Microsoft Azure IoT Developer (AZ-220)

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Microsoft Azure IoT Developer (AZ-220)

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4 sep. 2023 tot 7 sep. 2023
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placeStartel (Drachten)
4 dec. 2023 tot 7 dec. 2023
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4 dec. 2023 tot 7 dec. 2023
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event 4 december 2023, 09:00-16:00, Virtual, Dag 1
event 5 december 2023, 09:00-16:00, Virtual, Dag 2
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placeStartel (Drachten)
13 feb. 2024 tot 16 feb. 2024
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event 13 februari 2024, 09:00-16:00, Startel (Drachten), Dag 1
event 14 februari 2024, 09:00-16:00, Startel (Drachten), Dag 2
event 15 februari 2024, 09:00-16:00, Startel (Drachten), Dag 3
event 16 februari 2024, 09:00-16:00, Startel (Drachten), Dag 4
placeVirtual
13 feb. 2024 tot 16 feb. 2024
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event 13 februari 2024, 09:00-16:00, Virtual, Dag 1
event 14 februari 2024, 09:00-16:00, Virtual, Dag 2
event 15 februari 2024, 09:00-16:00, Virtual, Dag 3
event 16 februari 2024, 09:00-16:00, Virtual, Dag 4

Beschrijving

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Algemene omschrijving

Deze training geeft de cursisten de vaardigheden en kennis die nodig zijn om succesvol de cloud- en Edge-delen van een Azure IoT-oplossing te maken en onderhouden. De training geeft een volledige behandeling van de kern Azure IoT-diensten zoals IoT Hub, Device Provisioning Services, Azure Stream Analytics, Time Series Insights, en meer. Als extra bovenop de aandacht voor Azure PaaS-diensten, geeft deze training ook aandacht aan de IoT Edge, apparaatbeheer, monitoring, het oplossen van problemen, beveiligingszaken, en Azure IoT Central.

Doelgroep

Een Azure IoT Developer is verantwoordelijk voor het implementeren en vervolgens onderhouden van de cloud- en Edge-delen van e…

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Startel in Drachten verzorgt al ruim 25 jaar IT opleidingen in Nederland en Belgie. 

Algemene omschrijving

Deze training geeft de cursisten de vaardigheden en kennis die nodig zijn om succesvol de cloud- en Edge-delen van een Azure IoT-oplossing te maken en onderhouden. De training geeft een volledige behandeling van de kern Azure IoT-diensten zoals IoT Hub, Device Provisioning Services, Azure Stream Analytics, Time Series Insights, en meer. Als extra bovenop de aandacht voor Azure PaaS-diensten, geeft deze training ook aandacht aan de IoT Edge, apparaatbeheer, monitoring, het oplossen van problemen, beveiligingszaken, en Azure IoT Central.

Doelgroep

Een Azure IoT Developer is verantwoordelijk voor het implementeren en vervolgens onderhouden van de cloud- en Edge-delen van een Azure IoT-oplossing. Als toevoeging op het configureren en onderhouden van apparaten door gebruik van Azure IoT-diensten en andere Microsoft-hulpmiddelen, installeert de IoT Developer ook de fysische apparaten en is deze verantwoordelijk voor het onderhoud van de apparaten gedurende de gehele levenscyclus.

De IoT Developer implementeert ontwerpen voor IoT-oplossingen, zoals apparaattopologie, connectiviteit, debugging en cybersecurity. Voor Edge Device Scenario’s zet de IoT Developer ook compute/containers in en configureert hij/zij Device Networking, wat verschillende Edge Gateway-implementaties kan omvatten. De IoT Developer implementeert ontwerpen voor oplossingen om data pipelines te beheren, inclusief monitoren en gegevenstransformatie met betrekking tot IoT. De IoT Developer werkt samen met data engineers en andere belanghebbenden om een goede bedrijfsintegratie te verzekeren. IoT Developers moeten een goed begrip hebben van Azure-diensten, inclusief: gegevensopslagmogelijkheden, gegevensanalyse, gegevensverwerking, en de Azure IoT PaaS naast de SaaS-opties.

IoT Developers moeten basisprogrammeerkennis hebben van minimaal één van de door Azure gebruikte talen, waaronder: C#, Node.js, C, Python of Java.

Leerdoelen

Na het beëindigen van de training, kunnen cursisten het volgende:

  • Maken, configureren en beheren van een Azure IoT Hub.
  • Apparaten instellen door middel van de IoT Hub en DPS, inclusief schaalbare bevoorrading.
  • Beveiligde wederzijdse communicatie mogelijk maken tussen IoT Hub en de apparaten.
  • Toepassen van Message Processing met behulp van IoT Hub-routering en Azure Stream Analytics.
  • Configureren van de verbinding met Time Series Insights en ondersteunen van voorwaarden voor bedrijfsintegratie.
  • Implementeren van IoT Edge-scenario’s door middel van Marketplace-modules en verschillende Edge-toegangspatronen.
  • Implementeren van IoT Edge-scenario’s die ontwikkeling en gebruik van aangepaste modules en containers vereisen.
  • Implementeren van apparaatbeheer door middel van Device Twins en directe methoden.
  • Implementeren van Solution Monitoring, logging, en diagnostisch testen.
  • Herkennen en adresseren van beveiligingsproblemen en implementeren van Azure Security Center for IoT.
  • Bouwen van Azure Digital Twins-oplossingen die upstream- en downstreamdiensten integreren.
  • Bouwen van een IoT-oplossing door middel van Azure IoT Central en het onderkennen van de SaaS-mogelijkheden voor IoT.

Voorkennis

Om deze training met succes te kunnen volgen, zijn de voorwaarden:

  • Inzicht in de mogelijkheden van de Cloud: Cursisten zouden ervaring moeten hebben met gebruik van het Azure Portal en een basisbegrip van PaaS-, SaaS- en IaaS-mogelijkheden.
  • Programmeerervaring: Dit is een voorwaarde voor deze training, maar het is niet nodig om een specifieke programmeertaal te beheersen, en het hoeft niet van een professioneel niveau te zijn.
  • Gegevensverwerkingservaring: Algemeen begrip van gegevensopslag en gegevensverwerking is aan te raden, maar niet noodzakelijk.

Onderwerpen

Module 1: Introduction to IoT and Azure IoT Services

In this module, students will begin by examining the business considerations for various IoT implementations and reviewing how the Azure IoT Reference Architecture supports IoT solutions. This module also provides students with an overview of the Azure services commonly used in an IoT solution and provides an introduction to the Azure Portal.

Lessons:

  • Business Opportunities for IoT.
  • Introduction to IoT Solution Architecture.
  • IoT Hardware and Cloud Services.
  • Lab Scenarios for this Course.

Lab: Getting Started with Azure

Lab: Setting Started with Azure IoT Services

After completing this module, students will be able to:

  • Explain how IoT and Azure IoT could be applied to their business.
  • Describe the core components of an Azure IoT Solution Architecture.
  • Describe the Azure IoT Services and how they relate to an IoT solution.
  • Create an Azure account and use the Azure portal to create an IoT Hub and DPS service.

Module 2: Devices and Device Communication

In this module, students will take a closer look at the Azure IoT Hub service and will learn how to configure secure two-way communication between IoT hub and devices. Students will also be introduced to IoT Hub features such as Device Twins and IoT Hub Endpoints that will be explored in more depth as the course continues.

Lessons:

  • IoT Hub and Devices.
  • IoT Developer Tools.
  • Device Configuration and Communication.

Lab: Connect IoT Device to Azure

Lab: Setup the Development Environment

After completing this module, students will be able to:

  • Explain the core features of the IoT Hub services.
  • Describe the lifecycle of an Azure IoT device.
  • Describe how IoT Hub manages device identities and implements other security features.
  • Register devices with the IoT Hub using the Azure portal, Azure CLI, and Visual Studio Code.
  • Implement the IoT Hub Device and Service SDKs.

Module 3: Device Provisioning at Scale

In this module, students will focus on device provisioning and how to configure and manage the Azure Device Provisioning Service. Students will learn about the enrollment process, auto-provisioning and re-provisioning, disenrollment, and how to implement various attestation mechanisms.

Lessons:

  • Device Provisioning Service Terms and Concepts.
  • Configure and Manage the Device Provisioning Service.
  • Device Provisioning Tasks.

Lab: Individual Enrollment of Devices in DPS

Lab: Automatic Enrollment of Devices in DPS

After completing this module, students will be able to:

  • Explain the process of device provisioning and the features of the Device Provisioning Service.
  • Explain the security considerations associated with device provisioning and how they are managed.
  • Implement the Device Provisioning Service SDKs.
  • Manage the device enrollment process, including deprovisioning and disenrollment.

Module 4: Message Processing and Analytics

In this module, students will examine how IoT Hub and other Azure services can be used to process messages. Students will begin with an investigation of how to configure message and event routing and how to implement routing to built-in and custom endpoints. Students will learn about some of the Azure storage options that are common for IoT solutions. To round out his module, students will implement Azure Stream Analytics and queries for a number of ASA patterns.

Lessons:

  • Messages and Message Processing.
  • Data Storage Options.
  • Azure Stream Analytics.

Lab: Filtering and Aggregating Message Data

Lab: Device Message Routing

After completing this module, students will be able to:

  • Configure message and event routing.
  • Route data to the built-in and custom endpoints.
  • Implement message enrichment.
  • Implement Azure Stream Analytics Inputs, Queries, and Outputs.
  • Store message data in a warm storage for historical purposes and additional analysis.
  • Use an Azure Function within a message processing and analytics solution.

Module 5: Insights and Business Integration

In this module, students will learn about the Azure services and other Microsoft tools that can be used to generate business insights and enable business integration. Students will implement Azure Logic Apps and Event Grid, and they will configure the connection and data transformations for data visualization tools such as Time Series Insights and Power BI.

Lessons:

  • Business Integration for IoT Solutions.
  • Data Visualization with Time Series Insights.
  • Data Visualization with Power BI.

Lab: Integrate IoT Hub with Event Grid

Lab: Explore and Analyze Time Stamped Data with Time Series Insights

After completing this module, students will be able to:

  • Explain the options for business integration within an IoT solution and how to achieve them.
  • Develop business integration support using Logic Apps and Event Grid.
  • Configure IoT Data for Visualization in Time Series Insights.
  • Configure IoT Data for Visualization in Power BI.

Module 6: Azure IoT Edge Deployment Process

In this module, students will learn how to deploy a module to an Azure IoT Edge device. Students will also learn how to configure and use an IoT Edge device as a gateway device.

Lessons:

  • Introduction to Azure IoT Edge.
  • Edge Deployment Process.
  • Edge Gateway Devices.

Lab: Set Up an IoT Edge Gateway

Lab: Introduction to IoT Edge

After completing this module, students will be able to:

  • Describe the difference between an IoT device and an IoT Edge device.
  • Configure an IoT Edge device.
  • Implement an IoT Edge deployment using a deployment manifest.
  • Configure an IoT Edge device as a gateway device.

Module 7: Azure IoT Edge Modules and Containers

In this module, students will develop and deploy custom edge modules, and will implement support for an offline scenario that relies on local storage. Students will use Visual Studio Code to build custom modules as containers using a supported container engine.

Lessons:

  • Develop Custom Edge Modules.
  • Offline and Local Storage.

Lab: Develop, Deploy, and Debug a Custom Module on Azure IoT Edge

Lab: Run an IoT Edge Device in Restricted Network and Offline

After completing this module, students will be able to:

  • Explain the requirements for building a custom edge module.
  • Configure Visual Studio Code for developing containerized modules.
  • Deploy a custom module to an IoT Edge device.
  • Implement local storage on an IoT Edge device in support of an offline scenario.

Module 8: Device Management

In this module, students will learn how to implement device management for their IoT solution. Students will develop device management solutions that use devoice twins and solutions that use direct methods.

Lessons:

  • Introduction to IoT Device Management.
  • Manage IoT and IoT Edge Devices.
  • Device Management at Scale.

Lab: Automatic Device Management

Lab: Remotely Monitor and Control Devices with Azure IoT Hub

After completing this module, students will be able to:

  • Describe the most common device management patterns and configuration best practices.
  • Describe when and how to use device twins and direct methods to implement device management.
  • Implement device management for various patterns using device twins and direct methods.
  • Implement device management at scale using automatic device management and jobs.

Module 9: Solution Testing, Diagnostics, and Logging

In this module, students will configure logging and diagnostic tools that help developers to test their IoT solution. Students will use IoT Hub and Azure Monitor to configure alerts and track conditions such as device connection state that can be used to troubleshoot issues.

Lessons:

  • Monitoring and Logging.
  • Troubleshooting.

Lab: Configure Metrics and Logs in Azure IoT Hub

Lab: Monitor and Debug Connection Failures

After completing this module, students will be able to:

  • Describe the options for monitoring and logging an Azure IoT solution.
  • Configure Azure Monitor to support of an IoT solution.
  • Configure IoT Hub Metrics to support of an IoT solution.
  • Implement diagnostics logging.
  • Troubleshoot IoT device connection and communication issues.

Module 10: Azure Security Center and IoT Security Considerations

In this module, students will examine the security considerations that apply to an IoT solution. Students will begin by investigating security as it applies to the solution architecture and best practices, and then look at how Azure Security Center for IoT supports device deployment and IoT Hub integration. Students then use Azure Security Center for IoT Agents to enhance the security of their solution.

Lessons:

  • Security Fundamentals for IoT Solutions.
  • Introduction to Azure Security Center for IoT.
  • Enhance Protection with Azure Security Center for IoT Agents.

Lab: Implementing Azure Security Center for IoT

After completing this module, students will be able to:

  • Describe security concerns and best practices for an IoT solution.
  • Describe the Azure IoT Security Architecture and Threat Modeling.
  • Describe the features and support provided by Azure Security Center for IoT.
  • Configure Security Agents and Security Module Twins.
  • Aggregate Azure Security Center for IoT Events.

Module 11: ADT

In this module, students will examine the concepts of an Azure Digital Twins solution and take their first steps toward implementing ADT. Students will begin by investigating the concepts behind the Azure Digital Twins service and an ADT solution, followed by an introduction to the development tools that can be used to build and monitor an ADT solution. Students will then use the development tools to create custom models, build and query an ADT environment graph, ingest IoT device telemetry, and implement business logic and data processing.

Lessons:

  • Introduction to Azure Digital Twins.
  • Introduction to ADT solution development.
  • Monitor and troubleshoot ADT.

Lab: Develop Azure Digital Twins (ADT) solutions

After completing this module, students will be able to:

  • Describe the components of an Azure Digital Twins (ADT) solution.
  • Explain how to create and configure an ADT instance.
  • Explain how to create, query, and manage the ADT graph.
  • Explain how to ingest ADT data from IoT hub and implement support for downstream services.
  • Describe how to monitor and troubleshoot ADT.

Module 12: Build an IoT Solution with IoT Central

In this module, students will learn how configure and implement Azure IoT Central as a SaaS solution for IoT. Students will begin with a high-level investigation of IoT Central and how it works. With a basic understanding of IoT central establish, students will move on to creating and managing device templates, and then managing devices in their IoT Central application.

Lessons:

  • Introduction to IoT Central.
  • Create and Manage Device Templates.
  • Manage Devices in Azure IoT Central.

Lab: Build an IoT Solution with IoT Central

After completing this module, students will be able to:

  • Describe the difference between Azure IoT Central and the Azure IoT PaaS services.
  • Describe the features provided by Azure IoT Central.
  • Describe the purpose and components of a Device Template.
  • Create and publish a Device Template.
  • Manage devices using rules and notifications.
  • Manage devices at scale using jobs.

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