All drawings contained in this Recommendation have been done in Autocad. Recommendation Q.725 SIGNALLING PERFORMANCE IN THE TELEPHONE APPLICATION 1 Introduction This Recommendation gives the requirements of the telephone application of Signalling System No. 7. In Recommendation Q.706, the Message Transfer Part performance is described. The Message Transfer Part is the basis of the telephone application of Signalling System No. 7 and provision of a signalling network to serve the telephone service must take account of the performance of the Message Transfer Part and the requirements of the telephone application. For example, taking account of the message transfer times detailed in Recommendation Q.706 and the requirements for message transfer times between two telephone exchanges, a figure may be derived for the total permissible number of signalling links in signalling relations in tandem for a particular call. 2 Unsuccessful calls due to signalling malfunction The proportion of calls that are unsuccessful due to signalling malfunction should be less than 1 in 105. By means of error detection (see Recommendation Q.703) as well as transmission fault indication (see Recommendations G.732 [1] and G.733 [2]), it is ensured that, overall, not more than one error in 108 of all signal units transmitted is accepted and will cause false operation. Unsuccessful calls may be caused by undetected errors, loss of messages or messages delivered out of sequence (during emergency situations within the signalling network) and may result in: - incomplete call set-up, - misrouted calls (e.g. connection of wrong numbers), - calls routed correctly but mishandled (e.g. false clearing). 3 Unavailability of a signalling route set The overall unavailability of a signalling route set causing the unavailability of a signalling relation should not exceed a total of 10 minutes per year. Note - The availability of a signalling route set within a signalling network may be enhanced by replication of signalling links, signalling paths and signalling routes. 4 Labelling potential The label of the Telephone User Part of Signalling System No. 7 provides the potential to identify 16 384 signalling points and up to 4096 speech circuits for each signalling relation. 5 Cross-office transfer time 5.1 Functional reference points and transfer time components Figure 1/Q.725 - CCITT 35600 5.2 Definitions a) cross-office transfer time, Tcu Tcu is the period which starts when the last bit of the signal unit leaves the incoming signalling data link and ends when the last bit of the signal unit enters the outgoing signalling data link for the first time. It also includes the queueing delay in the absence of disturbances but not the additional queueing delay caused by retransmission. b) user handling time, Thu Thu is the period which starts when the last bit of the message has entered the Telephone User Part and ends when the last bit of the derived message has left the Telephone User Part. 5.3 Queueing delay The formulae for the queueing delays are described in Recommendation Q.706, S 4.2. The telephone traffic model assumed is given in Table 1/Q.725, from which the proportion of signal messages may be obtained as shown in Table 2/Q.725. Using Table 2/Q.725, examples of queueing delays are calculated as shown in Fascicle VI.8 - Rec. Q.725 PAGE1 Figures 2/Q.725 to 5/Q.725, where one call attempt per second per 64 kbit/s signalling data link may yield 0.00577 Erlang of the traffic loading of each channel. 5.4 Estimates for message transfer time The figures in Table 3/Q.725 are related to a signalling bit rate of 64 kbit/s. 5.5 Effect of retransmission As a consequence of correction by retransmission, not more than one in 104 signals should be delayed more than 300 ms as a long-term average. This requirement refers to each signalling link. This requirement is laid down in order to ensure satisfactory answer delays. TABLE 1/Q.725 Traffic model Sending procedure "En bloc" Overlap Type of call AW SB CC AB AW SB CC AB Percent calls 30 10 5 5 30 10 55 Length (bits) PAGE6 Fascicle VI.8 - Rec. Q.725 12-digit IAM 176 1 1 1 0 6-digit IAM 152 1 1 1 1 3-digit SAM 128 Fascicle VI.8 - Rec. Q.725 PAGE1 1 1 0 1 Messages per 1-digit SAM 112 3 3 0 0 call Address 112 1 1 0 0 1 1 0 0 complete Others 112 3,5 2 3 0 PAGE6 Fascicle VI.8 - Rec. Q.725 3,5 2 3 2 AW Answered SB Subscriber busy and not answered CC Circuit congestion AB Abortive Note - The assumptions used in this model are chosen for illustrative purposes, and should not be considered to be typical. TABLE 2/Q.725 Proportion of messages Length (bits) 176 152 128 112 104 Total Messages per call in both 0.45 0.5 0.45 2.0 2.9 6.3 directions Percent 7.1 7.9 7.1 31.7 46.0 100 Mean message length (Tm) 117.2 bits k1 1.032 k2 1.107 Fascicle VI.8 - Rec. Q.725 PAGE1 k3 1.239 PAGE6 Fascicle VI.8 - Rec. Q.725 Figure 2/Q.725 - CCITT 41210 Figure 3/Q.725 - CCITT 41200 Figure 4/Q.725 - T1115651-88 Figure 5/Q.725 - T 1109931-88 TABLE 3/Q.725 Message type Exchange call Cross-office transfer time Tcu (ms) a) attempt loading Mean 95% Normal 110 220 Simple (e.g. answer) +15% 165 330 +30% 275 550 Processing intensive Normal 180 360 (e.g. IAM) +15% 270 540 +30% 450 900 a) Provisional values. References [1] CCITT Recommendation Characteristics of primary PCM multiplex equipment operating at 2048 kbit/s, Rec. G.732. [2] CCITT Recommendation Characteristics of primary PCM multiplex equipment operating at 1544 kbit/s, Rec. G.733. Fascicle VI.8 - Rec. Q.725 PAGE1