Determining a plane of anatomical body part

The invention claimed is: 1. A computer-implemented method for determining a mid-sagittal plane position of a mid-sagittal plane of a pelvis by a computer comprising a non-transient memory, wherein the mid-sagittal plane is a plane which can be described by anatomical landmarks of the pelvis, the method comprising: providing absolute auxiliary point data to the computer, wherein the absolute auxiliary point data relates to an auxiliary point position of at least one actual auxiliary point of a plurality of actual auxiliary points of the pelvis relative to a marker device, the marker device comprising one or more markers arranged in a predetermined spatial relationship representative of the marker device wherein data representative of the spatial relationship is stored in the memory, the plurality of actual auxiliary points being outside the mid-sagittal plane and representing first anatomical landmarks of the pelvis; providing relative point data to the computer, wherein the relative point data constrain possible positions of the mid-sagittal plane relative to the at least one actual auxiliary point; providing absolute main point data to the computer, wherein the absolute main point data relate to an absolute main point position of one or two actual main points of the pelvis relative to the marker device, said one or two actual main points lying in the mid-sagittal plane and representing a second anatomical landmark of the pelvis, the absolute auxiliary point data and the absolute main point data having been generated by detection, the detection comprising a step of contacting the pelvis; using a computer including a processor and memory to perform at least one of: a) calculating, by the processor, a virtual main point position of at least one virtual main point relative to the marker device, said at least one virtual main point being in the mid-sagittal plane and being calculated by the processor based on the absolute auxiliary point data and the relative point data, wherein the relative point data constrain possible relative positions between the mid-sagittal plane and two particular auxiliary points of the plurality of actual auxiliary points, the relative point data prescribing an angle between the mid-sagittal plane and a line crossing the mid-sagittal plane, wherein the line is defined by the two particular auxiliary points and the two particular auxiliary points are on the same side of the mid-sagittal plane; and b) determining, by the processor, at least one virtual auxiliary point on the basis of the relative point data and the absolute main point data and selectively on the basis of the calculated virtual main point position, a virtual auxiliary point position of the virtual auxiliary point being symmetrical to a position of a particular auxiliary point of the plurality of actual auxiliary points with respect to the mid-sagittal plane, wherein the relative point data constrain possible relative positions between the particular auxiliary point of the one or more auxiliary points and the mid-sagittal plane by defining a distance between the mid-sagittal plane and the particular auxiliary point, wherein the definition of the distance is determined by a shortest distance between the mid-sagittal plane and one actual auxiliary point of the plurality of actual auxiliary points, and/or by defining a distance between the virtual auxiliary point and the particular auxiliary point; calculating by the processor the mid-sagittal plane position relative to the marker device, wherein the calculation uses the relative point data, the auxiliary point data, and the provided main point data as well as at least one of the calculated at least one virtual main point position and the calculated at least one virtual auxiliary point position; generating an indication signal for providing information to a user based on the calculated mid-sagittal plane and the data representative of the spatial relationship; and/or using the position of the mid-sagittal plane for determining a coordinate system with respect to which a position of an object can be defined. 2. The method according to claim 1 , wherein the at least one virtual main point is not included in the absolute main point data and the at least one virtual auxiliary point is not included in the absolute auxiliary point data. 3. The method according to claim 1 , wherein the relative point data describe at least one scalar value used for describing positional relationships between a particular auxiliary point of the one or more auxiliary points and the virtual main point and/or between the particular auxiliary point and the virtual auxiliary point, the virtual auxiliary point position of the virtual auxiliary point being in particular symmetrical to the virtual auxiliary point position of the particular auxiliary point with respect to the mid-sagittal plane, and/or between one or more of the auxiliary points and the mid-sagittal plane. 4. The method according to claim 1 , further comprising: providing body part data to the computer, wherein the body part data constrains the possible relative positions between landmarks of the body part and/or between the landmarks and the mid-sagittal plane; providing landmark data to the computer, wherein the landmark data respectively correlate at least some of the actual and/or virtual main points and/or auxiliary points with at least some of the landmarks of the body part; and if more than one solution for calculating the position of the mid-sagittal plane is possible, selecting one of the possible solutions for the position of the mid-sagittal plane on the basis of the landmark data and body part data. 5. The method according to claim 1 , wherein all of the actual auxiliary points described by the absolute auxiliary point data and used for calculating the position of the mid-sagittal plane are outside the mid-sagittal plane but on a common side of the mid-sagittal plane. 6. The method according to claim 3 , wherein if the main point position of only one main point of the body part relative to the marker device is available for the calculation, then the absolute auxiliary point data describe the position of at least two auxiliary points of the body part relative to the marker device, the at least two auxiliary points being outside the mid-sagittal plane; and if the main point positions of only two main points of the body part relative to the marker device are available for the calculation, then the absolute auxiliary point data describe the auxiliary point position of at least one auxiliary point of the body part relative to the marker device, the at least one auxiliary point being outside the mid-sagittal plane. 7. The method according to claim 6 , wherein the at least one scalar value represents a distance or an angle. 8. The method according to claim 6 , wherein the relative point data describe at least one constraint for the possible constrained positions of the mid-sagittal plane relative to the at least one auxiliary point, if there are two main points; and describe at least two constraints for the constrained positions of the mid-sagittal plane relative to the at least one auxiliary point, if there is only one main point. 9. A method which includes the data processing method of claim 1 and which is a method for determining the mid-sagittal plane position of the mid-sagittal plane of the pelvis and of an auxiliary plane of the pelvis, wherein in order to determine the mid-sagittal plane, the data processing method of claim 1 is performed, and in order to determine the auxiliary plane, absolute auxiliary point data describe the auxiliary point position of at least two of the auxiliary points of the body part relative to the marker device, the at least two auxil