Oracle Internet Of Points Shadow Solution

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Oracle Internet Of Points Shadow Solution

Oracle Internet Of Things Cloud Service

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Internet Of Things (iot) In Mining

Other unclassified cookies are being analyzed and not yet categorized. Recent reports from Forrester and IDC on the IoT (Internet of Things) market and early adoption indicate that IoT is on the rise from now on. From pilot to commercial scale and second, global technology spending on the Internet of Things will reach $1.2 trillion by 2022.

Oracle IoT Cloud Services is a managed, cloud-based Platform as a Service (PaaS) offering that helps you connect your IoT devices to the cloud, analyze data from those devices in real time, and integrate your data with enterprise applications. business, mobile apps, and more. , microservices, web services, or with other Oracle Cloud services.

This tutorial demonstrates the quick steps required to set up an IoT application on Oracle Internet of Things (IoT) Cloud Service, register a cloud-side device, and activate the device.

Oracle Internet Of Things Cloud Service

It also explains how to code a simple client-side device application and how to use a device provisioning file that you can download from a cloud service to connect to your IoT application.

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· Access an Oracle IoT Cloud Service instance. If you want to deploy your IoT CS instance first, you can refer to the related blog post: Oracle IoT CS — How to Create an IoT Enterprise Service Instance.

A computer with a Java development environment (required to run the sample code) or another programming language development environment of your choice (C, C++, Javascript, Python, others) and a web browser;

In a web browser, enter the Oracle IoT Cloud Service instance URL. Typically, the URL is something like this: https://myinstance-myidentitydomain.iot.us.oraclecloud.com

Enter your username and password, click login and after a successful login process, you will see the main screen below.

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From the main screen, select the Hamburger User Interface component in the upper right corner of your screen (the one in the red square below). You will see the right action bar with Home as the menu option selected by default.

> You can add a new device model by clicking on Device model and the button with the plus sign (+).

Click OK, then click Save. The function is saved and the device model page displays the device.

Oracle Internet Of Things Cloud Service

The next step is to register the device. Select the Hamburger User Interface component again in the upper right corner of your screen.

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On the confirmation page, enter the provisioning file password in the file protection password input field and confirm your password in the input field.

After that, click the Download provision file button and save the file as you want to use it in your Java client code.

You can now implement a Java client device and use the IoT Cloud Service Java API to simulate and integrate an IoT device, and then send messages from cloud-side IoT Cloud Service app and device configurations.

The sample Java code below contains only the bare elements of an implementation that allows you to perform two critical steps.

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A. Activate device – the device is activated through the client, there is no option for this in the cloud console;

B. Test the configurations and check that your communication channel is working properly, i.e. check the network path and check both the client-side and cloud-side IoT device configuration for two-way communication.

We send a message from an IoT device (client side) to our IoT cloud service and retrieve the same message from the cloud side to provide overall network routing and connectivity.

Oracle Internet Of Things Cloud Service

To implement device client impersonation, you must use one of the existing IoT client libraries and APIs. There are many such as Java, C, C++, JavaScript, POSIX, Android, iOS and even REST API.

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Regarding the Java code, you can see the complete Javadocs documentation for the corresponding API on the link below.

You can use any Java IDE to create a Java project and implement the code. For example, you can use the Java Eclipse project. Note that this is just a simple Java project with no tips or extra details. As usual, don’t forget to download the JAR files from the link below and include them in the Java classpath (lib directory).

So without further ado, let’s implement the Java client tool. The code is very basic and self-explanatory as it contains all the comments that explain the various components and steps involved in implementing a Java IoT client device.

Now we can test and verify everything: device simulation and IoT cloud service configurations. It allows us to test end-to-end two-way IoT interaction and connectivity.

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Remember again that our cloud-side tool configuration is enabled by client-side request, not with optional cloud-side selection and configuration – there is no console/GUI option.

Note that after the first connection, the device will change its status to active as expected.

Run the Java application on Eclipse. Right-click anywhere in the Eclipse Code Editor, then select Run As -> Java Application.

Oracle Internet Of Things Cloud Service

If everything is OK regarding your Java project and the network path (firewalls, proxies, etc.), you will see the output in the console tab of Eclipse.

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Then, if our message is sent from a Java IoT client to our Oracle IoT Cloud Service application, we can retrieve the Cloud IoT endpoint ID:

Next, as before, but now we’ll create a template for the device – and remember we created a custom template in the setup steps:

We retrieved the same message we sent (and its contents) so that we could verify two-way communication:

Thanks to Oracle IoT Cloud Service, we can now authenticate messages from IoT devices through Oracle IoT Cloud Service.

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Select the hamburger UI again in the upper right corner of the screen, then select Tools -> Alerts and Messages.

You can run the Java IoT client program again and see that more messages are received and acknowledged as shown below.

One last thing. Note that you can use the Java debug view as usual, set breakpoints, and also introduce client-side Java code to further analyze and understand the state of the connection.

Oracle Internet Of Things Cloud Service

No more! I hope this blog post has helped you understand how easy it is to develop IoT applications using the features of Oracle IoT Cloud Service, as well as the available IoT Application Client APIs.

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You can choose an Oracle Internet of Things (IoT) Asset Monitoring cloud service organization where your Oracle Fusion Cloud Maintenance assets will be deployed. You can also choose to create one-to-one mappings between Oracle SCM Cloud organizations and Oracle IoT Asset Monitoring Cloud Service organizations. Oracle IoT Asset Monitoring Cloud Service then creates a separate organization for each Oracle SCM Cloud organization in which the assets are connected.

After importing assets and associating them with sensors, an event generated by the asset in Oracle IoT Asset Monitoring Cloud Service automatically creates a work order in Oracle Fusion Cloud Maintenance. For example, if a trigger rule triggers an event when a device linked to a property occurs

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