. The Bell System technical journal . latter enlarges the lower left corner of Fig. 25)have been drawn. Since, in general, a and v will not have come from asimple straight group, as in Fig. 24(a), it is not to be expected that *S, OVERFLOW THEORY OBSD AVERAGE VARIANCE = = _ = OST t t 1024 f1024 t t ERLANGS OVERFLOWAVERAGEVARIANCE ^^ ~ ^ — OST t t t t t t t OFFER ERLANGS OVERFLOW THEORY OBSD AVERAGE VARIANCE OST t t t t 1 1 t OFFER
. The Bell System technical journal . latter enlarges the lower left corner of Fig. 25)have been drawn. Since, in general, a and v will not have come from asimple straight group, as in Fig. 24(a), it is not to be expected that *S, OVERFLOW THEORY OBSD AVERAGE VARIANCE = = _ = OST t t 1024 f1024 t t ERLANGS OVERFLOWAVERAGEVARIANCE ^^ ~ ^ — OST t t t t t t t OFFER ERLANGS OVERFLOW THEORY OBSD AVERAGE VARIANCE OST t t t t 1 1 t OFFER ERLANGS Fig. 20 — Comparison of joint-overflow parameters; theory versus throwdown. * A somewhat similar method, commonly identified with the British PostOffice, which uses one parameter, has been employed for solving symmetricalgraded multiples (Ref. 9). t Figs. 25 and 26 will be found in the envelope on the inside back cover. THE BELL SYSTEM TECHNICAL JOURNAL, MARCH 1956 GROUP 17 TRUNKS,a = GROUP NO. 214 TRUNKS,a:
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Keywords: ., bookcentury1900, bookdecade1920, booksubjecttechnology, bookyear1
