Plan Szkolenia
Introduction
Overview of Core Electronics Concepts and Principles Applied in DSP
- The relevance and depth of DSP in modern technologies
Recollecting Mathematics and Physics Fundamentals Implemented in DSP
- Applying statistics, probability, and noise principles
- Reviewing linear systems and superposition physics concepts
- Understanding ADC and DAC manipulation
Overview of Useful DSP Software Platform and Tools
Getting Started with Digital Signal Processors Architecture
- System requirements for DSP processors
Working with Convolution Properties and Algorithms
- Delta function v.s. impulse response
- Understanding the input side and output side algorithms
- Comprehending electronics correlation and speed in DSP
Getting Started with the Discrete Fourier Transform
- What are Fourier Transforms?
- Manipulating DFT notations, format, and variables
- Synthesizing and analyzing DFT calculations
- Working with DFT properties and polar attributes
Applying DFT Principles and Processes to DSP Functionalities
- Practicing spectral analysis and evaluating frequency responses
Operating Different DSP Domains and Choosing the Right Implementations
- Time and space domains
- Frequency and wavelet domains
Carrying Out Convolution Using the Frequency Domain
Employing Advanced Fourier Transform Properties and Applications
- What are Fourier Transform pairs and how do they work?
- Fast Fourier Transform v.s. Discrete Fourier Transform
Implementing Continuous Signal Processing
Overview of Digital Filters Types and its Primary Functions
Understanding How Information Filtering Works and Operating Basic Digital Filters
- Step response v.s. noise reduction
Employing Moving Average Filters and Applying Convolution Implementations
Working with Window-Sinc Filters and Removing Frequency Components
Operating Recursive Filters and Chebyshev Filters
- What is the recursive method in DSP?
- What are Butterworth responses?
Choosing the Appropriate DSP Filter for an Electronics Application
Creating and Building a Custom DSP Filter Based on Arbitrary Frequency Response
- Testing and optimizing a DSP filter
Integrating a Tested DSP Filter within the Preferred Electronics System
- Understanding DSP for data compression, imaging techniques, and more
- Carrying out exercises for various DSP applications and use cases
Overview of Advanced Software Tools for Achieving DSP Implementations
Implementing Complex DSP Techniques for Future Applications
- Exploring complex Fourier Transforms, z-Domain, etc.
Troubleshooting
Summary and Conclusion
Wymagania
- Basic programming experience
- Knowledge of basic electrical engineering concepts
- An understanding of intermediate mathematics and physics concepts
Audience
- Engineers
- Computer Scientists
Opinie uczestników (7)
Omówienie procesorów superskalarnych, wzmianka o kłopotach związanych z wielopoziomowymi priorytetami przerwań.
Paweł Krężołek - TRUMPF Huettinger Sp. z o.o.
Szkolenie - ARM Technology
Bardzo podobała mi się wiedza Trenera dotycząca C++ i duże realne doświadczenie, podawanie przykładów uzycia i przedstawianie realnych scenariuszy. Kontakt z grupą.
Sylwia Wnuczko - Jeppesen Poland Sp.z oo/ Boeing Company
Szkolenie - C++ for Embedded Systems
Dodatkowa wiedza na temat historii porotokołów/rozwiązań - jak to powstało
Michał Baczyński - t-media Polska sp. z o.o.
Szkolenie - Introduction to Embedded Computers
Duża liczba dodatkowych materiałów (książki, strony internetowe, podcasty), gdzie można szukać dodatkowych informacji
Mateusz Półrola - Mobica Limited Sp. z o.o. Oddział w Polsce
Szkolenie - Embedded Systems Security
Good examples, focus on most useful material
Piotr Sowiński - Intel Technology Poland
Szkolenie - Object Oriented Programming with C++
Trainer's way of explaining
Deepak Tiwari - Beamtrail
Szkolenie - Circuits and Electronics Fundamentals
The knowledge of the trainer. He was able to answer all of my questions, even questions about our platform. He also continued to help until we all understood the material.