CHAPTER 2. Instructor: Mr. Abhijit Parmar Course: Mobile Computing and Wireless Communication ( )
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1 CHAPTER 2 Instructor: Mr. Abhijit Parmar Course: Mobile Computing and Wireless Communication ( )
2 Syllabus
3 Chapter-2.1 Cellular Wireless Networks
4 2.1.1 Principles of Cellular Networks Underlying technology for mobile phones, personal communication systems, wireless networking etc. Developed for mobile radio telephone Replace high power transmitter/receiver systems Typical support for 25 channels over 80km Use lower power, shorter range, more transmitters
5 A. Cellular Network Organization Multiple low power transmitters 100w or less Area divided into cells Each with own antenna Each with own range of frequencies Served by base station Transmitter, receiver, control unit Adjacent cells on different frequencies to avoid crosstalk
6 1.Shape of Cells Square Width d cell has four neighbours at distance d and four at distance Better if all adjacent antennas equidistant Simplifies choosing and switching to new antenna Hexagon Provides equidistant antennas Radius defined as radius of circum-circle Distance from center to vertex equals length of side Distance between centers of cells radius R is Not always precise hexagons Topographical limitations Local signal propagation conditions Location of antennas 3 R 2 d
7 Cellular Geometries
8 2. Frequency Reuse Power of base transceiver controlled Allow communications within cell on given frequency Limit escaping power to adjacent cells Allow re-use of frequencies in nearby cells Use same frequency for multiple conversations frequencies per cell E.g. N cells all using same number of frequencies K total number of frequencies used in systems Each cell has K/N frequencies Advanced Mobile Phone Service (AMPS) K=395, N=7 giving 57 frequencies per cell on average
9 Characterizing Frequency Reuse D = minimum distance between centers of cells that use the same band of frequencies (called cochannels) R = radius of a cell d = distance between centers of adjacent cells (d = R) N = number of cells in repetitious pattern Reuse factor Each cell in pattern uses unique band of frequencies
10 3. Increasing Capacity (1) Add new channels Not all channels used to start with Frequency borrowing Taken from adjacent cells by congested cells Or assign frequencies dynamically Cell splitting Non-uniform distribution of topography and traffic Smaller cells in high use areas Original cells km 1.5 km limit in general More frequent handoff More base stations
11 Cell Splitting
12 Increasing Capacity (2) Cell Sectoring Cell divided into wedge shaped sectors 3 6 sectors per cell Each with own channel set Subsets of cell s channels Directional antennas Microcells Move antennas from tops of hills and large buildings to tops of small buildings and sides of large buildings Even lamp posts Form microcells Reduced power Good for city streets, along roads and inside large buildings
13 Frequency Reuse Example Assume a system of 32 cells with a cell radius of 1.6km, a total of 32 cells, a total frequency bandwidth that supports 336traffic channels, and a reuse factor of N=7. If there are 32 total cells, what geographic area is covered, how many channels are there per cell and what is the total number of concurrent calls that can be handles? Repeat for a cell Radius 0.8km and 128 cells. Ans: Total cells=32 Cell Radius R= 1.6 km Frequency Reuse Factor N=7 Total Traffic Channels=336
14 Frequency Reuse Example
15 Frequency Reuse Example Geogrphic are of Hexagon(cell) = 1.5R 2 3 = 1.5 * (1.6) 2 * 1.73 = 6.65km 2 Total area covered = 6.65 * 32 = 213km 2 No of channels per cell is 336/7= 48 channels per cell No. of concurrent calls= Total channel capacity = 48*32= 1536channels
16 Frequency Reuse Example For R = 0.8km and 128 cells Geogrphic are of Hexagon(cell) = 1.5R 2 3 = 1.5 * (0.8) 2 * 1.73 = 1.66km 2 Total area covered = 1.66 * 128 = 213km 2 No of channels per cell is 336/7= 48 channels per cell No. of concurrent calls= Total channel capacity = 48*128= 6144channels
17 B. Operation of Cellular Systems Base station (BS) at center of each cell Antenna, controller, transceivers Controller handles call process Number of mobile units may in use at a time BS connected to mobile telecommunications switching office (MTSO) One MTSO serves multiple BS MTSO to BS link by wire or wireless MTSO: Connects calls between mobile units and from mobile to fixed telecommunications network Assigns voice channel Performs handoffs Monitors calls (billing) Fully automated
18 Overview of Cellular System
19 Channels Control channels Setting up and maintaining calls Establish relationship between mobile unit and nearest BS Traffic channels Carry voice and data
20 Typical Call in Single MTSO Area (1) Mobile unit initialization Scan and select strongest set up control channel Automatically selected BS antenna of cell Usually but not always nearest (propagation anomalies) Handshake to identify user and register location Scan repeated to allow for movement Change of cell Mobile unit monitors for pages
21 Typical Call in Single MTSO Area (1) Mobile originated call Check set up channel is free Monitor forward channel (from BS) and wait for idle Send number on pre-selected channel
22 Typical Call in Single MTSO Area (1) Paging MTSO attempts to connect to mobile unit Paging message sent to BSs depending on called mobile number Paging signal transmitted on set up channel
23 Typical Call in Single MTSO Area (1) Call accepted Mobile unit recognizes number on set up channel Responds to BS which sends response to MTSO MTSO sets up circuit between calling and called BSs MTSO selects available traffic channel within cells and notifies BSs BSs notify mobile unit of channel
24 Typical Call in Single MTSO Area (2) Ongoing call Voice/data exchanged through respective BSs and MTSO Handoff Mobile unit moves out of range of cell into range of another cell Traffic channel changes to one assigned to new BS Without interruption of service to user
25 Other Functions Call blocking During mobile-initiated call stage, if all traffic channels busy, mobile tries again After number of fails, busy tone returned Call termination User hangs up MTSO informed Traffic channels at two BSs released Call drop BS cannot maintain required signal strength Traffic channel dropped and MTSO informed Calls to/from fixed and remote mobile subscriber MTSO connects to PSTN MTSO can connect mobile user and fixed subscriber via PSTN MTSO can connect to remote MTSO via PSTN or via dedicated lines Can connect mobile user in its area and remote mobile user
26 C. Mobile Radio Propagation Effects Signal strength Must be strong enough between base station and mobile unit to maintain signal quality at the receiver Must not be so strong as to create too much cochannel interference with channels in another cell using the same frequency band Fading Signal propagation effects may disrupt the signal and cause errors.
27 D: Handoff: Performance Metrics Different performance metrics used to make handoff decision: Cell blocking probability probability of a new call being blocked Call dropping probability probability that a call is terminated due to a handoff Call completion probability probability that an admitted call is not dropped before it terminates Probability of unsuccessful handoff probability that a handoff is executed while the reception conditions are inadequate
28 Handoff Performance Metrics Handoff blocking probability probability that a handoff cannot be successfully completed Handoff probability probability that a handoff occurs before call termination Rate of handoff number of handoffs per unit time Interruption duration duration of time during a handoff in which a mobile is not connected to either base station Handoff delay distance the mobile moves from the point at which the handoff should occur to the point at which it does occur
29 Handoff Strategies Used to Determine Instant of Handoff Relative signal strength Relative signal strength with threshold Relative signal strength with hysteresis Relative signal strength with hysteresis and threshold Prediction techniques
30 Handoff Strategies Used to Determine Instant of Handoff
31 E: Power Control Design issues making it desirable to include dynamic power control in a cellular system Received power must be sufficiently above the background noise for effective communication. Reflection, Diffraction, Scattering Desirable to minimize power in the transmitted signal from the mobile Reduce cochannel interference, alleviate health concerns, save battery power In SS systems using CDMA, it s desirable to equalize the received power level from all mobile units at the BS
32 Types of Power Control Open-loop power control Depends solely on mobile unit No feedback from BS Not as accurate as closed-loop, but can react quicker to fluctuations in signal strength Closed-loop power control Adjusts signal strength in reverse channel based on metric of performance (received signal power level, received SNR, received bit error rate BS makes power adjustment decision and communicates to mobile on control channel Also used to adjust power in forward channel, mobile provide information, about received signal quality to BS then adjust transmitted power.
33 F: Traffic Engineering Ideally, available channels would equal number of subscribers active at one time In practice, not feasible to have capacity handle all possible load For N simultaneous user capacity and L subscribers L <= N non blocking system L >= N blocking system
34 Blocking System Performance Questions a) What is degree of Blocking? Probability that call request is blocked? a) Blocked calls are queued for service: What capacity is needed to achieve a certain upper bound on probability of blocking? What is the average delay? What capacity is needed to achieve a certain average delay?
35 Traffic Intensity Load presented to a system: A h = mean rate of calls attempted per unit time h = mean holding time per successful call A = average number of calls arriving during average holding period, for normalized
36 Factors that Determine the Nature of the Traffic Model Manner in which blocked calls are handled Lost calls delayed (LCD) blocked calls put in a queue awaiting a free channel Blocked calls rejected and dropped Lost calls cleared (LCC) user waits before another attempt Lost calls held (LCH) user repeatedly attempts calling Number of traffic sources Whether number of users is assumed to be finite or infinite For infinite source fixed arrival rate For finite source depend on the number of sources already engaged.
37 2.1.2 First-Generation Analog Advanced Mobile Phone Service (AMPS) AT&T Original cellular telephone networks Analog traffic channels Early 1980s in North America Also common in South America, Australia, and China In North America, two 25-MHz bands allocated to AMPS One for transmission from base to mobile unit ( MHz) One for transmission from mobile unit to base ( Mhz) Each band split in two to encourage competition
38 AMPS Parameters
39 AMPS Operation AMPS-capable phone has numeric assignment module (NAM) in readonly memory NAM contains number of phone Assigned by service provider Serial number of phone Assigned by the manufacturer When phone turned on, transmits serial number and phone number to MTSO MTSO has database of mobile units reported stolen Uses serial number to lock out stolen units MTSO uses phone number for billing If phone is used in remote city, service is still billed to user's local service provider
40 Call Sequence Subscriber initiates call by keying in phone number and presses send key MTSO verifies number and authorizes user MTSO issues message to user s cell phone indicating send and receive traffic channels MTSO sends ringing signal to called party Party answers; MTSO establishes circuit and initiates billing information Either party hangs up; MTSO releases circuit, frees channels, completes billing
41 AMPS Control Channels 21 full-duplex 30-kHz control channels Transmit digital data using FSK Data are transmitted in frames Control information can be transmitted over voice channel during conversation Mobile unit or the base station inserts burst of data Turn off voice FM transmission for about 100 ms Replacing it with an FSK-encoded message Used to exchange urgent messages Change power level Handoff
42 AMPS Control Channel Frame formats
43 2.1.3 Second-Generation TDMA Differences Between First and Second Generation Systems: Digital traffic channels first-generation systems are almost purely analog (using FM) ; second-generation systems are digital Encryption all second generation systems provide encryption to prevent eavesdropping Error detection and correction second-generation digital traffic allows for detection and correction, giving clear voice reception Channel access second-generation systems allow channels to be dynamically shared by a number of users
44 2 nd generation Cellular Systems
45 Mobile Wireless TDMA Design Considerations Number of logical channels (number of time slots in TDMA frame): 8 Maximum cell radius (R): 35 km Frequency: region around 900 MHz Maximum vehicle speed (V m ):250 km/hr Maximum coding delay: approx. 20 ms Maximum delay spread ( m ): 10 s Bandwidth: Not to exceed 200 khz (25 khz per channel)
46 GSM Network Architecture
47 Mobile Station Mobile station communicates across Um interface (air interface) with base station transceiver in same cell as mobile unit Mobile equipment (ME) physical terminal, such as a telephone or PCS ME includes radio transceiver, digital signal processors and subscriber identity module (SIM) GSM subscriber units are generic until SIM is inserted SIMs roam, not necessarily the subscriber devices
48 Base Station Subsystem (BSS) BSS consists of base station controller(bsc) and one or more base transceiver stations (BTS) Each BTS defines a single cell Includes radio antenna, radio transceiver and a link to a base station controller (BSC) BSC reserves radio frequencies, manages handoff of mobile unit from one cell to another within BSS, and controls paging
49 Network Subsystem (NS) NS provides link between cellular network and public switched telecommunications networks Controls handoffs between cells in different BSSs Authenticates users and validates accounts Enables worldwide roaming of mobile users Central element of NS is the mobile switching center (MSC)
50 Mobile Switching Center (MSC) Databases Home location register (HLR) database stores information about each subscriber that belongs to it Visitor location register (VLR) database maintains information about subscribers currently physically in the region Authentication center database (AuC) used for authentication activities, holds encryption keys Equipment identity register database (EIR) keeps track of the type of equipment that exists at the mobile station
51 TDMA Format Time Slot Fields Trail bits allow synchronization of transmissions from mobile units Encrypted bits encrypted data Stealing bit - indicates whether block contains data or is "stolen" Training sequence used to adapt parameters of receiver to the current path propagation characteristics Strongest signal selected in case of multipath propagation Guard bits used to avoid overlapping with other bursts
52 GSM Speech Signal Processing
53 GSM Signaling Protocol Architecture
54 Functions Provided by Protocols Protocols above the link layer of the GSM signaling protocol architecture provide specific functions: Radio resource management Mobility management Connection management Mobile application part (MAP) BTS management
55 2.1.4 Second Generation CDMA Advantages of CDMA Cellular Frequency diversity frequency-dependent transmission impairments have less effect on signal Multipath resistance chipping codes used for CDMA exhibit low cross correlation and low autocorrelation Privacy privacy is inherent since spread spectrum is obtained by use of noise-like signals Graceful degradation system only gradually degrades as more users access the system
56 Drawbacks of CDMA Cellular Self-jamming arriving transmissions from multiple users not aligned on chip boundaries unless users are perfectly synchronized Near-far problem signals closer to the receiver are received with less attenuation than signals farther away Soft handoff requires that the mobile acquires the new cell before it relinquishes the old; this is more complex than hard handoff used in FDMA and TDMA schemes
57 Mobile Wireless CDMA Design Considerations RAKE receiver when multiple versions of a signal arrive more than one chip interval apart, RAKE receiver attempts to recover signals from multiple paths and combine them This method achieves better performance than simply recovering dominant signal and treating remaining signals as noise Soft Handoff mobile station temporarily connected to more than one base station simultaneously
58 Principle of RAKE Receiver
59 IS-95: Types of Channels Supported by Forward Link Pilot (channel 0) - allows the mobile unit to acquire timing information, provides phase reference and provides means for signal strength comparison Synchronization (channel 32) - used by mobile station to obtain identification information about cellular system(system time, protocol version, etc.) Paging (channels 1 to 7) - contain messages for one or more mobile stations Traffic (channels 8 to 31 and 33 to 63) the forward channel supports 55 traffic channels
60 Forward Traffic Channel Processing Steps Speech is encoded at a rate of 8550 bps Additional bits added for error detection Data transmitted in 2-ms blocks with forward error correction provided by a convolutional encoder Data interleaved in blocks to reduce effects of errors Data bits are scrambled, serving as a privacy mask
61 Forward Traffic Channel Processing Steps (cont.) Power control information inserted into traffic channel DS-SS function spreads the 19.2 kbps to a rate of Mbps using one row of 64 x 64 Walsh matrix Digital bit stream modulated onto the carrier using QPSK modulation scheme
62 2.1.5 Third Generation Systems ITU s View of Third-Generation Capabilities IMT(International Mobile Telecommunications)-2000 Voice quality comparable to the public switched telephone network 144 kbps data rate available to users in high-speed motor vehicles over large areas 384 kbps available to pedestrians standing or moving slowly over small areas Support for Mbps for office use Symmetrical / asymmetrical data transmission rates Support for both packet switched and circuit switched data services
63 ITU s View of Third-Generation Capabilities An adaptive interface to the Internet to reflect efficiently the common asymmetry between inbound and outbound traffic More efficient use of the available spectrum in general Support for a wide variety of mobile equipment Flexibility to allow the introduction of new services and technologies
64 Alternative Interfaces
65
66
67 CDMA Design Considerations Bandwidth limit channel usage to 5 MHz Chip rate depends on desired data rate, need for error control, and bandwidth limitations; 3 Mcps(mega chips per scond) or more is reasonable Multirate advantage is that the system can flexibly support multiple simultaneous applications from a given user and can efficiently use available capacity by only providing the capacity required for each service
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