V2/Concepts/Event

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Event

Whenever Result changes (from true to false and vice versa), Events may be triggered. Events includes Actions such as sending of notifications, commands to systems or request to a webhook.

General Information

Name and Description

An Event has a Name and Description. The Name and Description allows you to describe the event or situation that the Expression detects, such that recipients of the Event's notification or Alarms knows exactly what happened and is able to react to it accordingly.

  • The Event's Name and Description is displayed in the Alarm Description on the Digital Twin.

Description can also be the default content of an Action. You can describe the event or situation once in the Description, and reuse the information in all the Actions of the Event.

Inputs

You can define Inputs tags in the Event. These Inputs tags are linked to values or tag of input data coming from the related Expression. By doing so, you can embed the Inputs in the Description. You can learn more on how to embed the Input in the Description as described here.

Example

Using our Smart Weighing Scale measurement from earlier, the general information for one simple Event can be as follows:

  • Name: Battery level low
  • Inputs: weighing_scale_id, current_battery_level
  • Description: Weighing scale $(weighing_scale_id) battery level is running low. Current battery level: $(current_battery_level)

Action

There are 3 types of content options available for Action, namely:

  • Notification
  • Command
  • Webhook

Notification

Notifications such as Email, SMS and Telegram can be sent to personnel listed upon Event execution. You will be able to describe the event or situation that has happened to the recipient of the notification in the subject and message of a notification.

To further aid you in describing the event, you can embed the value or tag of an Input metric in the content of an Action. You can also embed the Rule's Name, Description and Severity in the content of an Action.

To embed:

  • metric's value, use ${<measurement_code>.<metric_code>}. e.g: ${iot_temperature_sensor_v1.temperature}
  • metric's tag, use ${<measurement_code>.<tag>}. e.g: ${iot_temperature_sensor_v1.site_id}
  • Rule's name, use ${NAME}.
  • Rule's description, use ${DESCRIPTION}.
  • Rule's severity, use ${SEVERITY}.
Note: embedding Rule's name, description and severity is case sensitive. You must use all capital letters.

Take a look at this more detailed example.

Command

Commands can be sent to external system integrated with Senfi to directly control the sensors in the external system. E.g. Command sent to lift system to automatically make a lift call for a VIP upon arrival.

Webhook

Webhook request can be sent to external systems such as work order system via Webhook address. You can pass the required parameters in the message body of a Webhook.


Rule execution options

By setting Evaluate Type to Immediate or Polling, you can choose to execute a Rule when new values are received for any Input Measurements, or periodically, regardless of whether any Input Measurements have changed.

If Rule is set to run periodically (Polling), you must specify how often a Rule is executed by setting Intervals in seconds.

Detailed Example

The event that you would like to be notified about is potential fire in a building. There are temperature sensors throughout the building. When a reading from any temperature sensor exceeds 60°C, a fire has probably broken out near the sensor. You would like to be notified by email of such an occurrence.

  • The Input in this example would be the metric and measurement that readings from temperature sensor is sent to. e.g: iot_temperature_sensor_v1.temperature
  • Condition is iot_temperature_sensor_v1.temperature > 60
  • Action is email, with body text:
"Potential fire detected in room: ${iot_temperature_sensor_v1.room}. Temperature in the room is ${iot_temperature_sensor_v1.temperature}°C"

With the above Rule configured, when iot_temperature_sensor.temperature goes from 59 to 61, an email will be sent with the body text:

"Potential fire detected in room: #03-00. Temperature in the room is 61°C"

Note: "room" is a Tag of the iot_temperature_sensor_v1 measurement that indicates which room the sensor is in.

Constructing Condition

This section will guide you to construct a condition using the Rule Editor when adding/editing a Rule in the CMS. The objective here is to tell Senfi how to detect the event or situation that you wish to be notified of.

Rule Editor

The Rule Editor is a graph based "Drag and Drop" editor. Each node in the Editor represents either an Input, Data Transformation, Logic, or an Action. Arrows are used to link the nodes and control the flow of data between nodes.

Input & Output of a node

Arrows coming into the left of a node indicates the node's input,
and arrows going out the right of a node indicates the node's output
.

The graph must always start from Input nodes and ends in the Result or Action nodes (Data originates from Input nodes, is transformed by Data Transformation, Logic nodes, and is consumed by Result & Action nodes).

Input nodes
Metric - outputs the value/s of a metric. can be set to output the last known value, or a range of historical values
Logic Nodes
Compare - comparison operators. e.g. <, >=, ==, !=
Logic - perform "AND" or "OR" between 2 or more boolean values
Data Transformation nodes
Filter - used to filter a range of values and output a subset number of values. Can only be used after a Metric node in "Range of Value" mode and before an Aggregate
Aggregate - used to aggregates a range of values into a single value. E.g. sum, average, median. Can only be used after a Metric node in "Range of Value" mode
Function - value-wise transformation. Transform each value, e.g ABS, Floor, Round etc. Can be used after a Metric node and before a Compare node. Outputs the same number of values as its input.
Result node
Result - Result node. Must have 1 and only 1 node. Specifies the Result of a Rule
Action nodes
Action - Action node. Input must always be from the "Result" node. Can have 0 or more "Action" nodes. Instructs Senfi to do something when Result changes.

Basic Steps

  1. Drag a node above working area into the working area to create a node.
  2. Create "Metric" nodes, one for each Input metric.
  3. Select the correct measurement and metric for each "Metric" node. Read: how to configure a node
  4. (Optional) If you need to compare metric value against a constant value, use the "Constant" node.
  5. Create "Operator" and "Logic" nodes to construct necessary logic
    • logic graph should output a single boolean (true or false) value
    • output from "Metric" node must go to input of a "Operator" node.
    • "Operator" and "Logic" nodes can be nested.
    • You can attach more than 2 inputs to a "Logic" node
  6. Create a "Result" node and attach output of logic graph as its input
  7. Create "Action" nodes, one for each desired Action and attach output of "Result" node as its input
  8. Save when done

Example

Example 1

Example 1: A simple Rule detecting when a Lift has tripped (safetyTrip == 1).

Example 2

Example 2: Detects when a Lift tripped (safetyTrip == 1), AND passengers are trapped in the Lift (load > 0)

Working with historical values

When historical values is required to detect an event, the "Range", "Filter" and "Aggregate" nodes are needed.

By default, a "Metric" node will output the Last Known value of the metric. To obtain historical values of a metric, attach the output of "Metric" node to the input of a "Range" node. The output of the "Range" node will be historical values from the metric.

The configuration options of the "Range" node allows you to change the range of historical values to output. E.g: You can configure it to output metric values from 1 hour ago till now, or the last 10 received metric values.

After obtaining the list of historical values, you can:

  • Filter the list using the "Filter" node.
  • Transform each value in the list using the "Function" node.

The "Filter" and "Function" nodes can be nested.

Finally, the list of historical values must be aggregated using the "Aggregate" node before its output can be used by a "Logic" or "Operator" node.

Example using historical values

Historical Example 1

The example above detects when a Lift is stopped at Level 2 for over a minute.

Configuring Nodes

Each node contains attributes & options which you can modify. To modify the attributes of a node, move your mouse over the node and click on the "Gear" button that appears near the top right corner of the node (Beside the "X" button). A window will popup to allow you to configure the node.

Aggregate node

This section explains what each of the options for "Aggregate" node does.

sum
the sum of all input values
count
the number of input values
average
the average of input values
median
the median value of input values
max
the largest value
min
the smallest value
mode
the value that appears most often
range
the difference between the largest and smallest value (max - min)
stddev
standard deviation
percentile
percentile. This option accepts an additional "Percentile Value" parameter.
every
outputs true if every value fulfills the condition. This option accepts an additional "Condition" parameter.
any
outputs true if at least 1 value fulfills the condition. This option accepts an additional "Condition" parameter.

Function node

This section explains what each of the options in "Function" node does.

abs
absolute value
round
round to nearest integer
ceil
round up
floor
round down
map
This option accepts an additional "function" parameter. Using the custom "function" parameter, transforms each input value

Next: Computed Measurement