Residue spreading system

The invention claimed is: 1. A residue spreading system for an agricultural combine, that is steerable to influence distribution of residue when the residue spreading system is spreading the residue, the residue spreading system comprising: a sensor configured for emitting a wave signal through the residue, the sensor further configured for separately measuring reflections of the wave signal from the residue in a first zone and in a second zone, wherein said sensor is positioned such that a measuring direction of the sensor is substantially parallel to a ground surface, and wherein the reflections are directly proportional to a density of residue that is distributed, wherein the residue spreading system is steerable based on the measured reflections, wherein the wave signal has a wavelength that is larger than 0.001 mm and that is smaller than 50 mm, wherein the sensor is positioned such that the measuring direction of the sensor crosses the ground surface, and wherein the reflections comprise a first part being directly proportional to an amount of residue in a respective one of the first and second zones and a second part corresponding to a reflection of the wave signal on the ground surface and being inversely proportional to the amount of residue in the respective one of the first and second zones. 2. The residue spreading system according to claim 1 , wherein the wave signal has a wavelength that is larger than 0.1 mm. 3. The residue spreading system according to claim 1 , wherein the wave signal has a wavelength that is smaller than 10 mm. 4. The residue spreading system according to claim 1 , wherein the sensor is a radar sensor. 5. The residue spreading system according to claim 1 , wherein the sensor is a sonar sensor. 6. The residue spreading system according to claim 1 , wherein the sensor comprises at least two receivers each being adapted for receiving reflections from a respective one of the first zone and the second zone. 7. The residue spreading system according to claim 6 , wherein the sensor further comprises at least two emitters adapted for emitting respective wave signals through the first zone and the second zone, wherein the two emitters correspond to the two receivers. 8. The residue spreading system according to claim 1 , wherein the sensor comprises only a single emitter adapted for emitting the wave signal through the first zone and the second zone. 9. The residue spreading system according to claim 1 , further comprising a processor connected to the sensor to receive an input signal representing the measured reflections, and connected to the residue spreading system to steer the residue spreading system via an output signal. 10. An agricultural combine comprising the residue spreading system according to claim 1 . 11. A method for steering a residue spreading system of an agricultural combine, the method comprising steps of: emitting a wave signal having a wavelength that is larger than 0.001 mm and that is smaller than 50 mm through residue when the residue spreading system is spreading the residue; measuring reflections of the signal in at least a first direction and a second direction, wherein said first and second directions are substantially parallel to a ground surface, and wherein the reflections comprise a first part being directly proportional to an amount of residue in a respective one of first and second zones and a second part corresponding to a reflection of the wave signal on the ground surface and being inversely proportional to the amount of residue in the respective one of the first and second zones; and steering the residue spreading system based on the measured reflections to influence distribution of the residue spreading system. 12. A residue spreading system for an agricultural combine, that is steerable to influence distribution of residue when the residue spreading system is spreading the residue, the residue spreading system comprising: a sensor configured for emitting a wave signal through the residue, the sensor further configured for separately measuring reflections of the wave signal from the residue in a first zone and in a second zone, wherein the residue spreading system is steerable based on the measured reflections, and wherein the sensor is positioned such that a measuring direction of the sensor is substantially parallel to a ground surface, and wherein the reflections are directly proportional to a density of residue that is distributed and wherein the sensor is positioned such that the measuring direction of the sensor crosses the ground surface, and wherein the reflections comprise a first part being directly proportional to an amount of residue in a respective one of the first and second zones and a second part corresponding to a reflection of the wave signal on the ground surface and being inversely proportional to the amount of residue in the respective one of the first and second zones.