System for determining positions with a sensor using a 2D-code pattern for determination of a discrepancy from an ideal situation

What is claimed is: 1. A system for determining positions along a direction of advance, the system comprising: a first sensor having a scanning length along a longitudinal axis, which first sensor is used for scanning a first 2D pattern and producing a scan signal and is integrated in a first scanning head, the first 2D pattern that can be scanned by the first sensor, extends in the direction of advance and consists of pattern elements, wherein the first sensor and the first 2D pattern are mobile relative to one another in the direction of advance, and a control and evaluation unit for evaluating the scan signal, wherein: the pattern elements form an associated first code word for each position along the direction of advance by virtue of arrangement and/or embodiment that is/are different by definition, which first code word can be sensed in each case at least on a portion of the scanning length of the first sensor and which first code word codes the respective position absolutely, so that the first 2D pattern forms an absolute position code trace in the direction of advance, the scan signal in the respective position corresponds to the first code word in each case, and the control and evaluation unit stores the following information: a piece of decoding information that can be used to explicitly associate an absolute position with each scan signal, and information that can be used to determine, on the basis of the first code word, in the respective position, using the respective scan signal, a discrepancy in the first sensor from an ideal situation relative to the first 2D pattern at least in respect of a degree of freedom of movement. 2. The system according to claim 1 , wherein the first sensor is in the form of a line sensor. 3. The system according to claim 1 , wherein: the longitudinal axis of the first sensor is oriented approximately in the direction of advance and the first code words of the first 2D pattern have, in the direction of advance, pattern elements in a different arrangement, with a different inclination in relation to the direction of advance and different pattern element periodicities, and/or pattern elements in a different embodiment. 4. The system according to claim 3 , wherein the first 2D pattern is split, in the direction of advance, into a multiplicity of respectively adjoining regions of pattern elements in a different arrangement and/or embodiment, wherein: the regions have different region lengths in the direction of advance, each region having pattern elements in a defined embodiment and/or arrangement forms a region type and the first 2D pattern has at least two different region types, and the scanning length of the first sensor is attuned to the region lengths of the regions in the direction of advance such that the first sensor can simultaneously scan pattern elements from at least two regions in each position, and the sequence of the region types of the regions that can be scanned on a scanning length is used to form a respective first code word. 5. The system according to claim 4 , wherein the regions have at least two different region lengths in the direction of advance, and the region lengths in combination with the sequence of the region types, are used to form a respective first code word, wherein the number of the different region lengths and the number of the region types that the first 2D pattern has are chosen in a manner attuned to one another. 6. The system according to claim 3 , wherein the first scanning head has an integrated second sensor oriented approximately in the direction of advance, for scanning the first 2D pattern, wherein the first sensor and the second sensor are arranged in relation to one another in a defined position, stored in the control and evaluation unit, at a sensor distance D1-D3 that is defined in the direction of advance and that is likewise stored in the control and evaluation unit, wherein the longitudinal axes of the two sensors are oriented approximately parallel to one another in the direction of advance. 7. The system according to claim 1 , wherein the first scanning head has a second sensor for scanning the first 2D pattern, wherein the longitudinal axis of the first sensor and the longitudinal axis of the second sensor are oriented approximately orthogonally in relation to the direction of advance, and the first sensor and the second sensor are at, in the direction of advance, a defined sensor distance D that is stored in the control and evaluation unit, wherein the longitudinal axes of the first and second sensors are oriented approximately parallel to one another. 8. The system according to claim 7 , wherein the control and evaluation unit stores information that can be used to determine, on the basis of the scan signals from the first sensor or line sensor and from the second sensor that correspond to a respective first code word, a discrepancy in the first scanning head from an ideal situation relative to the first 2D pattern at least in respect of a degree of freedom of movement, in respect of all degrees of freedom of movement. 9. A measuring apparatus having limbs that are movable relative to one another along a measurement path, wherein a first system according to claim 1 is provided and the measurement path extends in the direction of advance of the system, wherein the system is used to determine the relative situation of the limbs in relation to one another, wherein the measuring apparatus is in the form of a linear encoder. 10. The measuring apparatus according to claim 9 , wherein at least one second system is provided having a second scanning head, which has at least one sensor or line sensor, and a second 2D pattern, which has second code words for determining an absolute position along the direction of advance and for determining a discrepancy in the sensor or line sensor from an ideal situation relative to the second 2D pattern, wherein the first 2D pattern and the second 2D pattern extend parallel to one another in the direction of advance, and are arranged in different planes, wherein specifically the planes form an angle of 90°±3°, and the first scanning head and the second scanning head are movable together. 11. The measuring apparatus according to claim 10 , wherein the first system has a plurality of like first 2D patterns fitted in succession in the direction of advance and the second system has a plurality of like second 2D patterns fitted in succession in the direction of advance, wherein the number of the first code words of the first 2D pattern and the number of the second code words of the second 2D pattern are coprime to each other and a difference in the numbers of code words in relation to one another, wherein specifically the difference in the numbers of code words is chosen on the basis of production tolerances of the measuring apparatus. 12. The measuring apparatus according to claim 10 , wherein each code word combination as a combination of a first code word of the first 2D pattern and a second code word of the second 2D pattern is unique along the direction of advance, and in that a control and evaluation unit of the measuring apparatus stores information that can be used to explicitly associate code word combinations with a measurement path position in each case, wherein the number of the first code words of the first 2D pattern and the number of the second code words of the second 2D pattern are attuned to one another such that production tolerances of the measuring apparatus can be compensated for. 13. The measuring apparatus according to claim 9 , wherein the measuring apparatus is a 3D coord