Engine torque control with combustion phasing

The invention claimed is: 1. An engine assembly comprising: an internal combustion engine including an engine block having at least one cylinder defining a bore axis, and at least one piston moveable within the at least one cylinder; wherein the internal combustion engine includes a crankshaft defining a crank axis, the crankshaft being moveable to define a plurality of crank angles (CA) from the bore axis to the crank axis; at least one intake valve and at least one exhaust valve, each in fluid communication with the at least one cylinder and each having respective open and closed positions; a spark plug operatively connected to the at least one cylinder; a controller operatively connected to the internal combustion engine and configured to receive a torque request (T R ); wherein the controller includes a processor and tangible, non-transitory memory on which is recorded instructions, execution of the instructions by the processor causing the controller to: obtain a first parameter (Z 1 ) for each of a plurality of crank angles (CA) based at least partially on a respective cylinder volume (V CA ) of the at least one cylinder, a predefined first constant (γ), a predefined second constant (k 1 ) and a predefined third constant (k 2 ), such that Z 1 =[(k 1 *CA+k 2 )*(V CA ) γ-1 ]; obtain a first, a second and a third coefficient (a, b, c), the first parameter (Z 1 ) being approximated with a quadratic function of the plurality of crank angles (CA) with the first, second and third coefficients (a, b, c) such that Z 1 =[a*CA 2 +b*CA+c]; determine a desired combustion phasing (CA d ) based at least partially on the torque request (T R ) and the first, second and third coefficients (a, b, c); obtain a desired spark timing (SP d ) based at least partially on the desired combustion phasing (CA d ); and control the spark plug based at least partially on the desired spark timing (SP d ) in order to control the torque of the internal combustion engine. 2. The engine assembly of claim 1 , wherein the desired combustion phasing (CA d ) is characterized by one of the plurality of crank angles (CA) corresponding to 50% of fuel being combusted and the at least one piston being after a top-dead-center (TDC) position. 3. The engine assembly of claim 1 , wherein said determining the desired combustion phasing (CA d ) includes: obtaining a second parameter (Z 2 ) as a sum of respective geometrical areas of a plurality of geometrical shapes in a log-scaled pressure-volume (PV) diagram of the at least one cylinder. 4. The engine assembly of claim 1 , wherein said determining the desired combustion phasing (CA d ) includes: obtaining a second parameter (Z 2 ) as Z 2 =(A R +A T1 +A T2 ); wherein A R is an area of a rectangle in the log-scaled pressure-volume (PV) diagram; and wherein A T1 and A T2 are respective areas of a first and a second triangle in the log-scaled pressure-volume (PV) diagram. 5. The engine assembly of claim 3 , wherein said determining the desired combustion phasing (CA d ) includes: obtaining a third parameter (Z 3 ) as a sum of the second parameter (Z 2 ) and a product of the torque request (T R ) and pi (π) such that [Z 3 =Z 2 +(T R *π)]. 6. The engine assembly of claim 5 , wherein said determining the desired combustion phasing (CA d ) includes: obtaining the desired combustion phasing (CA d ) based at least partially on the third parameter (Z 3 ), a fuel mass (m f ), the first, second and third coefficients (a, b, c), a volume (V EVO ) of the at least one cylinder when the at least one exhaust valve is opening, the predefined first constant (γ), the predefined second constant (k 1 ), the predefined third constant (k 2 ) and a predefined fourth constant (Q LHV ). 7. The engine assembly of claim 5 , wherein the controller is programmed to determine an optimal combustion phasing (CA m ) for maximizing a net-mean-effective-pressure of the at least one cylinder, the optimal combustion phasing (CA m ) being based at least partially on the first and second coefficients (a, b), the volume (V EVO ) of the at least one cylinder when the at least one exhaust valve is opening, the predefined first constant (γ) and the predefined second constant (k 1 ). 8. The engine assembly of claim 7 , wherein the optimal combustion phasing (CA m ) is defined as: CAm = k 1 - bV EVO 1 - γ 2 ⁢ aV EVO 1 - γ . 9. The engine assembly of claim 7 , wherein the controller is programmed to determine the desired spark timing (SP d ) for controlling the torque output of the internal combustion engine based at least partially on the desired combustion phasing (CA d ), the maximized combustion phasing (CA m ), a predefined nominal spark timing (SP nom ) and a predefined conversion factor (h) such that: SP d =SP nom +h *(CA d −CA m ). 10. A method for controlling torque in an engine assembly with a desired combustion phasing (CA d ), the engine assembly including an internal combustion engine having an engine block with at least one cylinder, at least one piston moveable within the at least one cylinder; at least one intake valve and at least one exhaust valve each in fluid communication with the at least one cylinder and having respective open and closed positions, a spark plug operatively connected to the at least one cylinder and a controller configured to receive a torque request (T R ), the method comprising: obtaining a first parameter (Z 1 ), via the controller, for each of a plurality of crank angles (CA) based at least partially on a respective cylinder volume (V CA ) of the at least one cylinder, a predefined first constant (γ), a predefined second constant (k 1 ) and a predefined third constant (k 2 ), such that Z 1 =[(k 1 *CA+k 2 )*(V CA ) γ-1 ]; obtaining a first, a second and a third coefficient (a, b, c), via the controller, the first parameter (Z 1 ) being approximated with a quadratic function of the plurality of crank angles (CA) with the first, second and third coefficients (a, b, c) such that Z 1 =[a*CA 2 +b*CA+c]; obtaining the desired combustion phasing (CA d ) based at least partially on the torque request (T R ) and the first, second and third coefficients (a, b, c), obtaining a desired spark timing (SP d ) based at least partially on the desired combustion phasing (CA d ); and controlling the spark plug based at least partially on the desired spark timing (SP d ) in order to control the torque of the internal combustion engine. 11. The method of claim 10 , further comprising: obtaining a second parameter (Z 2 ), via the controller, as a sum of respective geometrical areas of a plurality of geometrical shapes in the log-scaled pressure-volume (PV) diagram such that (Z 2 =A R +A T1 =A T2 ); wherein A R is an area of a rectangle in a log-scaled pressure versus volume diagram of the at least one cylinder; and wherei