Iiot & Industry 4.0 Mqtt, Uns & Digital Twin
Iiot & Industry 4.0: Mqtt, Uns & Digital Twin
Published 6/2026
Created by ProjectEngPro Engineering and Project Management
MP4 | Video: h264, 1920×1080 | Audio: AAC, 44.1 KHz, 2 Ch
Level: Beginner | Genre: eLearning | Language: English | Duration: 12 Lectures ( 2h 25m ) | Size: 3.3 GB
MQTT Sparkplug B & Unified Namespace | edge computing | digital twin & MPC | predictive maintenance
What you’ll learn
⚡ Separate the substance of IIoT and Industry 4.0 from the marketing for a process plant
⚡ Design IIoT architecture across the sensor, edge and cloud layers
⚡ Decide what to compute at the edge based on latency, bandwidth and resilience
⚡ Implement MQTT with Sparkplug B for report-by-exception industrial messaging
⚡ Build a Unified Namespace as a single, structured, real-time source of plant state
⚡ Select cloud platforms and analytics for industrial data
⚡ Apply digital twins to simulation, monitoring and optimisation
⚡ Apply advanced process control and model predictive control to a process
⚡ Implement predictive maintenance from condition and process data
⚡ Govern industrial data – quality, ownership and security – across the architecture
⚡ Choose what to connect and what to leave alone to keep a programme delivering value
⚡ Produce a smart-plant IIoT architecture as a section project
Requirements
❗ A background in C&I, control, automation or electrical engineering is assumed
❗ Familiarity with DCS, PLC or SCADA systems and basic networking
❗ This is a practitioner-level course, not a first introduction to automation
❗ No specific IIoT platform or licence is required to follow the material
❗ A willingness to think about data architecture, not just devices
Description
Every major operator is talking about digital transformation. Most IIoT programmes fail – not because the technology does not work, but because the people implementing them were never given a structured framework for what to connect, what to compute at the edge, what to send to the cloud, and how to govern the data that results.
This course gives that framework. It covers IIoT architecture, edge computing, the messaging and namespace layer, cloud and analytics, digital twins, advanced process control, and predictive maintenance – the building blocks of a smart plant that delivers value rather than dashboards.
The work is anchored in the architectures that make industrial IoT work: MQTT with Sparkplug B as the messaging standard, the Unified Namespace as the single source of plant truth, and the edge-to-cloud split that decides what is computed where.
It opens with what IIoT and Industry 4.0 actually mean for a process plant, separating the substance from the marketing, then IIoT architecture: the layers from sensor to edge to cloud and how data flows between them.
Edge computing is covered as the decision about what to compute at the plant – latency, bandwidth, and resilience – then MQTT and Sparkplug B as the lightweight, report-by-exception messaging that suits industrial data.
The Unified Namespace is given its own lesson because it is the idea that most often separates a coherent IIoT programme from a tangle of point-to-point integrations – a single, structured, real-time source of plant state.
Cloud platforms and analytics, then digital twins, follow – the simulation and modelling layer that turns plant data into prediction and optimisation.
Advanced process control and model predictive control, and predictive maintenance, are covered as the applied outcomes – where IIoT stops being infrastructure and starts returning value through tighter control and fewer failures.
The course is built by a practising engineer with 15+ years delivering automation and IIoT implementation on oil and gas and energy projects – including edge and analytics on major process plants. The data governance lesson and the section project apply the framework to a real smart-plant architecture.
If you have been asked to deliver digital transformation on a plant and you want a framework that produces results, start with what IIoT actually means and work through to the smart-plant architecture project.
Who this course is for
⭐ Automation, control and C&I engineers asked to deliver IIoT or digital transformation
⭐ OT/IT integration staff and data engineers building the smart-plant data architecture
⭐ Control and instrument technicians connecting plant data to edge, analytics and the cloud
⭐ Process and reliability engineers applying advanced process control and predictive maintenance
⭐ Digital transformation leads, analysts and managers scoping IIoT programmes
⭐ System integrators and vendor engineers implementing MQTT, a Unified Namespace or digital twins
⭐ Graduates, apprentices and career changers needing a structured IIoT grounding
Homepage
https://anonymz.com/?
https://www.udemy.com/course/iiot-industry-40-mqtt-uns-digital-twin
https://rapidgator.net/file/01b875d41c2a00615e2bd9eb97a9e8e6/IIoT_&_Industry_4.0_MQTT,_UNS_&_Digital_Twin.part1.rar.html,_UNS_&_Digital_Twin.part4.rar.html
https://rapidgator.net/file/c3a5819d17b4ebe2386bdcac62afa63d/IIoT_&_Industry_4.0_MQTT,_UNS_&_Digital_Twin.part2.rar.html,_UNS_&_Digital_Twin.part3.rar.html
https://rapidgator.net/file/39b350339a8c1e6b7f25b9e509680f46/IIoT_&_Industry_4.0_MQTT,_UNS_&_Digital_Twin.part3.rar.html,_UNS_&_Digital_Twin.part2.rar.html
https://rapidgator.net/file/293d4f80d6afd12bb73618f277e1f354/IIoT_&_Industry_4.0_MQTT,_UNS_&_Digital_Twin.part4.rar.html,_UNS_&_Digital_Twin.part1.rar.html