Method and device for controlling a vector processor

The invention claimed is: 1. A method for controlling a vector processor for jointly processing signals to be transmitted over, or received from, a group of vectored lines, and configured with a current set of vectoring coefficients, the method comprising: temporarily configuring the vector processor with a new set of vectoring coefficients during one or more selected symbol positions; restoring the current set of vectoring coefficients outside the one or more selected symbol positions; obtaining at least one error measure over respectively at least one line of the group of vectored lines during the one or more selected symbol positions; and determining a suitability indication for the new set of vectoring coefficients based on the obtained at least one error measure. 2. A method according to claim 1 , wherein the one or more selected symbol positions are SYNC symbol positions that are used to convey pilot signals for crosstalk estimation within the group of vectored lines. 3. A method according to claim 2 , wherein the at least one error measure is representative of at least one residual error over respectively the at least one line during the one or more selected SYNC symbol positions. 4. A method according to claim 2 or 3 , wherein the method further comprises, if the determined suitability indication indicates that part or whole of the new set of vectoring coefficients is suitable, enforcing part or whole of the new set of vectoring coefficients during all symbol positions. 5. A method according to claim 2 or 3 , wherein the method further comprises, if the determined suitability indication indicates that part or whole of the new set of vectoring coefficients is not suitable: selecting a new algorithm for updating the vector processor based on the at least one error measure, or adjusting one or more parameters of an algorithm currently used for updating the vector processor based on the at least one error measure; and determining a further new set of vectoring coefficients by means of the selected new algorithm or the adjusted current algorithm. 6. A method according to claim 1 , wherein the one or more selected symbol positions are DATA symbol positions that are used to convey user payload traffic. 7. A method according to claim 6 , wherein the at least one error measure is representative of any transmission error respectively occurring over the at least one line during the one or more selected DATA symbol positions, and comprises at least one of: a Forward Error Correction FEC counter; a retransmission counter value related to retransmission events of data units transmitted during the one or more selected DATA symbol positions; and a noise level, in particular an impulse noise level. 8. A method according to claim 6 , wherein a number of selected DATA symbol positions is determined so as not to significantly degrade user experience over the at least one line, and wherein temporarily configuring is performed with said determined number of selected DATA symbol positions. 9. A method according to claim 8 , wherein the steps of the method are repeated with an increasing number of selected DATA symbol positions if the determined suitability indication indicates that the new set of vectoring coefficients is suitable. 10. A method according to claim 6 , wherein the group of vectored lines comprises at least one joining line, and wherein a ZERO DATA symbol having zero power is substituted by a DUMMY DATA symbol having non-zero power over the at least one joining line during the one or more selected DATA symbol positions. 11. A method according to claim 6 , wherein determining the suitability indication based on the obtained at least one error measure comprises at least one of: determining whether a number of DATA symbols that may be sent with the new set of vectoring coefficients can be increased without user experience degradation; determining whether line parameters of one or more lines of the group of vectored lines need to be modified such that the group of vectored lines becomes more tolerant to the new set of vectoring coefficients; determining whether the new set of vectoring coefficients need further improvement; and determining whether a power of a DUMMY DATA symbol transmitted over at least one joining line can be increased. 12. A method according to claim 6 , wherein the vector processor is located in a transmitter section or in a receiver section, and wherein the method further comprises communicating, from the transmitter section to the receiver section, the positions of the one or more selected DATA symbol positions; or communicating, from the receiver section to the transmitter section, a request for substituting ZERO DATA symbols with DUMMY DATA symbols in predetermined symbol positions. 13. A method according to claim 1 , wherein the new set of vectoring coefficients are derived from previously-determined crosstalk or vectoring coefficients. 14. A controller for controlling a vector processor for jointly processing signals to be transmitted over, or received from, a group of vectored lines, and configured with a current set of vectoring coefficients, the controller comprising: a configuring module configured to temporarily configure the vector processor with a new set of vectoring coefficients during one or more selected symbol positions, and for restoring the current set of vectoring coefficients outside the one or more selected symbol positions; an obtaining module configured to obtain at least one error measure over respectively at least one line of the group during the one or more selected symbol positions; and a determining module configured to determine a suitability indication for the new set of vectoring coefficients based on the obtained at least one error measure. 15. An access node comprising a controller according to claim 14 .