Digital Signal Processing 5C: Digital Signal Processing

This module continues the exploration of Digital Signal Processing with additional advanced topics. Students will delve into:

• Further filtering techniques
• Complex signal representations
• Innovative applications across different domains

Through interactive lectures, students will enhance their skills in applying these advanced concepts.

Course Lectures

• Digital Signal Processing 6: Discrete-Time Fourier Transform

  Eliathamby Ambikairajah

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  This module covers the Discrete-Time Fourier Transform (DTFT), a fundamental tool in signal processing. Students will learn:

  • The definition and properties of DTFT
  • How to analyze signals in the frequency domain
  • Applications of DTFT in various signal processing tasks

  Through electronic whiteboard-based lectures, students will gain practical insights into working with DTFT.

• Digital Signal Processing 5B: Digital Signal Processing

  Eliathamby Ambikairajah

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  This module continues the exploration of Digital Signal Processing, delving deeper into the concepts previously introduced. Key topics include:

  • Advanced filtering techniques
  • Signal characteristics and their manipulation
  • Real-world applications in audio and image processing

  Students are encouraged to apply theoretical knowledge in practical scenarios to enhance their understanding.

• Digital Signal Processing 4: Fourier Representation of Signal

  Eliathamby Ambikairajah

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  This module introduces the Fourier representation of signals, a critical concept for understanding signal behavior in the frequency domain. Students will explore:

  • Fourier series and transforms
  • Relationship between time and frequency representations
  • Applications in analyzing periodic signals

  Theoretical knowledge is paired with practical examples to solidify understanding.

• Digital Signal Processing 3: Introduction to Z-Transorm

  Eliathamby Ambikairajah

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  This module provides an introduction to the Z-Transform, a powerful tool in analyzing discrete-time signals and systems. Key topics include:

  • Z-Transform properties and applications
  • Relationship between Z-Transform and other transforms
  • Practical exercises in using Z-Transform for system analysis

  Students will learn to apply the Z-Transform in various scenarios, enhancing their analytical skills.

• Digital Signal Processing 1: Signals and Systems

  Eliathamby Ambikairajah

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  This foundational module on Signals and Systems introduces students to the basic principles of how signals are generated and processed. Topics include:

  • Types of signals: continuous and discrete
  • Basic operations on signals
  • System properties and classifications

  Students will engage in practical exercises to reinforce theoretical concepts.

• Digital Signal Processing 5C: Digital Signal Processing

  Eliathamby Ambikairajah

  Playing

  This module continues the exploration of Digital Signal Processing with additional advanced topics. Students will delve into:

  • Further filtering techniques
  • Complex signal representations
  • Innovative applications across different domains

  Through interactive lectures, students will enhance their skills in applying these advanced concepts.

• Digital Signal Processing 5A: Digital Signal Processing

  Eliathamby Ambikairajah

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  This module provides insights into the core principles of Digital Signal Processing, focusing on foundational concepts. Key areas of study include:

  • Introduction to digital signals
  • Basic processing techniques
  • Real-world applications and case studies

  Students will learn to apply basic techniques to real-world scenarios, enhancing their understanding of digital signals.

• Digital Signal Processing 2: Discrete-Time System

  Eliathamby Ambikairajah

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  This module focuses on Discrete-Time Systems, emphasizing the analysis and design of systems that process discrete signals. Students will explore:

  • System representations
  • Stability and causality
  • Design of discrete-time filters

  Practical exercises will complement theoretical learning, allowing students to design effective discrete-time systems.

• Digital Signal Processing 7: Analogue Filter Design

  Eliathamby Ambikairajah

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  This module introduces Analogue Filter Design, a crucial aspect of signal processing. Students will learn:

  • Types of analogue filters: low-pass, high-pass, band-pass, and band-stop
  • Design principles and techniques
  • Real-world applications in various fields

  Through interactive lectures and practical examples, students will gain hands-on experience in designing analogue filters.

• Digital Signal Processing 8A: Digital Filter Design

  Eliathamby Ambikairajah

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  This module on Digital Filter Design covers the essential techniques and methodologies for creating digital filters. Key topics include:

  • Filter types: FIR and IIR
  • Design methodologies
  • Implementation techniques in digital systems

  Students will engage in practical exercises, applying their knowledge to develop effective digital filters.

• Digital Signal Processing 8B: Digital Filter Design

  Eliathamby Ambikairajah

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  This continuing module on Digital Filter Design focuses on advanced concepts and applications. Students will explore:

  • Advanced filtering techniques
  • Application of digital filters in various fields
  • Performance evaluation of filters

  Through case studies and hands-on projects, students will enhance their understanding of digital filter applications.

• Digital Signal Processing 9: Multirate Digital Signal Processing

  Eliathamby Ambikairajah

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  This module focuses on Multirate Digital Signal Processing, a vital area in contemporary signal processing. Key topics covered include:

  • Multirate signal processing techniques
  • Applications in various digital communication systems
  • Impact of multirate processing on system design

  Students will engage with practical examples to understand how multirate processing can improve system efficiency.