Terminology

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Wize vs LoRa: Key Differences, Advantages and Use Cases Compared

Compare Wize and LoRa wireless technologies in terms of range, frequency, power consumption, and applications. Learn which is better for smart metering, IoT and LPWAN use cases.

lpwan wize lora

WLAN 802.11ax Frame Structure and PPDU Formats

Explore the WLAN 802.11ax frame structure, including preamble, header, and data fields. Understand PPDU formats and their use cases in single and multi-user transmissions.

wlan 802.11ax frame structure

WLAN 802.11ax: Wave 1 vs. Wave 2 Features

This article compares the features of WLAN 802.11ax Wave 1 and Wave 2, highlighting key differences in access point and client device capabilities.

wlan 802.11ax wi-fi 6

WLAN Ad-hoc vs. Infrastructure Mode: Differences Explained

Understand the key differences between WLAN ad-hoc and infrastructure modes, including network setup, communication methods, and use cases.

wlan wireless network infrastructure mode

WLAN Association Request and Response Frames Explained

Learn about WLAN association request and response frames, their mandatory fields, and how access points handle association requests from client devices.

wlan association frame mac layer

WLAN Authentication and Deauthentication Frames Explained

Learn about WLAN authentication and deauthentication frames, status codes, and reason codes as defined by the IEEE 802.11 standard.

wlan authentication deauthentication

WLAN Beacon Frames: Functionality and Fields

Explore the structure and function of WLAN beacon frames, essential for network discovery and maintenance in wireless networks. Learn about key fields and their roles.

wlan beacon frame access point

WLAN Channels and Frequencies: 802.11 Wi-Fi Standard

Explore WLAN channels and frequencies for 2.4GHz, 3.6GHz, and 5GHz bands as per the IEEE 802.11 Wi-Fi standard, with detailed channel-to-frequency charts.

wlan channel frequency

WLAN Class 1, 2, and 3 Frames Explained

Understand the differences between WLAN Class 1, Class 2, and Class 3 frames based on the IEEE 802.11 standard and station authentication/association states.

wlan 802.11 frame

WLAN DCF vs PCF: Understanding the Difference in Medium Access

Explore the key differences between WLAN DCF (Distributed Coordination Function) and PCF (Point Coordination Function) medium access types, as defined in the IEEE 802.11 standard, including carrier sense mechanisms.

wlan dcf pcf

WLAN Frame Structures: 802.11a/b/n/ac

Explore WLAN frame structures according to IEEE 802.11 standards, including 802.11a, 802.11b, 802.11n, and 802.11ac. Learn about preambles, headers, and data sections.

wlan frame structure 802.11

WLAN MAC Frame Types and Subtypes

Explore the different WLAN MAC frame types and subtypes, including management, control, and data frames, with detailed descriptions and a comprehensive table.

wlan mac frame management frame

WLAN Passive vs. Active Scanning: Understanding the Difference

Explore the difference between WLAN passive and active scanning techniques used by devices to discover available wireless networks. Learn how each method impacts battery life and network discovery.

wlan passive scanning active scanning

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.

wlan probe request probe response

WLAN Reassociation Request and Response Frames

Understand the WLAN reassociation request and response frames used when mobile stations move between access points or return to a network.

wlan reassociation wireless

WLAN RTS/CTS Frames: Request to Send and Clear to Send

Explore the RTS/CTS frame mechanism in IEEE 802.11 WLAN networks for managing medium access and ensuring uninterrupted data transmission.

wlan rts/cts ieee 802.11

WLAN Technologies: IR vs. Spread Spectrum vs. Radio Frequency

Comparison of WLAN technologies including Infrared, Spread Spectrum, and Radio Frequency (RF), detailing data rates, coverage, and modulation techniques.

wireless lan infrared spread spectrum

WLAN Terminology Explained

Understand common WLAN terms including 802.11 standards, Wi-Fi hotspots, access points, and related concepts. A concise guide to wireless networking terminology.

wlan wi-fi 802.11

WLAN Timers: TSF, NAV, Backoff, and More

Explore various WLAN timers defined in IEEE 802.11, including TSF, NAV, Backoff, ProbeDelay, SMK, MSDU, and MMPDU timers. Learn their functions and importance in WLAN operation.

wlan timer 802.11

WLAN vs. Ethernet LAN: Key Differences Explained

Explore the fundamental differences between Wireless LAN (WLAN) and Ethernet LAN technologies, covering standards, transmission methods, and susceptibility to interference.

wlan ethernet lan

WLAN: Wireless Local Area Network Basics, Advantages, and Applications

Learn about WLAN (Wireless Local Area Network), its standards, benefits, drawbacks, and applications in homes, offices, and public spaces.

wlan wireless lan wi-fi

WR28 and WR90 Horn Waveguide Antennas

Explore the principles, features, and applications of WR28 and WR90 horn waveguide antennas, vital in high-frequency communication and radar.

waveguide antenna wr28

Written Communication: Advantages and Disadvantages

Explore the pros and cons of written communication. Learn about different types and how to use it effectively for clarity and documentation.

written communication communication formal communication

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.

wireless sensor ad hoc network network comparison

WXC: Wavelength Crossconnect ROADM Explained

Explore the WXC (Wavelength Crossconnect) in fiber optics, detailing its function as a ROADM in mesh networks, offering N x N connectivity and reliable configuration.

fiber optic wavelength optical