"Real-time tracking of containers not only enhances operational efficiency but also contributes to better safety and security at the port."
Elisa Rouhiainen, VP Sales Marine & Ports
Smart ports offer numerous advantages, including cost savings, increased safety and security, improved environmental performance, streamlined processes and better customer service. They can help reduce time spent at the dock by optimizing traffic flow, simplifying vessel management through automated reporting systems and providing real-time data on vessel movements, cargo status and more.
In addition to providing an array of technical solutions that enhance efficiency, smart ports also play a key role in improving global trade. They can provide a platform for digitalising supply chains, enabling faster customs clearance and fostering greater collaboration between port authorities, shipping companies, and other stakeholders.
As global trade expands, it has become increasingly important for ports to step up their game and adopt smarter technologies that can help enhance efficiency and optimize terminal operations. One such technology that is making a big impact in the shipping industry today is Position Detection Systems (PDS). PDS technology works by tracking the movement of vehicles within the port area, enabling containers to be handled safely and quickly. By leveraging this technology, smart ports are able to reduce time spent at the dock, simplify vessel management and provide real-time data on container and equipment movements, cargo status and more. Smart port technology promises to revolutionize the way global trade is conducted.
Position Detection System (PDS) technology is a type of automated tracking system that uses Radio Frequency Identification (RFID) tags and sensors to monitor the position and movement of objects within an area. It allows for real-time monitoring, meaning it can provide instant information on the location and status of items and other data such as speed and direction. In port environments, this technology tracks containers or equipment movements to ensure they are handled securely and efficiently. By providing accurate and up-to-date information about vehicle positions, PDS technologies enable better planning strategies for port operators – pinpointing containers, optimizing yard space, reducing traffic congestion, improving safety and bolstering efficiency in global trade processes.
In addition to these advantages, PDS technologies are also becoming increasingly important for security purposes. By tracking the movement of objects in real-time, ports can quickly identify any suspicious activities and take action to prevent potential problems before they occur. This is particularly useful when it comes to identifying containers that may contain hazardous material or stolen goods.
Overall, PDS technologies provide several advantages that enable smarter and more efficient port operations—something all global trade operators should consider investing in.
Position Detection System (PDS) technology offers many benefits for smart ports that are looking to streamline their operations and increase efficiency. Here are just a few of the advantages:
Overall, PDS technologies provide a number of advantages that enable smart ports to improve their operational processes while also reducing risk and promoting safer working environments. These benefits are applicable across various industries and can help drive innovation and efficiency on a global scale.
Implementing Position Detection System (PDS) technology in ports and terminals is essential for improving operational performance, increasing safety, and reducing costs. To successfully implement PDS technologies into port operations, there are several steps that must be taken.
1. Establish Goals: The first step to successfully implementing PDS technologies is to establish clear goals and objectives. This will help ensure the organization has a clear understanding of its desired end result and guide its decision-making process throughout the deployment process.
2. Design & Plan: Once the goals have been established, it’s important to properly plan out how the technology will be implemented into existing operations – including choosing appropriate hardware and software solutions. Additionally, it makes a difference in implementing a solution in a running operations environment or in a greenfield container terminal. The former is much more complex as vessel and yard operations should not be obstructed as much as possible. Therefore, such projects tend to be longer as equipment and infrastructure is available for installation only for a short time frame.
3. Test & Monitor: Once the system is in place and all equipment is hooked into the solution's landscape, testing and monitoring its performance is important to ensure it meets all of the desired requirements. This includes regularly testing the accuracy of system data and monitoring any potential improvement areas. Very often, this is an iterative process of adaption.
4. Refine & Improve: Finally, it’s important to continuously refine and improve the system by making any necessary changes or upgrades over time. This will help ensure the technology remains up-to-date and can deliver optimal performance throughout its lifetime, including hardware and software.
By following these steps, organizations can successfully implement PDS technologies into their port operations – allowing them to reap numerous benefits associated with this type of innovative technology. Ultimately, this helps create a more efficient and secure working environment for everyone involved.
In today's world, investing in smart port technology is becoming increasingly important for any organization involved in global trade. With the capability to optimize performance, increase safety and reduce costs – smart ports offer an array of advantages that can benefit any port or terminal operations.
For starters, investing in smart port technology allows for improved tracking and monitoring capabilities. This helps operators quickly identify cargo locations and movement patterns and detect any potential issues before they occur. Additionally, this type of technology enables better planning strategies for port operators – reducing traffic congestion, improving safety and bolstering efficiency within global trade processes.
Furthermore, investing in smart port technology provides a more secure working environment by detecting suspicious activities early on. This is especially important when it comes to identifying containers that may contain hazardous material or stolen goods. By utilizing smart technologies such as artificial intelligence and blockchain, ports can identify security risks quickly and take the necessary steps to mitigate them.
Finally, investing in PDS automation allows for more efficient use of resources – resulting in cost savings that can be passed on to customers. By utilizing automated systems and advanced analytics tools, operators are better equipped to manage their resources and plan ahead for future operations – resulting in smarter resource utilization that benefits everyone involved.
At container terminals, efficiency and optimisation are of the utmost importance. A prime example of this is identifying the most efficient next job for container moves.
Let's imagine a rail-mounted gantry crane (RMG) that is supposed to load containers from a stack onto trucks. What is the best way to do this? That the next truck in the queue always gets its container next. And how can you ensure this? By knowing which truck is next and which container it should get.
For our example, we assume a manned crane. It works like this: The PDS identifies the closest available truck by constantly monitoring the truck positions. The crane operator is now assigned the job for this truck by the Terminal Operating System (TOS), i.e., the number and position of the corresponding container, and it is displayed as the top job in his list.
The crane moves to the container's position, lifts it, moves over the truck and places the container on the truck. The TOS receives a success message for the job. Now, the game starts again; the closest truck is determined again, and the corresponding job is returned to the top of the list.
Incidentally, external trucks can also be integrated into this efficient approach relatively easily. At the gate, they are given a tag that is linked to them (usually the vehicle registration number). This means that they appear in the system and can be tracked in real-time, just like an internal truck. Of course, the tags can also be permanently mounted, for example, for trucks that do practically nothing else but drive back and forth between the port and factories or warehouses.
This type of job optimisation is more efficient when more container handling equipment (CHE) and vehicles are integrated into the PDS. This means that the closest resources are always used, avoiding container processing delays.
In conclusion, investing in smart port technology is essential for any organization looking to optimize its performance and increase efficiency in global trade. This type of technology can reduce costs, improve safety, and streamline operations, providing an array of advantages that can benefit everyone from shippers to port operators.
Overall, PDS automation provides a number of advantages that enable smart ports to improve their operational processes while also reducing risk and promoting safer working environments. These benefits are applicable across various industries and can help drive innovation and efficiency on a global scale.
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Note: This article was updated on the 25th of July 2024