Estimation of weight for a vehicle

The invention claimed is: 1. A method for estimating a weight m v for a vehicle comprising: measuring at least two forces which act upon the vehicle, the two forces comprising a motive force F T of the vehicle and at least one further force, the estimation being based on a further force relating to topographical information for a relevant section of a road on which the vehicle is moving, wherein the at least one further force comprises at least one of several forces F G related to gravitation, the estimation takes into account said at least one or several forces F G related to gravitation, the estimation is performed when the at least two forces are dominated by the motive force F T , and the estimation is performed based on integration of continuous values or summation of discrete values of input parameters for the estimation over a period of time or distance. 2. The method according to claim 1 , wherein the at least one further force further comprises at least one force selected from a force F R related to rolling resistance and a force F A related to air resistance on the movement of the vehicle. 3. The method according to claim 1 , wherein the motive force F T is dominant relative to the at least one further force when the motive force F T is at least a predetermined number of times greater than the at least one further force. 4. The method according to claim 3 , wherein the predetermined number of times is an adjustable value which is altered so that the estimation is performed a suitable number of times per run of the vehicle. 5. The method according to claim 3 , wherein the number of times is three. 6. The method according to claim 1 , further comprising making at least two separate estimates of the weight of the vehicle m v to determine an averaged weight m m . 7. The method according to claim 1 , further comprising classifying the estimation to indicate reliability of the estimation. 8. A computer program which comprises non-transitory program code and which, when the code is executed in a computer, causes the computer to apply the method according to claim 1 . 9. A computer program product comprising a non-transitory computer-readable medium and the computer program according to claim 8 , wherein the program is contained in said computer-readable medium. 10. A method for estimating a weight m v for a vehicle comprising: measuring at least two forces which act upon the vehicle, the two forces comprising a motive force F T of the vehicle and at least one further force, the estimation being based on a further force relating to topographical information for a relevant section of a road on which the vehicle is moving, wherein the at least one further force comprises at least one of several forces F G related to gravitation, the estimation takes into account said at least one or several forces F G related to gravitation, and the estimation is performed when the at least two forces are dominated by the motive force F T , the method further comprising determining that the motive force F T is dominant relative to the at least one further force if torque M extracted at the time from an engine for the vehicle exceeds a predetermined proportion of a maximum torque M Max of the engine. 11. The method according to claim 10 , wherein the predetermined proportion is an adjustable value which is altered so that the estimation is performed a suitable number of times per run of the vehicle. 12. The method according to claim 10 , wherein the predetermined proportion is 90% of the maximum torque M Max of the engine. 13. A method for estimating a weight m v for a vehicle comprising: measuring at least two forces which act upon the vehicle, the two forces comprising a motive force F T of the vehicle and at least one further force, the estimation being based on a further force relating to topographical information for a relevant section of a road on which the vehicle is moving, wherein the at least one further force comprises at least one of several forces F G related to gravitation, the estimation takes into account said at least one or several forces F G related to gravitation, and the estimation is performed when the at least two forces are dominated by the motive force F T , wherein the estimation is based on at least: selecting an effect of the at least two forces on the vehicle over a period of time t 0 -t e which has a length within a selected time range; a change in speed of the vehicle over the time period t 0 -t e ; and a change in altitude of the vehicle over the period t 0 -t e . 14. The method according to claim 13 , in which the time period t 0 -t e corresponds to a distance x 0 -x e which is travelled over the time period t 0 -t e and x 0 -x e has a length within a permissible distance range. 15. The method according to claim 13 , further comprising determining the change in altitude based on a gradient α of a relevant section of road. 16. The method according to claim 15 , further comprising determining the road gradient α based on at least one of: topographical map information of a road on which the vehicle is travelling in combination with positioning information of the vehicle on the road; and an accelerometer for measuring acceleration of the vehicle. 17. The method according to claim 13 , further comprising determining the change in altitude based on altitude information obtained from topographical map information of a road on which the vehicle is travelling in combination with positioning information of the vehicle on the road. 18. The method according to claim 13 , further comprising determining the change in altitude based on a change in atmospheric pressure where the vehicle is travelling over the predetermined period t 0 -t e . 19. The method according to claim 13 , further comprising determining an effect of the at least two forces on the vehicle over the time period t 0 -t e by at least one of a plurality of the following calculation methods: integrating the effect on the vehicle of the at least two forces over the time period t 0 -t e ; summing an effect of the at least two forces over discrete values corresponding to the time period t 0 -t e ; integrating the effect of the at least two forces over a travel distance x 0 -x e of the vehicle corresponding to the time period t 0 -t e ; and summing the effect of the at least two forces over discrete values for a distance x 0 -x e of travel of the vehicle corresponding to the time period t 0 -t e . 20. A system for estimating a weight m v for a vehicle on the basis of: at least two forces which act upon the vehicle, the forces comprising a motive force F T and at least one further force; wherein the system is configured to base the estimation on topographical information for a selected relevant section of a road on which the vehicle is travelling; the at least one further force comprises at least one force F G related to gravitation; the system comprises a device configured for comparing the motive force F T and the at least one further force and the system is further configured, when the system is performing the estimation, to take into account the at least one or several forces F G related to gravitation; the system performs the estimation when the at least two forces are dominated by the motive force F T , and the estimation is performed based on integration of continuous values or summation of discrete values of input parameters for the estimation over a period of time or distance.