Detection of demapping errors

The invention claimed is: 1. A vectoring controller comprising: a memory having computer readable instructions stored thereon; and at least one processor configured to execute the computer readable instructions to, estimate at least one crosstalk coefficient at a given carrier frequency from at least one respective disturber line towards a victim line of a vectoring group, assign at least one crosstalk probing sequence out of a set of orthogonal crosstalk probing sequences to the at least one respective disturber line for modulation at the given carrier frequency of at least one respective sequence of crosstalk probing symbols, receive error samples as successively measured by a receiver coupled to the victim line at the given carrier frequency while the at least one sequence of crosstalk probing symbols are being transmitted over the at least one respective disturber line, and correlate the received error samples with at least one unassigned crosstalk probing sequence out of the set of orthogonal crosstalk probing sequences for detection of a demapping error in the received error samples, the at least one unassigned crosstalk probing sequence being not actively used by any line of the vectoring group during the transmission of the at least one sequence of crosstalk probing symbols over the at least one respective disturber line. 2. A vectoring controller according to claim 1 , wherein the vectoring controller is further configured to keep a desired number M of crosstalk probing sequences out of the set of orthogonal crosstalk probing sequences unassigned and available for detection of demapping errors. 3. A vectoring controller according to claim 2 , wherein the set of orthogonal crosstalk probing sequences comprises crosstalk probing sequences of length L greater than or equal to N+M, N denoting the size of the vectoring group. 4. A vectoring controller according to claim 1 , wherein the vectoring controller is further configured, if a demapping error is detected in the received error samples, to discard the received error samples for estimation of the at least one crosstalk coefficient. 5. A vectoring controller according to claim 1 , wherein the vectoring controller is further configured to estimate the at least one crosstalk coefficient using a weighted combination of a new crosstalk estimate based on the received error samples and at least one further crosstalk estimate, and wherein the weight applied to the new crosstalk estimate is a function of whether a demapping error has been detected in the received error samples. 6. A vectoring controller according to claim 1 , wherein the vectoring controller is further configured to estimate the at least one crosstalk coefficient using a weighted combination of a new crosstalk estimate based on the received error samples and at least one further crosstalk estimate, wherein the vectoring controller is further configured to correlate the received error samples with the at least one unassigned crosstalk probing sequence in order to determine how reliable the new crosstalk estimate is, and wherein the weight applied to the new crosstalk estimate is a function of the so-determined reliability of the new crosstalk estimate. 7. A vectoring controller according to claim 5 , wherein the at least one further crosstalk estimate is a crosstalk estimate obtained during a previous crosstalk estimation cycle. 8. A vectoring controller according to claim 5 , wherein the at least one further crosstalk estimate is a crosstalk estimate obtained at a further carrier frequency nearby the given carrier frequency. 9. A vectoring controller according to claim 1 , wherein the received error samples are indicative of error vectors between received frequency samples at the given carrier frequency and respective selected constellation points onto which the received frequency samples are demapped. 10. A vectoring controller according to claim 1 , wherein the vectoring controller is further configured to use the result of the correlation of the received error samples with the at least one unassigned crosstalk probing sequence in a statistic, and to compare that statistic with a threshold to determine with a certain confidence whether a demapping error is present in the received error samples. 11. A vectoring controller according to claim 10 , wherein the threshold value depends on the noise level at the given carrier frequency. 12. A vectoring controller according to claim 10 , wherein the statistic is given by max ⁢ { 1 M ⁢ ∑ m ⁢  u m  , 1 M ⁢ ∑ m ⁢  v m  } , M being a non-null positive integer denoting a given number of unassigned pilot sequences for detection of demapping errors, u m and v m denoting the real and imaginary part respectively of the correlation of the error samples with a given one of the at least one unassigned crosstalk probing sequence. 13. An access node comprising a vectoring controller according to claim 1 . 14. An access node according to claim 13 , wherein the access node is a Digital Subscriber Line Access Multiplexer DSLAM. 15. A method comprising: estimating at least one crosstalk coefficient at a given carrier frequency from at least one respective disturber line towards a victim line of a vectoring group, assigning at least one crosstalk probing sequence out of a set of orthogonal crosstalk probing sequences to the at least one respective disturber line for modulation at the given carrier frequency of at least one respective sequence of crosstalk probing symbols, receiving error samples as successively measured by a receiver coupled to the victim line at the given carrier frequency while the at least one sequence of crosstalk probing symbols are being transmitted over the at least one respective disturber line, and correlating the received error samples with at least one unassigned crosstalk probing sequence out of the set of orthogonal crosstalk probing sequences for detection of a demapping error in the received error samples, the at least one unassigned crosstalk probing sequence being not actively used by any line of the vectoring group during the transmission of the at least one sequence of crosstalk probing symbols over