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Ch 12 Long-Distance and Local Loop Digital Technologies. Motivation. Connect computers across Large geographic distance Public right-of-way Streets Buildings Railroads. Digital Telephone. Analog signals degrade as they pass over copper wires
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Motivation • Connect computers across • Large geographic distance • Public right-of-way • Streets • Buildings • Railroads
Digital Telephone • Analog signals degrade as they pass over copper wires • Amplifier along a path distorts the signal slightly and introduce noise • Digitalization: convert an analog signal to digital form • Analog-to-digital (AD) converter
Digital Telephone • Designed for use in voice system • Analog audio from use’s telephone converted to digital format • Digital format sent across network • Digital format converted back to analog audio
Illustration of Digitized Signal • Pick neatest digital value for each sample • coded digitally as 000-010-100-100-111-001-001-001-001-001…
Illustration of Digitized Signal • Nyquist’s Sampling Theorem • If a continuous signal is sampled at a rate greater than twice the highest significant frequency, the original signal can be reconstructed from the samples • Human voice up to 4k Hz • Telephone standard known as Pulse Code Modulation (PCM) • Sample rate 8k Hz • Sample value in range 0 to 255
Long-Distance Transmission Technologies • General solution: lease transmission facilities from telephone company • Point-to-point topology • NOT part of conventional telephone system • Copper, fiber microwave, or satellite channels available • Customer chooses analog or digital
Equipment for Leased Connections • Analog circuit • Modem required at each end • Digital Circuit • DSU / CSU required at each end
Digital Circuit and DSU/CSUs • Needed because telephone industry digital encoding differs from computer industry digital encoding
Digital Circuit and DSU/CSUs • Channel Service Unit (CSU) portion • Handles line termination and diagnostics • Line connection test • Loop-back capacity when installing and testing • Prohibits excessive consecutive 1’s (non-zero voltage for 1’s) to prevent excessive current over the copper • Balanced encoding scheme: success 1 bits alternating between +3V and -3V • Data Service Unit (DSU) portion • Translates data between two encodings
Telephone Standards • Cost of digital circuit depends on • Distance • Capacity
Common Data Rates • Most common in North America • T1 circuit • T3 circuit (28 times T1) • Also available • Fractional T1 (e.g., 56 Kbps circuit) since T1 is too expensive to private individual • The phone company uses TDM to subdivide a T1 circuit
Inverse Multiplexing • Combines two or more circuits to produce intermediate capacity circuit • A DSU/CSU is required at the ends of each T1 circuit • How to efficiently use the bandwidth? • Proxy • Load balancing
Highest Capacity Digital Circuits • Also available from phone company as the major trunk connections across the country • Use optical fiber • Electrical standards called Synchronous Transport Signal (STS) • Optical standards called Optical Carrier (OC)
Local Subscriber Loop • Telephone terminology • Refers to connection between residences / businesses and the phone company central office (CO) • Crosses public right-of-way • Originally analog
Digital Local Loop Technologies • Integrated Services Digital Network (ISDN) • Provides digitalized voice and data over conventional TP local loop wires • Provides simultaneous voice / data services • Basic Rate Interface (BRI) offers three separate (2B+D) digital channels • B channel: 64k bps for voice/data • D channel: 16k bps for controlling purpose • ISDN now is an expensive alternative that offers little throughput
Digital Local Loop Technologies • Asymmetric Digital Subscriber Line (ADSL) • Runs over conventional POTS wiring • Provides simultaneous voice / data services • Higher capacity, but asymmetric • Downstream can reach 6.14 Mbps • Upstream can reach 640 Kbps • Optimized for typical users who receive much more information than they send
Other DSL Technologies • Symmetric Digital Subscriber Line (SDSL) • Uses a different encoding scheme than ADSL • Can operate over local loops for which ADSL is inappropriate • Business policy • High-Rate Digital Subscriber Line (HDSL) • Provides 1.544M bps in two directions • Short distance limitation • Requires two independent TPs, but can tolerate failure gracefully (i.e., operate at one-half rate)
Cable Modem Technology Source: IEC On-Line Education
Cable Modem Technology • Wiring (e.g., TPs) places an upper bound on how fast data can be transferred • Deliver over existing CATV coaxial cable • Cable system has unused bandwidth • Group of subscribers in neighborhood share the downstream bandwidth (up to 36 Mbps) by FDM
Cable Modem Technology • Upstream communication • Dual path approach in dial-up modem without changing the existing cable system • Modification to the basic infrastructure (e.g., HFC) • VOD services beyond computer network connections
Hybrid Fiber Coax (HFC) Neighborhood area Trunk FDM TDM
Hybrid Fiber Coax (HFC) • Allow 2-way communication across a cable system • Optical fiber • Highest bandwidth • Replaces trunk from CO to neighborhood concentration points • Coaxial cable • Less bandwidth • Extends from neighborhood concentration point to individual subscribers (feeder circuit) • Replaces all amplifier / modem with 2-way devices
Hybrid Fiber Coax (HFC) • Combination of FDM & TDM • 5-50 MHz : upstream • 50-450 MHz : analog TV(6M/ch) • 450-750 MHz : downstream • The group shares one carrier frequency with TDM
Fiber To The Curb (FTTC) (人行道的)路緣 Source: Bell Labs Technique Journal
Fiber To The Curb (FTTC) • Differs from HFC • Run OF closer to the end subscribers • Uses two media in each feeder circuit to provide an additional service
Broadband Access Technologies Source: TEN-Telecom Workshop
Summary • Technologies exist that span long distances • Leased analog lines (require modems) • Leased digital circuits (require DSU / CSUs) • Digital circuits • Available from phone company • Cost depends on distance and capacity • Popular capacities called T1 and T3 • Fractional T1 also available
Summary (continued) • High capacity circuits available • Popular capacities known as OC-3, OC-12 • Local loop refers to connection between central office and subscriber • Local loop technologies include • DSL (especially ADSL) • Cable modems