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Wi-Fi | Курс "Компьютерные сети"
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Wi-Fi | Курс "Компьютерные сети"

Introduction to Wi-Fi Technology

Overview of Wi-Fi

  • The speaker introduces himself as Andrey Sazykhin and presents the course on networks and telecommunications, focusing on Wi-Fi technology.
  • Wi-Fi is described as the most popular wireless data transmission technology. The term "Wi-Fi" is a trademark owned by the Wi-Fi Alliance, which ensures compliance with standards.
  • Unlike Ethernet, which allows manufacturers to create devices without certification, Wi-Fi requires equipment to pass tests for compliance with IEEE 802.11 standards.

Technical Standards

  • Wi-Fi operates at both physical and data link layers in the OSI model, utilizing two sub-layers: MAC (Medium Access Control) and LLC (Logical Link Control).
  • There are two main modes of operation: infrastructure mode (using access points connected to wired networks) and ad-hoc mode (direct communication between devices).

Wi-Fi vs. Ethernet

Addressing and Data Transmission

  • Both Wi-Fi and Ethernet use MAC addresses for device identification; however, they differ in their transmission mediums—Wi-Fi uses electromagnetic radiation while Ethernet uses cables.
  • The frame format at the data link layer is similar for both technologies, allowing tools like Wireshark to capture packets regardless of their source.

Evolution of Standards

  • The first standard, IEEE 802.11, was established in 1997 with speeds of 1 or 2 Mbps; modern standards have significantly increased this capacity.
  • Current standards utilize electromagnetic radiation exclusively from the second generation onward (802.11b), operating primarily at 2.4 GHz and 5 GHz frequencies.

Frequency Management in Wi-Fi

Channel Utilization

  • Data transmission employs Orthogonal Frequency Division Multiplexing (OFDM), allowing parallel data transfer across different frequencies.
  • There are a limited number of channels available (14), leading to potential interference when multiple networks operate within close proximity—a phenomenon known as "Wi-Fi jungle."

Bandwidth Considerations

  • Wider channels allow for higher data rates; newer standards support channel widths up to 160 MHz but depend on manufacturer implementation.

Advanced Features in Modern Standards

MIMO Technology

  • Multiple Input Multiple Output (MIMO) technology enables simultaneous signal transmission through multiple antennas, enhancing throughput significantly.
  • With three transmitting antennas sending distinct spatial streams, MIMO can triple data transfer rates by effectively managing these signals at the receiving end.

Understanding Wi-Fi Signal Quality and Speed

Signal Quality and Speed Variability

  • The signal quality for each spatial stream in Ethernet is fixed, with speeds such as 100 Mbps or 1 Gbps being uniform across all devices in the network.
  • In contrast, Wi-Fi allows speed adjustments based on signal quality; higher signal quality results in increased speed, while lower quality leads to decreased speed.

Parameters Affecting Wi-Fi Speed

  • Various parameters can be adjusted to modify Wi-Fi speed, including channel width (ranging from 20 MHz to 160 MHz) and different modulation techniques that transmit data at varying speeds and reliability.
  • The lowest achievable speed of 6.5 Mbps occurs with binary phase modulation using a 20 MHz channel and an 800 ns guard interval; conversely, the highest speed of 866 Mbps is achieved through quadrature amplitude modulation with a 160 MHz channel and a 400 ns guard interval.

Spatial Streams and Data Transmission

  • Utilizing multiple antennas allows for several spatial streams, which can significantly enhance data transmission rates.
Video description

Технология беспроводной передачи данных Wi-Fi. Лекции по курсу "Компьютерные сети" - https://goo.gl/0aIOuf Страница курса - http://www.asozykin.ru/courses/networks_online Wi-Fi – торговая марка, принадлежит компании Wi-Fi Alliance. Технология Wi-Fi описана в стандартах серии IEEE 802.11. В модели OSI Wi-Fi находится на канальном уровне. Wi-Fi может работать в двух режимах: - инфраструктурном - одноранговом. Стандарты Wi-Fi Название Год принятия Скорость Частота 802.11 1997 1 и 2 Мб/с 2,4 ГГц 802.11a 1999 54 Мб/с 5 ГГц 802.11b 1999 11 Мб/с 2,4 ГГц 802.11g 2003 54 Мб/с 2,4 ГГц 802.11n 2009 600 Мб/с 2,4 и 5 ГГц 150 Мб/с одна станция 802.11ac 2014 6.77 Гб/с 5 ГГц 1.69 Гб/с одна станция Wi-Fi использует для передачи данных электромагнитное излучение: 2,4 ГГц – 802.11, 802.11b, 802.11g, 802.11n 5 ГГц – 802.11a, 802.11n, 802.11ac Современные стандарты Wi-Fi используют метод Orthogonal Frequency Division Multiplexing (OFMD, мультиплексирование с ортогональным частотным разделением). При этом данные передаются параллельно на разных частотах. В диапазоне 2,4 ГГц используется 14 каналов передачи данных с разной частотой. Wi-Fi может использовать каналы разной ширины: 20, 40, 80 или 160 МГц. Wi-Fi позволяет менять скорость при разном качестве сигнала за счет изменения метода модуляции, ширины канала, и времени между передачей отдельных символов (Guard Interval). Лекция "Физический уровень" - https://youtu.be/yIf7hrgw8P4 Лекция "Технология Ethernet" - https://youtu.be/AtWcd_vCyUk Практические занятия по курсу "Компьютерные сети": https://goo.gl/YP3l83 Практика "Анализатор сети Wireshark" - https://youtu.be/Cc5wi1bxmpc Практика "Канальный уровень в Wireshark" - https://youtu.be/HsPurrcG_9Y Мой канал с краткими и понятными объяснениями сложных тем в ИТ и компьютерных науках: https://goo.gl/kW93MA