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In telecommunication, a public land mobile network (PLMN) is a combination of wireless communication services offered by a specific operator in a specific country.[1][2] A PLMN typically consists of several cellular technologies like GSM/2G, UMTS/3G, LTE/4G, offered by a single operator within a given country, often referred to as a cellular network.
PLMN code[edit]
A PLMN is identified by a globally unique PLMN code, which consists of a MCC (Mobile Country Code) and MNC (Mobile Network Code). Hence, it is a five- to six-digit number identifying a country, and a mobile network operator in that country, usually represented in the form 001-01 or 001–001.
A PLMN is part of a:
- Location Area Identity (LAI) (PLMN and Location Area Code)
- Cell Global Identity (CGI) (LAI and Cell Identifier)
- IMSI (see PLMN code and IMSI)
Leading zeros in PLMN codes[edit]
Note that an MNC can be of two-digit form and three-digit form with leading zeros, so that 01 and 001 are actually two distinct MNCs. Hence the PLMNs 001-02 and 001-002 would be in the same country, but belong to two completely distinct operators (02 and 002). From PLMN assignments, it is apparent that such dualities of two-digit and three-digit MNCs with the same number value are avoided (see the list of mobile country codes and mobile network codes). An example for an actual three-digit/two-digit MNC with leading zeros is in Bermuda MCC, 350-007 and 350-00, 350-01.
PLMN code and IMSI[edit]
The IMSI, which identifies a SIM or USIM for one subscriber, typically starts with the PLMN code. For example, an IMSI belonging to the PLMN 262-33 would look like 262330000000001. Mobile phones use this to detect roaming, so that a mobile phone subscribed on a network with a PLMN code that mismatches the start of the USIM’s IMSI will typically display an «R» on the icon that indicates connection strength.
PLMN services[edit]
A PLMN typically offers the following services to a mobile subscriber:
- Emergency calls to local Fire/Ambulance/Police stations.
- Voice calls to/from any other PLMN («cellular network») or PSTN («landline»/VoIP).
- Short message service (SMS) services to/from any other PLMN or SIP service (the original form of texting on a mobile phone, now often replaced by Messaging apps).
- Multimedia Messaging Service (MMS) services to/from any other PLMN or SIP service.
- Unstructured Supplementary Service Data (USSD) for operator specific interactions (e.g. dialing «*#100#» to indicate the current balance).
- Internet data connectivity for arbitrary services, e.g. via GPRS in GSM, IuPS in UMTS, or LTE.
The availability, quality and bandwidth of these services strongly depends on the particular technology used to implement a PLMN.
References[edit]
- ^ 3GPP TS 22.101 https://www.etsi.org/deliver/etsi_ts/122100_122199/122101/15.06.00_60/ts_122101v150600p.pdf
- ^ 3GPP TS 21.905 https://www.etsi.org/deliver/etsi_tr/121900_121999/121905/15.00.00_60/tr_121905v150000p.pdf
User controlled PLMN (Personal Local Area Network) или персональная локальная сеть — это сетевая конфигурация, которую пользователь может настроить согласно своим потребностям и предпочтениям. В отличие от обычных сетей, где настройки определяет провайдер услуг, в User controlled PLMN пользователь может сам управлять настройками своей локальной сети для максимального удовлетворения своих потребностей.
Настройка User controlled PLMN не требует особых навыков или большого объема времени и доступна для пользователей всех уровней. Для настройки персональной локальной сети необходимо знать пару ключевых понятий и следовать нескольким простым шагам. Это позволяет пользователям создавать собственные сетевые настройки и обеспечивает гибкость в использовании сети.
Одной из ключевых функций User controlled PLMN является возможность управления доступом к сети. Пользователь самостоятельно определяет, каким устройствам будет предоставлен доступ к его локальной сети, а каким нет. Также можно создавать различные уровни доступа для разных устройств или групп устройств. Это обеспечивает безопасность сети и конфиденциальность данных.
Кроме управления доступом, User controlled PLMN также предоставляет возможность настройки пропускной способности сети, каналов связи, безопасности, облачного хранения данных, подключения к интернету и многих других функций. Пользователь может настраивать эти параметры согласно своим требованиям и предпочтениям, что дает возможность создать индивидуальную сетевую среду с максимальным удобством и производительностью.
Что такое User controlled PLMN
Основная функция User controlled PLMN состоит в том, чтобы пользователь мог выбирать предпочитаемого оператора связи и настраивать его приоритеты в сети. Это может быть полезно, когда в зоне нахождения пользователя есть несколько операторов с разной качеством связи.
С помощью User controlled PLMN пользователь может создавать список предпочитаемых операторов, устанавливать приоритеты сигналов разных операторов и выбирать наиболее подходящую сеть в зависимости от своих потребностей.
Настройка User controlled PLMN обычно производится через меню настройки сети в телефоне или СМС-сообщения с определенными кодами настройки. После настройки пользователь может вручную выбирать доступный оператор или установить автоматический выбор.
User controlled PLMN может быть особенно полезным в границах страны, где доступно несколько операторов. Он позволяет улучшить качество связи и уменьшить роуминговые расходы, так как пользователь может выбрать лучший оператор на своей территории.
Настройка User controlled PLMN
Для настройки User controlled PLMN необходимо выполнить следующие шаги:
Шаг 1: Откройте на своем мобильном устройстве меню настроек.
Шаг 2: В меню настроек найдите раздел, связанный с подключением к сети мобильной связи (может называться «Сеть», «Мобильные сети», «SIM-карта» и т.д.).
Шаг 3: В разделе «Сеть» найдите опцию «Выбор сети» или подобную ей.
Шаг 4: В меню выбора сети найдите опцию «Ручной поиск сети» или подобную ей.
Шаг 5: После выбора ручного поиска сети, ваше мобильное устройство начнет сканировать доступные сети мобильной связи.
Шаг 6: Когда сканирование будет завершено, появится список доступных сетей.
Шаг 7: Выберите сеть, которую хотите использовать, путем нажатия на нее в списке доступных сетей.
Шаг 8: Сохраните выбранный вами оператор сети и закройте настройки.
После выполнения этих шагов ваше мобильное устройство будет подключено к выбранной вами сети, предоставляя вам контроль над выбором сети мобильной связи.
Обратите внимание, что доступность функции User controlled PLMN может зависеть от вашего оператора мобильной связи и поддерживаемых им сетей.
The Mobile network is divided into several elements. Each element of those elements, is having its own identifier.
The mobile network contains many RNCs and BSCs. The RNCs connect to the 3G sites, and the BSCs connect to the 2G sites.
In addition, every 3G or 2G sites, is divided into several cells.
Every group of 3G or 2G cells, are grouped into a Routing Area ‘RA’. and every group of Routing Areas, is grouped into a Location Area ‘LA’.
PLMN
The PLMN is the identifier of the mobile newtrok.
- PLMN refers to ‘Public Land Mobile Network’, which is a unique identifier that identifies every mobile network.
- The PLMN consists of the MCC, and the MNC.
- MCC refers to ‘Mobile Country Code’, and it is a unique identifier given to each country in the world.
- MNC refers to ‘Mobile Network code’, and it is a unique code given to every network inside the country.
LAI
LAI is the identifier of every Location Area ‘LA’.
- LAC refers to Location Area Code, and it uniquely identifies every LA, inside the network.
- While Location Area Identifier ‘LAI’, globally identifies every LA.
- LAI consists of the PLMN, in addition to the Location Area Code ‘LAC’.
RAI
RAI is the identifier of every Routing Area ‘RA’.
- RAC refers to Routing Area Code, and it uniquely identifies every RA inside the LA.
- The Routing Area Identifier ‘RAI’, globally identifies every RA.
- RAI consists of the LAI, in addition to the Routing Area Code ‘RAC’.
CGI
- The Cell Global Identifier ‘CGI’, globally identifies every 2G cell.
- And it consists of the LAI, in addition to the Cell Identity ‘CI’.
- While, the Cell Identity ‘CI’ uniquely identifies every 2G cell inside the LA.
SAI
- Service Area Identifier ‘SAI’, identifies the 3G cells. a SA may contain one or more 3G cells
- SAI consists of the LAI , in addition to the Service Area Code ‘SAC’.
- The SAC is unique under the same LA.
PLMN (Public land mobile network) – зона обслуживания мобильной сети. В русскоязычной терминологии есть аналогичный термин ССОП (Сеть сотовой связи общего пользования). Представляет собой совокупность всех сот одного оператора сотовой сети связи. Таким образом, одновременно в одной стране может быть несколько PLMN в зависимости от числа операторов сотовой сети связи. Причем если один и тот же оператор осуществляет свою деятельность в нескольких странах, то это будут разные PLMN.
PLMN по отношению к другим областям местоположения в сети сотовой связи
Один абонент принадлежит только одной домашней PLMN – HPLMN (Home PLMN). Если абонент находится в роуминге (не внутрисетевом), то это уже будет гостевая PLMN – VPLMN (Visited PLMN).
What is PLMN for a Network Operator?
The full form of PLMN is Public Land Mobile Network. It is the geographical area a mobile network operator covers for voice and data services to a mobile subscriber using a SIM card. For example, an operator may have one PLMN in the whole city. Based on the location, it can be a home PLMN or a Visitor PLMN. We will explain each in detail.
A PLMN connects to other PLMNs to provide inter-operators roaming, messaging, and data services. Other PLMN may belong to the same operator or another.
How is PLMN addressed in the network?
It is identified by an identifier known as PLMN ID. The identifier has a combination of MCC and MNC. This combination makes it unique globally.
From the IMSI of a SIM card, home PLMN can be identified. The home PLMN of a mobile subscriber is called HPLMN, which has subscription profiles of subscribers in the HLR. A mobile operator may have multiple PLMNs in the same country with a different mobile network code (MNC).
HPLMN :
Every SIM card has an HPLMN, where the subscriber profile is configured. While roaming, a subscriber changes its location. This may change in roaming PLMN. The new one may be the same as HPLMN or its other network’s PLMN if an Airtel sim card is purchased from New Delhi, India. The subscriber’s HPLMM is in New Delhi, India.
HLR is the node in HPLMN, where a new subscriber has all subscription information (SMS, Data, Voice), and the sim card keeps updating its location to the HLR during roaming. The home network has the message and billing nodes.
The SMSC is for messaging, and IN-SCP is for real-time charging.
VPLMN:
In roaming, a subscriber attaches to the core network via the access network. The roaming core network belongs to a PLMN. This is called Visiting Public Land Mobile Network or VPLMN. The VPLMN and HPLMN can be the same or different, depending upon the location of the mobile phone and the serving mobile operator. A mobile operator has VPLMN-based changing and roaming policies.
PLMN network id:
For any network, there is an identifier. PLMN network id for a mobile network identifies the roaming location uniquely. An integer value contains MCC and MNC. To transfer value on the wire, fixed decoding is done. Decoding is defined in the 3GPP spec.
| MCC Digit1 | MCC Digit1 |
| MNC Digit 3 | MCC Digit1 |
| MNC Digit 2 | MNC Digit 1 |
The 3GPP has specified a diameter AVP called Visited PLMN id, which contains the MCC-MNC in encoded format. Whenever a UE attaches to the LET network over the 3GPP s6a interface. Messages from MME to the HSS over diameter protocol have Visited PLMN Id AVP.
In the case of 3G, the PLMN id is present with roaming VLR information.
The HPLMN network id is derived from the IMSI, and the VPLMN network id is derived from the roaming information present in information while the subscriber attaches to the network.
Is the PLMN id is identical for the 3G and LTE networks?
Yes, in LTE, we have IMSI as the primary identity. The network is addressed based on the MCC and MNC values.
Now how to decode the PLMN id?
For a typical user, getting MCC and MNC from an encoded value is impossible. Here we show an example program in C++ for getting MCC and MNC from an encoded buffer.
#include <iostream>
#include <string>
using namespace std;
int main ()
{
unsigned char plmn_id[] = {0x31, 0xf4, 0x01}; /* Encoded PLMN Id */
string mcc, mnc;
unsigned char ch = 0;
int i;
/* First Digit of MNC */
ch = plmn_id[0] & 0xf;
mcc.push_back(ch + '0');
ch = (plmn_id[0] & 0xf0) >> 4;
mcc.push_back(ch + '0');
ch = plmn_id[1] & 0xf;
mcc.push_back(ch + '0');
/* DEcoding MNC 8 */
ch = plmn_id[2] & 0xf;
mnc.push_back(ch + '0');
ch = (plmn_id[2] & 0xf0) >> 4;
mnc.push_back(ch + '0');
ch = (plmn_id[1] & 0xf0) >> 4;
if(ch != 0x0f)
{
/* If MNC is 3 digits log */
mnc.push_back(ch + '0');
}
cout << "MCC = "<< mcc <<":" << "MNC = " << mnc << endl;
return 0;
}
After compilation and execution the display will be :
#g++ -o plmndecoded decodePlmnId.cpp
# ./plmndecoded
MCC = 134:MNC = 10
Elements of PLMN:
There are multiple components of a public land mobile network. These can be divided into two groups. One is the access network, and the other is the core network.
The access network connects the phone to the core network. The phone connects to the access network over a wireless or radio interface. The core network connects to the access network over a wired interface. The common access network is used for packet-switched and circuit-switched services. Each generation of mobile telephony has a different access network. The following mentions the generation and access network types.
GERAN, 2G access network. BTS and BSC are nodes that cover the access network.
UTRAN: This is the access network for 3G. RAN and NodeB are two nodes in the UTRAN access network.
E-UTRAN: It’s the access network for LTE. eNodeB is the node that is in the access network.
The Core network does the signaling for the setup of voice and mobile internet communication. A signaling network is the control plane, and the actual data or voice network is the user plane. In 2G/3G, there are separate nodes for circuit and packet services.
MSC is for circuit switching or voice; SGSN is for packet switching or the internet in 2G and 3G. While attaching to a VPLMN, the SIM card sends authentication and update location requests to the HPLNM. The home PLMN has the configuration of the subscriber for authentication, billing, roaming, and messaging.
Home PLMN may have inbound roamers or outbound roamers. If a mobile subscriber is roaming in another PLMN, it’s called an inbound roamer for the roaming network. It is an inbound roamer from the mobile SIM provider’s home network. Both network operators should have a roaming agreement.
Call Barring Outside Home PLMN:
Mobile operators can block incoming or outgoing calls if a subscriber roams outside the home network. There are two supplementary services described in GSM. HLR has provisioning information for the services. The following is a detailed description.
Barring Of all incoming calls when roaming outside HPLMN.
This disables a mobile subscriber to call when VPLMN differs from HPLMN. This is useful where national roaming needs to control. MCC remains the same in national roaming, but the MNC code changes.
Barring Of outgoing calls not directed to Home PLMN country: Supplementary service blocks all outgoing calls not dialed to the home country. This service comes into the picture when subscribers roam to another country.