mechanical engineering
Discipline that applies principles of physics, engineering and materials science to design, analyse, manufacture and maintain mechanical systems.
Electromechanical drafters draw and create blueprints together with electromechanical engineers. They interpret the specifications and requirements made by the engineer and design electromechanical equipment and components.
No competences in this bucket.
Discipline that applies principles of physics, engineering and materials science to design, analyse, manufacture and maintain mechanical systems.
The computer-aided design (CAD) software for creating, modifying, analysing or optimising a design.
The drawings detailing the design of products, tools, and engineering systems.
The field of engineering that deals with the study and application of electricity, electronics, and electromagnetism.
The national and international regulations with regards to the use and manufacture of electrical equipment on the workfloor. These regulations provide rules and guidelines on topics such as general risk management, electrical equipment manufacture, electrical equipment testing, electrical equipment installation, warning labels, and certificates.
Electrical apparatus that are able to convert mechanical energy to electrical energy (generators), electrical energy to mechanical energy (motors), and change the voltage level of an AC or alternating current (transformers).
The visual schematic representation of an electrical circuit, its components, and the connections between these components.
The principles of electricity and electrical power circuits, as well as the associated risks.
The engineering processes that combine electrical and mechanical engineering in the application of electromechanics in devices that need electricity to create mechanical movement or devices that create electricity by mechanical movement.
Techniques used for creating detailed drawings of designs by using specialised pencils, rulers, templates and scales.
Mathematics is the study of topics such as quantity, structure, space, and change. It involves the identification of patterns and formulating new conjectures based on them. Mathematicians strive to prove the truth or falsity of these conjectures. There are many fields of mathematics, some of which are widely used for practical applications.
Drawing software and the various symbols, perspectives, units of measurement, notation systems, visual styles and page layouts used in technical drawings.
No competences in this bucket.
Model and simulate an electromechanical system, product, or component so that an assessment can be made of the viability of the product and so the physical parameters can be examined before the actual building of the product.
Create detailed technical plans of machinery, equipment, tools and other products.
Edit drawings, schematic diagrams, and drafts according to specifications.
Draft sketches and design electromechanical systems, products, and components using Computer Aided Design (CAD) software and equipment.
Design prototypes of products or components of products by applying design and engineering principles.
Read and comprehend blueprints and electrical diagrams; understand technical instructions and engineering manuals for assembling electrical equipment; understand electricity theory and electronic components.
Collaborate with engineers to ensure common understanding and discuss product design, development and improvement.
Use computer-aided design (CAD) systems to assist in the creation, modification, analysis, or optimisation of a design.
Create technical designs and technical drawings using specialised software.
No competences in this bucket.
The technologies which enable access to hardware, software, data and services through remote servers and software networks irrespective of their location and architecture.
The methods of artificial intelligence, machine learning, statistics and databases used to extract content from a dataset.
The physical and technical concepts of how digital data storage is organised in specific schemes both locally, such as hard-drives and random-access memories (RAM) and remotely, via network, internet or cloud.
Electromechanical systems that utilise electric motors to control the movement and processes of electrical machinery.
Motors which are able to convert electrical energy into mechanical energy.
The techniques and methods used for eliciting and extracting information from unstructured or semi-structured digital documents and sources.
The type of infrastructure which defines the format of data: semi-structured, unstructured and structured.
The information that is not arranged in a pre-defined manner or does not have a pre-defined data model and is difficult to understand and find patterns in without using techniques such as data mining.
The visual representation and interaction techniques, such as histograms, scatter plots, surface plots, tree maps and parallel coordinate plots, that can be used to present abstract numerical and non-numerical data, in order to reinforce the human understanding of this information.
The tools used to transform large amounts of raw data into relevant and helpful business information.
The software to perform computer-aided engineering (CAE) analysis tasks such as Finite Element Analysis and Computional Fluid Dynamics.
The principles and operations of devices that can convert mechanical energy into electrical energy, such as dynamos and alternators, rotors, stators, armatures, and fields.
The engineering elements like functionality, replicability, and costs in relation to the design and how they are applied in the completion of engineering projects.
The steps required through which a material is transformed into a product, its development and full-scale manufacturing.
Multidisciplinary field of engineering that combines principles of electrical engineering, telecommunications engineering, control engineering, computer engineering, and mechanical engineering in the design of products and manufacturing processes. The combination of these areas of engineering allows for the design and development of "smart" devices and the achievement of an optimal balance between mechanical structure and control.
Specific software system (SAS) used for advanced analytics, business intelligence, data management, and predictive analytics.
Use specific software for data analysis, including statistics, spreadsheets, and databases. Explore possibilities in order to make reports to managers, superiors, or clients.
Calculate and determine the functional, physical, structural, geometrical and size dimensions for the parts necessary to create machines or equipment.
Administer all types of data resources through their lifecycle by performing data profiling, parsing, standardisation, identity resolution, cleansing, enhancement and auditing. Ensure the data is fit for purpose, using specialised ICT tools to fulfil the data quality criteria.
Explore large datasets to reveal patterns using statistics, database systems or artificial intelligence and present the information in a comprehensible way.
Use techniques and algorithms that are able to extract mastery out of data, learn from it and make predictions, to be used for program optimisation, application adaptation, pattern recognition, filtering, search engines and computer vision.
Collect and evaluate numerical data in large quantities, especially for the purpose of identifying patterns between the data.
Interpret and analyse data collected during testing in order to formulate conclusions, new insights or solutions.
Explain technical details to non-technical customers, stakeholders, or any other interested parties in a clear and concise manner.
Communicate testing information such as testing schedules, samples testing statistics and test results, to the relevant departments.
Respond to and communicate with customers in the most efficient and appropriate manner to enable them to access the desired products or services, or any other help they may require.
Create a mathematical or three-dimensional computer graphic model of the product by using a CAE system or a calculator.
Draft sketches and design electrical systems, products, and components using Computer Aided Design (CAD) software and equipment. Draw panel arrangement layouts, electrical schematics, electrical wiring diagrams, and other assembly details.
Develop a code of letters and numbers to label diagrams for assembly instructions.
Set up a list of materials, components, and assemblies as well as the quantities needed to manufacture a certain product.
Draw layout specifications for machinery, equipment and building structures. Specify which materials should be used and the size of the components. Show different angles and views of the product.
Maintain records of the progress of the work including time, defects, malfunctions, etc.
Gather, process and present quantitative data. Use the appropriate programs and methods for validating, organising and interpreting data.
Determine and schedule production and assembly steps. Plan manpower and equipment needs taking ergonomic considerations into account.
Create the drawings that identify the different components and materials, and that provide instructions as to how they should be assembled.
Proofread and give feedback to technical drawings or drafts.
Lead and guide employees through a process in which they are taught the necessary skills for the perspective job. Organise activities aimed at introducing the work and systems or improving the performance of individuals and groups in organisational settings.
Use non-computerised draughting techniques to make detailed drawings of designs by hand with specialised tools such as pencils, rulers and templates.