ISO/IEC 29158: DPM Standard Updates

ISO 29158 2D Codes on Parts

While there are many ISO standards that pertain to barcodes, there are only three standards that describe the way barcode quality is measured. Two of the standards are meant for codes printed on a flat label. The third, ISO/IEC 29158, is an extension of the 2D standard for flat labels that is adjusted to accommodate direct part marked (DPM) codes and their different substrates. 

Late in 2020, an updated version of the ISO 29158:2020 standard for DPM barcodes was published to replace the previous version released in 2011. Since a designated committee must meet to discuss, debate, and agree on all changes before a new version is released, changes do not happen very often. When they do, it is important to note and understand the changes in the latest revision. 

The following is a summary of the key changes that will affect how your DPM verification results are read. 
 

Continuous Grading
Moving to a continuous grading scale for most quality parameters requires a shift from 1.0 steps between grades to 0.1 steps. This allows codes that were previously toggling between two grades to produce a more stable result. 

Below are examples of the previous 1.0 step grading scale (A) and the new 0.1 step grading scale (B). 

A

Grades for SC Graph

 

B

Continuous Grading Graph 

 

New Grade Scale for Minimum Reflectance (MR) 

An important aspect of the DPM grading method involves automatically brightening an image before conducting the verification process. However, the original brightness is important, and it is measured for a minimum value. In the previous version, Minimum Reflectance could only result in an “A” (4.0) or “F” (0) grade. If the symbol had lower than 5% brightness before the adjustment, it would fail. Now, MR can receive a grade between “A” and “F”. The new standard has expanded upon the grading scale, so that if a code has 5% brightness before the adjustment it will be a “C” (1.5) grade. If the brightness is higher, the grade will be as well; if the brightness is lower, the grade will reflect it. 

In the previous standard:
MR Grade is A (4.0) if MR value > 5%
MR Grade is F (0) if MR value is < 5%
No continuous grading of MR
In the new standard:
A (4.0) grade whenever MR > 15%
MR of 5% is the start of a C grade range (1.5)

Grade level graph

Dot Connecting Algorithm for Dot Peen Codes

Dot peen symbols do not contain continuous edges. Consequently, the standard ISO reference decode algorithm for Data Matrix codes fails on dot peen symbols. Instead of writing a different symbiology specification, a special algorithm is used to ’connect the dots’ called the stick algorithm. The stick algorithm works by connecting dots when both ends of a fixed-length ’stick’ lands on the same color. Thus, it connects adjacent dots, thereby forming continuous lines. The connected image is then run through the standard reference decode algorithm. 
 
Dot peen code example

With the previous standard, grading is done two times (with 50% and 80% apertures)with or without the stick algorithm, reporting the higher of the two grades. The new standard now requires grading four times and reporting the highest grade. The four verifications are without the stick algorithm at 50% and 80% aperture and with the stick algorithm at 50 and 80% aperture. 
 
Dot peen two grade


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