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Satellite Communications Design and Engineering Training

Satellite Communications Design and Engineering Training

Satellite Communications Design and Engineering Training:

Satellite Communications Design and Engineering Training Course with Hands-On Exercise (Online, Onsite, and Classroom Live)

This three-day Satellite Communications Design and Engineering Training course is designed as a practical course for practicing engineers and is intended for communications engineers, spacecraft engineers, managers, and technical professionals who want both the “big picture” and a fundamental understanding of satellite communications.

The Satellite Communications Design and Engineering course is technically oriented and includes examples from real-world satellite communications systems. It will enable participants to understand the key drivers in satellite link design and to perform their own satellite link budget calculations. The Satellite Communications Design and Engineering course will especially appeal to those whose objective is to develop quantitative computational skills in addition to obtaining a qualitative familiarity with the basic concepts.

Satellite Communications Design and Engineering Training cover the following topics:

  • Satellite Communications Design and Engineering: Mission Analysis
  • Satellite Communications Design and Engineering: The RF Link – The Signal Antenna
  • Satellite Communications Design and Engineering: Signals and Spectra Properties
  • Satellite Communications Design and Engineering: Demodulation and Bit Error Rate
  • Satellite Communications Design and Engineering: Link Budgets Communications
  • And more…

What’s Included?

  • 3 days of Satellite Communications Design and Engineering Training with an expert instructor
  • Satellite Communications Design and Engineering Course Guide
  • Certificate of Completion
  • 100% Satisfaction Guarantee

Resources

Related Courses

Customize It:

  • We can adapt this Satellite Communications Design and Engineering course to your group’s background and work requirements at little to no added cost.
  • If you are familiar with some aspects of this Satellite Communications Design and Engineering course, we can omit or shorten their discussion.
  • We can adjust the emphasis placed on the various topics or build the Satellite Communications Design and Engineering around the mix of technologies of interest to you (including technologies other than those included in this outline).
  • If your background is nontechnical, we can exclude the more technical topics, include the topics that may be of special interest to you (e.g., as a manager or policy-maker), and present the Satellite Communications Design and Engineering course in a manner understandable to lay audiences.

Audience / Target Group:

The target audience for this Satellite Communications Design and Engineering course:

  • This course is designed as a practical course for practicing engineers and is intended for communications engineers, spacecraft engineers, managers, and technical professionals who want both the “big picture” and a fundamental understanding of satellite communications.

Course Prerequisites:

The knowledge and skills that a learner must have before attending this Satellite Communications Design and Engineering course are:

  • Technical background and general exposure to telecommunications networks.

Objectives:

Upon completing the Satellite Communications Design and Engineering course, the participant will be able to:

  • A comprehensive understanding of satellite communication.
  • An understanding of basic vocabulary.
  • A quantitative knowledge of basic relationships.
  • Ability to perform and verify link budget calculations.
  • Ability to interact meaningfully with colleagues and independently evaluate system designs.
  • A background to read the literature.

Course Syllabus:

  1. Mission Analysis. Kepler’s laws. Circular and elliptical satellite orbits. Period of revolution. LEO, MEO, HEO, and Geostationary Orbits. Orbital elements. Azimuth and Elevation, slant range, coverage angle, and ground trace
  2. The RF Link – The Signal Antenna gain, effective isotropic radiated power, receive flux density and receive power, Friis link equation, and variants. Review of deciBels (dB’s).
  3. The RF Link – Noise fundamentals, noise temperature, and noise figure of amplifiers, attenuators, and components. System noise temperature.
  4. The RF Link – Putting it together Receive system G/T, received CNR, SNR. Bent-pipe and regenerative transponders, multiple carrier operation, noise power-robbing, and back-off.
  5. Signals and Spectra Properties of a sinusoidal wave. Synthesis and analysis of an arbitrary waveform. Fourier Principle. Harmonics. Fourier series and Fourier transform. Frequency spectrum.
  6. Methods of Modulation. Overview of modulation, frequency translation, sidebands, analog AM/FM modulation.
  7. Digital Modulation. Nyquist sampling, analog-to-digital conversion, ISI, Nyquist pulse shaping, raised cosine filtering, BPSK, QPSK, MSK, 8PSK, QAM, GMSK, higher-order modulation, bandwidth, power spectral density, constellation diagrams.
  8. Demodulation and Bit Error Rate Coherent detection and carrier recovery, phase-locked loops, bit synchronizers, bit error probability, Eb/No, BPSK, QPSK detection, and digital modulation performance.
  9. Coding. Information theory basics, Shannon’s theorem, code rate, coding gain, Hamming, BCH, and Reed-Solomon block codes, convolutional codes, Viterbi decoding, hard and soft decision, concatenated coding, Trellis coding, Turbo codes, LDPC codes.
  10. Satellite Communications Design and Engineering Training – Bandwidth. Equivalent (noise) bandwidth. Occupied bandwidth. Allocated bandwidth. Relationship between bandwidth and data rate. Dependence of bandwidth on methods of modulation and coding. The trade-off between bandwidth and power. Emerging trends for bandwidth-efficient modulation.
  11. AntennasDirectivity and gain, reciprocity, antenna patterns, beam solid angle, half-power beamwidth, nulls and sidelobes, efficiency, large apertures, antenna examples, shaped reflectors, and phased arrays.
  12. Antenna Noise Temperature Brightness temperature, antenna noise temperature calculation, and estimates, examples.
  13. Polarization Linear, circular, elliptical polarization, axial ratio, handedness, interoperability, polarization mismatch loss.
  14. Propagation of Earth’s atmosphere, atmospheric attenuation, rain attenuation, rain models and variation with frequency, impact on G/T, system examples.
  15. Earth Stations Antenna types, facilities, RF components, operations center.
  16. Satellite Transponders Satellite communications payload architecture, frequency plan, transponder gain, TWTA and SSPA, amplifier characteristics, and intermodulation products.
  17. Multiple Access Techniques Frequency division multiple access (FDMA). Time-division multiple access (TDMA). Code division multiple access (CDMA) or spread spectrum. Capacity estimates.
  18. Link Budgets Communications link calculations, uplink, downlink, composite performance, and link budgets for single carrier and multiple carrier operations. Detailed worked examples.
  19. Diversity Site, phase, frequency, time, polarization diversity techniques, and system examples.
  20. Navigation Range and range-rate (Doppler) tracking, GPS
  21. Satellite Communications Design and Engineering Training – VSATs Applications, access techniques, typical implementations.
  22. Commercial and Military Satcom System examples, GEO platforms, high throughput satellites, Iridium, Globalstar, Orbcomm, O3B, MILSATCOM, etc.
  23. The Electromagnetic Spectrum. Frequency bands are used for satellite communication. ITU regulations. Fixed Satellite Service. Direct Broadcast Service. Digital Audio Radio Service. Mobile Satellite Service.

Satellite Communication Training Essentials Satellite Communications Design and Engineering Training Course Wrap-up

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