Telephone network. Jouni Karvo, Raimo Kantola, Timo Kiravuo
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1 Telephone network Jouni Karvo, Raimo Kantola, Timo Kiravuo
2 Background World's largest machine; extends to all countries Huge economic and social importance Specialized in voice transmission Other applications have been created: fax, data etc. Basic service: full-duplex voice transmission circuit switching Small end-to-end delays, small delay variation (more than 150ms delay disturbs discussion --note satellites!) Call admission control, and accepted calls will complete Grows all the time, now mostly growth of mobile networks Although most traffic in the telecom networks is now data, most of the money comes from voice
3 Background cont. Telephones are addressed by telephone numbers, that are unique There are special numbers or area codes that need translation The network formed by the end systems (telephones, faxes, modems etc.) and the hierarchic switching and transmission systems is called Public Switched Telephone Network (PSTN) or informally as Plain Old Telephone System (POTS).
4 Topology Basic structure is tree-like The core network more fully connected Direct links for some special busy routes
5 End systems Telephones: Voice-electrical signal transducers (microphone+earphone), dialer, ringer, switch hook A single twisted pair is used for signal transmission for both directions echo Dialing+ringing: either pulses or tones
6 The Access Network a) distribution panel b) subscriber terminal equipment c) radio link for emergency traffic (112, 911 etc.) d) fiber link, i) PCM multiplex e) concentrator f) telephone exchange g) fiber link h) subscriber lines
7 The Access Network The distribution panel connects operator's cables to subscriber lines E.g. a thick cable of 30 pairs to individual lines to apartments Usually located in customer premises (building) The subscriber lines to the apartments are often the responsibility of the building owner (Finland) The cable to the telephone network is the responsibility of the telco operator The concentrator collects a group of subscriber lines I/O cards for subscriber lines. A/D and D/A circuitry for the analog lines Fiber link or twisted pairs carrying PDH/SDH towards the telephone exchange May have a radio link for emergency calls (if the main link fails)
8 Switching & Signaling The way to connect a subscriber to another --- no need for a fully connected topology Switch hardware carries the voice Switch controller controls the hardware Signaling is the means for switches to communicate control information with each other In PSTN, control and data are separated in different networks The control network is called signaling network The signaling network is a packet switched network, and uses common channel signaling, i.e. signaling for all users uses the same signaling channels.
9 Telephone Exchanges Jouni Karvo, Timo Kiravuo
10 Telephone exchanges Subscriber lines are connected to the telephone exchanges Originally each customer had a direct connection (electrical pair) to the exchange Current exchanges are complex and expensive A need to reduce their number Physical cabling becomes an obstacle Concentrators are used to reduce the number of cables As the number of telephone exchanges is decreasing, the hierarchy of telephone exchanges is flattening
11 The most important tasks for telephone exchanges Connecting to subscriber terminal equipment and other exchanges Telephone number analysis and translation Collecting accounting data for billing Logging data for the use of authorities Switching calls
12 SS#7 Jouni Karvo, Timo Kiravuo
13 Signaling The network made of exchanges and links must be co-ordinated in order to make calls possible The purpose of signaling is just to do this: it establishes calls, monitors the calls, and tears down the calls. In-band signaling was used earlier MF tones waste of resources Security problems A new signaling system was created: Common Channel Signaling Subsystem #7
14 Common Channel Signaling Subsystem #7 SS#7 is a packet switched network on top of the telephone network It is used to transport signaling information It controls the trunk connections SS#7 does not transport user data SS#7 packets use either a dedicated 56 or 64kbps channel (such as E1 TS16) or dedicated links. If signaling does not work, the whole telephone network is "dead''. Thus, stringent reliability requirements. There is a lot of redundancy; every part of the signaling system has at least one spare
15 SS#7 elements SS#7 overlay network: Operator A Operator B The actual telephone exchanges switching the actual telephone traffic are called Signal Switching Points (SSP) (circles). The packet switches (routers) of the SS#7 network are called Signal Transfer Points (STP) (squares with a diagonal). The databases for advanced call-processing capabilities are called Signal Control Points (SCP) (cylinders).
16 The GSM, GPRS and UMTS
17 History The successful analog 1:st generation mobile telephone systems proved that there is a market for mobile telephones ARP (AutoRadioPuhelin) in Finland NMT (Nordic Mobile Telephone) in Nordic countries Concurrent development happened in the United States and Europe in the 1980's The European system was called GSM and deployed in the early 1990's Global System for Mobile Communications The main services are Voice, 3.1 khz Data, 9.6 kbps with and w/o error correction SMS-messages
18 The GSM Architecture Base Station Subsystem Network and Switching Subsystem PSTN Mobile Station, Subscriber Identity Module Base Transceiver System Base Station Controller, Transcoding Rate and Adaptation Unit Mobile Switching Center, Visitor Location Register Gateway MSC Home Location Register
19 Base Station Subsystem Transcoding Rate and Adaptation Unit (TRAU) Performs coding between the 64 kpbs PCM coding used in the backbone network and the 13 kbps coding used for the Mobile Station Base Station Controller (BSC) Controls the channel (time slot) allocation implemented by the BTSes Manages the handovers within the BSS area Knows which mobile stations are within the cell and informs the MSC/VLR about this Does now know the exact location of a MS before a call is made Base Transceiver System (BTS) Controls several transmitters Each transmitter has 8 time slots, some used for signaling, on a specific frequency Maximum amount of frequencies and transmitters in a cell is 6, thus maximum capacity of a cell is 45 calls (+ 3 time slots for signaling)
20 Network and Switching Subsystem The backbone of a GSM network is an ordinary telephone network with some added capabilities Mobile Switching Center (MSC) An ISDN exchange with additional capabilities to support mobile communications Visitor Location Register (VLR) A database, part of the MSC Contains the location of the active Mobile Stations Gateway Mobile Switching Center (GMSC) Links the system to PSTN and other operators Home Location Register (HLR) Contains subscriber information, including authentication information in Authentication Center (AuC) Equipment Identity Register (EIR) International Mobile Station Equipment Identity (IMEI) codes for e.g. blacklisting stolen phones
21 Home Location Register One database per operator Contains all the permanent subscriber information MSISDN (Mobile Subscriber ISDN number) is the telephone number of the subscriber IMSI code is used to link the MSISDN number to the subscriber's SIM (Subscriber Identity Module) International Mobile Subscriber Identity (IMSI) is the 15 digit code used to identify the subscriber It incorporates a country and operator code Charging information Services available to the customer Also the subscriber's present Location Area Code, which refers to the MSC, which can connect to the MS
22 Mobile Station MS is the user's handset and has two parts Mobile Equipment Radio equipment User interface Processing capability and memory required for various tasks Call signaling Encryption SMS messages Equipment IMEI number Subscriber Identity Module
23 Subscriber Identity Module A small smart card Encryption codes needed to identify the subscriber Subscriber IMSI number Subscriber's own information (telephone directory) Third party applications (banking etc.) Can also be used in other systems besides GSM, e.g. some WLAN access points accept SIM based user authentication
24 Other systems Operations Support System The management network for the whole GSM system Usually vendor dependent Very loosely specified in the GSM standards Value added services Voice mail Call forwarding Group calls Short Message Service Center Stores and forwards the SMS messages Like an server Required to operate the SMS service The SMS service was initially used to notify the subscriber about new voic
25 Location Update when Inactive The cells overlap and usually a mobile station can "see" several transceivers (BTSes) The MS monitors the identifier for the BSC controlling the cells When the mobile station reaches a new BSC's area, it requests an location update The update is forwarded to the MSC, entered to the VLR, the old BSC is notified and an acknowledgement is passed back
26 Handover When a call is in process the changes in location require more processing Within a BSS the BSC, which knows the current radio link configuration, prepares an available channel in the new BTS The MS is told to switch over to the new BTS This is called a hard handover In a soft handover the MS is connected to two BTSes simultaneously
27 How to Call a Mobile Phone A call is made from the PSTN to a mobile subscriber's number The call enters the GMSC The GMSC queries the HLR for information about which MSC serves the MS The call is forwarded to the MSC in charge The MSC queries the VLR about which BSC is currently in charge of the MS BSC sends a paging call to all cells to find the exact location of the mobile The mobile signals that it answers The call is completed
28 Radio Link Coding Methods FDMA, Frequency Division Multiple Access One frequency per user E.g. NMT TDMA, Time Division Multiple Access Timeslots on the same frequency E.g. GSM CDMA, Code Division Multiple Access Sender and receiver use a code to identify the radio transmission from the background noise Multiple senders on same frequency and timeslot E.g. UMTS
29 GSM Frequency Bands The initial design used the 900 MHz range Uplink to BTS MHz Downlink to MS MHz There are 124 channels of 200 khz and 100 kh of guard spectrum at the edges of the band And each channel can carry 8 TDMA users Usually an operator does not have access to the full range GSM technology is also used on other frequencies 4500, 800, 1800, 1900 MHz Maximum range is 35 kilometers due to timing requirements MS power is max 2 W for the handheld devices
30 Radio Access Network Design An operator wants usually to make most efficient use of their frequency range Full coverage in all places Sufficient capacity for all customers The basic solution is to make the neighboring cells to use different frequencies Frequencies can be re-used in cells further away The cells can be shaped using directional antennas Transmitter power can be used to regulate the size of a cell Pico cells inside buildings Micro cells for streets Macro cells for larger areas
31 Wireless challenges Path loss and fading Buildings, trees etc. block or weaken signals Reflected signals Multiple copies of a signal with small timing differences Even fading due to interference Flash crowds The customer's traffic patterns are difficult to predict
32 GSM data services The basic GSM data service transmits data instead of voice, using a time slot like a voice call 9.6 or 14.4 kbps rate Time based billing The data connection from the MS is usually connected to an traditional analog modem, which is connected to the PSTN The operator can also provide direct data connections Long setup time 5-30 seconds High Speed Circuit Switched Data (HSCSD) uses multiple time slots to increase the data rate Up to 57.6 kbps GSM data appears to be an evolutionary dead end and packet based data transmission is going to overtake it
33 Global Packet Radio Service GPRS uses the time slots not used for circuit switched services Data rate depends on the availability of free time slots GPRS uses the multislot technique, but within one frequency It also can change the coding schema used for error correction Theoretical maximum rate is kbps kbps more realistic Enhanced Data rates for Global Evolution (EDGE) provides higher data rates
34 GPRS Network GPRS uses the same Radio Access Network (RAN) as GSM A Packet Control Unit is added to the BSS Form the BSS the data packets are tunneled over the GSM backbone network Important new elements are Serving GPRS Support Node (SGSN) Tracks the location of the MS Provides routing and mobility management Authenticates the MS Manages the session Collects billing data IP packets from the MS are treated as IP packets first time here Gateway GPRS Support Node (GGSN) Connects the GPRS network to other networks, e.g. the Internet GSM VLR and HLR are used
35 GPRS Base Station Subsystem Network and Switching Subsystem PSTN MS BTS BSC MSC, VLR GMSC HLR Internet SGSN GGSN
36 UMTS Universal Mobile Telecommunications System A.k.a. 3G Provides: More of the same as GSM/GPRS/EDGE Up to 2 Mbps promised data rate 144 kbps a more realistic bit rate VoIP instead of PSTN calls? Video phone, other multimedia services Global roaming (almost) Convergence for the operators More effective radio spectrum usage
37 UMTS Circuit switched GERAN PSTN MS BTS BSC MSC, VLR GMSC HLR UTRAN Packet switched Internet UE BS RNC SGSN GGSN
38 UMTS RAN UMTS requires a new Radio Access Network The Wideband CDMA-based UTRAN (Universal Terrestrial RAN) provides the higher data rates MHz (uplink) MHZ (downlink) The GSM/EDGE GERAN can be used with UMTS Might stay for a long time in the less populated areas New names for new components Radio Network Controller Base Station User Equipment New functions Cell breathing Soft handover
39 Cell Breathing The CDMA technology enables multiple transmitters to use the same frequency and timeslot, since the transmitter and receiver are synchronized by the code Each transmission appears like background noise to other receivers However this reduces the signal to noise ratio Usually referred as Signal to Interference Ratio (SIR) In practice CDMA based cells shrink when more traffic is added to the cell This is known as cell breathing and it adds a new challenge to the network design The cell can handle more customers, but its size changes
40 Soft Handover As the UE is promised a certain Quality of Service in the beginning of an active service connection the handover issue is more complex than in 2G services, where the only service is the basic voice call Multimedia calls have variable QoS requirements In a soft handover the UE has multiple radio connections to base stations Due to CDMA technology all the base stations are using the same frequencies (wideband transmission) A more complex procedure than hard handover, intended to provide seamless service quality
41 UMTS Services UMTS produces new service architectures Customized Application for Mobile-Enhanced Logic (CAMEL) is a standard for providing IN services to GSM and UMTS Handles the roaming issue, when a customer is under a Visiting MSC and wants to use an IN service specified in the HLR Wireless Application Protocol and other information browsing methods Location based services Rich calls Presence services Open Mobile Alliance standardizes the service platforms, Roughly modeled after IETF, but corporate driven
42 Convergence With the UMTS R5 all IP backbone the telecoms industry will move over to using TCP/IP technology The phenomenon of traditional telecom and datacom technologies converging is a major issue to the industry 4G ideas will continue to drive this convergence Can a VoIP telephone call be handed over from the WLAN/Internet/SIP/RTP technologies to UMTS/PSTN technologies?
43 4G - after UMTS A combination of UMTS, WLAN, Bluetooth and other similar technologies is often interpreted as 4G No formal definition yet Data rates of Mbps? WLAN is already coming to the new high end terminals, enabling e.g. VoIP 4G is more about the services than the actual networking technologies
44 Telecoms Billing
45 Billing Basics Billing is a very important feature of the modern telecommunications networks Initially paper tickets written by operators Low cost work power made this feasible Next an electrical counter for each device (telephone line) Active connections received pulses, which increased the counter Value added billing (long distance calls) was generated by increasing the pulse frequency Currently billing is entirely computerized In modern networks: The user is charged per minute/second or unmetered or prepaid Usage data is collected in Call Detail Records (CDR) Large files or databases containing CDRs are processed to produce a bill
46 Telecom Billing System Overview etc WAP GW SMSC GPRS CDRs Subscriber management Mediation Billing process MSC gw MSC Printing Delivery IN Roaming Operative systems
47 The Billing Process Services, switches, SMSCs and other Network Elements produce Session, usage & transaction data: CDRs, tickets, events, other logs Mediation functionalities Aggregate, correlate, filter and normalize the tickets, producing Records of who, when, what, (where, why) Rating function Prices the records, producing Priced usage records Billing function Creates the invoices taking into account: Accounting, payments, collections, tax, discounts Presentation Formatting, printing and delivery of the bill
48 Call Detail Records The CDR can contain Called / Received / Forwarded Type of basic (GSM) service: speech, data, fax, sms Type of supplementary service IN triggering Event time and date Event duration Charging principle (IMSI, MSISDN) B subscriber, C subscriber Pre-billing information
49 Mediation Collects or receives the information from the various network elements CDRs or raw data Aggregates the records For batch processing Normalizes the records Information can be lacking, must be collated etc. Filters unmeaningful records Operator's own rules Produces statistics
50 Rest Of The Billing Process Rating Price tags are put on unified usage records Price is based on tariff tables A function of time, duration, local/long distance etc. Billing Discounts (family, volume) Usage matched with customer accounts Connection to Customer Care Software (CRM) Tax Invoicing Formatting the actual bill Customers can have several subscriptions Printing and delivery
51 Hot Billing Also called real time billing Needed for spending limits and pre-paid accounts In theory customer's account is monitored in real time and the service is shut off when the limit is reached In practice this is impossible Real time is expensive (processing requirements) Simultaneous services available (voice, SMS, GPRS) Real time billing requires specialized software and tight systems integration across the services
52 Billing Schemes Monthly flat rate fee (ADSL, GPRS, local calls) Per minute (speech, circuit data, video conferencing) Per megabyte (GPRS, WLAN) Per message (SMS, ) Per view (video on demand) Per transaction (music downloads) Per click (click through advertising (billing can be negative, too)) Per page (fax) Per $ (commission) Per bullet (interactive games) Or per combinations of the above Or modified by daytime, volume etc.
53 An Estimate On CDR Volumes by Jean-Claude Sotto GSM 2 CDRs / call 3 calls / subscriber / day ~6 CDRs / subscriber / day GPRS 15 CDRs / PDP context (WAP + GGSN + SGSN) 3 contexts / subscriber / day ~45 CDRs / subscriber / day UMTS GPRS + Services + QoS -> CDRs 6 contexts / subscriber / day ~130 CDRs / subscriber / day
54 Changing Billing Models More actors Network operator Service (virtual network) operator Content service provider Content provider New billing models Sponsoring Cost sharing Service provisioning Commission
55 Summary Of Billing Billing is an important telco process It requires heavy duty processing Many operators have multiple billing systems for historical reasons Fixed line telephony, mobile telephony, Internet services Also there is a psychological limit to what the customer is willing to accept as a "communications bill"
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