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1 Mobile ad hoc networking with a view of 4G wireless: Imperatives and challenges Myungchul Kim Tel: 042-866-6127.

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Presentation on theme: "1 Mobile ad hoc networking with a view of 4G wireless: Imperatives and challenges Myungchul Kim Tel: 042-866-6127."— Presentation transcript:

1 1 Mobile ad hoc networking with a view of 4G wireless: Imperatives and challenges Myungchul Kim mckim@icu.ac.kr Tel: 042-866-6127

2 2 by J. Liu and Imrich Chlamtac, Ch 1 of Mobile Ad Hoc Networking, Wiley-Interscience, 2004. Introduction –Mobile devices –The worldwide number of cellular users has been doubling every 1 1/2 years. –The number of mobile connections and the number of shipments of mobile and Internet terminals will grow by another 20-50%. -> the total number of mobile Internet users soon to exceed that of fixed-line Internet users. –Situations in which user-required infrastructure is not available, cannot be installed, or cannot be installed in time in a given geographic area. -> mobile ad hoc network. –Ad hoc networking: the 4G network architecture.

3 3 Review of wireless network evolution –Wireless communication characteristics

4 4 Review of wireless network evolution –Wireless communication characteristics

5 5 –Types of wireless networks By network formation and architecture: infrastructure-based network, Infrastructureless (ad hoc) network. By communication coverage area: –wireless wide area networks (Wireless WANs) e.g., cellular networks –wireless metropolitan area networks (Wireless MANs) e.g., local multipoint distribution services (LMDS), multichannel multipoint distribution services (MMDS) and IEEE 802.16 –wireless LANs e.g., 802.11 (Wi-Fi) and Hiperlan2 –wireless personal area networks (Wireless PANs): 10 meter range, e.g., Bluetooth and infrared light. By access technology –GSM, TDMA, CDMA, Sattellite, Wi-Fi, Hiperlan2, Bluetooth, Infrared. By network applications –Enterprise, Home, Tactical, Sensor, Pervasive, Wearable Computing, Automated Vehicle Networks.

6 6 –Table 1.1

7 7 –Table 1.1 – cont’

8 8 –Forces driving wireless technology evolution The need to integrate various types of wirless networks The need to integrate wireless platforms with fixed network backbone infrastructure The need to support high-speed multimedia services The need for convergence in network infrastructure The need to support high mobility and device portability The need to support noninfrastructure-based networks The need to add location intelligence The need to lower the cost of wireless services The need for greater standard interoperability.

9 9 –4G wireless architecture and capabilities ]integrating different types of wireless networks with wireline backbone networks seamlessly and the convergence of voice, multimedia, and data traffic over a single IP-based core network. Network integration All-IP networks, e.g., VoIP Lower cost and higher efficiency Ultrahigh speed and multimedia applications Ubiquitous computing Support of Ad Hoc networking (MANET) Location intelligence

10 10 –Fig 1.1

11 11 Mobile Ad Hoc Networks –Characteristics and advantages

12 12 –Table 1.2

13 13 –Table 1.2 – cont’

14 14 –Design issues and constraints They are infrastructureless: brings added difficulty in fault detection and management. Dynamically changing network topologies Physical layer limitation: hidden terminal problem, collisions, packet loss Limited link bandwidth and quality Variation in link and node capabilities Energy constrained operation Network robustness and reliability Network security Network scalability Quality of Service

15 15 Technical challenges and research overview –Fig 1.3

16 16 Technical challenges and research overview –Media access control and optimization Fig 1.4 and Fig 1.5

17 17 –Media access control and optimization RTS and CTS before the data transmission has actually taken place.-> virtual carrier sensing loss/collision of RTS and CTS -> wait for a random backoff duration –Multicasting and broadcasting Avoid the significant delays in route recovery caused by link failures

18 18 –Ad hoc routing Frequent changes and unpredicability in network topologies Proactive routing protocols and reactive on- demand routing protocols Fig 6.1

19 19 Fig 6.2 and Fig 6.3

20 20 –TCP issues Packet losses <- congestion (wired), wireless medium, frequent disconnection from mobility, …. Measurements using 2Mbps 802.11 MAC have shown that TCP throughput decreases by 50% when the traffic moves from the one-hop to the two-hop path. –Energy conservation The wireless interface consumes nearly the same amount of energy in the receive, transmit, and idle states, whereas in the sleep state, an interface cannot transmit or receive, and its power consumption is highly reduced. –Network security

21 21 –Simulation and performance evaluation OPNET, NS-2, Glomosim -> different results –QoS and Optimization May be impossible if the nodes are highly mobile –Future research directions Routing protocol optimization: GPS, multicasting QoS support Simulation: do not exceed networks of hundred nodes in size Security Standardization and interoperability

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