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Sample shows you how to visualize both the realtime data and historic data sent from registered devices in an organisation.

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IOT Visualization:

Please refer to the recipe for running the application.

This is a stand alone web app written on top of node.js to visualize IOT data.Additionally it uses the following frameworks.

express : Server side routing

JQuery : UI and REST calls

Rickshaw : Visualisation of data

MQTT paho client : Subscribing to the IBM Internet of Things(IOT) Cloud using mqtt protocol and receiving messages from registered devices from IBM IOT Cloud.

Visualization in the application:

This page uses the Rickshaw charting library to visualize real time and historical data.

Historical data:

The components for the historical data visualization are placed in the files historian.js and historianGraph.js in this folder.

    iot-visualization\public\js\historian\

    \historian.js

    \historianGraph.js

historianGraph.js: This file contains the graph and it's related function.

Change the color of the graph: In the below section of code you can change the hexadecimal codes to change the color of the graph data.

    this.palette = new Rickshaw.Color.Palette( { scheme: [
      "#7f1c7d",
      "#00b2ef",
      "#00649d",
      "#00a6a0",
      "#ee3e96"
      ] } );

The function drawGraph(seriesData) is called from historian.js when we receive device data from IBM IOT Cloud.It instantiates the graph for the first time and set te renderer , hover details , x-axis and y-axis formatting.

    this.drawGraph = function(seriesData) 

This instantiates the graph and set the intial renderer to line.

    this.graph = new Rickshaw.Graph( {
        element: document.getElementById("chart"),
      width: 900,
      height: 500,
      renderer: 'line',
      stroke: true,
      preserve: true,
      series: seriesData  
    } );

This defines the time fixture(e.g. year, month, day, hour) and the formatting of each) for the x-axis.

    this.xAxis = new Rickshaw.Graph.Axis.Time( {
      graph: this.graph,
      ticksTreatment: this.ticksTreatment,
      timeFixture: new Rickshaw.Fixtures.Time.Local()
    } );

This defines the number formatting for y axis.

this.yAxis = new Rickshaw.Graph.Axis.Y( {
  graph: this.graph,
  tickFormat: Rickshaw.Fixtures.Number.formatKMBT,
  ticksTreatment: this.ticksTreatment
} );

This function gets called from historian.js and create the array which is used to plot the graph.

    this.displayHistChart = function(device,data)

historian.js : This file intializes the graph and makes REST API calls to get the historian data.

    this.initialize = function() {
    historianGraph = new HistorianGraph();
  }

The function this.plotHistoricGraph handles the ui control selections and make the REST call to get the historical data

    this.plotHistoricGraph 

Realtime data:

The components for the realtime data visualization are placed in the files realtime.js and realtimeGraph.js in this folder.

    iot-visualization\public\js\realtime\

    \realtime.js

    \realtimeGraph.js

realtimeGraph.js: This file contains the graph and it's related functions.This is written in the same style as historianGraph.js above.So you can follow the guidelines for historianGraph.js to customize the code.

realtime.js : This file intializes the graph and subscribes to the mqtt topics to get realtime device data from IBM IOT cloud.

You can download the iot-visualization project zip and use the above guidelines to customize the graphs to change the visualization.

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Sample shows you how to visualize both the realtime data and historic data sent from registered devices in an organisation.

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