Digital Signal Processing (DSP)

Learn DSP concepts- Sampling, Filtering, Interpolation, Fourier Theory, Digital Formats, Image, Audio, Video Compression

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Digital Signal Processing (DSP)

What You Will Learn!

  • Learn Digital Signal Processing (DSP) concepts in detail
  • Understand Sampling, Filtering, Interpolation, Decimation processes
  • Learn the latest compression techniques for Images, Audio, Video
  • Gain command over Fourier Theory and its application
  • Understand the technology behind Manipulation of Sound using DSP
  • Develop a simple Application using DSP
  • Explain Digital Design for Testability purposes

Description

A warm welcome to the Digital Signal Processing (DSP) course by Uplatz.


Digital Signal Processing (DSP) includes evolving protocols and algorithms that can be used to improve a signal in a particular way or extract some useful information from it. Digital Signal Processing is an important branch of Electronics and Telecommunication engineering that deals with the managing of consistency and accuracy of the digital communication by employing multiple techniques. Digital circuits do not suffer from the much limitations. While variations in the section values can slightly change the delay of a CMOS inverter gate, the complete functionality of the gate will be retained. Unlike analog circuits, digital circuits are less vulnerable to component variations. Digital circuits are also more flexible and suited for implementing mathematical functions.

DSP systems executed in either hardware or software programmable DSP processors are categorized by common characteristics. First, data flow/real-time computing corresponds to its analog counterpart in that an output signal is a convolution of an input signal and the impulse response of a given analog linear time-invariant (LTI) system. The convolution is assumed to take infinitesimal time to compute. Because of these DSP common characteristics, many DSP algorithms can be suitably conveyed into the form of nested Do-loops perhaps with an infinite loop bound.


Uplatz offers this end-to-end course on DSP. This Digital Signal Processing course introduces the basic concepts and principles underlying discrete-time signal processing. Concepts will be shown using cases of standard technologies and algorithms. This DSP course also explains the digital signal processing (DSP) system general model and the various functions that it performs. It accepts an analog signal as an input and converts this analog signal to numbers. It also performs computations using the numbers and converts the results of the computations into an analog signal. This DSP course covers extensive explanation of Digital Signal Processing concepts, design for testability, demonstration of a practical DSP application, manipulation of sound using DSP, sampling & filtering, filter realization & implementation, interpolation, decimation, and the like. This DSP training will help you learn modern techniques of image, audio & video compression and will make you aware of the different digital formats.


Digital Signal Processing (DSP) - Course Curriculum


  • Introduction to DSP

  • Need for Design for Testability

  • Simple Application of DSP

  • Manipulation of Sound using DSP

  • Sampling & Filtering

  • Filter Realization

  • Filter Implementation

  • Interpolation and Decimation

  • Fourier Theory

  • Digital Formats

  • Audio Compression

  • Image and Video Compression


The career path of a Digital Signal Processing (DSP) engineer involves several stages of education, skill development, and professional growth. DSP engineers work with signals (such as audio, video, and sensor data) to analyze, manipulate, and process them using various algorithms and techniques. Here's a general overview of the career path for a DSP engineer:

  1. Education:

    • Bachelor's Degree: The journey usually begins with a bachelor's degree in electrical engineering, computer engineering, or a related field. During this phase, students gain foundational knowledge in mathematics, electronics, programming, and signal processing concepts.

  2. Entry-Level Positions:

    • Junior DSP Engineer/Signal Processing Intern: After completing a bachelor's degree, you might start as an intern or entry-level engineer in roles that involve assisting with DSP-related projects, testing algorithms, and getting hands-on experience with tools and software commonly used in the field.

  3. Skill Development:

    • Master's/Ph.D. (Optional): While not always necessary, pursuing a master's or Ph.D. can deepen your knowledge and expertise in DSP. This can be particularly valuable if you're interested in research, advanced algorithm development, or academia.

  4. Mid-Level Positions:

    • DSP Engineer: With a few years of experience, you can advance to a mid-level DSP engineer role. In this stage, you'll likely be working on more complex projects, designing and implementing DSP algorithms, optimizing code for performance, and collaborating with cross-functional teams.

  5. Specialization:

    • Audio DSP Engineer, Image/Video Processing Engineer, Communications Engineer, etc.: As you gain experience, you might choose to specialize in a particular domain within DSP. This could involve working on audio processing for devices like headphones and speakers, video processing for multimedia applications, or communication systems involving modulation/demodulation techniques.

  6. Senior-Level Positions:

    • Senior DSP Engineer/Lead DSP Engineer: With a significant amount of experience, you can take on more leadership responsibilities. This might include mentoring junior engineers, leading projects, and making architectural decisions for complex signal processing systems.

  7. Expertise and Leadership:

    • Principal DSP Engineer/Engineering Manager: At this stage, you have a wealth of experience and expertise. You might be responsible for guiding the overall DSP strategy within your organization, managing teams of engineers, and contributing to high-level decision-making.

  8. Research and Innovation (Optional):

    • Research Scientist/DSP Researcher: If you have a passion for pushing the boundaries of DSP, you could transition into research-focused roles. This might involve working at universities, research institutions, or companies focused on cutting-edge technology.

  9. Consulting or Entrepreneurship (Optional):

    • DSP Consultant or Startup Founder: With a solid foundation and extensive experience, you might choose to start your own consulting firm or technology startup that specializes in DSP-related solutions or products.

Throughout your career, continuous learning, staying up-to-date with the latest advancements in DSP, and adapting to emerging technologies will be crucial. Networking within the industry, attending conferences, and participating in online communities can also contribute to your professional growth as a DSP engineer.

Who Should Attend!

  • DSP - Data Engineers
  • DSP/PHY Architects - TDMA, CDMA, OFDMA, 3GPP
  • Beginners & Newbies aspiring for a career in Communications technology
  • DSP - Product Managers
  • Communications DSP Engineers
  • Electronics & Embedded Engineers
  • Audio & Video Processing Engineers
  • DSP Engineers & Senior Engineers
  • DSP- R&D Team Leads
  • Anyone interested in Signal Processing and Digital
  • Senior Engineers - DSP Software
  • Technical Lead - DSP Software Development
  • RF Design Head Mixed Signal DSP
  • Chief System Engineers - DSP FPGA Design
  • DSP System Design Engineers
  • Embedded Engineers - Software, Hardware, Firmware
  • DSP Firmware Developers (Audio & Video)
  • 5G NR DSP FW - Principal Engineers
  • Engineers - Emulation
  • DSP Architects - Physical Layer WCDMA LTE

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Tags

  • Electronics
  • Image Processing
  • Signal Processing

Subscribers

52

Lectures

13

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