This two-day course shows how to design and simulate single- and multi-carrier digital communications systems using MATLAB. Multi-antenna and turbo-coded communication systems are introduced, and different channel impairments and their modeling are demonstrated. Components from LTE and IEEE 802.11 systems will be used as examples. Students will build a radio-in-the-loop system using real-time hardware (RTL-SDR and USRP).
The target audience for this course includes system engineers and RF engineers who need a fast ramp-up on modern communication techniques and the radio-in-the-loop workflow.
|Day 1 of 2|
|Communication Over a Noiseless Channel||
Objective: Modeling an ideal single-carrier communications system and becoming familiar with System objects.
|Noisy Channels, Channel Coding, and Error Rates||
Objective: Modeling an AWGN channel. Using convolutional, LDPC, and turbo codes to reduce bit error rate. Error correcting codes from DVB-S.2 and LTE systems are used as examples. Accelerating simulations using multiple cores.
|Timing and Frequency Errors and Multipath Channels||
Objective: Modeling frequency offset, timing jitter errors, and mitigation using frequency and timing synchronization techniques. Modeling flat fading, multipath channels, and mitigation using equalizers.
|Day 2 of 2|
|Multi-carrier Communications Systems for Multipath Channels||
Objective: Understanding motivation for multi-carrier communications systems for frequency selective channels. Modeling an OFDM transceiver with a cyclic prefix and windowing. System parameter values from IEEE 802.11ac and LTE will be used.
|Using Multiple Antennas for Robustness and Capacity Gains||
Objective: Understanding alternative multiple antenna communications system. Modeling beamforming, diversity, and spatial multiplexing systems. Constructing a MIMO-OFDM system for wideband communications. MIMO modes of IEEE 802.11ac and LTE will be discussed.
|Building a Radio-in-the-Loop System||
Objective: Understanding the radio-in-the-loop development workflow. Using RTL-SDRs and USRPs as radio-in-the-loop development platforms.
See if you are eligible for discounted pricing for academic users.
When you register for one of these courses, you can rely on the fact that it won't be canceled or rescheduled for any reason.
24 Jul 2017-
25 Jul 2017
|Germany, München (Ismaning)||German||EUR 1,400|
The pricing applies for purchase and use in United States, For pricing in other regions Contact Sales. The product price does not include sales, use, excise, value-added, or other taxes. Any applicable taxes, duties, levies, assessments and governmental charges payable in connection with this purchase will be assessed on the order. Refer to Training Policies for more information
You are eligible for discounted academic pricing when you use MATLAB and Simulink for teaching, academic research, or for meeting course requirements at a degree granting institution.
You are not eligible for academic pricing when you use MATLAB and Simulink at a commercial or government lab, or for other commercial or industrial purposes.
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