smartLXP

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smartLXP

Here we present a selection of our training modules.

smartLXP is an open source Technical Vocational Education Training (TVET) Platform with a variety of training sources for engineers and technicians in smart industries. 
Our smartLXP Learning Platform provides a variety of GENAI supported learning content and tools for personalized learning, it connects with MES and ERP systems to enable on-demand, just-in-time training, and simultaniously work task execution. 

We have many new products for you, for example our Learning by Vision, Digital Factory Twins and XR for the Industrial Metaverse.

Contact us for more information.

Smart Engineer

Smart Engineer

In the context of digitalization, it is not only technologies that are changing faster and faster. Work processes also need to be adapted to meet the increasing demands for quality, flexibility and productivity. In this course module, you will learn how Virtual Engineering and the digital twin can help to successfully master these challenges.

Definition and understanding of Virtual Engineering and the digital twin.

The engineering process model of the first module unit:

– Remote Engineering and Digital Twin

– Application of new methods (virtual factory), technologies and development concepts

– CPS – Digital twin, implementation of smart engineering

– Remote Smart Engineering 

Additional training content will be offered by the system after successful completion of the first tasks. A selection:

Operational Control Systems, Smart shop floor Management and Cyber Security, Physic-Machine and Cyber Physic-System Orchestration and other on-demand training tasks.

 

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Quantum Engineer

The Quantum Engineer develops control solutions for quantum technologies ranging from hardware to software tools for mechanical, electronic systems, and computer and physical sciences.

Quantum Engineering

Quantum Engineering is the new tool for engineers to solve engineering problems.

The tasks include advanced electrical engineering and information technology, engineering science. Good prior knowledge of physics and mathematics is required to determine and improve quantum measurement accuracy and simulations. The tasks for advanced engineers train about quantum sensing, cryptography, and communications by focus to be selected for determination and testing. Companies using quantum technology need trained to fit and support controlling, servicing, and maintaining technology specialists.

Definition and understanding of quantum engineering

Quantum Engineering modules at a glance:

– Electrical engineering, electronics,  microtechnology, electricity, circuitry.

– Virtual Factory – physical application areas atomic physics, quantum physics, optics, nanophysics and in metrology.

– New methods, technologies and development concepts for solving technical problems and maintenance.

 

Additional training tasks will be offered upon successful completion of the basic work tasks:

Operational Control of Systems, Smart shop floor Management, Cyber Security, Physics-Machine and Cyber-Physics-System Orchestration.

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Non-Destructive Testing Inspection - NDT QM

NDT QM is important in many industries, such as oil & gas, automotive, aerospace, and construction. NDT inspector’s knowledge includes engineering, Quality Management (QM), statistic analysis and information technology, with optional digital twin and XR hands-on work task execution.

NDT-QM

While in some industries with machine vision the material condition testing is taken over, the areas where the testing must be done manually by the specialist or coworkers with drones or robots are increasing. There are different inspection methods, such as penetrant inspection (PT) eddy current inspection (ET) radiographic inspection (RT) visual inspection (VT). The modules are 3 -stage and ISO 9712 compliant.

In these 3-stage training the technician will learn about,

  • Use of the respective test methods
  • Understanding and analyzing the test results

The NDT QM – first module units:

Eddy current (ET) testing magnetic and electrical properties of conductive components for defect detection of wall and layer thickness and conductivity measurement. Fundamentals of magnetism and electricity, operation of ET test systems and ET testing.

Eddy current (ET) testing magnetic and electrical properties of conductive components for defect detection of wall and layer thickness and conductivity measurement. Fundamentals of magnetism and electricity, operation of ET test systems and ET testing.

Magnetic particle testing (MT) Magnetic field technology for defect detection on and under the surface of ferromagnetic components. Fundamentals of magnetic fields, set-up and operation of MT test equipment and testing devices, performance of MT tests, assessment and evaluation of test results, preparation of MT test instructions.

Penetrant testing (PT), capillary effect for defect detection on metallic surfaces and non-metallic components.

The module covers basics of capillarity, optics, setup and operation of PT test equipment and instruments, performing PT tests, assessment and evaluation of test results, and preparation of PT test instructions.

Radiographic Testing (RT) Scattering and absorption of X-rays or gamma rays Detection of defects inside components. The course includes introduction to the origin and properties of radioactive and ionizing radiation, construction and operation of X-ray, gamma-ray equipment and RT test equipment, and performance of RT tests.

Ultrasonic testing (UT), propagation and reflection of ultrasonic waves to detect defects inside and on the surface of metallic and non-metallic components, as well as wall and coating thickness measurement. The module includes theory of ultrasonic waves, structure and operation of UT inspection systems, performance of UT inspections.

Visual inspection (VT) uses the naked eye and tools such as magnifying glasses, gauges, roughness gauges and endoscopes to inspect surface condition and geometry of components. Module Fundamentals of optics, structure and operation of VT inspection equipment, treatment of relevant standards, preparation of VT inspection instructions, performance of VT inspections.

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Smart Technician

The environment of the smart Technician works is the Smart Factory. The training modules include Machine Technician, Physic-Technician and advanced IT & Cyber Security, Cyber Physic System Orchestration and Digital Twin.

Smart Technician

In the context of digitalization, it is not only technologies that are changing ever faster. Work processes also need to be adapted to meet the increasing demands for quality, flexibility and productivity. This Task Training includes how virtual engineering and the digital twin can help to successfully master technical challenges.

Definition and understanding of remote engineering and digital twin

The engineering process model of this task unit:

–  Remote engineering and digital twin

–  Virtual Factory – Application of new methods, technologies and development concepts

– Digital twin in practice – implementation of smart engineering Implementation of Smart Engineering 

Further tasks will be offered after successful completion of the first task:

Operational Control Systems, smart shop floor Management and Cyber Security, Physic-Machine- and Cyber Physic-System-Orchestration.

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Virtual Factory Training

Contact us for more information and about our Virtual Factory and Company training solutions.

We are driven to train to Edutain you!

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