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And will store the results in the below data collection template. We will use the 10 selected parts, 3 operators will measure the length of these 10 wooden planks, 2 times each. Below is a simple data collection template that we will use. Which means, you have selected the correct parts for performing MSA, you have numbered the parts, you have identified the operators for this test, you have selected the right measuring equipment and you have the data collection template ready. You should have completed all the pre-work as discussed in Measurement System Analysis (MSA) overview post. The Key assumptions before we do Continuous Gage R&R stays the same as with Attribute Gage R&R. Please remember, it is extremely important to do the correct MSA depending on the type of your data. If your data set consists of continuous data, you need to perform Continuous Gage R&R. However, the length of the wooden plank is continuous data. Click here to read the step by step approach for Attribute Gage R&R (opens in new tab). Hence, we used this data to perform Attribute Gage R&R. In our example, the Acceptability data set of the wooden planks is discrete. When you have Discrete data set, you perform Attribute Gage R&R. We will build on the examples we discussed in these posts. Please click on the links to read these posts (opens in new tab). MSA is done to ensure that your measurement system is robust, precise and accurate. We also looked at an overview of Measurement System Analysis (MSA). In my earlier post, we looked at what Measurement System Variation means, how it can creep into your process data and what steps you should take to ensure that your data is free of such variation.
GAGE RR MINITAB HOW TO
We will also explore the results of Continuous Gage R&R and how to interpret these results. In this post, we will look at the step by step approach to perform Continuous Gage R&R.