RFWiMAX 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.
Posts tagged: Wireless Communication
Showing 20 posts (Page 21 of 22)
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Wireless Communication Basics
Learn about wireless communication principles, including wireless networks, sensors, physical layers, and propagation modes. Explore the advantages and disadvantages of wireless technology.
Wireless Communication Techniques: OFDM, OFDMA, SISO, MIMO, and More
A comparison of key wireless communication techniques, including OFDM vs OFDMA, SISO vs MIMO, TDD vs FDD, and multiple access methods like FDMA, TDMA, and CDMA.
Wireless Communication: Top 10 Interview Questions & Answers
Ace your wireless communication job interview with these top 10 Q&As covering key concepts and technologies.
Wireless M-Bus (wM-Bus) Basics Explained
Explore the fundamentals of Wireless M-Bus (wM-Bus), including PHY modes, frequency bands, and system components defined by the EN13757-4 standard.
Wireless Mesh Networks: Advantages and Disadvantages
Explore the functionality, advantages, and disadvantages of Wireless Mesh Networks (WMNs), including fault tolerance and decentralized management.
Wireless Propagation Modes Explained
Explore the three primary modes of wireless propagation: ground wave, sky wave, and line-of-sight, outlining their characteristics and typical applications.
WLAN 802.11ac Data Rates Explained
A detailed breakdown of WLAN 802.11ac data rates for various bandwidths and modulation and coding schemes (MCS).
WLAN 802.11ac Frame Format Explained
Explore the 802.11ac frame format, its components (L-STF, L-LTF, L-SIG, VHT-SIG-A/B, VHT-STF, VHT-LTF, Data), and their functions for 11ac compliant frames.
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.
WLAN Probe Request and Response Frames Explained
Understand WLAN probe request and response frames, including their fields, function in network scanning, and relationship to network access.
WLL (Wireless Local Loop) Basics Tutorial
Learn the fundamentals of Wireless Local Loop (WLL) for broadband internet, its benefits, frequency bands, and challenges. Understand how WLL provides fixed wireless connections.
WSN vs. Ad Hoc Networks: Key Differences Explained
Explore the key differences between Wireless Sensor Networks (WSNs) and Ad Hoc Networks. Understand their distinct features, deployment scenarios, and limitations.
X-Ray vs Millimeter Wave: A Detailed Comparison of Technologies
Explore the key differences between X-Ray and millimeter wave (mm-wave) technologies, including their wavelengths, frequencies, applications, advantages, and disadvantages.
XBEE Series 1 vs Series 2: Key Differences
A comparison of XBEE Series 1 and Series 2 Zigbee radios, highlighting differences in range, features, and applications. Includes a comparison table.
Z-Wave SoC: Selection Guide, Applications & Top Manufacturers
Explore Z-Wave System on Chip (SoC) technology for smart homes. Learn about selection criteria, benefits, applications, and key manufacturers like Silicon Labs.
Z-Wave Technology: Basics, Specifications, and Manufacturers
Explore Z-Wave technology, a wireless communication protocol for home automation. Learn about its specifications and discover key manufacturers.
Zigbee 3.0: Features, Protocol Stack, and IoT Applications
Learn about Zigbee 3.0, its key features, protocol stack, security, and benefits for creating interoperable and robust IoT networks.
Zigbee Channels: Frequencies in 2.4GHz, 868MHz, and 915MHz Bands
An overview of Zigbee channels in the 2.4GHz, 868MHz, and 915MHz bands. Includes frequency allocations and data rates for each band as defined by IEEE 802.15.4.
Zigbee Cluster ID List
Comprehensive list of Zigbee Cluster IDs, including standard and manufacturer-specific IDs, for understanding Zigbee data communication.
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