Sentence examples for minimum interpacket generation from inspiring English sources
In the scenario with one hop, the smallest network possible, we can appreciate the differences between the minimum interpacket generation time at the source (around 0.01 millisecond) and the minimum interpacket arrival time at the receiver (around 0.1 millisecond).
Figure 26 Cumulative distribution function for the interpacket generation interval and interpacket arrival interval in a scenario with one hop (a) and ten hops (b).
Also, 50% of the packets have an interpacket generation time of less than 0.03 millisecond, but the interpacket arrival time is typically of more than 1 millisecond.
Figure 22 Cumulative distribution function for the interpacket generation interval and interpacket arrival interval in a scenario with one hop (b) and ten hops (a).
Figure 21 Average data rate generated (a) and packet loss ratio (b) for different numbers of hops. Figure 22 shows the cumulative distribution function for the interpacket generation interval and interpacket arrival interval in two scenarios where source and destination are one and twelve hops away, respectively.
In fact, for more than 6 hops, the packet loss rate surpasses 10%. Figure 25 Cumulative distribution function for the throughput in a scenario with different hops (b) and packet loss rate in different scenarios (a). Figure 26 shows the cumulative distribution function for the interpacket generation and arrival times in a scenario with one hop and in a scenario with ten hops.
These optimal designs have the same minimum of entropy generation or "entropy generation number".
The system with minimum entropy generation is considered as the optimal design [31, 32].
Comparing to minimum entropy generation and minimum entransy dissipation, an approach of minimum heat consumption is proposed to optimize heat transfer process.
For thermodynamic optimisation, the entropy generation minimisation method was used to determine configurations with minimum entropy generation rates.
Design parameters such as optimum collector area were determined based on the minimum entropy generation number.
