Sistemas datagraph venezuela4/2/2023 ![]() ![]() ![]() Nevertheless, there are no statistical differences in the average of percentage of YES and NO votes reported by automated reports. The distributions of votes by machine in both groups differ in average in 10 votes per machine, being greater in the superior subgroup. It follows that machines located in the same electoral table using presumably the same source code, the same telephone area codes, sometimes the same telephone line and local networks with the same technology, similar electoral populations and with similar physical conditions behaved in such a different manner in both the reception and emission of data, even though the relations of bytes to vote re- mained more or less the same. Proportions 56 : 35 : 9 for centers with mixed subgroups, inferior and superior subgroup machines respectively, may be considered as originating from a random sample of the universe of High Traffic centers if the probability of occurrence of a machine with traffic in the superior subgroup is 0.33 and for the inferior one is of 0.67 which are the ratios shown by the subgroups to the universe of 6,579 machines (2,166 in superior cloud and 4,413 in the inferior one). It is necessary to notice that the majority of these machines only connected once with the totalizing servers from which it is deduced that the connections were unique and successful. Of the 1,876 High Traffic centers studied, 1,051 centers (56%) correspond to the category of mixed tables, 663 centers (35%) with all machines in the inferior cloud and 162 (9%) in the superior one. It is found that these two dissimilar behaviors are simultaneously occurring in machines of the same electoral table in the same voting center for a high number of voting centers. Segregating the High Traffic machines into the above mentioned subgroups, corresponding to the superior cluster (G2) and the inferior cluster (G1) in the Outgoing data graph, it is possible to cor- roborate that the average of received data bytes by machines in the inferior cloud (G1) is around 27,000 bytes and the one on the superior cloud is of 37,000 bytes, whereas the average in the emitted data is around 6,200 bytes in the first case and of 6,700 bytes in the second one. The linear regressions show a relation between bytes and votes given by the following equations: Incoming data bytes = 5606 ( ± 52) + 47. The graphs for the selected sample regressions are in Figure 4. as well as Outgoing data bytes against votes by machine of the same selected machines were calculated.
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