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Networking: A Key Driver for Globalization

Explore the role of networking in driving globalization and the challenges of connecting remote areas. Learn about low-cost infrastructure, village connectivity, base station routers, and low-cost computing devices.

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Networking: A Key Driver for Globalization

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  1. Networking: A Key Driver for Globalization Krishan K. Sabnani Networking Research, Bell Labs August 27, 2007

  2. Summary • A major driver for increased globalization is telecom and Internet • Because low cost of connectivity and networking, distances between US, Europe, and emerging countries have been greatly reduced • Most of the new growth in telecom and Internet is in Asia • Economies of China and India are growing at ~10% rates due to globalization, outsourcing of manufacturing and services from US and Europe • Low tele-densities (20% in India) But vast majority in emerging countries still disconnected – connecting them will require disruptive networking technologies and products: • Low-cost (due to customers with very low ARPUs) • Auto-configurable, robust to power outages, heat, dust, …

  3. The Network Evolution Volume of data traffic exceeds voice traffic Content trafficbecomesdominant …Today… Yesterday… • Networks were designed to carry voice traffic • Data traffic mostly overlaid on voice networks (using modems) • Networks are designed to carry primarily data traffic • Voice traffic overlaid on data networks (e.g. VoIP) …Tomorrow… • Future networks should be designed primarily for efficient content distribution and content search/location • Content distribution should not only be overlaid, but built in from ground up • Future networks should also be able to effectively carry best-effort data traffic and QoS-sensitive multimedia traffic • New content applications being deployed faster in Japan and Korea because of large broadband deployment

  4. Tomorrow’s Converged Network 3G CellularNetworks EnterpriseNetworks HomeNetworks AccessRouter RadioController EdgeRouter Qualityof Service(e.g. for voice) Always-On Global Roaming Next-Gen MetroNetworks Services Enablement Layer QoS-EnabledPacket Core Network AccessRouter EdgeRouter EdgeRouter Personalization UserMobility Network Intelligence AccessRouter 4G/Mesh Traffic Type (Multimedia)

  5. An emerging country like India has unique networking needs 740 million people live in rural villages • Low incomes: monthly per-capita income - $17.50 • Low literacy: 60% • Unreliable power: frequent outages • Low teledensity: 2 phones per 100 people • Low PC penetration • Very few Internet users

  6. Challenges for Networking to Improve Globalization • Low cost infrastructure • VillageNet: Connectivity of remote villages at very low price points • Base Station Router: Cellular network in a box • Low cost handsets • $30 handset, $100 laptop • Addition of broadcast channels for content distribution to current Internet Bell LabsPrograms

  7. VillageNet: 802.11-based Broadband Connectivity for Rural Areas • Goal 1: Provide a broadband “pipe” to villages in rural areas • Enable applications such as telemedicine, distance education, weather/crop info, e-governance etc • Goal 2: Infrastructure should be highly inexpensive • Because of low paying capacity of people Environment (in India): • Most villages are within 25 Kms of a fiber drop - small towns (called “gateway” nodes) with Internet connectivity • Average inter-village distance: 7-8 Kms • Last “25 Kms” problem: how to extend this internet connectivity to the villages in an inexpensive manner?

  8. VillageNet Approach (see also TIER, DGP) Use commodity IEEE 802.11 radio equipment to reduce costs Use multi-hop mesh architecture built out from gateway node to cover long distance • point-to-point links established using directional antennas mounted on towers to establish line-of-sight

  9. VillegeNet Data Access over Unreliable Wireless Meshes • Nodes are power-constrained, may be down due to unreliable power • Data cache Data center Minimize communication to conserve power • Cache items based on access patterns • Batch queries, route results along optimal routes Route around power outages to maximize throughput Data center Data cache Queries Kiosk

  10. Base Station Router: Cellular Network in A Box O Mobile Switching Center O O Base Station Router terminates all air-interface-specific functions in the base station Can create low-cost networks with one backhaul link Packet backhaul Telephone Network circuit voice O Radio Controller Base Station Packet Backhaul packet data Internet Mobile Router Mobile Router Base Station • Collapsing Radio Access Network elements into the base station simplifies network and reduces latency • Pushing IP intelligence to the base station results in better Quality of Service support Base Station Router

  11. Low-Cost Computing Devices Current low-cost PC efforts • One Laptop Per Child (MIT Media Labs - $100PC) • Eduwise (Intel) • Simputer (Picopeta) Distinctive Features • Thin clients (network computing), open-source, low power displays Widespread Adoption? Meanwhile … • 200m mobile subscribers in India growing at 8m a month! • 500m mobile subscribers in China growing at 6m a month! • By 2010, 3.7b worldwide cell phone subscribers! • Cell phone costs coming down dramatically (< $50) Could cell phones be the low cost computing devices of the future?

  12. Challenge for Educational Institutions • What should educational institutions do to train their students in globalization? • Expose students to unique challenges of developing countries like China and India • Teach courses on how to design low cost products • Offer courses over networks of the future • Conduct research in network based computing for low-cost laptops and handsets

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