5 research outputs found
Experimental Evaluation of delay/loss-based TCP congestion control algorithms.
We present initial experimental results for TCP
Illinois and Compound TCP. These tests are for relatively simple scenarios yet they are sufficient to highlight several interesting issues. We observe that both TCP Illinois and Compound TCP can exhibit poor scaling behaviour as path BDP increases. As a result, link utilisation can be low and network responsiveness can
become sluggish as BDP increases. We also document a number
of important implementation issues observed during our tests
Experimental Evaluation of delay/loss-based TCP congestion control algorithms.
We present initial experimental results for TCP
Illinois and Compound TCP. These tests are for relatively simple scenarios yet they are sufficient to highlight several interesting issues. We observe that both TCP Illinois and Compound TCP can exhibit poor scaling behaviour as path BDP increases. As a result, link utilisation can be low and network responsiveness can
become sluggish as BDP increases. We also document a number
of important implementation issues observed during our tests
Experimental Evaluation of delay/loss-based TCP congestion control algorithms.
We present initial experimental results for TCP
Illinois and Compound TCP. These tests are for relatively simple scenarios yet they are sufficient to highlight several interesting issues. We observe that both TCP Illinois and Compound TCP can exhibit poor scaling behaviour as path BDP increases. As a result, link utilisation can be low and network responsiveness can
become sluggish as BDP increases. We also document a number
of important implementation issues observed during our tests
Experimental Evaluation of delay/loss-based TCP congestion control algorithms.
We present initial experimental results for TCP
Illinois and Compound TCP. These tests are for relatively simple scenarios yet they are sufficient to highlight several interesting issues. We observe that both TCP Illinois and Compound TCP can exhibit poor scaling behaviour as path BDP increases. As a result, link utilisation can be low and network responsiveness can
become sluggish as BDP increases. We also document a number
of important implementation issues observed during our tests
Experimental evaluation of delay/loss-based TCP congestion control algorithms
We present initial experimental results for TCP Illinois and Compound TCP. These tests are for relatively simple scenarios yet they are sufficient to highlight several interesting issues. We observe that both TCP Illinois and Compound TCP can exhibit poor scaling behaviour as path BDP increases. As a result, link utilisation can be low and network responsiveness can become sluggish as BDP increases. We also document a number of important implementation issues observed during our tests