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#1EETS 8316/NTU TC 745, Fall 2003 ENGINEERINGSMU Southern Methodist University Fall 2003 EETS 8316/NTU CC745-N Wireless Networks Lecture 2: Switching Network Instructor : Jila Seraj email: jseraj@engr.smu.edu http://www.engr.smu.edu/~jseraj/ tel: 214-505-6303
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#2EETS 8316/NTU TC 745, Fall 2003 ENGINEERINGSMU Review In the last meeting we discussed Motivation for wireless networks Basic Terminology Protocol stack Course objective Term paper First assignment: send your goals
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#3EETS 8316/NTU TC 745, Fall 2003 ENGINEERINGSMU References and Links IEEE Wireless Communications, IEEE’s primary wireless magazine. Easy to read articles. Good quality, refereed articles. http://www.comsoc.org http://www.comsoc.org IEEE Communications, IEEE’s primary communications magazine. Approximately 50% is wireless related. Easy to read articles. Good quality, refereed articles. http://www.comsoc.org http://www.comsoc.org
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#4EETS 8316/NTU TC 745, Fall 2003 ENGINEERINGSMU References and Links, (Cont) RCR, Weekly publication. Most articles/stories on-line. Registration on-line also at: http://www.rcrnews.com http://www.rcrnews.com Wireless Week, Weekly publication. Most articles/stories on-line. Registration on-line also at: http://www.wirelessweek.comhttp://www.wirelessweek.com http://www.fair-rite.com for free US spectrum allocation poster http://www.fair-rite.com
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#5EETS 8316/NTU TC 745, Fall 2003 ENGINEERINGSMU References and Links, (Cont) http://www.fcc.gov for spectrum allocation for US market, who has what, latest rulings, etc. http://www.fcc.gov http://www.phonescoop.com/glossary http://www.phonescoop.com/glossary
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#6EETS 8316/NTU TC 745, Fall 2003 ENGINEERINGSMU How Do We Make A call? A caller dials some digits on it phone Waits for the called person to answer Then they talk How does this connection happen? Network
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#7EETS 8316/NTU TC 745, Fall 2003 ENGINEERINGSMU Access Network Direct Connection Fast, but very unpractical
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#8EETS 8316/NTU TC 745, Fall 2003 ENGINEERINGSMU Access Network Operator in central location Delay, not good for large networks
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#9EETS 8316/NTU TC 745, Fall 2003 ENGINEERINGSMU Access Network Central Switching Predictable delay, Limited subscribers, Relatively cost effective
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#10EETS 8316/NTU TC 745, Fall 2003 ENGINEERINGSMU Access Network Hierarchical Switching Predictable delay, “unlimited” number of subscribers, cost effective
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#11EETS 8316/NTU TC 745, Fall 2003 ENGINEERINGSMU Hierarchical Network A group of subscribers are directly connected to one local switching center, “Local Switch” Local switching centers are connected to each other or to a higher level switch, “Tandem Switch” The hierarchy continues as high as needed. Other types of switches are, Access Tandem, Regional, International
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#12EETS 8316/NTU TC 745, Fall 2003 ENGINEERINGSMU Hierarchical Network Access Tandem Tandem Local Subscriber
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#13EETS 8316/NTU TC 745, Fall 2003 ENGINEERINGSMU PSTN Structure The network discussed above is how PSTN (Public Switched Telephone Network) is structured. The number of levels in the hierarchy is dependent on the network operator and the traffic. What happens between these nodes?
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#14EETS 8316/NTU TC 745, Fall 2003 ENGINEERINGSMU Voice and Signaling Signaling is used to transfer information between entities for the purpose of carrying traffic or performing other functions/ services. Rules governing the signaling between entities are called protocols. There are many signaling protocols, however Signaling System Number 7 is the most commonly used of all
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#15EETS 8316/NTU TC 745, Fall 2003 ENGINEERINGSMU Why SS7? SS7 permits separation of voice and signaling traffic and is used between switching nodes This permits using different networks for each task This opens the door for many functions not available before, such as data base services (800 number services, Intelligent networks, and many others)
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#16EETS 8316/NTU TC 745, Fall 2003 ENGINEERINGSMU Why SS7?, (Cont) SCP SS7 STP STP: Signal Transfer Point SCP: Switching Control Point, stores translation Tables
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#17EETS 8316/NTU TC 745, Fall 2003 ENGINEERINGSMU OSI Model for SS7 TCAP MAP ISUP INAP MUP OMAP Layer 4-7 SCCP MTP Layer 3 Signaling link function, Signaling link physical requirement Layer 1-2
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#18EETS 8316/NTU TC 745, Fall 2003 ENGINEERINGSMU OSI Model for SS7, (Cont) MUP: Mobile User Part MTUP: Mobile Telephony User Part TCAP: Transfer Control Application Part ISUP: ISDN User Part MAP: Mobile Application Part
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#19EETS 8316/NTU TC 745, Fall 2003 ENGINEERINGSMU OSI Model for SS7, (Cont) INAP: Intelligent Network Application Part OMAP: Operation and Maintenance Application Part MTP: Message Transfer Part SCCP: Signaling Connection Control Part
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#20EETS 8316/NTU TC 745, Fall 2003 ENGINEERINGSMU TDMA Network Structure TDMA network consists of the following elements Mobile station (MS) or mobile phone Base Station (BS) and antenna Mobile Switching Center (MSC) and Gateway Mobile Switching Center (GMSC) Visitor Location Center (VLR) Home Location Center (HLR)
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#21EETS 8316/NTU TC 745, Fall 2003 ENGINEERINGSMU TDMA Network Structure Home Location Center (HLR) Authentication Center (AUC) Equipment Identification Center (EIC)
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#22EETS 8316/NTU TC 745, Fall 2003 ENGINEERINGSMU HLR TDMA Network Structure, (Cont) PSTN Base station Air interface Base station GMSC/MSC /VLR BSC Base station controller Mobile station AUC EIC
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#23EETS 8316/NTU TC 745, Fall 2003 ENGINEERINGSMU TDMA Network Structure (Cont) BSC: Detect Mobile Station activity, receive and send signals between MS and MSC, collect measurements, propagate system information, etc. MSC: Perform call set up functions, communicate mobile activity to VLR and HLR, send and receive MS related information to them, etc GMSC: Perform as an MSC and gateway to other networks such as PSTN. In reality every MSC also acts as GMSC
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#24EETS 8316/NTU TC 745, Fall 2003 ENGINEERINGSMU TDMA Network Structure (Cont) VLR: Maintain a data base of the MS in the coverage area of the MSC, containing MS features, registration information, etc. Practically, each MSC is co-located with its own VLR, although it is possible that several MSC share one external VLR HLR: Maintain a database of each MS belonging to the network together with some dynamic and some static information.
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#25EETS 8316/NTU TC 745, Fall 2003 ENGINEERINGSMU TDMA Network Structure (Cont) Dynamic Information are those that will change by mobiles movement in the network such as its current location (which BSC), services activated (call forwarding), last registration time, etc Static Information are those that will not change by mobiles movement in the network such as access to speed dialing.
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#26EETS 8316/NTU TC 745, Fall 2003 ENGINEERINGSMU TDMA Network Structure (Cont) AUC: Authentication Center. Authenticates that the MS is who it claims to be and provide Ciphering Keys EIC: Equipment Identification Center maintains a database of permitted equipment, stolen equipment etc.
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#27EETS 8316/NTU TC 745, Fall 2003 ENGINEERINGSMU Basic Functions Registration —Power Up/Power Down Registration —Location Area Update Registration —Periodical Registration Initiating a call Receiving a call —Paging is the process of searching for an MS in the network. Location Areas are needed to make paging efficient
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#28EETS 8316/NTU TC 745, Fall 2003 ENGINEERINGSMU Location Area LA 1 LA 2 LA3 MSC1 MSC2
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#29EETS 8316/NTU TC 745, Fall 2003 ENGINEERINGSMU Roaming and Registration When a mobile moves in the network, it is called roaming When a mobile is powered up, it sends a registration message to BSC. Registration informs MSC of the presence of the mobile, or that it has changed location MSC request information about the MS from HLR, which replies with subscriber data
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#30EETS 8316/NTU TC 745, Fall 2003 ENGINEERINGSMU Power Up Registration Mobile station sends Registration to BS VMSCHLR VLR 1
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#31EETS 8316/NTU TC 745, Fall 2003 ENGINEERINGSMU Power Up Registration, (cont) MSC checks with VLR and finds out the MS does not have a record in VLR VMSCHLR VLR 1 2
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#32EETS 8316/NTU TC 745, Fall 2003 ENGINEERINGSMU Power Up Registration, (cont) MSC requests information from HLR. HLR send relevant information after AUC and EIC approve the MS VMSCHLR VLR 1 2 3
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#33EETS 8316/NTU TC 745, Fall 2003 ENGINEERINGSMU Power Up Registration, (cont) MSC updates the VLR with MS information, provides the MS with temporary identity and ciphering keys. VMSCHLR VLR 1 2 4 5 3
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#34EETS 8316/NTU TC 745, Fall 2003 ENGINEERINGSMU Location Area Update Registration The coverage area of MSC is divided into location areas. Location areas are chosen by the network operator to simplify operation and improve performance of the network. Every time an MS crosses the boundary between location areas, it re-register with the MSC.
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#35EETS 8316/NTU TC 745, Fall 2003 ENGINEERINGSMU Location Area Update Registration Every time an MSC crosses the boundary between two MSCs, it re-register with the new MSC When MS crosses MSC boundaries, HLR shall inform the old MSC to delete the entries for that MS from its VLR Crossing MSC boundaries normally, coincides with crossing location area boundaries
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#36EETS 8316/NTU TC 745, Fall 2003 ENGINEERINGSMU Crossing MSC Boundaries Registration Every time an MSC crosses the boundary between two MSCs, it re-register with the new MSC New VMSC HLR New VLR Old VLR Old VMSC 1
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#37EETS 8316/NTU TC 745, Fall 2003 ENGINEERINGSMU Location Area Update Registration New VMSC HLR New VLR Old VLR Old VMSC 1 2 The new MSC checks with VLR and finds out the MS does not have a record in VLR
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#38EETS 8316/NTU TC 745, Fall 2003 ENGINEERINGSMU Location Area Update Registration New VMSC HLR New VLR Old VLR Old VMSC 1 2 3 The new MSC requests information from HLR. HLR consults with AUC and EIC. If all was well, it notices that the MS is already registered in the old MSC
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#39EETS 8316/NTU TC 745, Fall 2003 ENGINEERINGSMU Location Area Update Registration New VMSC HLR New VLR Old VLR Old VMSC 1 2 3 4 HLR sends a message to the Old MSC to de-register the MS
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#40EETS 8316/NTU TC 745, Fall 2003 ENGINEERINGSMU Location Area Update Registration New VMSC HLR New VLR Old VLR Old VMSC 1 2 3 4 6 5 Old MSC sends a message to the old VLR to remove records of the MS. After this is done the Old MSC confirms de-registering of the MS to HLR
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#41EETS 8316/NTU TC 745, Fall 2003 ENGINEERINGSMU Location Area Update Registration New VMSC HLR New VLR Old VLR Old VMSC 1 2 3 4 6 5 HLR now sends the requested data about the MS to the new MSC 7
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#42EETS 8316/NTU TC 745, Fall 2003 ENGINEERINGSMU Location Area Update Registration New VMSC HLR New VLR Old VLR Old VMSC 1 2 3 4 6 5 The new MSC updates the New VLR with the MS data 7 8
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#43EETS 8316/NTU TC 745, Fall 2003 ENGINEERINGSMU Location Area Update Registration New VMSC HLR New VLR Old VLR Old VMSC 1 2 3 4 6 5 The new MSC confirms the registration and provides the MS with temporary identity and ciphering keys. 7 8 9
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#44EETS 8316/NTU TC 745, Fall 2003 ENGINEERINGSMU Questions?
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#45EETS 8316/NTU TC 745, Fall 2003 ENGINEERINGSMU Error correction What is Error detection and correction Why do need it Some examples of error detection/correction When due to environmental issues one or more bits in the stream of data is corrupted. Stream of data are divided into smaller packages Error detection is a mechanism by which the receiver of the data stream can detect that there has been an error. Example of error detection is one bit parity Give an example of single parity Error detection happens when we have enough redundant data to correct the error when it happens. Give an example of such error correction.
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#46EETS 8316/NTU TC 745, Fall 2003 ENGINEERINGSMU References Provide name of some good magazine and web pages.
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