D.O. Awduche and A. Ganz. Synchronized Broadcast in Cellular Networks. Proceedings of 2nd Telecommunications R&D Conference in Massachusetts, March 1996.  Home/Search   Document Details and Download   Summary   Related Articles   Check

....hosts in different cells may observe varying end to end delays and delay jitters for the same packet. Consequently, a mobile host may suffer from duplication or loss of packets and large jitters when it moves from one cell to another, resulting in QoS fluctuations. Related issues are considered in [1] and [2] An optimal channel allocation algorithm for multicasting within a cell is presented in [2] which maximizes the transmission throughput to mobile hosts. However it does not look at the problem of multicast in a multicell environment. In [1] to enforce synchronized broadcast in cellular ....

....fluctuations. Related issues are considered in [1] and [2] An optimal channel allocation algorithm for multicasting within a cell is presented in [2] which maximizes the transmission throughput to mobile hosts. However it does not look at the problem of multicast in a multicell environment. In [1], to enforce synchronized broadcast in cellular networks, protocols are developed to minimize the maximum time difference between the local delivery inception times of a broadcast message by a group of base stations. Handoff procedure is not discussed in detail and is assumed to be lower priority ....

D.O. Awduche and A. Ganz. Synchronized Broadcast in Cellular Networks. Proceedings of 2nd Telecommunications R&D Conference in Massachusetts, March 1996.

....(the last link on each path is wireless) as well as the delay jitters along these paths. Thus a mobile host may suffer from duplication or loss of packets, and large jitters when it moves from one cell to another, resulting in QoS fluctuations during handoffs. Related issues are considered in [1] and [2] An optimal channel allocation algorithm for multicasting within a cell is presented in [2] which maximizes the transmission throughput to mobile hosts. However it does not look at the problem of multicast in a multicell environment. In [1] to enforce synchronized This research was ....

....handoffs. Related issues are considered in [1] and [2] An optimal channel allocation algorithm for multicasting within a cell is presented in [2] which maximizes the transmission throughput to mobile hosts. However it does not look at the problem of multicast in a multicell environment. In [1], to enforce synchronized This research was supported by the Air Force Grant under contract number F30602 97 2 0121. broadcast in cellular networks, protocols are developed to minimize the maximum time difference between the local delivery inception times of a broadcast message by a group of ....

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D.O. Awduche and A. Ganz. Synchronized Broadcast in Cellular Networks. Proceedings of 2nd Telecommunications R&D Conference in Massachusetts, March 1996.

....hosts in different cells may observe varying end to end delays and delay jitters for the same packet. Consequently, a mobile host may suffer from duplication or loss of packets and large jitters when it moves from one cell to another, resulting in QoS fluctuations. Related issues are considered in [1] and [2] An optimal channel allocation algorithm for multicasting within a cell is presented in [2] which maximizes the transmission throughput to mobile hosts. However it does not look at the problem of multicast in a multicell environment. In [1] to enforce synchronized broadcast in cellular ....

....fluctuations. Related issues are considered in [1] and [2] An optimal channel allocation algorithm for multicasting within a cell is presented in [2] which maximizes the transmission throughput to mobile hosts. However it does not look at the problem of multicast in a multicell environment. In [1], to enforce synchronized broadcast in cellular networks, protocols are developed to minimize the maximum time difference between the local delivery inception times of a broadcast message by a group of base stations. Handoff procedure is not discussed in detail and is assumed to be lower priority ....

D.O. Awduche and A. Ganz. Synchronized Broadcast in Cellular Networks. Proceedings of 2nd Telecommunications R&D Conference in Massachusetts, March 1996.

....namely, 1) limited bandwidth, 2) susceptibility to intermittent disconnections (due for example to fading, obstructions by physical objects, interference, etc) and of course, 3) user mobility. These attributes and their ramifications have been discussed extensively in the published literature [2, 4, 6, 15]. Scarce bandwidth mandates that an effective search strategy should aim to minimize bandwidth utilization during the search process. Because bandwidth is a major component of the signaling costs associated with search, by minimizing search cost we increase the bandwidth available to network ....

D. O. Awduche and A. Ganz, "Synchronized broadcast in cellular networks," Proc Second Telecoms R&D Conference in Massachusetts, pp. 156--167, March 1996.

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D.O. Awduche and A. Ganz. Synchronized Broadcast in Cellular Networks. Proceedings of 2nd Telecommunications R&D Conference in Massachusetts, March 1996.

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D. Awduche and A. Ganz, "Synchronized Broadcast in Cellular Networks," Proceedings of 2nd Telecommunications R&D Conference in Massachusetts , Mar. 1996.

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D. Awduche and A. Ganz, "Synchronized Broadcast in Cellular Networks," Proceedings of 2nd Telecommunications R&D Conference in Massachusetts , Mar. 1996.

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