Control arrangement and method for controlling a forestry machine

The invention claimed is: 1. A control arrangement in a forestry machine, the forestry machine comprising at least one cabin and at least one boom, the arrangement comprising: one or more sensors configured to detect at least one object in an area of at least one sector, the at least one sector being focused in an area between the cabin and boom end, the one or more sensors being further configured to detect at least one of: location data of said detected object for at least two different times, and a speed of said detected object, wherein the detected object is a tree trunk held by a tool of the forestry machine at the boom end, and at least one controller configured to determine at least a direction of travel of said detected object in relation to the cabin at two different times, at least, based on the detected location data and/or the detected speed of the object, check a need to cause a change in the control of the forestry machine by checking at least one control criterion in response to the determined direction of travel of the detected object being directed towards the cabin in the area of said at least one sector, and cause a change in the control of the forestry machine in response to the determined direction of travel of the detected object being directed towards the cabin in the area of the at least one sector and in fulfilling the at least one control criterion. 2. The control arrangement as claimed in claim 1 , wherein the controller is further configured to determine an angle of the direction of travel of the detected object in relation to the cabin. 3. The control arrangement as claimed in claim 1 , wherein the controller is further configured to determine a speed of the travel of the detected object in relation to the cabin. 4. The control arrangement as claimed in claim 3 , wherein the speed of the travel of the detected object in relation to the cabin forms at least one of said control criteria, and wherein the controller is further configured to cause a change in the control of the forestry machine in response to the determined speed of the detected object in relation to the cabin being at least 3 m/s. 5. The control arrangement as claimed in claim 1 , wherein at least one of the one or more sensors is configured to detect at least one dimension of the detected object. 6. The control arrangement as claimed in claim 1 , wherein the controller is further configured to cause a change in the control of the forestry machine by forming at least one control command that is configured to affect the control of the forestry machine. 7. The control arrangement as claimed in claim 1 , wherein: at least one of the one or more sensors is configured to detect at least one object which is not a structural part of the forestry machine, within a safety zone, and the controller is further configured to cause a change in the control of the forestry machine in response to a detection of said object not belonging to the forestry machine, in the safety zone. 8. The control arrangement as claimed in claim 7 , wherein said safety zone differs at least in part from the area of the at least one sector. 9. The control arrangement as claimed in claim 7 , wherein said safety zone comprises an area that extends to a distance of 1.5 meters from the cabin of the forestry machine. 10. The control arrangement as claimed in claim 7 , wherein the controller is further configured to cause operation of the forestry machine to stop in response to the detection of an object that is not a structural part of the forestry machine, in the safety zone. 11. The control arrangement as claimed in claim 1 , wherein the one or more sensors use at least one of: LiDAR, a camera, machine vision, an ultrasound measuring device, and radar. 12. The control arrangement as claimed in claim 1 , wherein the one or more sensors is located in or on one or more of: a cabin window, above and outside of the cabin, a top part of the cabin inside the cabin, a body of the forestry machine, the boom of the forestry machine, a front body of the forestry machine, a rear body of the forestry machine, and a structure external to the forestry machine that moves with the forestry machine. 13. The control arrangement as claimed in claim 1 , wherein said at least one sector is directed from the cabin of the forestry machine at least towards a main working direction of the boom. 14. The control arrangement as claimed in claim 13 , wherein said at least one sector is additionally directed from the cabin of the forestry machine to at least two transverse sides, in relation to the main working direction of the boom. 15. The control arrangement as claimed in claim 14 , wherein said at least one sector is additionally directed from the forestry machine cabin to a direction opposite the main working direction of the boom. 16. The control arrangement as claimed in claim 1 , wherein said at least one sector extends to a distance of at least 15 meters from the cabin of the forestry machine. 17. The control arrangement as claimed in claim 1 , wherein said at least one sector extends to substantially a distance matching a reach of the boom from the cabin of the forestry machine. 18. A method for controlling a forestry machine including at least one cabin and at least one boom, the method comprising: detecting by one or more sensors at least one object in an area of at least one sector, the at least one sector being focused in an area between the cabin and boom end, wherein the detected object is a tree trunk held by a tool of the forestry machine at the boom end, detecting by the one or more sensors at least one of: location data of said detected object for at least two different times, and a speed of said detected object, determining by a controller at least a direction of travel of said detected object in relation to the cabin at two different times, at least, based on the detected location data and/or the detected speed of the object, checking by the controller a need to cause a change in the control of the forestry machine by checking at least one control criterion in response to the detected direction of travel of the detected object being towards the cabin within the area of said at least one sector, and causing by the controller a change in the control of the forestry machine in response to the determined direction of travel of the detected object being towards the cabin within the area of said at least one sector and said at least one control criterion being fulfilled. 19. The method as claimed in claim 18 , further comprising: detecting by at least one of the one or more sensors at least one object which is not a structural part of the forestry machine, within a safety zone, the safety zone at least partly differing from the area of the at least one sector, and causing by the controller a change in the control of the forestry machine in response to a detection of said object not belonging to the forestry machine in the safety zone. 20. The method as claimed in claim 19 , wherein said safety zone differs at least in part from the area of the at least one sector. 21. A non-transitory computer program product comprising program code that, when processed by a processor, controls a forestry machine including at least one cabin and at least one boom, by performing operations comprising: detecting by one or more sensors at least one object in an area of at least one sector, the at least one sector being focused in an area between the cabin and boom end, wherei