RF
OFDM Transmitter Simulation in Python: WiMAX 256 FFT
Simulate an OFDM transmitter for WiMAX using Python, covering binary generation, QPSK modulation, symbol formation, IFFT, and CP insertion.
Posts tagged: Ofdm
Showing 20 posts (Page 2 of 3)
Advertisement
OFDM Variants: COFDM, OFDMA, f-OFDM, VOFDM, WOFDM, Flash OFDM
Explore different OFDM variants like COFDM, OFDMA, f-OFDM, VOFDM, WOFDM, OFCDM, and Flash OFDM. Understand their advantages, disadvantages, and applications.
OFDM vs FBMC: A Detailed Comparison
Explore the similarities and differences between OFDM and FBMC modulation techniques, including their complexity, advantages, and disadvantages.
OFDM vs. CDMA: Key Differences in Wireless Communication
Explore the differences between OFDM and CDMA technologies, comparing their performance, capacity, and suitability for various wireless applications.
OFDM vs. DMT: Similarities and Differences Explained
Explore the similarities and differences between OFDM and DMT, two advanced modulation techniques used in ADSL and wireless communication systems.
OFDM vs. f-OFDM: Key Differences Explained
Explore the key differences between OFDM and f-OFDM modulation techniques, including bandwidth occupancy, benefits, sub-band division, throughput, and guard bands.
OFDM vs. OFDMA: A Detailed Comparison
Explore the differences between OFDM and OFDMA modulation schemes, focusing on multiple access, resource allocation, and suitability for various wireless communication systems.
OFDM: Advantages and Disadvantages of Orthogonal Frequency Division Multiplexing
Explore the benefits and drawbacks of OFDM, a data modulation technique utilizing multiple orthogonal subcarriers for efficient data transmission.
SC-FDMA vs. OFDM: A Detailed Comparison of Modulation Techniques
Explore the key differences between SC-FDMA and OFDM, including PAPR, frequency offset sensitivity, and application in wireless communication systems.
Single Carrier vs. OFDM: Understanding the Key Differences
Explore the fundamental differences between Single Carrier and OFDM modulation techniques, their respective advantages, disadvantages, and applications.
Time Offset Estimation for OFDM in MATLAB
Explore time offset estimation for OFDM systems using MATLAB, crucial for synchronizing wireless and wireline communication. Learn how preamble correlation helps correct offsets.
Understanding Peak to Average Power Ratio (PAPR)
Explore PAPR in wireless systems, its impact on performance, and various reduction techniques like clipping, scrambling, SLM, and PTS.
Understanding the 802.11n Physical Layer
Explore the 802.11n wireless networking standard: frame structure (legacy, mixed, greenfield modes), physical layer components, and key functionalities for increased data rates.
WiMAX Frame Structure: Fixed and Mobile
An overview of the WiMAX frame structure, covering both fixed (OFDM) and mobile (OFDMA) implementations, including downlink and uplink subframes, TTG/RTG gaps, and important components.
WiMAX OFDM Basics and MATLAB Code
Explore WiMAX OFDM and OFDMA physical layers based on IEEE 802.16 standards. Includes MATLAB and Simulink source code details.
WiMAX Physical Layer: Understanding the OFDM Implementation
Explore the WiMAX OFDM physical layer (IEEE 802.16-2004), TDD frame structure, transmitter block diagram, modulation-code rates, and module functions.
WiMAX Terminology Explained: Fixed and Mobile WiMAX
Explore key WiMAX terms for fixed (802.16d) and mobile (802.16e) standards, including OFDM, OFDMA, frame structure, and MAC layer elements.
WLAN 802.11ad Physical Layer Overview
Explore the 802.11ad physical layer, covering Control, Single Carrier, OFDM, and Low Power SC PHY configurations. Learn about packet structure, preamble, header, and payload.
WLAN 802.11ax Tutorial: WiFi 6 Basics
Learn about WiFi 6 (802.11ax) basics, features, frame structure, physical and MAC layers. Improve efficiency, speed, and capacity in wireless networks.
WLAN OFDM Basics and MATLAB Code Examples
Overview of WLAN technology based on IEEE 802.11 standards and links to MATLAB code examples for OFDM physical layer implementation.
Advertisement