Pressure sensing system and seat cushion having the pressure sensing system

The invention claimed is: 1. A pressure sensing system for a seat cushion, comprising: a flexible printed circuit comprising: a flexible substrate; and N horizontal sensing wires and M vertical sensing wires securely placed on a top surface of the flexible substrate, wherein the N horizontal sensing wires intersect and electrically connect with the M vertical sensing wires and form (N×M) intersections wherein each one of the (N×M) intersections electrically connects one of the N horizontal sensing wires and one of the M vertical sensing wires; and a layer of an electrically conductive foam placed on top of the N horizontal sensing wires and the M vertical sensing wires and operatively connected with the N horizontal sensing wires and the M vertical sensing wires, wherein in response to a pressure being applied to the layer of the electrically conductive foam, each intersection between the electrically connected N horizontal sensing wires and M vertical sensing wires generates in real time an electric flux density value to reflect a degree of a compression caused by the pressure to a corresponding point of the electrically conductive foam. 2. The pressure sensing system of claim 1 , further comprising an electronic control unit for receiving and processing the electric flux density value from each intersection of the flexible printed circuit. 3. The pressure sensing system of claim 2 , wherein the electronic control unit includes a receiving circuit for receiving the electric flux density value generated from each intersection of the flexible printed circuit. 4. The pressure sensing system of claim 3 , wherein the electronic control unit includes a processor for processing the electric flux density value from each intersection of the flexible printed circuit. 5. The pressure sensing system of claim 4 , wherein the processor is configured to generate a matrix S NM comprising the electric flux density value from each intersection of the flexible printed circuit. 6. The pressure sensing system of claim 2 , wherein the electronic control unit includes a memory for storing use cases and the electric flux density value from each intersection of the flexible printed circuit. 7. The pressure sensing system of claim 6 , wherein the processor is configured to compare the matrix S NM with a plurality of use cases to derive a weight group associated with the pressure. 8. The pressure sensing system of claim 1 , wherein the flexible substrate is a polyethylene terephthalate (PET) or polyimide (PI) flexible substrate. 9. The pressure sensing system of claim 1 , wherein the compression causes a change in the permittivity of the layer of the electrically conductive foam around the corresponding point of the electrically conductive foam.