
ATSC 3.0: Features, Protocol, Physical Layer & Frame Structure
Explore ATSC 3.0 TV technology, covering its features, protocol stack, physical layer, frame structure, and advantages over older standards.
Showing 25 posts (Page 3 of 14)
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Explore ATSC 3.0 TV technology, covering its features, protocol stack, physical layer, frame structure, and advantages over older standards.
Learn the fundamentals of automotive radar systems, including their operation, configurations, specifications, and frequency bands used for car safety.
Learn AUTOSAR architecture basics, including layers, components, interfaces, and communication patterns. Understand how AUTOSAR simplifies automotive software development.
Learn the fundamentals of Big Data, including the definition and key concepts. Understand the Three V's (Volume, Velocity, Variety) and potential applications.
Learn about bio batteries, including their construction, working principles, advantages, disadvantages, and types.
Explore biometric systems: how they use unique traits for identification and authentication, from fingerprints to facial features, enhancing security and access control.
Explore BLE mesh architecture: node roles, routing, and configuration for robust IoT solutions with extended range and reliable connectivity.
Explore the Bluetooth frequency range, channel allocations, and the importance of channel selection for optimal performance and minimal interference.
Explore Bluetooth Low Energy (BLE) technology, including protocols, channels, and differences from classic Bluetooth. Learn how BLE optimizes power efficiency for IoT and wearable applications.
Explore the Bluetooth MAC layer protocol, including its functions, operations, logical channels, and addressing mechanisms for efficient wireless communication.
Explore Bluetooth network security, covering link keys, pairing processes, authentication methods, and authorization protocols to safeguard wireless connections.
Explore the Bluetooth physical layer's specifications based on IEEE 802.15.1, including modulation techniques like GFSK, signal representation, and the influence of physical layer attributes on data transfer rates.
Understand Bluetooth power classes (Class 1, 2, and 3), their power levels, range specifications, and how they impact device communication and battery life.
Explore Bluetooth technology, piconets, and scatternets. Understand wireless communication, network clusters, and key Bluetooth specifications.
A comprehensive introduction to C programming, covering data types, control flow, operators, functions, arrays, pointers, structures, unions, and more.
An in-depth look at C programming: function structure, data types, operators, control statements, storage classes, scope, and recursion with examples.
Learn about linked lists in C, including singly, doubly, and circular lists, with examples for creation and traversal.
Learn about macros and typedefs in C programming. Understand object-like and function-like macros, token concatenation, and how typedefs create synonyms for data types, improving code readability and portability.
Learn about pointers in C programming, including reference and dereferencing operators, pointer concepts, function pointers, and dynamic memory allocation.
Explore the key object-oriented features of C++ with this introductory tutorial, including classes, objects, constructors, destructors, and inheritance.
Learn about cable TV channel frequencies, how they are assigned, and how signals are downconverted for transmission. Includes a comprehensive frequency chart.
Learn the basics of a Cable TV system, its components, and how it delivers TV signals to subscribers using coaxial cable.
Explore the differences between Cable TV, Satellite TV, and Digital TV technologies, covering infrastructure, signal delivery, advantages, and disadvantages.
Explore CDMA basics, including PN sequences, Walsh codes, and the PHY layer for both Base Stations and Mobile Subscribers. Learn how CDMA enables efficient wireless communication.
Explore the architecture of Cellular Digital Packet Data (CDPD), a technology enabling data transmission over existing cellular networks. Learn its features, applications, advantages, and limitations.
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