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High-Performance Radio Local Area Network

Definition

High-Performance Radio Local Area Network (HiperLAN) is a wireless communication standard that enables high-speed data transmission within a local area network (LAN). It operates in the 5GHz frequency band and delivers data rates up to 54 Mbps. HiperLAN is primarily used to facilitate seamless connectivity between various devices such as computers, mobile phones, and other networked equipment.

Phonetic

High-Performance Radio Local Area Network in phonetics can be represented as:/ˈhaɪ pərˈfɔrməns ˈreɪdioʊ ˈloʊkəl ˈɛriə ˈnɛtˌwɜrk/Dividing it into each word for better clarity:High: /ˈhaɪ/Performance: /pərˈfɔrməns/Radio: /ˈreɪdioʊ/Local: /ˈloʊkəl/Area: /ˈɛriə/Network: /ˈnɛtˌwɜrk/

Key Takeaways

  1. High-Performance Radio Local Area Networks (HiperLAN) offer high-speed wireless communication with data rates up to 54 Mbps, supporting efficient voice, data, and multimedia transmission.
  2. HiperLAN operates in the 5 GHz frequency band, which leads to less interference and better signal quality compared to other wireless networks that operate at lower frequency bands.
  3. HiperLAN is primarily used in Europe, and it follows two main standards: HiperLAN/1 and HiperLAN/2. HiperLAN/2 offers improved Quality of Service (QoS) and enhanced support for handling different types of data traffic in a highly secure manner.

Importance

High-Performance Radio Local Area Network (HiperLAN) is an important technology term because it refers to a set of wireless communication protocols that enable devices to transmit data at extremely high speeds within a local area network.

Developed primarily in Europe, HiperLAN offers a robust and efficient solution for various applications, including broadband multimedia, mobile communications, and Internet access.

Its significance lies in its ability to provide increased bandwidth, low latency, and reliable connections in dense urban areas or demanding enterprise environments.

Additionally, HiperLAN’s flexible architecture caters to the specific needs of users and supports seamless integration with other wireless technologies, thereby offering enhanced user experience in today’s interconnected world.

Explanation

High-Performance Radio Local Area Network (HiperLAN) serves as a communication framework designed to enable high-speed communications with a focus on handling data transfers over shorter distances. The main purpose of HiperLAN is to provide seamless connectivity between various electronic devices such as laptops, smartphones, and tablets within a limited geographical area, such as a building or a small campus.

In addition to its exceptional data transfer speeds, the technology is known for offering exceptional quality for multimedia applications, making it an ideal fit for environments where robust audio, video, and data streaming capabilities are essential. This has resulted in the technology being widely used across various industries and sectors like educational institutions, corporate offices, and entertainment venues.

One of the primary advantages of using HiperLAN technology is its capability to support lower latency transmissions, which makes it suitable for real-time applications like Voice over Internet Protocol (VoIP) and live video streaming. In addition, HiperLAN offers exceptional simplicity in configuring networks when compared to other wireless technologies.

The dynamic and self-organizing nature of HiperLAN allows it to automatically adapt to changes in client loads and prevailing network conditions. This adaptability, along with its high-speed communication prowess, enables HiperLAN to successfully cater to a wide range of use cases, ensuring that organizations can harness the full potential of their wireless infrastructure across a diverse range of applications.

Examples of High-Performance Radio Local Area Network

High-Performance Radio Local Area Networks (HiperLAN) are wireless communication networks that provide high-speed data transmission within a localized area. Here are three real-world examples:

Corporate offices: HiperLAN technology can be employed in corporate environments to facilitate inter-office communication, file sharing, and connectivity to shared resources such as printers and internet access without the need for cables. This allows employees to work in a flexible, mobile environment, moving around the office without losing access to essential services.

University campuses: HiperLAN can be used to create high-speed wireless connections between buildings on a university campus. Students, faculty, and staff members can easily connect to the network and access educational resources, as well as communicate with one another. HiperLAN is particularly useful in connecting facilities that are spread out over a large area, allowing seamless collaboration and communication.

Healthcare facilities: High-performance wireless connections are increasingly important in hospitals and other medical facilities, as they enable the secure transmission of sensitive medical data and allow medical professionals to access critical information remotely. HiperLAN technology can provide a stable, secure, and high-speed wireless network that supports the use of mobile medical devices and applications, improving care coordination, communication, and overall patient care.

FAQ: High-Performance Radio Local Area Network

What is a High-Performance Radio Local Area Network (HiperLAN)?

A High-Performance Radio Local Area Network (HiperLAN) is a wireless communication technology that enables high-speed and efficient transmission of data within a local area network. It provides both high speed and robust communication, making it suitable for various applications such as mobile devices, home networks, and enterprise environments.

What are the key features of HiperLAN?

HiperLAN offers various features such as high data rates (up to 54 Mbps), dynamic frequency selection, adaptive modulation, and advanced error control techniques. It also provides support for Quality of Service (QoS), which ensures that critical data transmissions are prioritized over other less important traffic.

What are the different types of HiperLAN?

There are two primary types of HiperLAN: HiperLAN/1 and HiperLAN/2. HiperLAN/1 was introduced in the mid-1990s and offers data rates up to 23.5 Mbps. HiperLAN/2, introduced later, is an enhanced version that operates at data rates up to 54 Mbps and includes improved QoS support and other advanced features.

What is the frequency range of HiperLAN?

HiperLAN operates in the 5 GHz frequency band, specifically between 5.15 GHz and 5.825 GHz. This frequency range is less crowded compared to the 2.4 GHz band used by other wireless technologies, such as Wi-Fi, which helps minimize interference and improve overall network performance.

How does HiperLAN compare to Wi-Fi technology?

While HiperLAN and Wi-Fi are both wireless technologies for local area networks, they have some significant differences. HiperLAN provides higher data rates and better QoS support, making it suitable for applications with stringent performance requirements. Wi-Fi, however, has a larger user base, which can lead to greater scalability and interoperability between devices. Ultimately, the choice between HiperLAN and Wi-Fi depends on the specific needs of a network and its users.

Related Technology Terms

  • Wireless LAN (WLAN)
  • Orthogonal Frequency Division Multiplexing (OFDM)
  • Access Point (AP)
  • IEEE 802.11 standards
  • Quality of Service (QoS)

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