Determining the condition of a structural part of a working machine

The invention claimed is: 1. A method of determining a condition of at least one structural part of a working machine, the method comprising: controlling a position or a state of motion of a first structural part of the working machine in response to a control command provided by a control system of the working machine to (a) move the first structural part, (b) maintain a current position of the first structural part, or (c) maintain a current state of motion of the first structural part, wherein the first structural part is moved by at least one actuator of the working machine, determining a computational position or state of motion of the first structural part based on the computational model of the working machine, determining an actual position or state of motion of the first structural part via a hardware sensor, and determining, via a processor, the condition of the at least one structural part based on the difference between the computational position or state of motion of the first structural part as a result of the controlling and the actual position or state of motion of the first structural part as a result of the controlling, wherein determining the condition of at least one structural part comprises determining at least one of the following: a clearance of a structural part, a clearance of a joint of two structural parts, a deformation of a structural part, a deformation of a joint of two structural parts, a flex of at least one structural part, a crack in at least one structural part and a leakage of a structural part, wherein the working machine is a forest machine, wherein the forest machine is a mobile harvester or mobile forwarder, and wherein the determining of the condition of at least one structural part is performed while the forest machine is on-site and at work. 2. The method according to claim 1 , wherein the controlling of the position or state of motion comprises controlling the first structural part of the working machine to stay in place. 3. The method according to claim 1 , wherein the computational model comprises information about at least one of the following: a geometry of the working machine, a weight of at least one structural part of the working machine, and a kinetic model of the working machine. 4. The method according to claim 1 , wherein the sensor comprises at least one of the following: an inclinometer, an acceleration sensor, an angular velocity sensor, an angular acceleration sensor, a gyroscope, an inertial measurement unit, a linear position meter, an angular position meter, a joint angle sensor, a position sensor of a pressure medium sensor, a radar and an optical sensor. 5. The method according to claim 1 , wherein the at least one structural part the condition is determined for comprises at least one of the following: the first structural part, a second structural part, or a structural part connecting the first and second structural parts to one another. 6. A non-transitory computer readable medium including computer instructions stored therein that, when executed by a processor, cause an arrangement to perform operations corresponding to the method of claim 1 . 7. The method according to claim 1 , wherein determining the condition is performed during the controlling. 8. The method according to claim 7 , wherein one of (a)-(c) is performed. 9. An arrangement configured to determine a condition of at least one structural part of a working machine, wherein the arrangement comprises: a control system of the working machine, the control system being configured to control a position or a state of motion of a first structural part of the working machine by a control command to (a) move the first structural part, (b) maintain a current position of the first structural part, or (c) maintain a current state of motion of the first structural part by an actuator of the working machine configured to move the first structural part of the working machine, a sensor configured to determine an actual position or state of motion of the first structural part, and a processor configured to determine a computational position or state of motion of the first structural part based on the computational model of the working machine and to determine the condition of the at least one structural part based on the difference between the computational position or state of motion of the first structural part as a result of the controlling and the actual position or state of motion of the first structural part as a result of the controlling, wherein determining the condition of at least one structural part comprises determining at least one of the following: a clearance of a structural part, a clearance of a joint of two structural parts, a deformation of a structural part, a deformation of a joint of two structural parts, a flex of at least one structural part, a crack in at least one structural part and a leakage of a structural part, wherein the working machine is a forest machine, wherein the forest machine is a mobile harvester or mobile forwarder, and wherein the determining of the condition of at least one structural part is performed while the forest machine is on-site and at work. 10. The arrangement according to claim 9 , wherein the sensor is fixed to the working machine. 11. The arrangement according to claim 9 , wherein the sensor is releasably connectable to the working machine and the processor. 12. The arrangement according to claim 9 , wherein the at least one structural part the condition is determined for comprises at least one of the following: the first structural part, a second structural part, or a structural part connecting the first and second structural parts to one another. 13. A working machine comprising the arrangement according to claim 9 . 14. The arrangement according to claim 9 , wherein determining the condition is performed during the controlling.