Nordic Mobile Telephone

Last updated

The Mobira Cityman 150, Nokia's NMT-900 mobile phone from 1989 (left), compared to the dual-band GSM Nokia 1100 phone from 2003. Nokia 150 and nokia 1100.jpg
The Mobira Cityman 150, Nokia's NMT-900 mobile phone from 1989 (left), compared to the dual-band GSM Nokia 1100 phone from 2003.

NMT (Nordic Mobile Telephony) is an automatic cellular phone system specified by Nordic telecommunications administrations (PTTs) and opened for service on 1 October 1981. NMT is based on analogue technology (first generation or 1G) and two variants exist: NMT-450 and NMT-900. The numbers indicate the frequency bands used. NMT-900 was introduced in 1986 and carries more channels than the older NMT-450 network.

Contents

The NMT specifications were free and open, allowing many companies to produce NMT hardware and pushing prices down. The success of NMT was important to Nokia (then Mobira) and Ericsson. First Danish implementers were Storno (then owned by General Electric, later taken over by Motorola) and AP (later taken over by Philips). Initial NMT phones were designed to mount in the trunk of a car, with a keyboard/display unit at the driver's seat. "Portable" versions existed, though they were still bulky, and with battery life a big problem. Later models such as Benefon's were as small as 100 mm (3.9 inches) and weighed only about 100 grams.

History

NMT stands for Nordisk MobilTelefoni or Nordiska MobilTelefoni-gruppen.

An NMT phone from the early 1980s made by Norwegian-based Simonsen Radiofabrikk NMT mobil1 high.jpg
An NMT phone from the early 1980s made by Norwegian-based Simonsen Radiofabrikk

The NMT network was opened in Sweden and Norway in 1981, and in Denmark and Finland in 1982. It was a response to the increasing congestion and heavy requirements of the manual mobile phone networks: ARP (150 MHz) in Finland, MTD (450 MHz) in Sweden and Denmark, and OLT in Norway. Iceland joined in 1986. However, Ericsson introduced the first commercial service in Saudi Arabia on 1 September 1981 to 1,200 users, as a pilot test project, one month before they did the same in Sweden. By 1985 the network had grown to 110,000 subscribers in Scandinavia and Finland, 63,300 in Norway alone, which made it the world's largest mobile network at the time. [2]

The NMT network has mainly been used in the Nordic countries, Baltic countries, Switzerland, France, Netherlands, Hungary, Poland, Bulgaria, Romania, Czech Republic, Slovakia, Slovenia, Serbia, Turkey, Croatia, Bosnia, Russia, Ukraine and in Asia. The introduction of digital mobile networks such as GSM has reduced the popularity of NMT and the Nordic countries have suspended their NMT networks. In Estonia the NMT network was shut down in December 2000. In Finland TeliaSonera's NMT network was suspended on 31 December 2002. Norway's last NMT network was suspended on 31 December 2004. Sweden's TeliaSonera NMT network was suspended on 31 December 2007. The NMT network (450 MHz) however has one big advantage over GSM which is the range; this advantage is valuable in big but sparsely populated countries such as Iceland. In Iceland, the GSM network reaches 98% of the country's population but only a small proportion of its land area. The NMT system however reaches most of the country and a lot of the surrounding waters, thus the network was popular with fishermen and those traveling in the vast empty mainland. In Iceland the NMT service was stopped on 1 September 2010, when Síminn closed down its NMT network.

Ericsson Hotline NMT-900 phone from 1995 Ericsson Hotline NMT 900 "Olivia" 001-02.jpg
Ericsson Hotline NMT-900 phone from 1995

In Denmark, Norway and Sweden the NMT-450 frequencies have been auctioned off to Swedish Nordisk Mobiltelefon which later became Ice.net and renamed to Net 1 that built a digital network using CDMA 450. During 2015, the network has been migrated to 4G.

France also developed an NMT network in 1988 (in parallel with Radiocom 2000) but with slight variations. As a result, it could not roam with other NMT networks around the world. [3]

In Russia Uralwestcom shut down their NMT network on 1 September 2006 and Sibirtelecom on 10 January 2008. Skylink, subsidiary company of Tele2 Russia operates NMT-450 network as of 2016 in Arkhangelsk Oblast and Perm Krai. [4] [5] These networks are used in sparsely populated areas with long distance. License for the provision of services was valid until 2021. [6]

Technology

The cell sizes in an NMT network range from 2 km to 30 km. With smaller ranges the network can service more simultaneous callers; for example in a city the range can be kept short for better service. NMT used full duplex transmission, allowing for simultaneous receiving and transmission of voice. Car phone versions of NMT used transmission power of up to 15 watt (NMT-450) and 6 watt (NMT-900), handsets up to 1 watt. NMT had automatic switching (dialing) and handover of the call built into the standard from the beginning, which was not the case with most preceding car phone services, such as the Finnish ARP. Additionally, the NMT standard specified billing as well as national and international roaming.

Signaling

NMT voice channel is transmitted with FM (Frequency Modulation) [7] and NMT signaling transfer speeds vary between 600 and 1,200 bits per second, using FFSK (Fast Frequency Shift Keying) modulation. Signaling between the base station and the mobile station was implemented using the same RF channel that was used for audio, and using the 1,200 bit/s FFSK modem. This caused the periodic short noise bursts, e.g. during handover, that were uniquely characteristic to NMT sound.

Security

In the original NMT specification the voice traffic was not encrypted; it was possible to listen to calls using e.g. a scanner or a cable ready TV. As a result, some scanners have had the NMT bands blocked so they could not be accessed. Later versions of the NMT specifications defined optional analog scrambling which was based on two-band audio frequency inversion. If both the base station and the mobile station supported scrambling, they could agree upon using it when initiating a phone call. Also, if two users had mobile (phone) stations supporting scrambling, they could turn it on during conversation even if the base stations didn't support it. In this case, audio would be scrambled all the way between the 2 mobile stations. While the scrambling method was not at all as strong as encryption of current digital phones, such as GSM or CDMA, it did prevent casual listening with scanners. Scrambling is defined in NMT Doc 450-1: System Description (1999-03-23) and NMT Doc 450-3 and 900-3: Technical Specification for the Mobile Station (1995-10-04)'s Annex 26 v.1.1: Mobile Station with Speech Scrambling – Split Inversion Method (Optional) (1998-01-27).

Data transfer

NMT also supported a simple but robust integrated data transfer mode called DMS (Data and Messaging Service) or NMT-Text, which used the network's signaling channel for data transfer. Using DMS, text messaging was also possible between two NMT handsets before SMS service started in GSM, but this feature was never commercially available except in Russian, Polish and Bulgarian NMT networks. Another data transfer method was called NMT Mobidigi with transfer speeds of 380 bits per second. It required external equipment.

Commercial deployments

CountryOperator(s) ƒ (MHz)Launch dateEnd of serviceNotes
Flag of Saudi Arabia.svg  Saudi Arabia Sep 1981 [8]
Flag of Sweden.svg  Sweden Televerket / Telia Oct 1981December 31, 2007 [9] NMT-900 service launched in Dec 1986 and ended on 31 December 2000. [10] [11]
Flag of Norway.svg  Norway Nov 1981Dec 2004NMT-900 service launched in Dec 1986. [10]
Flag of Denmark.svg  Denmark Jan 1982NMT-900 service launched in Dec 1986. [10]
Flag of Finland.svg  Finland Sonera Mar 1982Dec 2002NMT-900 service launched in Dec 1986 and ended on 31 December 2000. [10] [12]
Flag of Spain.svg  Spain 452.325-456.800 [13] Jun 1982Named TMA-450 (based on NMT-450). [14]
Flag of Austria.svg  Austria 451.300-455.740 [13] Nov 1984Aug 1997 [15] Named C-Netz. NMT-900 service launched in Jul 1990. [10]
Flag of the Netherlands.svg  Netherlands KPN Jan 19851999 [16] Named ATF-2. NMT-900 (ATF-3) service launched in Jan 1989. [10] [16]
Flag of Luxembourg.svg  Luxembourg Jun 1985 [10]
Flag of Oman.svg  Oman 1985 [17]
Flag of Tunisia.svg  Tunisia 1985 [17]
Flag of Malaysia.svg  Malaysia Telekom Malaysia 452.000-456.475 [13] 1985Named ATUR 450. [18] [17]
Flag of Iceland.svg  Iceland Jul 1986Sep 2010 [10]
Flag of Turkey.svg  Turkey 415.500-419.975 [13] 1986 [17]
Flag of Thailand.svg  Thailand 1986 [17]
Flag of Indonesia.svg  Indonesia 479.000-483.480 [13] 1986 [17]
Flag of the People's Republic of China.svg  China 452.000-454.975 [13] 1986 [19]
Flag of Belgium (civil).svg  Belgium Apr 1987 [10]
Flag of Morocco.svg  Morocco 1987 [17]
Flag of Switzerland (Pantone).svg   Switzerland Sep 1987Launched with NMT-900 only. [10]
Flag of Cyprus.svg  Cyprus 1988 [10]
Flag of France.svg  France SFR Apr 1989Named NMT-F (French version). [10] [17]
Flag of Algeria.svg  Algeria 1989 [17]
Flag of Cambodia.svg  Cambodia 1989 [17]
Flag of the Faroe Islands.svg  Faroe Islands 1989 [17]
Flag of the Turkish Republic of Northern Cyprus.svg  Northern Cyprus 1989 [19]
Flag of Yugoslavia (1946-1992).svg  Yugoslavia 1990 [19]
Flag of Hungary.svg  Hungary Westel 452.230-454.370 [13] Oct 1990 [20] Jun 2003 [21] [22]
Flag of Estonia.svg  Estonia 453.000-457.475 [13] 1991Dec 2000 [23]
Flag of Russia.svg  Russia Sep 19912017 [24]
Flag of Poland.svg  Poland Centertel / Orange Jun 1992 [25] Jun 2012 [26] [27]
Flag of Uzbekistan.svg  Uzbekistan Uzdunrobita Oct 1992Nov 1995 [28] [29]
Flag of Lithuania.svg  Lithuania Comliet1992Sep 2001 [30] [19]
Flag of Ukraine.svg  Ukraine UMC Jul 1993Oct 2006 [31] [22]
Flag of Bulgaria.svg  Bulgaria MOBIKOM 452.500-457.475 [13] 19932008 [32]
Flag of the Czech Republic.svg  Czechia 451.310-455.730 [13] Sep 1991Jul 2006 [22] Eurotel provider
Flag of Slovakia.svg  Slovakia [22]
Flag of Romania.svg  Romania [22]
Flag of Latvia.svg  Latvia [22]
Flag of Croatia.svg  Croatia 411.675-415.850 [13]
Flag of Slovenia.svg  Slovenia Mobitel 19912005 [33]

Related Research Articles

<span class="mw-page-title-main">GSM</span> Cellular telephone network standard

The Global System for Mobile Communications (GSM) is a standard developed by the European Telecommunications Standards Institute (ETSI) to describe the protocols for second-generation (2G) digital cellular networks used by mobile devices such as mobile phones and tablets. GSM is also a trade mark owned by the GSM Association. GSM may also refer to the Full Rate voice codec.

The Universal Mobile Telecommunications System (UMTS) is a 3G mobile cellular system for networks based on the GSM standard. Developed and maintained by the 3GPP, UMTS is a component of the International Telecommunication Union IMT-2000 standard set and compares with the CDMA2000 standard set for networks based on the competing cdmaOne technology. UMTS uses wideband code-division multiple access (W-CDMA) radio access technology to offer greater spectral efficiency and bandwidth to mobile network operators.

IS-54 and IS-136 are second-generation (2G) mobile phone systems, known as Digital AMPS (D-AMPS), and most often referred to as TDMA, are a further development of the North American 1G mobile system Advanced Mobile Phone System (AMPS). It was once prevalent throughout the Americas, particularly in the United States and Canada since the first commercial network was deployed in 1993. D-AMPS is considered end-of-life, and existing networks have mostly been replaced by GSM/GPRS or CDMA2000 technologies.

<span class="mw-page-title-main">Car phone</span> Telephone intended to be used in a car

A car phone is a mobile radio telephone specifically designed for and fitted into an automobile. This service originated with the Bell System and was first used in St. Louis, Missouri, United States, on June 17, 1946.

The signalling system used on the rail transport in Norway is regulated by the Regulations of December 4, 2001 no. 1336 about signals and signs on the state's railway network and connected private tracks.

GSM frequency bands or frequency ranges are the cellular frequencies designated by the ITU for the operation of GSM mobile phones and other mobile devices.

1G refers to the first generation of cellular network (wireless) technology. These are mobile telecommunications standards that were introduced in the 1980s and were superseded by 2G. The main difference between these two mobile cellular generations is that the audio transmissions of 1G networks were analog, while 2G networks were entirely digital.

<span class="mw-page-title-main">History of mobile phones</span> Mobile communication devices

The history of mobile phones covers mobile communication devices that connect wirelessly to the public switched telephone network.

Twig Com Ltd. is a mobile telecommunications company founded in 2011 and headquartered in Salo, Finland. The company develops and manufactures personal safety and GPS tracking products and software for worker protection, telecare, and asset tracking applications. The operation was originally started in 1988 as mobile phone manufacturer Benefon who began research on GPS safety phones in 1995 and launched the first commercial GPS/GSM safety phone, the Benefon Track, in 2000. Twig Com Ltd acquired Benefon's Twig business from GeoSentric OYJ through a purchase agreement signed in January 2011.

<span class="mw-page-title-main">C-Netz</span> Analog cellular network

The Radio Telephone Network C, was a first generation analog cellular phone system deployed and operated in Germany by DeTeMobil. It utilized the C-450 standard, originally developed by Siemens AG, and was the third and last update of a series of analog mobile phone systems used primarily within Germany, superseding the B-Netz and the A-Netz before it. It has been decommissioned, replaced by both the newer D-Netz and E-Netz systems, both based on GSM standards and operating on 900 MHz and 1800 MHz bands respectively.

<span class="mw-page-title-main">Net 1</span> Nordic telecommunications company

Net 1 is a Nordic telecommunications company operating 4G LTE mobile broadband networks in Norway, Sweden and Denmark since 2015, in Indonesia since 2017, and in the Philippines since 2019. Since February 2019, the Swedish operations of Net 1 are owned by Teracom, while the Danish operations of Net 1 are owned by Cibicom A/S since 2020. The Norwegian operations are owned by Ice group.

<span class="mw-page-title-main">Nokia 2110</span> 1994 cell phone model

The Nokia 2110 is a cellular phone made by the Finnish telecommunications firm Nokia, first announced and released in January 1994. It is the first Nokia phone with the famous Nokia tune ringtone. The phone can send and receive SMS messages; and lists ten dialed calls, ten received calls and ten missed calls. At the time of the phone's release, it was smaller than others of its price and had a bigger display, so it became very popular. It also features a "revolutionary" new user interface featuring with two dynamic softkeys, which would later lead to the development of the Navi-key on its successor, the Nokia 6110, as well as the Series 20 interface.

In telecommunications, long-term evolution (LTE) is a standard for wireless broadband communication for mobile devices and data terminals, based on the GSM/EDGE and UMTS/HSPA standards. It improves on those standards' capacity and speed by using a different radio interface and core network improvements. LTE is the upgrade path for carriers with both GSM/UMTS networks and CDMA2000 networks. Because LTE frequencies and bands differ from country to country, only multi-band phones can use LTE in all countries where it is supported.

<span class="mw-page-title-main">Mobile phone industry in Russia</span>

Mobile phone industry in Russia is a trade industry of cell phone devices and mobile network services in Russia. Since the collapse of the Soviet Union in the 1991 it had seen a great expansion over the last decades becoming one of the largest in the world. In terms of number of smartphone users, Russia is the 4th biggest smartphone market in the world sitting behind only China, India, and USA.

Thomas Haug was a Norwegian-Swedish electrical engineer known for developing the cellular telephone networks.

<span class="mw-page-title-main">Sky Link (Russia)</span>

Skylink is a mobile LTE 450 MHz operator in Russia. Licensed territories of SkyLink include 76 entities of Russia, CDMA-450 and UMTS-1900/2100 licenses in 65 regions, CDMA-450/2000 licenses in 3 regions, GSM-1800 licenses in 45 regions and a GSM-900 license in 1.

Cellular frequencies are the sets of frequency ranges within the ultra high frequency band that have been assigned for cellular-compatible mobile devices, such as mobile phones, to connect to cellular networks. Most mobile networks worldwide use portions of the radio frequency spectrum, allocated to the mobile service, for the transmission and reception of their signals. The particular bands may also be shared with other radiocommunication services, e.g. broadcasting service, and fixed service operation.

<span class="mw-page-title-main">Nokia rinGo</span> Mobile phones

The Nokia rinGo is an entry-level analogue consumer mobile phone from Nokia, originally released for the analogue NMT-900 network in Finland, Norway, Sweden, Denmark and Netherlands. Two revisions were released afterwards.

<span class="mw-page-title-main">Storno</span> European company

Storno was one of the early leaders in the field of Public and Private Mobile Radio (PMR) in Europe. The company is probably best known for its Radiotelephones and Mobile telephones like the Stornophone and Stornomatic series.

Radiocom 2000 was a French mobile telephone network launched in 1985, which gradually replaced the earlier analogue "public correspondence" network. It was deployed by France Télécom Mobiles. It is classified in the category of first generation mobile networks (1G).

References

  1. "Nokia 1100 phone offers reliable and affordable mobile communications for new growth markets" (Press release). Nokia Corporation. 27 August 2003. Archived from the original on 6 December 2008. Retrieved 26 May 2009.
  2. Nordsveen, Arve M (28 November 2005). "Mobiltelefonens historie i Norge" (in Norwegian). Norsk Telemuseum. Archived from the original on 13 February 2007.
  3. http://www.tara.tcd.ie/bitstream/handle/2262/67286/928182127.pdf?sequence=1&isAllowed=y [ bare URL PDF ]
  4. Областной-Стационарный (ФЛ)_NMT
  5. "Областной-Стационарный (ЮЛ)_NMT / Skylink". Archived from the original on 6 February 2016. Retrieved 5 February 2016.
  6. "Роскомнадзор – Реестр лицензий в области связи". Archived from the original on 6 February 2016. Retrieved 5 February 2016.
  7. Petersen, Julie K. (2002). The telecommunications illustrated dictionary. CRC Press. ISBN   9781420040678.
  8. "The launch of NMT". www.ericsson.com. 5 September 2016. Retrieved 21 June 2022.
  9. "NMT-nätet går i graven efter 25 år". Dagens Nyheter (in Swedish). TT. 31 December 2007. ISSN   1101-2447 . Retrieved 26 July 2024.
  10. 1 2 3 4 5 6 7 8 9 10 11 12 Shi, Mingtao (2007). Technology Base of Mobile Cellular Operators in Germany and China: A Comparative Study from the Perspective of the Resource Based View. Univerlagtuberlin. ISBN   978-3-7983-2057-4.
  11. Lövgren, Stephan (30 December 2000). "Gammalt mobilnät går i graven". Göteborgs-Posten (in Swedish).
  12. "NMT 900 slopas även i Finland". Mobil (in Swedish). 30 April 1999. Retrieved 28 July 2024.
  13. 1 2 3 4 5 6 7 8 9 10 11 ITU (20 July 2000). "IMPLEMENTATION OF 3G CAPABILITIES IN DEVELOPING COUNTRIES - A STRAIGHTFORWARD PATH TO IMT-2000".
  14. MANUEL, HUIDOBRO MOYA, JOSÉ (1 January 2006). Redes y servicios de telecomunicaciones (in Spanish). Editorial Paraninfo. ISBN   978-84-283-2922-4.{{cite book}}: CS1 maint: multiple names: authors list (link)
  15. online, heise (5 May 2004). "30 Jahre Mobilfunk in Österreich". heise online (in German). Retrieved 21 June 2022.
  16. 1 2 "ATF". www.cryptomuseum.com. Retrieved 21 June 2022.
  17. 1 2 3 4 5 6 7 8 9 10 11 https://media.crai.com/wp-content/uploads/2021/05/05145230/Insights-The-Economics-of-5G-article-6-Open-or-Closed-System-May2021.pdf [ bare URL PDF ]
  18. Abdullah, Abdul Majid. "Evolution of the Malaysian cellular sector". The Star. Retrieved 9 January 2023.
  19. 1 2 3 4 https://www.usitc.gov/publications/332/pub2646.pdf [ bare URL PDF ]
  20. "The first mobile network was launched in Hungary thirty years ago". Tek Deeps. 15 October 2020.
  21. "Magyar Telekom". Magyar Telekom. Retrieved 9 January 2023.
  22. 1 2 3 4 5 6 Berlage, Michael (1995). "Telecommunications Development in Central and Eastern Europe". International Political Science Review. 16 (3): 283–303. doi:10.1177/019251219501600307. ISSN   0192-5121. JSTOR   1601586. S2CID   154796034.
  23. "SOME EASTERN EUROPEAN NATIONS STEP UP EFFORTS TO OFFER GSM". RCR Wireless News. 30 November 1999. Retrieved 21 June 2022.
  24. "История сотовой связи в России: от трёхкилограммовой Nokia до LTE". ИА "РУСНОРД". Retrieved 21 June 2022.
  25. Eastern Europe Business Bulletin. Eastern Europe Business Information Center, U.S. Department of Commerce, International Trade Administration. 1993.
  26. "450MHz band has great potential, even for LTE - Telecoms.com". telecoms.com. 3 October 2012. Retrieved 21 June 2022.
  27. "[Jak to działało] Sieć NMT – telekomunikacja na początku lat 90". android.com.pl (in Polish). 2 April 2018. Retrieved 21 June 2022.
  28. "Cellular companies of Uzbekistan" (PDF). Archived from the original (PDF) on 7 October 2017.
  29. "Cis Cellular Commercial Operation". 21 October 1992.
  30. "COMLIET - Veikla - NMT-450". Archived from the original on 7 June 2002.
  31. "UMC shuts down NMT". telegeography.com. Retrieved 22 June 2022.
  32. "BULGARIAN TELECOMMUNICATIONS MOVES PAST 1929 WIRED SYSTEM". RCR Wireless News. 30 November 1999. Retrieved 21 June 2022.
  33. "NMT praznuje 30 let". www.blog.uporabnastran.si (in Slovenian). 10 January 2011. Retrieved 13 April 2023.
This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.