Calculating OEE in Amazon IoT SiteWise - Amazon IoT SiteWise
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Calculating OEE in Amazon IoT SiteWise

This tutorial provides an example of how to calculate overall equipment effectiveness (OEE) for a manufacturing process. As a result, your OEE calculations or formulas might differ from those shown here. In general, OEE is defined as Availability * Quality * Performance. To learn more about calculating OEE, see Overall equipment effectiveness on Wikipedia.

Prerequisites

To complete this tutorial, you must configure data ingestion for a device that has the following three data streams:

  • Equipment_State – A numerical code that represents the state of the machine, such as idle, fault, planned stop, or normal operation.

  • Good_Count – A data stream where each data point contains the number of successful operations since the last data point.

  • Bad_Count – A data stream where each data point contains the number of unsuccessful operations since the last data point.

To configure data ingestion, see Ingesting data to Amazon IoT SiteWise. If you don't have an available industrial operation, you can write a script that generates and uploads sample data through the Amazon IoT SiteWise API.

How to calculate OEE

In this tutorial, you create an asset model that calculates OEE from three data input streams: Equipment_State, Good_Count, and Bad_Count. In this example, consider a generic packaging machine, such as one that's used for packaging sugar, potato chips, or paint. In the Amazon IoT SiteWise console, create an Amazon IoT SiteWise asset model with the following measurements, transforms, and metrics. Then, you can create an asset to represent the packaging machine and observe how Amazon IoT SiteWise calculates OEE.

Define the following measurements to represent the raw data streams from the packaging machine.

Measurements
  • Equipment_State – A data stream (or measurement) that provides the current state of the packaging machine in numerical codes:

    • 1024 – The machine is idle.

    • 1020 – A fault, such as an error or delay.

    • 1000 – A planned stop.

    • 1111 – A normal operation.

  • Good_Count – A data stream where each data point contains the number of successful operations since the last data point.

  • Bad_Count – A data stream where each data point contains the number of unsuccessful operations since the last data point.

Using the Equipment_State measurement data stream and the codes it contains, define the following transforms (or derived measurements). Transforms have a one-to-one relationship with raw measurements.

Transforms
  • Idle = eq(Equipment_State, 1024) – A transformed data stream that contains the machine's idle state.

  • Fault = eq(Equipment_State, 1020) – A transformed data stream that contains the machine's fault state.

  • Stop = eq(Equipment_State, 1000) – A transformed data stream that contains the machine's planned stop state.

  • Running = eq(Equipment_State, 1111) – A transformed data stream that contains the machine's normal operational state.

Using the raw measurements and the transformed measurements, define the following metrics that aggregate machine data over specified time intervals. Choose the same time interval for each metric when you define the metrics in this section.

Metrics
  • Successes = sum(Good_Count) – The number of successfully filled packages over the specified time interval.

  • Failures = sum(Bad_Count) – The number of unsuccessfully filled packages over the specified time interval.

  • Idle_Time = statetime(Idle) – The machine's total idle time (in seconds) per specified time interval.

  • Fault_Time = statetime(Fault) – The machine's total fault time (in seconds) per specified time interval.

  • Stop_Time = statetime(Stop) – The machine's total planned stop time (in seconds) per specified time interval.

  • Run_Time = statetime(Running) – The machine's total time (in seconds) running without issue per specified time interval.

  • Down_Time = Idle_Time + Fault_Time + Stop_Time – The machine's total downtime (in seconds) over the specified time interval, calculated as the sum of the machine states other than Run_Time.

  • Availability = Run_Time / (Run_Time + Down_Time) – The machine's uptime or percentage of scheduled time that the machine is available to operate over the specified time interval.

  • Quality = Successes / (Successes + Failures) – The machine's percentage of successfully filled packages over the specified time intervals.

  • Performance = ((Successes + Failures) / Run_Time) / Ideal_Run_Rate – The machine's performance over the specified time interval as a percentage out of the ideal run rate (in seconds) for your process.

    For example, your Ideal_Run_Rate might be 60 packages per minute (1 package per second). If your Ideal_Run_Rate is per minute or per hour, you need to divide it by the appropriate unit conversion factor because Run_Time is in seconds.

  • OEE = Availability * Quality * Performance – The machine's overall equipment effectiveness over the specified time interval. This formula calculates OEE as a fraction out of 1.