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{{use dmy dates|date=July 2021|cs1-dates=y}}
'''Software-defined
[[Category:Telecommunications]]▼
[[Category:Telecommunications infrastructure]]▼
[[Category:Mobile telecommunications]]▼
▲'''Software Defined Mobile Networking''' ('''SDMN''') is an approach to the design of mobile networks where all protocol-specific features are implemented in software, maximizing the use of generic and commodity hardware and software in both the [[core network]] and [[radio access network]].
== History ==
Through the 20th century, telecommunications technology was driven by hardware development, with most functions implemented in special-purpose equipment.
In the early
SDMN extends these trends into the design of mobile networks, moving nearly all network functions into software.
The term "software-defined mobile network" first appeared in public literature in early 2014, used independently by
== Limitations of
Mobile networks based on special-purpose hardware suffer from the following limitations:
* They have limited provisions for upgrades and usually must be replaced entirely when new standards are introduced.
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* Specialized hardware systems are usually supported and serviced by a single vendor, resulting in [[vendor lock-in]].
== Characteristics of SDMN
=== Use of
SDR is an important element of SDMN, because it replaces protocol-specific radio hardware with protocol-agnostic digital transceivers.
While many earlier digital radio systems used [[
SDMN radio systems also use hardware with publicly-documented interfaces that is designed to be readily reproducible by multiple manufacturers.
=== Commodity
SDMN designs avoid the use of components that are specialized as to their functions or that are available from only a single vendor.
This is true of both the hardware and software elements of the network.
=== Software
The telephony switches of SDMN networks are software-based, including software transcoding for speech codecs.
=== Centralized, distributed, or hybrid? ===
A new SDN architecture for [[wireless distribution system]]s (WDSs) is explored that eliminates the need for multi-hop flooding of route information and therefore enables WDNs to easily expand.<ref name="Lipman_2015"/> The key idea is to split network control and data forwarding by using two separate frequency bands. The forwarding nodes and the SDN controller exchange link-state information and other network control signaling in one of the bands, while actual data forwarding takes place in the other band.
== Advantages of SDMN ==
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* Because SDMN network components run on general purpose computers, the network components can be scaled up in capacity by adding more computing power.
== References ==▼
<ref name="Lime">http://www.limemicro.com Lime Microsystems</ref>
<ref name="BladeRF">http://secure.marketwatch.com/story/lime-microsystems-bladerf-legba-partner-on-first-software-defined-mobile-network-2014-04-30 Lime Microsystems: bladeRF, Legba partner on first software defined mobile network</ref>
<ref name="Wiley">https://sites.google.com/site/callforchapterssdmn/ Call for Chapters (WILEY Publishers) Software Defined Mobile Networks (SDMN): Beyond LTE Network Architecture</ref>
<ref name="Lipman_2015">{{Cite journal |doi=10.1109/MNET.2015.7166188 |title=Software-defined wireless networking: Centralized, distributed, or hybrid? |date=2015 |last1=Abolhasan |first1=Mehran |last2=Lipman |first2=Justin |last3=Ni |first3=Wei |last4=Hagelstein |first4=Brett |journal=IEEE Network |volume=29 |issue=4 |pages=32–38}}</ref>
}}
▲[[Category:Telecommunications]]
▲[[Category:Telecommunications infrastructure]]
▲[[Category:Mobile telecommunications]]
▲== References ==
▲{{Reflist}}
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