中文
container IoT,container track & management

Your intelligent packing tool

One click calculation of the optimal packing and loading planning scheme, quickly solving problems such as container estimation, packing, and packaging design

About Packing Assistant

Packing Assistant is a professional loading optimization software suitable for various container packing, truck packing, train packing, cardboard packing, pallet (pallet) packing.

We provide a world leading numerical optimization engine that can successfully help enterprises solve various problems faced in logistics loading, such as how to load goods in an optimized way, how to load goods in a more optimized way according to the order of transportation, how to combine orders to achieve the goal of minimizing transportation costs, and so on. The traditional empirical packing method often faces problems such as time-consuming calculations, low space utilization, disorderly placement of goods, damaged goods, and high transportation costs.

Using this software can greatly reduce the time required to prepare loading plans and maximize loading efficiency.



What problem is being solved?



Quickly calculate and generate packing and loading plans in seconds, improving the efficiency and quality of planning operations

Reduce time and efficiently process large batches of container consolidation operations, reducing operation time to 5 minutes

Accurate container estimation with an accuracy rate of 99%, avoiding temporary adjustments before shipment

Convenient customs clearance and accurate customs declaration information, avoiding fines. Clear container layout and easy restoration







Program Value


Automatically generate loading plan

Capable of accurately analyzing the quantity, specifications, loading method, arrival sequence, container specifications, quantity, and other conditions of the goods to be loaded, calculating the loading space and loading sequence of the goods, and formulating feasible loading plans to achieve optimal loading.

Dynamic simulation of loading process

It can virtually display the packing process, dynamically simulate and display the loading sequence, and print the loading list and loading step breakdown diagram, providing decision support for on-site loading

The loading result can be visualized in three dimensions

Through the system graphics window, the loading plan is displayed in 3D form, providing a three-dimensional rotation function that allows for free switching of observation angles and a clearer display of the placement of goods inside the container







Operation guidance


Step 1: Cargo Configuration

Enter the goods list and specify restrictions such as stacking and load-bearing capacity of cardboard boxes and wooden crates.

Step 2: Select the container for packing.

8 types of container options are available: 20/40 dry cargo containers, or 20/40 reefer containers.

Step 3: View the 3D view of the calculation results

Interactive 3D view for viewing calculation results, allowing for intuitive viewing of loading structures, easy positioning of each item, and ensuring compliance with required plans.





Efficient sporadic packing algorithm


Our algorithm team originates from the Operations Research and Optimization team at Tsinghua University. By utilizing advanced AI technologies such as combinatorial optimization, variable neighborhood search, and machine learning, we ensure optimal space utilization and operational efficiency. Whether you are facing large-scale container loading or small-scale warehouse layout, our algorithm can provide customized solutions based on your specific needs.

Compared with traditional packing methods, our algorithm stands out in the following aspects:

  • Intelligent optimization:Our algorithm not only arranges objects in order, but also intelligently optimizes them based on their size, shape, and stackability.
  • Multi scenario adaptation:No matter what object, container size, or operating environment you are facing, our algorithm can adapt to different scenarios and provide the best solution.
  • Resource conservation:By reducing wasted space, our algorithm can significantly lower transportation and warehousing costs, thereby achieving maximum resource utilization.
  • Quick calculation:Our algorithm adopts efficient calculation methods and can generate feasible layout schemes in a short period of time. Whether you are engaged in logistics, warehousing, or production, our algorithms will bring you practical benefits and jointly solve your object layout problems.