G. Xylomenos and G.C. Polyzos, "Link Layer Support for Quality of Service on Wireless Internet Links," IEEE Personal Communications, vol. 6, no. 5, pp. 52-60, October 1999.  Home/Search   Document Details and Download   Summary   Related Articles   Check

....losses as signal of network congestion and accordingly decreases the transmission rate. These transmission rate decreases are unnecessary and lead to resource inefficiency. Two types of solutions to this problem have been proposed: Modifying TCP and Improving the Link Reliability observed by TCP [19]. Many TCP modifications have been introduced in literature, e.g. 2] 3] 4] 5] 7] However, all of the solutions present problems related to reliability, scalability, security and backward compatibility. Improving the link reliability observed by TCP seems more appealing because only ....

....[5] 7] However, all of the solutions present problems related to reliability, scalability, security and backward compatibility. Improving the link reliability observed by TCP seems more appealing because only modifications in the elements involved in the wireless communication are required [19]. This can be achieved either by means of error correcting protocols This work was partially supported by MIUR under contract RAMON. Authors are with Dipartimento di Ingegneria Informatica e delle Telecomunicazioni, University of Catania, Catania (ITALY) email: laura.galluccio, ....

G. Xylomenos and G. C. Polyzos. Link Layer Support for Quality of Service on Wireless Internet Links. IEEE Personal Communications. Vol. 6, No. 5. pp. 52-60. October 1999.

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G. Xylomenos and G.C. Polyzos, "Link Layer Support for Quality of Service on Wireless Internet Links," IEEE Personal Communications, vol. 6, no. 5, pp. 52-60, October 1999.

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G. Xylomenos and G.C. Polyzos. Link layer support for Quality of Service on wireless Internet links. IEEE Personal Communications, 6(5):52--60, October 1999.

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G. Xylomenos and G.C. Polyzos. Link layer support for Quality of Service on wireless Internet links. IEEE Personal Communications, 6(5):52--60, October 1999.

....to be easily implemented and then added or removed depending on future needs. We summarize below the design of our architecture, which was originally intro8 Time Stamper Sorted Heap SCFQ Frame Scheduler Rate Table Virtual Time Fig. 7. Self Clocked Fair Queueing frame scheduler. duced in [14], while the remainder of the article focuses on its interface with various Internet Quality of Service approaches. Fig. 6 shows an outline of our scheme. Incoming packets are classified and passed to the most appropriate service, based on their sending application. A simple classifier may use the ....

G. Xylomenos, G. Polyzos, Link Layer Support for Quality of Service on Wireless Internet Links, IEEE Personal Communications 6 (1999) 52--60.

....Packets that cannot be matched to any enhanced service are mapped to the default, best effort, service. Each service operates in isolation, using retransmissions, FEC, or any other mechanism desired, and keeping its own 4 The multi service link layer architecture was briefly introduced in [13]. buffers and timers, that may be optimized for the underlying link. Outgoing frames are passed to a scheduler which tags each frame with a service number and eventually passes it to the MAC sublayer for transmission. At the receiver, frames are passed to the appropriate service (based on their ....

Xylomenos, G., Polyzos, G.C.: Link Layer Support for Quality of Service on Wireless Internet Links. IEEE Personal Communications 6 (1999) 52--60

No context found.

G. Xylomenos and G. Polyzos. Link Layer Support for Quality of Service on Wireless Internet Links. IEEE Personal Communications, October 1999.

No context found.

G.Xylomenos, G. C. Polyzos. Link Layer Support for Quality of Service on Wireless Internet Links, IEEE Personal Communications. pp.52-60, Oct. 1999

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