Microcell

Last updated December 08, 2023

A microcell is a cell in a mobile phone network served by a low power cellular base station (tower), covering a limited area such as a mall, a hotel, or a transportation hub. A microcell is usually larger than a picocell, though the distinction is not always clear. A microcell uses power control to limit the radius of its coverage area.

Typically the range of a microcell is less than two kilometers wide, whereas standard base stations may have ranges of up to 35 kilometres (22 mi). A picocell, on the other hand, is 200 meters or less, and a femtocell is on the order of 10 meters,^[1] although AT&T calls its femtocell that has a range of 40 feet (12 m), a "microcell".^[2] AT&T uses "AT&T 3G MicroCell" as a trademark and not necessarily the "microcell" technology, however.^[3]

A microcellular network is a radio network composed of microcells.

Rationale

Like picocells, microcells are usually used to add network capacity in areas with very dense phone usage, such as train stations. Microcells are often deployed temporarily during sporting events and other occasions in which extra capacity is known to be needed at a specific location in advance.

Cell size flexibility is a feature of 2G (and later) networks and is a significant part of how such networks have been able to improve capacity. Power controls implemented on digital networks make it easier to prevent interference from nearby cells using the same frequencies.^[4] By subdividing cells, and creating more cells to help serve high density areas, a cellular network operator can optimize the use of spectrum and ensure capacity can grow. By comparison, older analog systems have fixed limits, beyond which attempts to subdivide cells simply would result in an unacceptable level of interference.

Microcell/picocell-only networks

Certain mobile phone systems, notably PHS and DECT, only provide microcellular (and Pico cellular) coverage. Microcellular systems are typically used to provide low cost mobile phone systems in high-density environments such as large cities. PHS is deployed throughout major cities in Japan as an alternative to ordinary cellular service. DECT is used by many businesses to deploy private license-free microcellular networks within large campuses where wireline phone service is less useful. DECT is also used as a private, non-networked, cordless phone system where its low power profile ensures that nearby DECT systems do not interfere with each other.

A forerunner of these types of network was the CT2 cordless phone system, which provided access to a looser network (without handover), again with base stations deployed in areas where large numbers of people might need to make calls. CT2's limitations ensured the concept never took off. CT2's successor, DECT, was provided with an interworking profile, GIP so that GSM networks could make use of it for microcellular access, but in practice the success of GSM within Europe, and the ability of GSM to support microcells without using alternative technologies, meant GIP was rarely used, and DECT's use in general was limited to non-GSM private networks, including use as cordless phone systems.

External links

Related Research Articles

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<span class="mw-page-title-main">Cellular network</span> Communication network

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Wi-Fi calling refers to mobile phone voice calls and data that are made over IP networks using Wi-Fi, instead of the cell towers provided by cellular networks. Using this feature, compatible handsets are able to route regular cellular calls through a wireless LAN (Wi-Fi) network with broadband Internet, while seamlessly change connections between the two where necessary. This feature makes use of the Generic Access Network (GAN) protocol, also known as Unlicensed Mobile Access (UMA).

Mobile VoIP or simply mVoIP is an extension of mobility to a voice over IP network. Two types of communication are generally supported: cordless telephones using DECT or PCS protocols for short range or campus communications where all base stations are linked into the same LAN, and wider area communications using 3G or 4G protocols.

<span class="mw-page-title-main">Femtocell</span> Small, low-power cellular base station

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The GSM Interworking Profile, usually abbreviated to GIP and sometimes to IWP, is a profile for DECT that allows a DECT base station to form part of a GSM network, given suitable handsets. While proposed and tested, notably in Switzerland in 1995, the system has never been commercially deployed. Infrastructure issues make it less practical and useful to implement than the more recent GAN/UMA system, which can make use of usually unmetered and neutral Internet service to provide the connection back to the network operator.

<span class="mw-page-title-main">Mobile phone signal</span> Signal strength received by a phone from a network

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A macrocell or macrosite is a cell in a mobile phone network that provides radio coverage served by a high power cell site. Generally, macrocells provide coverage larger than microcell. The antennas for macrocells are mounted on ground-based masts, rooftops and other existing structures, at a height that provides a clear view over the surrounding buildings and terrain. Macrocell base stations have power outputs of typically tens of watts. Macrocell performance can be increased by increasing the efficiency of the transceiver.

ip.access Limited is a multinational corporation that designs, manufactures, and markets small cells technologies and infrastructure equipment for GSM, GPRS, EDGE, 3G, 4G and 5G. The company was acquired by Mavenir in September 2020.

<span class="mw-page-title-main">Small cell</span> Cellular network infrastructure

Small cells are low-powered cellular radio access nodes that operate in spectrum that have a range of 10 meters to a few kilometers. They are base stations with low power consumption and cheap cost. They can provide high data rates by being deployed densely to achieve high spatial spectrum efficiency.

References

↑ "Do we really need femto cells? | VisionMobile :: Blog". Archived from the original on 2011-04-16. Retrieved 2010-07-04.
↑ "AT&T; 3G Microcell™ - Wireless from AT&T". Archived from the original on 2010-02-21. Retrieved 2010-09-14.
↑ "AT&T 3G MicroCell - Wireless Signal Booster - Wireless from AT&T". Wireless.att.com. Archived from the original on 2010-02-21. Retrieved 2014-03-17.
↑ Bindle, Abhay; Gulati, Tarun; Kumar, Neeraj (2022-03-10). "Exploring the alternatives to the conventional interference mitigation schemes for 5G wireless cellular communication network". International Journal of Communication Systems. 35 (4). doi:10.1002/dac.5059. ISSN 1074-5351.

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[1] "Do we really need femto cells? | VisionMobile :: Blog". Archived from the original on 2011-04-16. Retrieved 2010-07-04.

[2] "AT&T; 3G Microcell™ - Wireless from AT&T". Archived from the original on 2010-02-21. Retrieved 2010-09-14.

[3] "AT&T 3G MicroCell - Wireless Signal Booster - Wireless from AT&T". Wireless.att.com. Archived from the original on 2010-02-21. Retrieved 2014-03-17.

[4] Bindle, Abhay; Gulati, Tarun; Kumar, Neeraj (2022-03-10). "Exploring the alternatives to the conventional interference mitigation schemes for 5G wireless cellular communication network". International Journal of Communication Systems. 35 (4). doi:10.1002/dac.5059. ISSN 1074-5351.

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