Review of signal systems and digital signal processing:
The Radar Systems Engineering Series consists of seventeen lectures; each lecture is offered as an individual tutorial. The goal of this series is to provide an advanced introduction to radar systems subsystem issues for first year graduate students, advanced senior undergraduates or professionals n...
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| Main Author: | |
|---|---|
| Format: | Electronic Video |
| Language: | English |
| Published: |
United States
IEEE
2012
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| Subjects: | |
| Online Access: | FHN01 TUM01 |
| Summary: | The Radar Systems Engineering Series consists of seventeen lectures; each lecture is offered as an individual tutorial. The goal of this series is to provide an advanced introduction to radar systems subsystem issues for first year graduate students, advanced senior undergraduates or professionals new to the field. The material will be most accessible to university graduates with a Bachelor of Science degree in Electrical Engineering, Physics, Mathematics, Computer Science / Engineering, or Mechanical Engineering and who have a solid understanding of Electromagnetism and their fields, Probability, and Calculus through Differential Equations, Vector Calculus, and Linear Algebra. Each tutorial consists of a screen-captured PowerPoint lecture narrated by Dr. O'Donnell. In each tutorial Dr. O'Donnell has broken his lecture into one or more separate segments for ease of viewing. All of the material in these tutorials is subject to copyright laws. In the first segment of this lecture Dr. O'Donnell reviews the specific copyright information for these materials. Following this brief video, the first segment of this lecture will begin.You may also access copyright information by viewing the video listed below on this course page. In this third lecture on Signal, Systems and Digital Signal Processing Dr. O'Donnell discusses continuous signals and systems, sampled data and discrete time systems, the Discrete Fourier Transform (DFT) and the Fast Fourier Transform (FFT). He concludes the lecture by reviewing finite impulse response (FIR) filters and the weighting of filters. This lecture is divided into four parts. Please note that audio is available for the first lecture segment only; the remaining segments features a slide review of this topic |
| Item Description: | Description based on online resource; title from title screen (IEEE Xplore Digital Library, viewed November 14, 2020) |
| Physical Description: | 1 Online-Resource (1 Videodatei, 60 Minuten) color illustrations |
| ISBN: | 9781467331562 |
Staff View
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| 520 | |a The Radar Systems Engineering Series consists of seventeen lectures; each lecture is offered as an individual tutorial. The goal of this series is to provide an advanced introduction to radar systems subsystem issues for first year graduate students, advanced senior undergraduates or professionals new to the field. The material will be most accessible to university graduates with a Bachelor of Science degree in Electrical Engineering, Physics, Mathematics, Computer Science / Engineering, or Mechanical Engineering and who have a solid understanding of Electromagnetism and their fields, Probability, and Calculus through Differential Equations, Vector Calculus, and Linear Algebra. Each tutorial consists of a screen-captured PowerPoint lecture narrated by Dr. O'Donnell. In each tutorial Dr. O'Donnell has broken his lecture into one or more separate segments for ease of viewing. All of the material in these tutorials is subject to copyright laws. In the first segment of this lecture Dr. O'Donnell reviews the specific copyright information for these materials. Following this brief video, the first segment of this lecture will begin.You may also access copyright information by viewing the video listed below on this course page. In this third lecture on Signal, Systems and Digital Signal Processing Dr. O'Donnell discusses continuous signals and systems, sampled data and discrete time systems, the Discrete Fourier Transform (DFT) and the Fast Fourier Transform (FFT). He concludes the lecture by reviewing finite impulse response (FIR) filters and the weighting of filters. This lecture is divided into four parts. Please note that audio is available for the first lecture segment only; the remaining segments features a slide review of this topic | ||
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| spelling | O'Donnell, Robert M. Verfasser aut Review of signal systems and digital signal processing Robert M. O'Donnell United States IEEE 2012 1 Online-Resource (1 Videodatei, 60 Minuten) color illustrations tdi rdacontent c rdamedia cr rdacarrier Description based on online resource; title from title screen (IEEE Xplore Digital Library, viewed November 14, 2020) The Radar Systems Engineering Series consists of seventeen lectures; each lecture is offered as an individual tutorial. The goal of this series is to provide an advanced introduction to radar systems subsystem issues for first year graduate students, advanced senior undergraduates or professionals new to the field. The material will be most accessible to university graduates with a Bachelor of Science degree in Electrical Engineering, Physics, Mathematics, Computer Science / Engineering, or Mechanical Engineering and who have a solid understanding of Electromagnetism and their fields, Probability, and Calculus through Differential Equations, Vector Calculus, and Linear Algebra. Each tutorial consists of a screen-captured PowerPoint lecture narrated by Dr. O'Donnell. In each tutorial Dr. O'Donnell has broken his lecture into one or more separate segments for ease of viewing. All of the material in these tutorials is subject to copyright laws. In the first segment of this lecture Dr. O'Donnell reviews the specific copyright information for these materials. Following this brief video, the first segment of this lecture will begin.You may also access copyright information by viewing the video listed below on this course page. In this third lecture on Signal, Systems and Digital Signal Processing Dr. O'Donnell discusses continuous signals and systems, sampled data and discrete time systems, the Discrete Fourier Transform (DFT) and the Fast Fourier Transform (FFT). He concludes the lecture by reviewing finite impulse response (FIR) filters and the weighting of filters. This lecture is divided into four parts. Please note that audio is available for the first lecture segment only; the remaining segments features a slide review of this topic Aerospace engineering Signal processing Radar (DE-588)4017102-4 Film gnd-content |
| spellingShingle | O'Donnell, Robert M. Review of signal systems and digital signal processing Aerospace engineering Signal processing Radar |
| subject_GND | (DE-588)4017102-4 |
| title | Review of signal systems and digital signal processing |
| title_auth | Review of signal systems and digital signal processing |
| title_exact_search | Review of signal systems and digital signal processing |
| title_exact_search_txtP | Review of signal systems and digital signal processing |
| title_full | Review of signal systems and digital signal processing Robert M. O'Donnell |
| title_fullStr | Review of signal systems and digital signal processing Robert M. O'Donnell |
| title_full_unstemmed | Review of signal systems and digital signal processing Robert M. O'Donnell |
| title_short | Review of signal systems and digital signal processing |
| title_sort | review of signal systems and digital signal processing |
| topic | Aerospace engineering Signal processing Radar |
| topic_facet | Aerospace engineering Signal processing Radar Film |
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