1 / 25

Merges of Wireless Communications and Computer Networks

Merges of Wireless Communications and Computer Networks. George Lee. Abstract (1). Merge ATM technology in Wireless Communications Network ATM Wireless Network (ATM as wireless network’s backbone) Merge Wireless technology in LAN/ATM networks Wireless LAN and Wireless ATM

ursala
Download Presentation

Merges of Wireless Communications and Computer Networks

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. 1 Merges ofWireless CommunicationsandComputer Networks George Lee

  2. 2 Abstract (1) • Merge ATM technology inWireless Communications Network • ATM Wireless Network(ATM as wireless network’s backbone) • Merge Wireless technology inLAN/ATM networks • Wireless LAN and Wireless ATM • WLAN: ETSI HIPERLAN (Ad hoc network) IEEE 802.11 (Infrastructure network) • WATM: ACTS (Lucent, NEC, Magic WAND) ATM Forum WATM WG (1999 ?)

  3. 3 Abstract (2) • Issues in ATM Wireless Network • QoS  Voice-Operated Transmission (VOX) Diversity Handoff Layered Cell • Issues in Wireless LAN/ATM • Frequency allocation, Throughput, Mobility,Access Methods for Mobile Interface,Interference and Reliability, QoS,Mobile TCP/IP, TCP/IP over ATM, Security,Power Consumption, Human Safety,...

  4. 4 Introductions • Evolution of wireless communications: • Evolution of computer networks: • LAN • Ethernet, Fast Ethernet, Gigabit Ethernet • FDDI • ATM • WAN • X.25 • Frame relay • ATM

  5. 5 Evolution of mobile multimedia services (Nakamura et. Al)

  6. 6 • The need for ATM in mobile infrastructure • Variable bit rate ( different traffic types) • Voice, FAX, video conference, ... • Wide range of bit rate ( different traffic types) • from low bit rate voice and data to high bit rate video • Asymmetrical communications ( server > client) • WWW, VOD, … • Point-to-Multi-point: • VOD • The need for mobile communicationsin LAN/ATM • Portability + Networking

  7. 7 Merges of Wireless Communications and Computer Networks (3rd gen.)

  8. 8 Merges of Wireless Communications and Computer Networks (4th gen.)

  9. 9 References • H. Nakamura et. al, “Applying ATM to Mobile Infrastructure Networks,” IEEE Communications Magazine, Jan. 1998. • Pahlavan et. al, “Wideband Local Access: Wireless LAN and Wireless ATM,” IEEE Communications Magazine, Nov. 1997. • Crow et. Al, “IEEE 802.11 Wireless Local Area Networks,” IEEE Communications Magazine, Sep. 1997. • Passas et. al, “Quality-of-Service-Oriented Medium Access Control for Wireless ATM Networks,” IEEE Communications Magazine, Nov. 1997.

  10. 10 4 Phases of ATM introduction to mobile networks 1 2A 2B 3 4 Nakamura et. al

  11. 11 Requirements of ATM wireless infrastructure • Power efficiency Voice-Operated Transmission (VOX) BS  MSC STM  ATM Nakamura et. al

  12. 12 • QoS Diversity Handoff: MS  BS  BSC  STM  ATM Nakamura et. al

  13. 13 • To reduce ATM Packetization delay Layered cell: Multiplexing in BS  BSC Multiplexing CPS=Common part sublayer Nakamura et. al Nakamura et. al

  14. 14 Wireless LAN • 2 types of networks: • Defined in • Physical layer • Media Access Control layer

  15. 15 STA = Station BSS = Base Service Set (1) Ad hoc network 802.11

  16. 16 STA = Station BSS = Base Service Set AP = Access Point (2) Infrastructure network ESS = Extended Service Set 802.3, 802.4,802.5, 802.6,or FDDI Backbone 802.11

  17. 17 IEEE 802.11 • BSS & ESSSTA, AP, Portal (See Figure 1 & 2) • 2 types of traffics: • DCF = Distributed Coordination Function • CSMA/CA • Contention-based  Ad hoc/Infrastructure • PCF = Point Coordination Function • AP-controlled polling Infrastructure

  18. 18 IEEE 802.11 (cont.) • 3 types of PHY layers: • FHSS (Frequency Hopping Spread Spectrum) • DSSS (Direct Sequence Spread Spectrum) • IR (infrared) • 2 modes in MAC • Contention mode: DCF only • Switching mode: switch between • Contention Period (CP): DCF • Contention Free Period (CFP): PCF • 3 kinds of MAC frames • Management, Control, Data.

  19. 19 ETSI HIPPERLAN ad hoc network

  20. 20 ETSI HIPPERLAN ad hoc network • Multi-hop ad hoc • 2 types mobile stations: • Non-Forwarder: receives its own frames only • Forwarder: receives all frames and forward • Multi-hop routing protocol • Between Forwarders • MAC • Non-Preemptive Multiple Access (NPMA) • LBT (Listen Before Talk) • Asynchronous transportIsochronous transport

  21. 21 Wireless ATM Architecture AP

  22. 22 Wireless ATM architecture • ACTS (Advanced Communications Technologies and Services) (Lucent, NEC, Magic WAND)ATM Forum WATM WG (1999 ?) • Magic WAND (Wireless ATM Network Demonstrator) • 4 kinds of components • Mobile Terminals (MT), Access Points (AP), ATM Switches (SW), Control Station (CS). • MASCARA (Mobile Access Scheme Based on Contention and Reservation for ATM) • ATM layer  Radio PHY layer • TDMA: variable-length time frames &dynamically allocated fixed-length time slots • Mixed use of Contention, Reservation, & Polling

  23. 23 Conclusion (1) • Frequency allocation • Possible Freq. Bands • 2.4 GHz ISM • 1.9 GHz U-PCS • 5 GHz U-NII • Bit rate improved by • smaller packet • higher freq. Band • new mod. tech. • Throughput • Current: 2-20 Mbps • Goal: Higher bit rate • Mobility • Handoff schemes • Rerouting schemes

  24. 24 Conclusion (2) • Access Methods for Mobile Interface • Wireless Comm.: • TDMA • FDMA • CDMA • Wireless LAN/ATM: • TDMA • FDMA  ABR ? • CDMA  bit rate? • Interference and Reliability • Multi-path fading • ARQ or FEC(Automatic Repeat Request)(Forward Error Correction)

  25. 25 Conclusion (3) • QoS • Voice: • CBR/AAL 1 • IP datagram: • UBR|ABR/AAL 5 •  BER? Handoff ? • Mobile TCP/IP • MS freely moves: • TCP connection ? • IP address ? • TCP/IP over ATM • IP over ATM ? • LAN Emulation? • IP Switching ? • Tag Switching ? • Multi-Protocol over ATM ? • Security • Encryption • Power Consumption • Human Safety

More Related