End of support notice: On May 20, 2026, Amazon end support for Amazon IoT Events. After May 20, 2026, you will no longer be able to access the Amazon IoT Events console or Amazon IoT Events resources. For more information, visit this Amazon IoT Events end of support.
Create a detector model to represent device states in Amazon IoT Events
In Create an Amazon IoT Events input to capture device data, you
created an input based on a message that reports pressure data from a motor. To
continue with the example, here is a detector model that responds to an over-pressure event
in a motor.
You create two states: "Normal", and "Dangerous". Each
detector (instance) enters the "Normal" state when it's created. The instance
is created when an input with a unique value for the key "motorid"
arrives.
If the detector instance receives a pressure reading of 70 or greater, it enters the
"Dangerous" state and sends an Amazon SNS message as a warning. If the pressure
readings return to normal (less than 70) for three consecutive inputs, the detector returns
to the "Normal" state and sends another Amazon SNS message as an all clear.
This example detector model assumes you have created two Amazon SNS topics whose Amazon
Resource Names (ARNs) are shown in the definition as "targetArn":
"arn:aws:sns:us-east-1:123456789012:underPressureAction" and
"targetArn":
"arn:aws:sns:us-east-1:123456789012:pressureClearedAction".
For more information, see the Amazon Simple Notification Service Developer Guide and, more specifically, the documentation of the CreateTopic operation in the Amazon Simple Notification Service API Reference.
This example also assumes you have created an Amazon Identity and Access Management (IAM) role with appropriate
permissions. The ARN of this role is shown in the detector model definition as
"roleArn": "arn:aws:iam::123456789012:role/IoTEventsRole". Follow the
steps in Setting up permissions for Amazon IoT Events to
create this role and copy the ARN of the role in the appropriate place in the detector model
definition.
You can create the detector model using the following Amazon CLI command.
aws iotevents create-detector-model --cli-input-json file://motorDetectorModel.json
The file "motorDetectorModel.json" contains the following.
{ "detectorModelName": "motorDetectorModel", "detectorModelDefinition": { "states": [ { "stateName": "Normal", "onEnter": { "events": [ { "eventName": "init", "condition": "true", "actions": [ { "setVariable": { "variableName": "pressureThresholdBreached", "value": "0" } } ] } ] }, "onInput": { "transitionEvents": [ { "eventName": "Overpressurized", "condition": "$input.PressureInput.sensorData.pressure > 70", "actions": [ { "setVariable": { "variableName": "pressureThresholdBreached", "value": "$variable.pressureThresholdBreached + 3" } } ], "nextState": "Dangerous" } ] } }, { "stateName": "Dangerous", "onEnter": { "events": [ { "eventName": "Pressure Threshold Breached", "condition": "$variable.pressureThresholdBreached > 1", "actions": [ { "sns": { "targetArn": "arn:aws:sns:us-east-1:123456789012:underPressureAction" } } ] } ] }, "onInput": { "events": [ { "eventName": "Overpressurized", "condition": "$input.PressureInput.sensorData.pressure > 70", "actions": [ { "setVariable": { "variableName": "pressureThresholdBreached", "value": "3" } } ] }, { "eventName": "Pressure Okay", "condition": "$input.PressureInput.sensorData.pressure <= 70", "actions": [ { "setVariable": { "variableName": "pressureThresholdBreached", "value": "$variable.pressureThresholdBreached - 1" } } ] } ], "transitionEvents": [ { "eventName": "BackToNormal", "condition": "$input.PressureInput.sensorData.pressure <= 70 && $variable.pressureThresholdBreached <= 1", "nextState": "Normal" } ] }, "onExit": { "events": [ { "eventName": "Normal Pressure Restored", "condition": "true", "actions": [ { "sns": { "targetArn": "arn:aws:sns:us-east-1:123456789012:pressureClearedAction" } } ] } ] } } ], "initialStateName": "Normal" }, "key" : "motorid", "roleArn": "arn:aws:iam::123456789012:role/IoTEventsRole" }