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Certificates: C# Developer" certificate
Certificate "MATLAB and Simulink" -
Examination: Practical project work with final presentations
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Teaching Times: Full-timeMonday to Friday from 8:30 a.m. to 3:35 p.m. (in weeks with public holidays from 8:30 a.m. to 5:10 p.m.)
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Language of Instruction: German
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Duration: 12 Weeks
C# Developer
General basics (approx. 1 day)
Microsoft Visual C# development environment
Architecture of the Microsoft .NET framework and the .NET framework class library
Common Language Runtime (CLR) and garbage collection
C# as a strictly object-oriented programming language
Program structure (data (types) and instructions) and namespaces
Program start (program class with main() routine)
Step-by-step creation of console-based programs
Input/output with the Console class
Basic language concepts (approx. 6 days)
Elementary and composite data types, enumeration types, type conversion
Variables (declaration, initialization, scopes)
Operators (arithmetic, relational, logical, bitwise)
Program control (branches, loops)
arrays
methods
Character strings and their processing
Artificial intelligence (AI) in the work process
Presentation of specific AI technologies
and possible applications in the professional environment
Object-oriented programming (approx. 8 days)
Basic concepts of object-oriented thinking
Classes as abstractions of concrete objects, encapsulation principle
Structure and elements of classes
Step-by-step creation of own classes
Instantiation and use of objects
Properties, delegates and events
Reference and value types (class vs. struct), boxing
Overloading methods/operators
Inheritance and polymorphism
Overwriting methods, virtual methods and dynamic binding
Abstract classes and interfaces
Windows Forms and Windows Presentation Foundation (WPF) (approx. 10 days)
Step-by-step creation of Windows Forms and WPF applications
Interface design via Designer and C# code (Windows Forms)
Interface design via Designer and eXtensible Application Markup Language XAML (WPF)
Event-based program flow (events and event handlers)
Use of control elements (for design and runtime)
Processing graphical elements and images
User-defined controls (user controls)
Further topics (approx. 5 days)
Error handling (exceptions) and debugging techniques
Polymorphic and generic containers in .NET
Iterators (interface IEnumerable and 'foreach' loop)
File access
Class libraries (Dynamic Link Libraries DLLs)
Database access (ADO.NET)
Generic programming (Reflection)
Multithreading
LINQ (Language INtegrated Query)
Project work (approx. 10 days)
To consolidate the content learned
Presentation of the project results
Mathematical modeling with MATLAB and Simulink
MATLAB basics (approx. 2 days)
MATLAB user interface
Reading data from a file
Variables, arrays, operators, basic functions
Graphical representation of data
Customizing diagrams
Exporting graphics
Variables and commands (approx. 2 days)
Relational and logical operators
Sets, sets with 2D solids (polyshape)
Performing mathematical and statistical calculations with vectors
Graphics in statistics
Analysis and visualization (approx. 1 day)
Creating and modifying matrices
Mathematical operations with matrices
Graphical representation of matrix data
Matrix applications: Mappings, rotation, systems of linear equations, least square method
Artificial intelligence (AI) in the work process
Presentation of specific AI technologies
and possible applications in the professional environment
Data processing (approx. 1 day)
Data types: Structure arrays, cell arrays, string vs. char, categorical, datetime and much more.
Creating and organizing tabular data
Conditional data selection
Importing/exporting with Matlab: folder structures, .mat data, table data, continuous texts
MATLAB programming (approx. 3 days)
Control structures: loops, if-else, exceptions
Functions
Object-oriented programming
App design
Simulation in MATLAB (approx. 5 days)
Numerical integration and differentiation
Basics of simulation of ordinary differential equations, Matlab ODE and solver options
Simulation technology in Matlab: input parameters, data interpolation, simulation studies
Simulation control: event functions (zero crossing), output functions
Application examples, e.g. simulation of an electric motor, simulation of a rocket
Simulink (approx. 4 days)
Basics of Simulink: Diagrams, functions, signals and differential equations
Functions, subsystems and libraries
Import/export, lookup tables, control
Zero-crossing, automation of simulation tasks (Matlab access)
Application examples, e.g. simulation of an aircraft drive train
Project work (approx. 2 days)
To consolidate the content learned
Presentation of the project results
Changes are possible. The course content is updated regularly.
After the course, you will quickly and confidently master the object-oriented programming language Microsoft Visual C#.NET and be able to develop complex solutions.
You are also familiar with MATLAB and Simulink, standard mathematical programs for science students and engineering students.
IT apprentices, IT specialists, programmers and specialists with relevant professional experience.
Programmers with modern know-how find a wide range of applications in the growing IT fields. C# is used to create innovative web and business applications. A professional approach to C# is becoming increasingly natural when programming in Microsoft environments.
You will learn standard mathematical programs for engineering and science with MATLAB and Simulink. Specialists with knowledge of data simulation are in demand in numerous industrial fields and can be employed, for example, in weather and climate research, energy consumption modeling, the development of control algorithms for aircraft or function development in the automotive sector.
Your meaningful certificate provides a detailed insight into the qualifications you have acquired and improves your career prospects.
Didactic concept
Your lecturers are highly qualified both professionally and didactically and will teach you from the first to the last day (no self-study system).
You will learn in effective small groups. The courses usually consist of 6 to 25 participants. The general lessons are supplemented by numerous practical exercises in all course modules. The practice phase is an important part of the course, as it is during this time that you process what you have just learned and gain confidence and routine in its application. The final section of the course involves a project, a case study or a final exam.
Virtual classroom alfaview®
Lessons take place using modern alfaview® video technology - either from the comfort of your own home or at our premises at Bildungszentrum. The entire course can see each other face-to-face via alfaview®, communicate with each other in lip-sync voice quality and work on joint projects. Of course, you can also see and talk to your connected trainers live at any time and you will be taught by your lecturers in real time for the entire duration of the course. The lessons are not e-learning, but real live face-to-face lessons via video technology.
The courses at alfatraining are funded by Agentur für Arbeit and are certified in accordance with the AZAV approval regulation. When submitting a Bildungsgutscheinor Aktivierungs- und Vermittlungsgutschein, the entire course costs are usually covered by your funding body.
Funding is also possible via Europäischen Sozialfonds (ESF), Deutsche Rentenversicherung (DRV) or regional funding programs. As a regular soldier, you have the option of attending further training courses via Berufsförderungsdienst (BFD). Companies can also have their employees qualified via funding from Agentur für Arbeit (Qualifizierungschancengesetz).