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Chapter 0: Chances of Wireless Communications Yu-Chee Tseng Dept of Computer Science and Information Engr. National Chiao-Tung University Ch0:1 Tseng:WirelessNet Wireless Network Architectures Ch0:2 Tseng:WirelessNet Ch0:3 Tseng:WirelessNet Wireless Network Models With Infrastructure: Without Infrastructure (ad hoc networks): Ch0:4 Tseng:WirelessNet Cellular: Infrared: Ch0:5 Tseng:WirelessNet 無線隨意網路 (Multi-hop Ad Hoc Network) Ch0:6 Tseng:WirelessNet 感測網路(Sensor Network) Ch0:7 Tseng:WirelessNet Bluetooth Technology Ch0:8 Tseng:WirelessNet Applications of Wireless Communications Ch0:9 Tseng:WirelessNet Mobile Computing Wireless Communication Technology Portable Computer Technology appearance of light-weight computing devices Vision: Ubiquitous Computing / Nomadic Computing computers everywhere; information anywhere anytime Ch0:10 Tseng:WirelessNet Features of Wireless Communication one global bandwidth shared by all users fortunately channels, such as (frequency, time-slot) pairs, can be reused Radio-based low bandwidth high latency radio communication links higher bit error rate (BER) fading short-term multipath fading (Rayleigh effect) due to same signal taking different paths and arriving at the receiver shifted in phase long-term fading (radio shadow) topology of the terrain (like mountains) can cause signal dropouts Ch0:11 Tseng:WirelessNet solution: deploying multiple antenna sites Features of Portable Computers Limited resources: limited energy (battery life) limited CPU speed limited memory Less reliable, less secure Ch0:12 Tseng:WirelessNet Mobile System Architecture Cellular-based Ad hoc Relaying link Wireless ATM Packet Radio Network Sensor Networks Ch0:13 Tseng:WirelessNet Mobile Computing Applications/Services Wireless information services: Pico-service: local parking lot availability, layout of a building Micro-service: train and bus station information, local traffic information Macro-service: weather information, local news service Wide Area Service: stock market information Real-time multimedia applications tele-medicine tele-computing collaborative environments Ch0:14 Tseng:WirelessNet Research: Hardware Aspects power saving display, LCD low-voltage CPUs AT&T's Hobbit chip: 5,000 times less power consumption in doze mode than active mode radio: IEEE 802.11 power consumption example: transmit: 1400 mW receive: 1000 mW idle: 830 mW sleep: 130 mW size, user interface (wearable computers) Ch0:15 Tseng:WirelessNet Research: Software Aspects mobile communication protocols WAP wireless TCP Mobile IP MAC protocols Energy-efficient protocol related to the above send/receive/idle/sleep model ... and many others Ch0:16 Tseng:WirelessNet Research: Algorithmic Aspects Bandwidth saving Data caching for broadcast channel allocation communication scheduling math. analysis Ch0:17 Tseng:WirelessNet
