Communication system for telephone line access with crosstalk stability

What is claimed is: 1. A system comprising: telephone lines that cover a distance from a first location to separate points at second locations, wherein the telephone lines are bundled together in a same telephone cable for at least a portion of the distance; electronic equipment located at the first location, the electronic equipment comprising a first transceiver device for each of the telephone lines, wherein each first transceiver device at the first location is configured to coordinate transmissions over a respective telephone line coupled with the first transceiver device; and second transceiver devices coupled respectively with the telephone lines at the second locations, such that each second transceiver device is respectively paired with a first transceiver device at the first location; wherein each pair of the first and second transceiver devices is configured to force transmission on the respective telephone line connecting the pair when another pair of the first and second transceiver devices estimates a signal to noise ratio on the telephone line connecting the other pair; and wherein each pair of the first and second transceiver devices is configured to force transmission on its telephone line when there is no data to send on its telephone line at a time when the other pair of the first and second transceiver devices estimates the signal to noise ratio. 2. The system of claim 1 , wherein each of the transceiver devices is configured to operate in accordance with a specification designed for multi-point to multi-point communications over home electrical wiring, and the forced transmission comprises one or more symbols lacking information content. 3. The system of claim 2 , wherein the specification is a G.hn specification, and the one or more symbols lacking information content comprise sub-carriers loaded with bits coming from a linear feedback shift register. 4. The system of claim 3 , wherein the forced transmission comprises a probe frame, and each of the transceiver devices has an initial seed for a first sub-carrier of a first symbol of a payload of the probe frame that is unique among the transceiver devices. 5. The system of claim 1 , wherein two or more pairs of the first and second transceiver devices have forced transmissions when the other pair of the first and second transceiver devices sharing the same telephone cable estimates the signal to noise ratio, and the forced transmissions are uncorrelated with each other. 6. The system of claim 5 , wherein a transceiver device of each pair of the first and second transceiver devices is configured to generate its uncorrelated forced transmission by modulating sub-carriers of the forced transmission using a pseudo-random sequence generated with an initial seed that is different from other initial seeds used by other pairs of the first and second transceiver devices sharing the same telephone cable. 7. The system of claim 6 , wherein the initial seed used by each of the transceiver devices sharing the same telephone cable is different from all other initial seeds used by all other transceiver devices sharing the same telephone cable. 8. A transceiver device comprising: a coupling circuitry configured to connect with a telephone line that is bundled with additional telephone lines in a telephone cable; an analog front end coupled with the coupling circuitry; and a controller coupled with the analog front end and configured to force transmission on the telephone line when another transceiver device coupled with one of the additional telephone lines in the telephone cable estimates a signal to noise ratio on the one of the additional telephone lines; wherein the controller comprises a baseband digital signal processor programmed to force transmission on the telephone line when there is no data to send on the telephone line at a time when the other transceiver device estimates the signal to noise ratio wherein the controller is configured to generate the forced transmission with a payload that is uncorrelated with another payload of a forced transmission by a third transceiver device coupled with another of the additional telephone lines in the telephone cable when the other transceiver device estimates the signal to noise ratio; and wherein the controller is configured to generate the payload by modulating sub-carriers of the forced transmission using a pseudo-random sequence generated with an initial seed that is different from other initial seeds used by other transceiver devices coupled with the additional telephone lines in the telephone cable. 9. The transceiver device of claim 8 , wherein the coupling circuitry, the analog front end, and the controller are configured to operate in accordance with a specification designed for multi-point to multi-point communications over home electrical wiring, and the forced transmission comprises one or more symbols lacking information content. 10. The transceiver device of claim 9 , wherein the specification is a G.hn specification, and the one or more symbols lacking information content comprise sub-carriers loaded with bits coming from a linear feedback shift register. 11. The transceiver device of claim 10 , wherein the forced transmission comprises a probe frame, and the transceiver device has an initial seed for a first sub-carrier of a first symbol of a payload of the probe frame that is unique among transceiver devices coupled with the additional telephone lines in the telephone cable. 12. The transceiver device of claim 8 , wherein the initial seed used by the transceiver device is different from all other initial seeds used by all other transceiver devices sharing the telephone cable. 13. A method comprising: receiving, at a first transceiver device coupled with a first telephone line, an indication that a second transceiver device coupled with a second telephone line is to estimate a signal to noise ratio on the second telephone line, wherein the second telephone line is separate from but bundled with the first telephone line in a telephone cable; checking, in response to the indication, whether data is to be transmitted by the first transceiver device on the first telephone line during the signal to noise ratio estimation by the second transceiver device on the second telephone line; transmitting a data signal, when the data is available, on the first telephone line during the signal to noise ratio estimation by the second transceiver device on the second telephone line; and transmitting an alternative signal on the first telephone line, when the data is not available for transmission, during the signal to noise ratio estimation by the second transceiver device on the second telephone line. 14. The method of claim 13 , wherein transmitting the data signal comprises transmitting the data signal in accordance with a specification designed for multi-point to multi-point communications over home electrical wiring, and transmitting the alternative signal comprises transmitting a signal that is uncorrelated with another alternative signal transmitted in place of another data signal on another telephone line in the telephone cable. 15. The method of claim 14 , wherein transmitting the signal that is uncorrelated with the other alternative signal comprises modulating sub-carriers using a pseudo-random sequence generated with an initial seed that is different from another initial seed used for the other alternative signal transmitted in place of the other data signal on the other telephone line in the telephone cable. 16. The method of claim 15 , wherein the pseudo-random sequence is gen