Basics

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This section introduces the basic information about the Square Steel Billets solution, including its applicability, advantages, technical specifications, etc.

Applicability

The table below introduces the applicability of the Square Steel Billets solution in terms of object types, object materials, placement, carriers, etc.

Feasible Illustration

Object type

Square steel billets of different dimensions and specifications

scope of application 1

Object material

Non-reflective or slightly reflective

scope of application 2

Placement

Randomly arranged

scope of application 3

Object carrier

Deep bin

scope of application 4

Solution Advantages

The advantages of this solution are as follows:

  • Suitable for picking square steel billets of different specifications.

  • The intelligent planning of the picking sequence and picking method enables a stable picking of randomly stacked square steel billets.

  • The overall productivity can be improved with 3D vision-guided robot picking.

  • By exploring typical cases in the software with the guidance of this document, beginner engineers can quickly deploy a vision solution.

Technical Specifications

The following table describes the technical specifications of the solution.

Positioning accuracy Recognition success rate Execution time of vision system Bin clearance rate Tuning duration

±2 mm

More than 99%

Less than 3 s

99%

8h×2 (single type target object)

  • Deployment took 8 hours

  • The validation of solution stability took 8 hours

Project Difficulties

The difficulties of this solution are as follows:

  • Randomly stacked: Square steel billets are randomly stacked in the deep bin. Due to potential significant variations in point cloud features resulting from changes in target object poses, the 3D vision system should infer the target object poses based on local features and subsequently generate high-quality point clouds.

  • Path Planning: For randomly stacked square steel billets, considering the robot path constraints, collision avoidance, and other factors, the appropriate robot tool and pick points should be selected to ensure the bin clearance rate.

  • Flexible and easy to use: Suitable for picking square steel billets of different specifications. The vision solution needs to be easy to deploy while meeting user requirements for efficiency, cost control, and other factors.

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