Registering of a scene disintegrating into clusters with position tracking

What is claimed is: 1. A method for optically scanning and measuring a scene by a laser scanner configured to measure three-dimensional (3D) coordinates, the method comprising: generating multiple scans with the laser scanner; tracking positions of the laser scanner with a position-tracking device for the multiple scans and providing tracked scanner positions in response; registering sequentially scans selected from the multiple scans into clusters using registration points or registration targets and confirming registration of the scans into the clusters according to specified quality criteria being fulfilled; selecting scans from the clusters and forming pairs of scans; forming an intersection of the selected pairs and comparing a size of the intersection with a threshold value obtained based at least in part on the tracked scanner positions, the threshold value being selected from the group consisting of a number of the registration points contained in the intersection, a number of registration targets contained in the intersection, a surface area of the intersection, and a one-dimensional characteristic of the intersection; and attempting to register the pairs of scans if the size of the intersection exceeds the threshold value and accepting the registered pairs of scans if the registration is successful. 2. The method of claim 1 , wherein the selected scans each have a center, wherein the centers are in a relative position to each other, and wherein the relative position of the centers is provided by the position-tracking device. 3. The method of claim 1 , wherein the size of the selected scans has a characteristic length and/or a characteristic shape. 4. The method of claim 1 , wherein the generation of the clusters and the joining of the clusters takes place after the generation of all scans. 5. The method of claim 1 , wherein the registration for test purposes takes places automatically using data in overlapping areas of the scans. 6. The method of claim 1 , wherein in tracking positions of the laser scanner with a position-tracking device, the position-tracking devices includes one of a hodometer, an inertial measurement unit (IMU), an altitude sensor, a compass, and a global positioning system (GPS), wherein the IMU includes at least one of a gyroscope and an inclinometer. 7. A laser scanner for carrying out the method of claim 1 , comprising a base, a measuring head which is rotatable with regard to the base, a light emitter which emits an emission light beam, a light receiver which receives a reception light beam which is reflected by an object in the environment of the laser scanner or scattered otherwise, and a control and evaluation unit which determines, for a plurality of measuring points of every single scan at least the distance from the center of the laser scanner to the object and registers the generated scans in a joint coordinate system of the scene, wherein the center of the laser scanner rests while a scan is made and is movable between the scans and that a position-tracking device is thereby active.