Recommendation E.5101) DETERMINATION OF THE NUMBER OF CIRCUITS IN MANUAL OPERATION 1 The quality of an international manual demand service should be defined as the percentage of call requests which, during the average busy hour (as defined later under S 3) cannot be satisfied immediately because no circuit is free in the relation considered. By call requests satisfied immediately are meant those for which the call is established by the same operator who received the call, and within a period of two minutes from receipt of that call, whether the operator (when she does not immediately find a free circuit) continues observation of the group of circuits, or whether she makes several attempts in the course of this period. Ultimately, it will be desirable to evolve a corresponding definition based on the average speed of establishing calls in the busy hour, i.e. the average time which elapses between the moment when the operator has completed the recording of the call request and the moment when the called subscriber is on the line, or the caller receives the advice subscriber engaged, no reply, etc. But for the moment, in the absence of information about the operating time in the European international service, such a definition cannot be established. 2 The number of circuits it is necessary to allocate to an international relation, in order to obtain a given grade of service, should be determined as a function of the total holding time of the group in the busy hour. The total holding time is the product of the number of calls in the busy hour and a factor which is the sum of the average call duration and the average operating time. These durations will be obtained by means of a large number of observations made during the busy hours, by agreement between the Administrations concerned. If necessary, the particulars entered on the tickets could also serve to determine the average duration of the calls. The average call duration will be obtained by dividing the total number of minutes of conversation recorded by the recorded number of effective calls. The average operating time will be obtained by dividing the total number of minutes given to operating (including ineffective calls) by the number of effective calls recorded. 3 The number of calls in the busy hour will be determined from the average of returns taken during the busy hours on a certain number of busy days in the year. Exceptionally busy days, such as those which occur around certain holidays, etc., will be eliminated from these returns. The Administrations concerned should plan, whenever possible, to put additional circuits into service for these days. In principle, these returns will be taken during the working days of two consecutive weeks, or during ten consecutive working days. If the monthly traffic curve shows only small variations, they will be repeated twice a year only. They will be taken three or four times a year or more if there are material seasonal variations, so that the average established is in accordance with all the characteristic periods of traffic flow. 4 The total occupied time thus determined should be increased by a certain amount determined by agreement between the Administrations concerned according to the statistics of traffic 1) This Recommendation dates from the XIIIth Plenary Assembly of the CCIF (London, 1946) and has not been fundamentally revised since. It was studied under Question 13/II in the Study Period 1968-1972 and was found to be still valid. Fascicle II.3 - Rec. E.510 PAGE1 growth during earlier years, to take account of the probable growth in traffic and the fact that putting new circuits into service takes place some time after they are first found to be necessary. 5 The total holding time of the circuits thus obtained, in conjunction with a suitable table (see Table 1/E.510), will enable the required number of circuits to be ascertained. 6 In the international manual telephone service, the following Tables A and B should be used as a basis of minimum allocation: Table A corresponds to about 30% of calls failing at the first attempt because of all circuits being engaged and to about 20% of the calls being deferred. Table B, corresponding to about 7% of calls deferred, will be used whenever possible. These tables do not take account of the fact that the possibility of using secondary routes permits, particularly for small groups, an increase in the permissible occupation time. TABLE 1/E.510 Capacity of circuit groups (See Supplement No. 2 at the end of this fascicle) Table A Table B Number of circuits Percentage of Minutes of Percentage of Minutes of circuit usage circuit usage circuit usage circuit usage possible possible in the busy hour in the busy hour 1 65.0 39 - - 2 76.7 92 46.6 56 3 83.3 150 56.7 102 4 86.7 208 63.3 152 5 88.6 PAGE1 Fascicle II.3 - Rec. E.510 266 68.3 205 6 90.0 324 72.0 259 7 91.0 382 74.5 313 8 91.7 440 76.5 367 9 92.2 498 78.0 421 10 92.6 556 79.2 475 11 93.0 614 80.1 529 Fascicle II.3 - Rec. E.510 PAGE1 12 93.4 672 81.0 583 13 93.6 730 81.7 637 14 93.9 788 82.3 691 15 94.1 846 82.8 745 16 94.2 904 83.2 799 17 94.3 962 83.6 853 18 94.4 1020 PAGE1 Fascicle II.3 - Rec. E.510 83.9 907 19 94.5 1078 84.2 961 20 94.6 1136 84.6 1015 Note - Tables A and B can be extended for groups comprising more than 20 circuits by using the values given for 20 circuits. Fascicle II.3 - Rec. E.510 PAGE1