> > If its a typical ADSL line it will be conneced to a DSLAM at > > the centeral office(by the telco) and that will be shareed. > > > ADSL also loses bandwidth the further you are from the office
> process has to be diversified for each customer, because it > all travels at the speed of light. It is diversified on the individual line leading to your house but it is shared from wherever it gets converted to a digital multiplex. That could be at the roadside cabinet or at the central office. At that point the data is mixed together using a round-robin type algorithm. The more active signals that are present the lower the proportion of the total bandwidth available to each. The speed of transmission is not really relevant (it only affects transit time not bandwidth) although it is as you say the speed of light (but not the speed of light in a vacuum, much lower than that) within the bearer. However within the electronics the signal travels more slowly - around the speed of sound - but fortunately for very small distances. > sometimes had a weak signal depending on the distance > from the consumer. This signal could be modified from the cable > company, so the box amplified the 'weak', but not further away, > signal. Its not a matter of signal strength but of signal smearing as it travels along the line. The digital data is sent as pulses (a great simplification!) but those pulses lose their shape as they travel along the line until eventually the electronics cannot distinguish one from another. The only way to improve is to send the pulses more widely spaced, which reduces the bandwidth, or to have repeater boxes which regenerate the pulses at regular intervals. On long distance routes, between cities, the telco will install repeaters but for domestic use they progressively reduce the bandwidth. > So this would also be a matter of what was being sent/received > being modified, depending on the priority (given by the ISP provider) > of the current DSL (or whatever connection) consumer? No, it doesn't matter what priority the comnsumer has it is down to the physical characteristics of the line. Telcos typically use copper or aluminium conductors in the local lines with paper or PTFE insulation and either crimped, twisted or soldered joints. All of these affect the transmission characteristics but the biggest factor is the length of the line. Its not economical to install repeaters in every consumer line so the bandwidth must be adjusted to match what the line is capable of. (This is done dynamically so you may even find your bandwidth varies slightly depending on the weather!) In practice it should be fairly stable and the biggest variations will be due to contention at the DSLAM. HTH, Alan G. (Who works for a telco! :-) _______________________________________________ Tutor maillist - Tutor@python.org To unsubscribe or change subscription options: http://mail.python.org/mailman/listinfo/tutor