development.
The Hong Kong C&ED estimates that the system reduces the amount of time required for clearing each container through customs, from two to three hours down to five minutes, since customs officials can now be assured that the containers have not been opened between their inspection at the border control point and their arrival at the airport. What's more, the agency can now collect a digital record of where each container has been, along with when it was inspected.
Cargo is loaded into freight containers or directly onto trucks—such as those operated by United Parcel Service (UPS)—in Mainland China, and is then transported to a customs control point located at the border with Hong Kong, where C&ED officials inspect the cargo and clear it for entry into Hong Kong. Following that clearance, the shipment continues on to Hong Kong International Airport's cargo terminal, where the goods are unloaded from the container or vehicle, and are placed into an air cargo container. Once this has occurred, the cargo is moved through another customs control point at the airport, where C&ED again inspects and approves or rejects its passage.
To speed up this process, the R&D Center implemented the use of an e-lock for the customs agency, consisting of a physical lock activated by a built-in active RFID tag, designed to receive a transmission from an RFID reader that allows the lock to be opened or closed. Three types of e-locks are currently being used, provided by three different vendors: Long Sun Logistics Development Ltd, CIMC Intelligent Technology Co. and CelluWare Research Laboratory. Each of the three products employs a different frequency—433 MHz, 315 MHz and 2.4 GHz—but all comply with the ISO 17712 standard for mechanical seals designed for freight containers.
That data, along with the specific cargo being transported, is then stored on the Hong Kong C&ED's integrated tracking software platform, developed by LSCM, which collects and processes the data and then displays it for customs officials when necessary. The system stores the e-lock ID number linked to the vehicle ID, and transmits instructions to the e-lock, along with a password, thereby causing it to lock. The device also requires a physical key, which remains in the driver's possession. In this way, two actions must be completed before the container or vehicle can be unlocked: The e-lock must be electronically unlocked via a password from a customs official, and the driver must use a key to physically open the padlock.
The shipment is then transported approximately 42 kilometers (26 miles) to the airport. The e-lock comes with a built-in GPS device that tracks the vehicle's location as it moves. In that way, the e-lock stores a record of where the vehicle has been. When the lock is later read at the airport, the back-end software compares the actual GPS data against the container's expected route. The system can issue alerts in circumstances in which an e-lock is found to have lost a GPS signal, or, based on GPS data, the truck appears to have deviated from the intended route.
At Hong Kong International Airport, a C&ED official either selects the container for inspection, or simply instructs the system to issue an unlocking command with the matching password; the container is then brought to a site where the cargo is removed and then loaded onto an aircraft, says Steve Wai-chiu Chan, a C&ED special duties officer. If the container is selected for inspection, the e-lock remains locked. In this scenario, a truck driver would be instructed to await a C&ED officer, and would be unable to unlock the container without providing the proper password. The C&ED officer, upon arrival, would then use a handheld device to read the e-lock, instructing it to unlock by providing the necessary password.
The solution has enabled a faster customs clearance process, as well as providing a digital record of what was unlocked, and thus inspected, and when this occurred. The system also improves security, since only officers who know the proper password can access the container. Ultimately, Chan says, "it enhances the Hong Kong logistic industry's competency and reinforces Hong Kong's position as a world-class logistics hub."
According to Chan, the group intends to expand the system to cover two additional border-control points, at Mankamto and Shataukok, as well as at five container terminals at Kwai Chung. The expansion, he says, will result in the installation of more than 100 additional fixed readers.
Hong Kong International Airport has also been the site of an RFID baggage-handling system (see Hong Kong Airport Says it Now Uses Only RFID Baggage Tags).