
IoT Tutorial: Basics, Architecture, and Protocol Stack
Explore IoT fundamentals, including architecture, hardware, software, protocols, sensors, and wireless standards. Learn about its advantages, disadvantages, and diverse use cases.
Showing 25 posts (Page 7 of 14)
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Explore IoT fundamentals, including architecture, hardware, software, protocols, sensors, and wireless standards. Learn about its advantages, disadvantages, and diverse use cases.
Learn the fundamentals of IPTV, including its features, architecture, set-top boxes, and benefits. Understand how IPTV delivers digital TV over IP networks.
Explore ISA100 Wireless technology, covering its features, architecture, protocol stack, benefits, and diverse applications in industrial automation and IoT.
Learn about the ISDN 2B1Q signal format used on the U-interface, including voltage levels and binary mapping for efficient data transmission.
Learn the fundamentals of ISDN, its architecture, services (bearer, teleservices, supplementary), channel types (B, D, H), and interfaces (BRI, PRI).
Learn the differences between ISDN BRI (Basic Rate Interface) and ISDN PRI (Primary Rate Interface), including their channels, speeds, and typical uses.
Explore the JESD204B interface: its features, protocol layers, and advantages for high-speed data transfer between ADCs/DACs and FPGAs/ASICs.
Explore the vital parts of a satellite, including the transponder, antenna subsystems, solar cells, batteries, and their functions in maintaining orbit.
Explore the diverse applications of satellites, from surveillance and navigation to television distribution and satellite phones. Learn how these technologies have transformed various aspects of modern life.
Learn to create and manipulate arrays in LabVIEW, covering array creation, indexing, resizing, and using loops for efficient array processing.
Learn how to use LabVIEW clusters to group mixed data types, reduce wire clutter, and simplify block diagrams. Explore cluster functions like Bundle, Unbundle, and reordering.
Learn how to perform file I/O operations in LabVIEW, including reading and writing text and complex data. Includes examples and downloadable VIs.
Learn about fundamental LabVIEW structures: For loops, While loops, and Case structures. Understand their functionality and use cases for graphical programming.
Learn the fundamentals of LabVIEW programming, including creating VIs, data types, syntax, and example implementations. Discover how to interface with RF instruments.
Explore the LiFi frequency spectrum, including visible light, UV, and IR, and understand the relationship between wavelength and data transmission rates.
Explore the fundamentals of the LiFi MAC layer, including frame structure, single, packed, burst and dimmed OOK modes. Understand how LiFi efficiently transmits data.
Explore the LiFi physical layer (PHY), including PHY-I, PHY-II, and PHY-III versions, their features, modulation, and code rates for different data rate needs.
Explore LiFi technology: its protocol layers, how it works, and its applications. Learn about this high-speed, secure wireless communication method using visible light.
Explore LMDS and MMDS technologies for wireless broadband, including their architectures, advantages, disadvantages, and a detailed comparison.
Understand the key differences between local and global variables in LabVIEW, including how to create and use them for data sharing within and between VIs.
Explore a comprehensive list of LoRa channels, mapping frequency to channel number. Optimize your LoRa devices by understanding these settings.
Explore LoRa frequency bands for Europe, US, UK, and Australia. Understand regional differences in spectrum allocation for optimal IoT network performance.
Explore LoRa's physical layer, covering modulation, spreading factors, frequency bands, and key attributes for effective LoRaWAN device configuration.
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.
Explore LoRa technology: frame structure, LoRaWAN architecture with gateways and end devices, and the protocol stack layers for effective IoT network design.
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