Fault identification using line attenuations

The invention claimed is: 1. A method of identifying a fault condition in a digital subscriber line in a telecommunications network, said method comprising: i) determining an upstream line attenuation and a downstream line attenuation associated with the digital subscriber line; ii) calculating a line attenuation ratio for said digital subscriber line based on the downstream and upstream line attenuations; iii) comparing the calculated line attenuation ratio to the line attenuation ratio distribution calculated from a population of digital subscriber lines; iv) determining a condition of the digital subscriber line in dependence on the result of the comparison; wherein: the line attenuation ratio distribution comprises an upper threshold of attenuation ratio and a lower threshold of attenuation ratio, said upper and lower thresholds defining a range of attenuation ratios within which the majority of the population of digital subscriber lines reside; and the determined condition is a fault when the calculated line attenuation ratio is below the lower threshold or above the upper threshold. 2. A method according to claim 1 , wherein the fault is a high resistance connection if the calculated line attenuation ratio is below the lower threshold. 3. A method according to claim 1 , wherein fault is a shunt if the calculated line attenuation ratio is above the upper threshold. 4. A method according to claim 1 , wherein the line attenuation ratio is the ratio of downstream line attenuation over upstream line attenuation. 5. A method according to claim 1 , wherein the upper and lower thresholds are determined using a peak fitting method on the attenuation ratios. 6. A fault detection unit for identifying a fault condition in a digital subscriber line in a telecommunications network, the fault detection unit comprising: a memory for storing computer readable instructions; a computer processor for executing the instructions so that the fault detection unit is configured to: i) determine an upstream line attenuation and a downstream line attenuation associated with the digital subscriber line; ii) calculate a line attenuation ratio for said digital subscriber line based on the downstream and upstream line attenuations; iii) compare the calculated line attenuation ratio to the line attenuation ratio distribution calculated from a population of digital subscriber lines; iv) determine a condition of the digital subscriber line in dependence on the result of the comparison; wherein: the line attenuation ratio distribution comprises an upper threshold of attenuation ratio and a lower threshold of attenuation ratio, said upper and lower thresholds defining a range of attenuation ratios within which the majority of the population of digital subscriber lines reside; and the determined condition is a fault when the calculated line attenuation ratio is below the lower threshold or above the upper threshold. 7. The fault detection unit according to claim 6 , wherein the fault is a high resistance connection if the calculated line attenuation ratio is below the lower threshold. 8. The fault detection unit according to claim 6 , wherein fault is a shunt if the calculated line attenuation ratio is above the upper threshold. 9. The fault detection unit according to claim 6 , wherein the line attenuation ratio is the ratio of downstream line attenuation over upstream line attenuation. 10. The fault detection unit according to claim 6 , wherein the telecommunications network includes user's premises equipment and a telephone exchange which communicate via the digital subscriber line, and the fault detection unit resides in the user's premises equipment. 11. The fault detection unit according to claim 6 , wherein the fault detection unit resides in a handheld device.