Vehicle weight and center of gravity estimation system and method

What is claimed is: 1. A load estimation system for estimating a vehicle load comprising: at least one tire supporting a vehicle; a tire-mounted sensor attached to the tire and comprising a rotation counter for generating a rotation count from rotation of the tire; a vehicle-based distance measuring device measuring distance travelled by the vehicle and producing distance travelled input data; an effective radius calculator calculating effective radius of the tire from the distance travelled and the rotation count; and wherein the effective radius calculator operably calculates effective radius of the tire by dividing a distance measured by the distance measuring device by a product of the rotation count times 2π; a rotation time measuring calculator for measuring the time for one rotation from data derived from the tire-mounted sensor; a vehicle speed calculating calculator for calculating vehicle speed by dividing the effective radius of the tire times 2π by the time for one rotation pursuant to the formula: Vehicle speed=(Effective Radius of Tire*2π)/(Time of one revolution); load estimation means for calculating the load carried by the vehicle tire from the effective radius; wherein data from the load estimating means is communicated to an operator of the vehicle by a communication device that is operative connected to the vehicle or communicated to a vehicle control device. 2. The load estimation system of claim 1 , wherein the distance measuring device comprises a global positioning system. 3. A load estimation system for estimating a vehicle load comprising: at least one tire supporting a vehicle; a tire-mounted sensor attached to the tire and comprising a rotation counter for generating a rotation count from rotation of the tire; a vehicle-based distance measuring device measuring distance travelled by the vehicle and producing distance travelled input data; an effective radius calculator calculating effective radius of the tire from the distance travelled and the rotation count; load estimation means for calculating the load carried by the vehicle tire from the effective radius; and wherein data from the load estimating means is communicated to an operator of the vehicle by a communication device that is operative connected to the vehicle or communicated to a vehicle control device; wherein the distance measuring device comprises a global positioning system; wherein the effective radius calculator operably calculates effective radius of the tire by dividing a distance measured by the global positioning system by a product of the rotation count times 2π; wherein further comprising a rotation time measuring calculator for measuring the time for one rotation from data derived from the tire-mounted sensor; and a vehicle speed calculating calculator for calculating vehicle speed by dividing the effective radius of the tire times 2π by the time for one rotation pursuant to the formula: Vehicle speed=(Effective Radius of Tire*2π)/(Time of one revolution). 4. The load estimation system of claim 3 , wherein further comprising a tire-based tire pressure and temperature monitoring sensor for measuring tire pressure and tire temperature. 5. The load estimation system of claim 4 , wherein the load estimation means comprises a computer receiving as inputs from the tire-based sensor the tire pressure, tire temperature, and receiving as further inputs the effective radius, and vehicle speed, and the computer calculating a load estimation from the inputs by means of a load estimation algorithm. 6. The load estimation system of claim 5 , wherein further comprising tire vertical stiffness calculating means for determining a tire vertical stiffness from the tire-based sensor tire pressure and tire temperature measurements, and the vehicle speed, the calculated tire vertical stiffness comprising a further input into the load estimation algorithm. 7. The load estimation system of claim 6 , wherein the load estimation algorithm comprises a recursive least squares algorithm receiving as input the tire vertical stiffness, the tire effective rolling radius, and a tire original radius as inputs. 8. The load estimation system of claim 5 , wherein the load estimation means operably calculates a respective load carried by a plurality of tires supporting the vehicle. 9. The load estimation system of claim 8 , wherein an estimated total load carried by the vehicle comprises a summation of the respective loads of the plurality of tires. 10. The load estimation system of claim 9 , further comprising a center of gravity height estimation means for estimating a vehicle center of gravity from the estimated total load. 11. A method of determining an estimated vehicle load carried by a tire comprising: determining a rotation count from a tire-mounted sensor affixed to the tire; measuring the distance travelled by the vehicle from a vehicle-based distance-measuring device; calculating an effective radius of the tire from the distance travelled and the rotation count; and calculating the load carried by the vehicle tire from the effective radius; communicating data representing the load calculation to an operator of the vehicle by a communication device that is operative connected to the vehicle or communicated to a vehicle control device; wherein the vehicle-based distance measuring device comprises a global positioning system; wherein calculating an effective radius of the tire comprises dividing a distance measured by the global positioning system by the rotation count times 2π; and measuring rotation time for one rotation of the tire from a tire-based sensor; and calculating vehicle speed from dividing the product of the effective radius of the tire times 2π by the time for one rotation pursuant to the formula: Vehicle speed=(Effective Radius of Tire*2π)/(Time of one revolution). 12. The method of claim 11 , wherein further comprising measuring tire pressure and tire temperature of the tire respectively from a tire-based sensor; and using the sensor-measured tire pressure and tire temperature, and effective radius, and vehicle speed as collective inputs in calculating a load estimation by means of a load estimation algorithm. 13. The method of claim 12 , wherein further comprising determining a tire vertical stiffness from the sensor-measured tire pressure and tire temperature, and vehicle speed and using the vertical stiffness as an additional input in the load estimation algorithm. 14. The method of claim 13 , wherein further comprising estimating a total load carried by the vehicle by a summation of respective loads on a plurality of tires. 15. The method of claim 14 , further comprising estimating a center of gravity of the vehicle from the estimated total load.