Manual
Table Of Contents
- 1. Updates
- 2. Product Introduction
- 3. Software Interface
- 3.1 Welcome Page
- 3.2 Home Page
- 3.3 Menu
- 3.4 Control Toolbar
- 3.5 Tool Box
- 3.6 Result Display
- 3.7 Flow Management
- 3.8 Camera Management
- 3.9 Controller Management
- 3.10 Global Variables
- 3.11 Communication Management
- 3.12 Global Trigger
- 3.13 Global Script
- 3.14 Operation Interface
- 3.15 Data Queue
- 3.16 Flow Time
- 3.17 Dobot Panel
- 4. Vision Tools
- 4.1 Acquisition
- 4.2 Location
- 4.2.1 Feature Match
- 4.2.2 Greyscale Match
- 4.2.3 Mark Location
- 4.2.4 Circle Search
- 4.2.5 Line Search
- 4.2.6 Blob Analysis
- 4.2.7 Caliper
- 4.2.8 Edge Search
- 4.2.9 Position Correction
- 4.2.10 Rect Search
- 4.2.11 Peak Search
- 4.2.12 Edge Intersection
- 4.2.13 Parallel Lines Search
- 4.2.14 Quadrilateral Search
- 4.2.15 Line Group Search
- 4.2.16 Multi-line Search
- 4.2.17 Blob Label Analysis
- 4.2.18 Path Extraction
- 4.2.19 Find Angle Bisector
- 4.2.20 Find Median Line
- 4.2.21 Calculate Parallel Lines
- 4.2.22 Find Vertical Line
- 4.3 Measurement
- 4.4 Image Generation
- 4.5 Recognition
- 4.6 Deep Learning
- 4.7 Calibration
- 4.8 Calculation
- 4.9 Image Processing
- 4.9.1 Image Combination
- 4.9.2 Image Morphology
- 4.9.3 Image Binarization
- 4.9.4 Image Filter
- 4.9.5 Image Enhancement
- 4.9.6 Image Computing
- 4.9.7 Distortion Correction
- 4.9.8 Image Clarity
- 4.9.9 Image Fixture
- 4.9.10 Shade Correction
- 4.9.11 Affine Transformation
- 4.9.12 Ring Expansion
- 4.9.13 Copy and Fill
- 4.9.14 Frame Mean
- 4.9.15 Image Normalization
- 4.9.16 Image Correction
- 4.9.17 Geometric Transformation
- 4.9.18 Image Stitch
- 4.9.19 Multiple Images Fusion
- 4.10 Color Processing
- 4.11 Defect Detection
- 4.11.1 OCV
- 4.11.2 Arc Edge Defect Detection
- 4.11.3 Linear Edge Defect Detection
- 4.11.4 Arc-Pair Defect Detection
- 4.11.5 Line-Pair Defect Detection
- 4.11.6 Edge Group Defect Detection
- 4.11.7 Edge Pair Group Defect Detection
- 4.11.8 Edge Model Defect Detection
- 4.11.9 Edge Pair Model Defect Detection
- 4.11.10 Defect Contrast
- 4.12 Logic Tools
- 4.13 Communication
- 4.14 Dobot Magician Tools
- 5. Cases
- 6. Dobot Magician Demo
DobotVisionStudio User Guide
Issue V4.1.2 (2022-06-08) User Guide Copyright © Yuejiang Technology Co., Ltd.
145
DL code reading module is divided into DL code reading C and DL code reading G. They need
different operating environments but have the same parameters and functions. Therefore, you can
select according to your own computer configuration.
Level Running Parameters of 2D BCR:
• ISO Standard: ISO15415 and ISO29158, select according to demands.
• Mirror Mode: mirror image refers to the image in X-direction mirror image. Three modes
can be selected:
- Mirror Image: select this mode if the collected image is a reflection image in the
mirror.
- Non-Mirror Image: select this mode if the collected image is not a reflection image
in the mirror.
- Any: default mode includes mirror image and non-mirror image.
• Rating Processing Type: processing 1 and processing 2 can be selected.
- Processing 1: supports HIK rating mode.
- Processing 1: supports ISO rating mode.
• Aperture Size: it is filter size, it is more obvious to increase the filter effect, and the default
value is recommended.
• Rating Mode: HIk and ISO can be selected.
• Polarity: it has three types, including dark on white, white on dark and any. you can select
them according to your demands.
• Number of 2D BCR Rows and Columns: The 'row' and 'column' of the smallest 'square'
or 'circle' constituting the 2D BCR are one row or one column. It indicates the number of rows and
columns contained in the actual 2D BCR. It is recommended to use the default value. In case of
abnormality, the number of rows and columns of 2D BCR can be filled in according to the actual
situation.
• Edge Type: Continuous and discrete type can be selected.
Level Running Parameters of 1D BCR:
• Time-Period to Exit: If the algorithm running time exceeds this value, it will exit directly,
and the unit is ms. When it is set as 0, the timeout exit time will be closed and the algorithm will
run for as long as the actual time required.
• High Performance Mode: DL code reading C module has unique parameters. After it is
enabled, the recognition effect will be better, but the CPU usage will increase
• Code Grade Flag: If it is enabled, you can view an set more specific code parameter
configurations.
• Enable Button: when enabling, it means the sub level of the index reckons in the total
level, including decoding level, edge certainty, contrast, min. reflectivity rate, edge contrast, module
uniformity, decode ability, defect degree and static area.
• Indicator ABCD Threshold: It refers to the interval when the score of the index is used to
calculate the grade. The index includes decode ability, defect degree, minimum reflectivity rate,
edge contrast, module uniformity and contrast.