Layered approach to economic optimization and model-based control of paper machines and other systems

What is claimed is: 1. A method for optimization and model-based control of a paper-making process, the method comprising: receiving at least one controlled variable of a paper web from a sensor of a plurality of sensors and actuators deployed in one or more locations across the paper web in the paper-making process, wherein the at least one controlled variable is includes one or more measurements of tension, caliper, moisture, anisotropy, basis weight, color, gloss, sheen, haze, and surface features of the paper web; generating a control tracking error using a control algorithm for the paper-making process using a controller objective function and at least one controlled variable target, wherein the control tracking error is the difference between a predicted value of the at least one controlled variable and a set point for the at least one controlled variable; implementing the at least one controlled variable target through the plurality of sensors and actuators of the paper-making process; optimizing the control tracking error by executing an optimization algorithm for the paper-making process using an extended version of the controller objective function, the extended version of the controller objective function including one or more additional terms added to the controller objective function, wherein the optimization tracking error of the optimization algorithm is provided to the control algorithm; based on the control tracking error and the optimization tracking error associated with the at least one controlled variable, adjusting at least one adaptive weight parameter in the extended version of the controller objective function, the at least one adaptive weight parameter associated with at least one of the one or more additional terms, wherein each tracking error represents a difference between (i) a predicted value of a specific controlled variable at an end of a prediction horizon and (ii) a target value for the specific controlled variable; and controlling a component of the paper-making process using the at least one adaptive weight parameter. 2. The method of claim 1 , wherein: the control algorithm and the optimization algorithm are repeatedly executed during multiple control iterations; and the at least one adaptive weight parameter as adjusted during one control iteration is used during execution of the optimization algorithm in a subsequent control iteration. 3. The method of claim 1 , wherein adjusting the at least one adaptive weight parameter comprises: increasing a weight placed on the at least one of the one or more additional terms when the optimization algorithm achieves a smaller tracking error than the control algorithm; and decreasing the weight placed on the at least one of the one or more additional terms when the optimization algorithm achieves a larger tracking error than the control algorithm. 4. The method of claim 1 , wherein the at least one adaptive weight parameter is adjusted so that the at least one of the one or more additional terms is de-emphasized until the paper-making process is economically optimized without causing any degradation to process output target tracking. 5. The method of claim 1 , wherein the one or more results of the optimization algorithm comprise at least one input target value and at least one output target value. 6. The method of claim 1 , further comprising: generating and outputting at least one control signal, the at least one control signal adjusting an operation of the paper-making process. 7. An apparatus for optimization and model-based control of a paper-making process, the apparatus comprising: at least one memory configured to store a controller objective function and an extended version of the controller objective function, the extended version of the controller objective function including one or more additional terms added to the controller objective function; and at least one processor configured to: receive at least one controlled variable from a sensor of a plurality of sensors and actuators deployed in one or more locations across the paper web in the paper-making process, wherein the at least one controlled variable includes one or more measurements of tension, caliper, moisture, anisotropy, basis weight, color, gloss, sheen, haze, surface features of the paper web; generate a control tracking error by using a control algorithm for the paper-making process using the controller objective function resulting in at least one controlled variable target wherein the control tracking error is the difference between a predicted value of the at least one controlled variable and a set point for the at least one controlled variable; implement the at least one controlled variable target through the plurality of sensors and actuators of the paper-making process; optimize the control tracking error by executing an optimization algorithm for the paper-making process using the extended version of the controller objective function resulting in an optimization tracking error; provide the optimized tracking error of the optimization algorithm to the control algorithm; and based on the control tracking error and the optimization tracking error associated with the at least one controlled variable, adjust at least one adaptive weight parameter in the extended version of the controller objective function, the at least one adaptive weight parameter associated with at least one of the one or more additional terms, wherein each tracking error represents a difference between (i) a predicted value of a specific controlled variable at an end of a prediction horizon and (ii) a target value for the specific controlled variable; and control a component of the paper-making process using that at least one adaptive weight parameter. 8. The apparatus of claim 7 , wherein: the at least one processor is configured to repeatedly execute the control algorithm and the optimization algorithm during multiple control iterations; and the at least one processor is configured to use the at least one adaptive weight parameter as adjusted during one control iteration during execution of the optimization algorithm in a subsequent control iteration. 9. The apparatus of claim 7 , wherein the at least one processor is configured to: increase a weight placed on the at least one of the one or more additional terms when the optimization algorithm achieves a smaller tracking error than the control algorithm; and decrease the weight placed on the at least one of the one or more additional terms when the optimization algorithm achieves a larger tracking error than the control algorithm. 10. The apparatus of claim 7 , wherein the at least one processor is configured to adjust the at least one adaptive weight parameter so that the at least one of the one or more additional terms is de-emphasized until the paper-making process is economically optimized without causing any degradation to process output target tracking. 11. The apparatus of claim 7 , wherein the one or more results of the optimization algorithm comprise at least one input target value and at least one output target value. 12. The apparatus of claim 7 , wherein the at least one processor is further configured to generate and output at least one control signal configured to adjust an operation of the paper-making process. 13. A non-transitory computer readable medium containing instructions that, when executed by at least one processor, cause the at least one processor to: receive at least one controlled variable of a paper web from a sensor of a plurality of sensors and actuators deployed in one or more locations across the paper web in the paper-maki