Course Description
Syllabus
OFDM is an important modulation technique used or envisioned in numerous communication systems (WLAN, WIFI, WiMAX, xDSL, DVB, DAB, DRM, UWB WPAN, beyond-3G mobile communication (LTE, UMB, etc.)). EIT140 covers the basics of multicarrier communications. Along the way, important principles applied in basic and advanced communications systems are introduced (correlation, LS, MMSE, precoding, greedy algorithm, applied convex optimization for signal enhancement and resource management). Participants will consolidate most of the material via implementations and demonstrations using MATLAB.
Topics covered by lectures and rough schedule:
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Why multicarrier? (v1)
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Basics of multicarrier modulation (v1)
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Channel modelling (v2)
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Data detection, channel equalisation and estimation (v2,v3)
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Bit and power allocation (v4)
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Coding for multicarrier systems (v4,v5)
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Synchronisation (v6)
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Reduction of peak-to-average power and out-of-band emission (v6)
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MIMO OFDM (v7)
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Multiuser OFDM (v7)
Topics covered by participants' paper presentations:
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Basis-function design
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MC-CDMA duality
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Introduction to convex optimization
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Resource allocation in multiuser setups
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Run-time implementation of convex optimization algorithms
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Coded modulation
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Bit interleaving
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Mercury/Waterfilling
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Crosslayer system design/optimization
Course objectives
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Understand the underlying principles of multicarrier modulation
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Understand and apply elementary concepts of advanced communication systems introduced in the course
Prerequisites
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Basics of systems and signals
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Basics of communication