RF
GSM Tutorial: Basics, Architecture, Interfaces & Protocol Stack
Learn GSM basics, architecture, interfaces, frame structure, channels, protocol stack, and advantages in this comprehensive tutorial.
Posts tagged: Protocol Stack
Showing 20 posts (Page 2 of 3)
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GSM Uplink Packet Switched Data Call Flow
Explore the packet switched (PS) data call flow in GSM uplink, detailing GPRS attach and PDP context activation between mobile devices and network elements.
HIPERLAN Tutorial: Understanding HIPERLAN/1 and HIPERLAN/2
Learn the basics of HIPERLAN, including HIPERLAN/1 and HIPERLAN/2 frame structures, protocol stacks, and PHY/MAC layers. Compare HIPERLAN to WLAN technologies.
IEEE 802.11p Tutorial: WAVE and DSRC Protocol Stack
Explore IEEE 802.11p (WAVE/DSRC), the standard for vehicular communication. Learn about its features, frequency spectrum, and protocol stack for V2V and V2I applications.
IoT Protocol Stack Layers : IoT Stack Layer 1 to Layer 7
Explore the 7 layers of the IoT protocol stack, from the sensor layer to the application layer, and understand the function of each in IoT communication.
KNX Protocol Stack Explained: Layers and Functions
Learn about the KNX protocol stack, including the physical, datalink, routing, transport, and application layers. Understand their functions and specifications.
LoRa Protocol Stack: Exploring the Physical Layer
Explore the LoRa physical layer (PHY), its functions, and key message formats. Learn how LoRa's PHY ensures robust, long-range, low-power communication in IoT.
LoRa vs. Zigbee: A Comprehensive Comparison
Explore a detailed comparison of LoRa and Zigbee technologies, covering specifications, network architecture, protocol stacks, and applications.
LTE Advanced Architecture and Protocol Stack
An overview of LTE Advanced architecture, including E-UTRAN components like P-GW, S-GW, MME, and eNB. Also details the protocol stack divided into NAS and AS layers.
LTE Protocol Stack: User Plane vs. Control Plane Explained
Explore the LTE protocol stack's user and control planes. Learn about the functions of each layer (NAS, PDCP, RLC, MAC, PHY, and RF) and their importance in LTE network operations.
LTE UE Signalling Conformance Tests
Overview of LTE UE signalling conformance tests as per 3GPP specifications. Includes test categories based on LTE protocol stack layers and functionalities.
LTE-M Protocol Stack Overview
Explore the LTE-M protocol stack, including the user and control planes, and the functions of each layer: PHY, MAC, RLC, PDCP, and RRC.
MAC IP Core Developers List
A comprehensive list of companies that develop and offer MAC (Medium Access Control) IP cores for various wireless technologies like WLAN, WiMAX, LTE, and Zigbee.
MiWi Protocol Stack: Wireless Network Communication Explained
Explore the MiWi protocol stack, a lightweight solution by Microchip Technology for low-power wireless networks, IoT devices, and automation systems.
NB-IoT Protocol Stack Explained
Explore the NB-IoT (Narrowband Internet of Things) protocol stack, including PHY, MAC, RLC, PDCP, and RRC layers. Understand user and control plane functions in LTE-NB.
NFC Tutorial: Protocol Stack, Working, Frame and Modes
Learn about NFC technology, including the protocol stack, working principles, frame structure, and different communication modes in this comprehensive tutorial.
OSI and TCP/IP Models: Layers, Functions, and Differences
Explore the OSI and TCP/IP models, their layers, functions, and key differences. Understand how each model structures network communication and their relevance in modern networking.
SMS over LTE: Methods and Call Flows
Explore the two methods of SMS delivery over LTE (SMS over SGs and SMS over IP), along with detailed call flows for mobile-originated and mobile-terminated SMS.
Software Vendors for Wireless Technologies: A Comprehensive Guide
Explore a curated list of software vendors specializing in wireless technologies, offering protocol stacks, IPs, and test/measurement solutions for WiMAX, WLAN, LTE, and more.
TransferJet Protocol Stack: Layers and Functions
Explore the TransferJet protocol stack, including the Physical, Connection, Protocol Conversion, and Application Layers, essential for high-speed, close-proximity wireless data transfer.
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