A Cleaning Assembly for a Harvester

1 . A cleaning assembly for a harvester operable to clean a crop while moving along a direction of the crop flow and comprising: multiple cleaning sub-assemblies, each comprising: a fan for generating a flow of air at a fan outlet; a sieve assembly comprising at least one reciprocating sieve extending along the direction of the crop flow between an upstream end and a downstream end, the upstream end being arranged near the fan outlet such that the flow of air output by the fan outlet generally flows along the sieve assembly and the direction of the crop flow; and a clean grain auger arranged below the sieve assembly and operable to receive cleaned grain from the sieve assembly, the downstream end of a first one of the multiple cleaning sub-assemblies being arranged at the upstream end of a second one of the multiple cleaning sub-assemblies, a control system coupled to each of the cleaning sub-assemblies and operable to separately control operation of each of the cleaning sub-assemblies as a function of separate cleaning sub-assembly control settings for each of the cleaning sub-assemblies. 2 . A cleaning assembly according to claim 1 , wherein the control system comprises a cleaning sub-assembly control setting correlation module operable to: receive at least one separate cleaning sub-assembly control setting; calculate at least one further separate cleaning sub-assembly control setting from the received separate cleaning sub-assembly control setting as a in function of a cleaning sub-assembly control correlation function which comprises a correlation between said at least one separate cleaning sub-assembly control setting and said at least one further separate cleaning sub-assembly control setting. 3 . A cleaning assembly according to claim 1 , wherein the control system is configured to: receive from at least one of inputs and sensors, separate operational input parameters each associated with a corresponding one of the multiple cleaning sub-assemblies, the operational input parameters comprising for each of the cleaning sub-assemblies at least one value representative of: the composition of the crop mixture; the grain size; the share of impurities in the grain; the amount or composition of crop material present on the at least one reciprocating sieve of the cleaning sub-assembly; grain loss at the downstream side of the cleaning sub-assembly; the amount of rethreshable crop at the downstream side of the cleaning sub-assembly; the amount of grain provided to the clean grain auger; the amount and/or distribution of airflow generated by the fan; the rotational speed of the fan; the sieve opening; calculate the separate cleaning sub-assembly control settings for each of the cleaning sub-assemblies as a function of the separate operational input parameters for each of the corresponding sub-assemblies. 4 . A cleaning assembly according to claim 3 wherein the control system is further configured to calculate the cleaning sub-assembly control correlation function as a function of the separate operational input parameters for each of the sub-assemblies. 5 . A cleaning assembly according to claim 1 , wherein the control system is coupled to the fans of each of the cleaning sub-assemblies and operable to control the rotational speeds of the fans of each of the cleaning sub-assemblies as a in function of the separate sub-assembly control settings comprising separate fan control settings for each of the fans. 6 . A cleaning assembly according to claim 1 , wherein the control system is coupled to the sieve assemblies of each of the cleaning sub-assemblies and operable to control the operation of the sieves assemblies of each of the cleaning sub-assemblies as a function of separate sub-assembly control settings comprising separate sieve control settings for each of the sieve assemblies. 7 . A cleaning assembly according to claim 6 , wherein the separate sieve control settings each comprise one or more of the following: a reciprocation frequency setting; a reciprocation phase setting; a reciprocation stroke setting. 8 . A cleaning assembly according to claim 6 , wherein the sieve assemblies each comprise at least one reciprocating sieve operable to reciprocate both along and transverse to the direction of the crop flow in function of a reciprocation angle setting; and in that the separate sieve control settings each comprise a reciprocation angle setting. 9 . A cleaning assembly according to claim 6 , wherein: the sieve assemblies each comprise at least one reciprocating sieve operable to set an opening degree as a function of a sieve opening setting; and in that the separate sieve control settings each comprise a sieve opening setting. 10 . A cleaning assembly according to claim 1 , wherein the sieve assemblies each comprise multiple reciprocating sieves, the first one of the multiple sieve assemblies comprises a reciprocating first upper sieve and a reciprocating first lower sieve arranged below the first upper sieve; and the second one of the multiple sieve assemblies comprises a reciprocating second upper sieve and a reciprocating second lower sieve arranged below the second upper sieve. 11 . A cleaning assembly according to claim 10 , wherein: the first upper sieve is configured for reciprocation in counter-phase with the first lower sieve; the second upper sieve is configured for reciprocation in counter-phase with the second lower sieve; and the first upper sieve is configured for reciprocation in phase with the second upper sieve. 12 . A cleaning assembly according to claim 1 , wherein the control system is configured to: operate the second cleaning sub-assembly in a whirl-layer-phase state, in which the distribution of the air flow and crop material along the second sieve assembly results in an optimal grain separation and optimal grain loss at the downstream end of the second cleaning sub-assembly; operate the first cleaning sub-assembly in a flight-phase state, in which the grain loss at the downstream end of the first cleaning sub-assembly and the amount of grain that is airlifted from the first cleaning sub-assembly is higher when compared to the whirl-layer-phase state. 13 . A cleaning assembly according to claim 1 , wherein the control system controls the operation of each of the cleaning sub-assemblies as a function of separate cleaning sub-assembly control settings for each of the cleaning sub-assemblies. 14 . A cleaning assembly according to claim 13 , wherein the control system is configured for: receiving at least one separate cleaning sub-assembly control setting; calculating at least one further separate cleaning sub-assembly control setting from the received separate cleaning sub-assembly control setting in as a function a cleaning sub-assembly control correlation function. 15 . A cleaning assembly according to claim 13 , wherein the control system is configured for: receiving from at least one of inputs and sensors, separate operational input parameters each associated with a corresponding one of the multiple cleaning sub-assemblies, the operational input parameters comprising for each of the cleaning sub-assemblies at least one value representative of: the crop type; the grain size; the share of impurities in the grain; the amount or composition of crop material present on the at least one reciprocating sieve of the cleaning sub-assembly; grain loss at the downstream side of the cleaning sub-assembly; the amount of rethreshable crop at the downstream side of the cleaning sub-assembly; the amount of grain provided to th