文件名称:Multi_link_sim_v2
- 所属分类:
- matlab例程
- 资源属性:
- [MacOS] [Matlab] [源码]
- 上传时间:
- 2014-10-02
- 文件大小:
- 7.58mb
- 下载次数:
- 0次
- 提 供 者:
- Mostaf*******
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Routing of packets has been the primary method by which data have been transmitted across packet networks, such as the Internet. When multiple users are interested in the same data the same source, multicast routing is typically used. However, routing alone is not sufficient to achieve the multicast capacity of a network.
Ahlswede at [1] showed that using network coding that requires intermediate nodes to encode incoming data a multicast capacity equal to the minimum of the min-cut capacities of all the receivers can be achieved.
This multicast capacity cannot be achieved using only routing (with or without replication). There has been a lot work going on to use network coding for multicast in satellite systems.-Routing of packets has been the primary method by which data have been transmitted across packet networks, such as the Internet. When multiple users are interested in the same data the same source, multicast routing is typically used. However, routing alone is not sufficient to achieve the multicast capacity of a network.
Ahlswede at [1] showed that using network coding that requires intermediate nodes to encode incoming data a multicast capacity equal to the minimum of the min-cut capacities of all the receivers can be achieved.
This multicast capacity cannot be achieved using only routing (with or without replication). There has been a lot work going on to use network coding for multicast in satellite systems.
Ahlswede at [1] showed that using network coding that requires intermediate nodes to encode incoming data a multicast capacity equal to the minimum of the min-cut capacities of all the receivers can be achieved.
This multicast capacity cannot be achieved using only routing (with or without replication). There has been a lot work going on to use network coding for multicast in satellite systems.-Routing of packets has been the primary method by which data have been transmitted across packet networks, such as the Internet. When multiple users are interested in the same data the same source, multicast routing is typically used. However, routing alone is not sufficient to achieve the multicast capacity of a network.
Ahlswede at [1] showed that using network coding that requires intermediate nodes to encode incoming data a multicast capacity equal to the minimum of the min-cut capacities of all the receivers can be achieved.
This multicast capacity cannot be achieved using only routing (with or without replication). There has been a lot work going on to use network coding for multicast in satellite systems.
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下载文件列表
Multi_link_sim_v2
.................\.DS_Store
__MACOSX
........\Multi_link_sim_v2
........\.................\._.DS_Store
Multi_link_sim_v2\adjacent_beams.m
__MACOSX\Multi_link_sim_v2\._adjacent_beams.m
Multi_link_sim_v2\createFit.m
__MACOSX\Multi_link_sim_v2\._createFit.m
Multi_link_sim_v2\decay_ob.eps
.................\decay_ob.fig
.................\DVB_S2_time.m
__MACOSX\Multi_link_sim_v2\._DVB_S2_time.m
Multi_link_sim_v2\DVB_S2_time.m~
.................\figure11.fig
.................\gain_first.eps
.................\gain_loss.eps
.................\gain_loss.fig
.................\gain_second.eps
.................\gain_six_beams.eps
.................\gain_six_beams.fig
.................\gain_third.eps
.................\Inputs
.................\......\.DS_Store
__MACOSX\Multi_link_sim_v2\Inputs
........\.................\......\._.DS_Store
Multi_link_sim_v2\Inputs\Antenna.mat
.................\......\FL_ACM.txt
.................\......\UV.dat
.................\Interference_regimes.fig
.................\loss_six_beams.eps
.................\loss_six_beams.fig
.................\MODCODS.fig
.................\multilink_main.m
__MACOSX\Multi_link_sim_v2\._multilink_main.m
Multi_link_sim_v2\multilink_main.m~
.................\netgain.eps
.................\netgain.fig
.................\PreProcPoints.m~
.................\sdd
.................\SINR.fig
.................\Spectral_efficiencies.fig
.................\Spectral_efficiencies_after.fig
.................\Visualization.fig