Methods and devices for determining termination characteristics of an electrically conductive line

The invention claimed is: 1. A method in a line estimation device for determining termination characteristics of an electrically conductive line in a communication system, the method comprising: outputting a test signal to the line, wherein the test signal is a wideband test signal with a bandwidth arranged to provide an adequate measurement time-resolution, receiving reflections from impedance discontinuities of the line in response to the test signal, forming a trace of the reflections, identifying at least one anomaly in the trace of reflections, and determining termination characteristics of the line based on characteristics of the trace before and after the identified at least one anomaly, wherein determining termination characteristics of the line further comprises determining a type of line termination, and wherein determining termination characteristics further comprises determining if a segment of the line is terminated with a lumped element based on a drop of the reflection magnitudes following the at least one anomaly. 2. The method according to claim 1 , wherein the trace comprises a set of measured intra-segment reflections. 3. The method according to claim 1 , wherein determining if a segment of the line is terminated with a lumped element further comprises determining the line segment as being characteristically terminated when the drop is larger than a predetermined threshold. 4. The method according to claim 1 , wherein determining termination characteristics further comprises determining correlation characteristics of the reflections before and after the at least one anomaly and determining if a first segment of the line has an open termination, is short-circuited or is followed by a second segment of the line based on the correlation characteristics. 5. The method according to claim 4 , wherein determining correlation characteristics comprises determining reflection symmetry characteristics of the reflections before and after the at least one anomaly by selecting a first subset of the trace, wherein the first subset comprises the at least one anomaly, determining a second subset based on the first subset adjusted for attenuation, determining a third and a fourth subset from the second subset, the third and fourth subset comprising subsets of the adjusted trace before and after the at least one anomaly, respectively, and determining a correlation coefficient based on the third and fourth subset. 6. The method according to claim 5 , wherein the correlation coefficient is defined to show no correlation between the third subset and a reverse order of the fourth subset at the at least one anomaly if the first segment is followed by a second segment and also defined to show a correlation between the third subset and a reverse order of the fourth subset at the at least one anomaly if the first segment is terminated with an open end or is short circuited. 7. The method according to claim 1 , wherein each identified anomaly represents a reflection from a respective impedance discontinuity, the reflection having a magnitude defining a peak of the trace. 8. The method according to claim 7 , wherein determining termination characteristics further comprises determining impedance change at the at least one anomaly based on the magnitude of the reflection represented by the at least one anomaly. 9. The method according to claim 8 , wherein determining impedance change comprises using a linear model approximation of the reflected signal power loss due to attenuation. 10. The method according to claim 8 , wherein determining impedance change comprises applying a correction factor based on a model of forth to back transmission losses of the magnitude of the reflection represented by the at least one anomaly. 11. The method according to claim 8 , wherein determining impedance change comprises ignoring reflection magnitudes of the reflections from impedance discontinuities before and after the at least one anomaly within a guard zone of the at least one anomaly, in order to reduce the influence of transients on the determination of the impedance change. 12. A line estimation device arranged to determine termination characteristics of an electrically conductive line in a communication system, the line estimation device comprising processing circuitry, wherein the processing circuitry is configured to: output a test signal to the line, wherein the test signal is a wideband test signal with a bandwidth arranged to provide an adequate measurement time-resolution, receive reflections from impedance discontinuities of the line in response to the test signal, form a trace of the reflections, identify at least one anomaly in the trace of reflections, and determine termination characteristics of the line based on characteristics of the trace before and after the identified at least one anomaly, wherein the determined termination characteristics of the line further comprises determining a type of line termination, and wherein the determined termination characteristics further comprises determining if a segment of the line is terminated with a lumped element based on a drop of the reflection magnitudes following the at least one anomaly. 13. The line estimation device according to claim 12 , wherein the line estimation device further comprises a test port having known impedance, and the line estimation device is further adapted to output the test signal to the line via the test port. 14. A computer program comprising computer program code which, when executed in a line estimation device causes the line estimation device to execute a method according to claim 1 .