Suspension system with roll and pitch stiffness deactivation based on road profile information

What is claimed is: 1. A method of controlling a suspension system of a vehicle, comprising: connecting a manifold assembly to a plurality of dampers via a plurality of hydraulic circuits, the plurality of dampers including at least one front damper and at least one rear damper, and the manifold assembly including at least one manifold comfort valve configured to control fluid flow between the front and rear dampers; enabling a pitch stiffness control regime where the at least one manifold comfort valve is open and closed on demand to activate and deactivate passive pitch stiffness within the suspension system; retrieving a vehicle location and determining if the vehicle is traveling on a classified road based on the vehicle location; retrieving the road classification information if the vehicle is traveling on a classified road, the road classification information including a road roughness classification; determining if the road roughness classification is outside an acceptable roughness range; opening the at least one manifold comfort valve to disable the passive pitch stiffness of the suspension system for a particular time interval if the road roughness classification is outside the acceptable roughness range; and determining if the at least one manifold comfort valve is in a closed position or an open position, wherein the opening the at least one manifold comfort valve to disable the passive pitch stiffness of the suspension system for a particular time interval includes generating at least one control signal and sending the at least one control signal to the at least one manifold comfort valve if the at least one manifold comfort valve is in the closed position, wherein the at least one control signal actuates the at least one manifold comfort valve to place the at least one manifold comfort valve in the open position. 2. A method of controlling a suspension system of a vehicle, comprising: connecting a manifold assembly to a plurality of dampers via a plurality of hydraulic circuits, the plurality of dampers including at least one front damper and at least one rear damper, and the manifold assembly including at least one manifold comfort valve configured to control fluid flow between the front and rear dampers; enabling a pitch stiffness control regime where the at least one manifold comfort valve is open and closed on demand to activate and deactivate passive pitch stiffness within the suspension system; retrieving a vehicle location; monitoring real-time vehicle data from at least one of an accelerometer, a suspension displacement sensor, and a road scanning sensor disposed onboard the vehicle; determining if a discrete road event is approaching based upon the real-time vehicle data or a combination of the vehicle location and a saved road event stored in memory; and opening the at least one manifold comfort valve to disable the passive pitch stiffness of the suspension system for a particular time interval if a discrete road event is approaching; determining if it is unsafe to hold the at least one manifold comfort valves open based on data from a driver assistance system if a discrete road event is approaching; and overriding the opening the at least one manifold comfort valve to keep the passive pitch stiffness of the suspension system enabled if it is determined to be unsafe to hold the at least one manifold control valve open for the particular time interval, wherein the driver assistance system includes at least one of a stability control system, an anti-lock braking system, an anti-rollover system, an anti-lane departure system, and a collision avoidance system that is configured to intervene in the control of the vehicle by initiating a corrective action when activated and wherein it is determined that it is unsafe to hold the at least one manifold comfort valves open for the particular time interval if a corrective action has been initiated by the driver assistance system. 3. The method as set forth in claim 2 , further comprising: determining if the vehicle is traveling on a classified road based on the vehicle location; retrieving the road classification information from a cloud connection if the vehicle is traveling on a classified road, the road classification information including a road roughness classification; determining if the road roughness classification is outside an acceptable roughness range for the suspension system; and opening the at least one manifold comfort valve to disable the passive pitch stiffness of the suspension system for a particular time interval if the road roughness classification is outside the acceptable roughness range. 4. The method as set forth in claim 2 , further comprising: storing the discrete road event and an associated location of the vehicle in memory as a saved road event. 5. The method as set forth in claim 2 , further comprising the steps of: determining if a discrete road event is approaching based upon a combination of the vehicle location and a saved road event stored in memory; and opening the at least one manifold comfort valve to disable the passive pitch stiffness of the suspension system for a particular time interval if a discrete road event is approaching. 6. The method as set forth in claim 2 , further comprising: determining if the at least one manifold comfort valve is in a closed position or an open position, wherein the opening the at least one manifold comfort valve to disable the passive pitch stiffness of the suspension system for a particular time interval includes generating at least one control signal and sending the at least one control signal to the at least one manifold comfort valve if the at least one manifold comfort valve is in the closed position, wherein the at least one control signal actuates the at least one manifold comfort valve to place the at least one manifold comfort valve in the open position. 7. A suspension system of a vehicle, comprising: a plurality of dampers connected to a manifold assembly via a plurality of hydraulic circuits; said plurality of dampers including a front left damper, a front right damper, a back left damper, and a back right damper; said manifold assembly including a first manifold comfort valve configured to open and close to control fluid flow between said front left damper and said back left damper and a second manifold comfort valve configured to open and close to control fluid flow between said front right damper and said back right damper; a GPS module programmed to retrieve a vehicle location; a suspension control unit arranged in electronic communication with said first and second manifold comfort valves and programmed with a pitch stiffness control regime that is configured to open and close said first and second manifold comfort valves on demand to activate and deactivate passive pitch stiffness within the suspension system; and a driver assistance system that is arranged in electronic communication with said suspension control unit and that is programmed to electronically communicate a driver assistance system active intervention status to said suspension control unit, wherein said suspension control unit is programmed to determine if it is unsafe to hold said first and second manifold comfort valves open when said driver assistance system active intervention status indicates that said driver assistance system is currently implementing a corrective action to control the vehicle, said suspension control unit is programmed to determine if the vehicle is traveling on a classified road based on said vehicle location, retrieve a road roughness classification if the vehicle is traveling on a classified road, determine if said road roughness classification is outside an acceptable roughness range for th