Determining movement distance of lifting device

The invention claimed is: 1. A method, comprising the steps of: determining, by a processor, a current operating mode of a lifting device as the lifting device moves a load in an operating area; positioning in the operating area, by a device connected to the lifting device, an object in an area, where the operation of the lifting device is restricted in comparison with the operating area around the object; determining, by the processor, a difference between the current operating mode of the lifting device and a restricted operating mode to be applied in the restricted area including the object; determining, by the processor on the basis of the difference a movement distance travelled by the lifting device when the current operating mode of the lifting device is changed to the operating mode to be applied in the restricted area including the object. 2. The method as claimed in claim 1 , further comprising the step of: beginning the changing of the current operating mode of the lifting device to the restricted operating mode to be applied in the object when the distance of the load moved by the lifting device from the restricted object is shorter than the predetermined movement distance. 3. The method as claimed in claim 1 , comprising the step of: removing from the lifting device the restrictions on the operating mode to be applied in the restricted object when the lifting device is outside the restricted object. 4. The method as claimed in claim 1 , wherein the changing of the operation of the lifting device comprises one or more of the following: determining a new route, stopping the lifting device, raising a load, lowering a load, increasing speed, decreasing speed. 5. The method as claimed in claim 1 , wherein when the operation of the lifting device is changed, the operator of the lifting device is warned through a user interface of the lifting device by one or more of the following: a sound signal, light, and a controller vibration. 6. The method as claimed in claim 1 , wherein the operating area of the lifting device comprises restricted objects, each one of which has an area and an operating mode to be applied in the area, said method further comprising the steps of: determining on the basis of the restricted objects a route for the lifting device in the operating area, the route comprising a starting area, a destination area and one or more locations between the starting area and the destination area, through which the lifting device moves the load from the starting area to the destination area; driving the lifting device on the predetermined route; receiving during the driving of the lifting device information on at least one new restricted object; storing the new restricted object to the operating area; determining an operating mode to be applied in the new restricted object; and updating the lifting device route on the basis of the operating mode of the new restricted object stored in the operating area. 7. The method as claimed in claim 1 , further comprising the steps of: determining a first distance between the lifting device and a restricted object, when the load of the lifting device is stationary; determining a second distance between the lifting device and the restricted object when the lifting device is moving the load; and determining a movement distance required for stopping the lifting device that is being driven, when the first distance and the second distance differ from one another. 8. The method as claimed in claim 7 , wherein the difference between the distances is smaller than or equal to 5%. 9. The method according to claim 1 , wherein the movement distance x N of the lifting device to a restricted object is determined according to the following formula: x N =v N 2 /(2 a N )+ f/d ), where v N is lifting device speed, a N is deceleration and f(d) is an increase in the movement distance caused by the lifting device state d as the load is decelerated. 10. The method as claimed in claim 1 , wherein the movement distance of the lifting device is determined on a sector θ opening in the direction of speed of the lifting device, the sector being 180 degrees or smaller. 11. The method as claimed in claim 1 , wherein the movement distance of the lifting device is determined on the basis of a distance determined between the lifting device and a restricted object on each axis of a selected coordinate system. 12. The method as claimed in claim 1 , wherein the movement distance of the lifting device is determined on the sector θ opening in the direction of speed of the lifting device, a change in the direction of speed of the lifting device determining a new sector θ n in the direction of speed of the changed lifting device for determining the movement distance of the lifting device. 13. The method as claimed in claim 1 , wherein the movement distance of the lifting device is determined in a sector θ 2 opening in the direction of speed of the lifting device, the sector comprising a primary sector θ 1 and at least one secondary sector θ 3 , θ 4 , the positioning of the restricted object to be carried out in the primary sector being more precise than positioning carried out in a secondary sector. 14. The method as claimed in claim 1 , wherein the distance of a load moved by the lifting device from a restricted object is calculated as a distance between the greatest dimension of the lifting device load in each direction of movement of the lifting device and the greatest dimension of the restricted object in each direction of movement of the lifting device. 15. The method as claimed in claim 1 , wherein an operating mode comprises one or more of the following: position data, speed data, traffic prohibition, driving instruction, speed limit, outer dimensions of the load, load sway area, and load weight. 16. The method according to claim 1 , wherein a plural number of restricted objects is determined in an operating area by positioning one or more radio transmitters placed in the operating area, each restricted object being determined by: placing said one or more radio transmitters in the operating area; positioning the one or more placed radio transmitters; and determining a restricted object in a position determined by the one or more radio transmitters placed in the operating area. 17. The method as claimed in claim 1 , wherein data on an operating mode to be applied in a restricted object is received, the received operating mode data is stored in the operating area and a lifting device route is updated on the basis of the operating mode data of the restricted objects stored in the operating area. 18. The method as claimed in claim 1 , wherein the lifting device comprises a lifting mechanism configured to move a load and a controller, the operator using the controller to control the lifting mechanism, the controller being connected to the lifting mechanism by a wireless data transfer connection and the operator being determined as a restricted object within the operating area of the lifting device. 19. A device comprising: a positioning unit for observing an operating environment of a lifting device; a calculating unit for calculating positions and speeds on the basis of observations received from the positioning unit; and an interface to a lifting device, said interface being connected to the lifting device to cause: determining a current operating mode of a lifting device as the lifting device moves a load in an operating area; positioning in the operating area an object in an