Towing systems and methods using magnetic field sensing

We claim: 1. A system for sensing forces acting on a towing vehicle comprising: a towing vehicle weight sensing subsystem comprising a first member adapted to being connected or interconnected to a portion or part of the towing vehicle body; a second member movable relative to the first member and adapted to being connected or interconnected to a portion or part of a suspension of the towing vehicle; and at least one vehicle load sensor pin for outputting a signal representing a weight of the towing vehicle, the at least one vehicle load sensor pin being connected or interconnected between the first and second members thereby forming a mechanical force transmitting connection between the first and the second members and the at least one vehicle load sensor pin; and a hitch load sensing subsystem comprising a third member adapted to being connected or interconnected to a portion or part of the towing vehicle body; a fourth member movable relative to the third member and adapted to being connected or interconnected to a receiver tube of a tow hitch; and at least one hitch load sensor pin for outputting a signal representing an amount and direction of force on the receiver tube when a force is applied, the at least one hitch load sensor pin being connected or interconnected between the third and fourth members thereby forming a mechanical force transmitting connection between the third and the fourth members and the at least one hitch load sensor pin; wherein each of the at least one vehicle load sensor pin and the at least one hitch load sensor pin comprise: an elongated generally cylindrically hollow and elastically deformable shaft having at least one magneto-elastically active region directly or indirectly attached to or forming a part of the shaft at an axial location spaced from one end of the shaft, wherein the at least one active region possesses a remanent magnetic polarization; and a processor adapted to receiving signals from at least one magnetic field sensor device arranged proximate to the at least one magneto-elastically active region, wherein the at least one magnetic field sensor device includes at least one direction-sensitive magnetic field sensor configured for determination of a shear force in at least one direction, wherein the processor and the at least magnetic field sensor device are arranged to have a predetermined and fixed spatial position inside the hollow shaft. 2. The system of claim 1 , further comprising two magneto-elastically active regions directly or indirectly attached to or forming a part of the shaft at longitudinally spaced apart locations from respective ends of the shaft, wherein each of the two active regions possess a remanent magnetic polarization. 3. The system of claim 1 , further comprising a storage or memory device containing software for computing an amount and direction of force acting on the hitch, wherein the storage or memory device is arranged inside the hollow shaft or in an external module, and is connected to the processor. 4. The system of claim 1 , wherein the suspension of the towing vehicle is one of a leaf spring suspension, a MacPherson strut suspension, a double wishbone suspension, a multi-link suspension, and a trailing-arm suspension. 5. The system of claim 4 , wherein the first member is connected to the portion or part of the towing vehicle body and the second member is connected to a portion or part of the one of the leaf spring suspension, the MacPherson strut suspension, the double wishbone suspension, the multi-link suspension, and the trailing-arm suspension. 6. The system of claim 1 , further comprising a shielding device positioned around all or a portion of the at least one vehicle load sensing pin or the at least one hitch load sensing pin for reducing the strength of an external magnetic field from one or more external magnetic field sources at a detecting region of the at least one direction-sensitive magnetic field sensor. 7. The system of 1 , further comprising at least one secondary magnetic field sensor arranged to have a predetermined and fixed spatial position inside the hollow shaft for outputting a signal, wherein the signal contains information about external magnetic fields that are measured at a detecting region of the at least one direction-sensitive magnetic field sensor. 8. A computer-implemented method for monitoring the loads on a towing vehicle when a trailer is attached to the towing vehicle, comprising: providing a towing vehicle weight sensing subsystem comprising a first member adapted to being connected or interconnected to a portion or part of the towing vehicle body; a second member movable relative to the first member and adapted to being connected or interconnected to a portion or part of a suspension of the towing vehicle; and at least one vehicle load sensor pin for outputting a signal representing a weight of the towing vehicle, the at least one vehicle load sensor pin being connected or interconnected between the first and second members thereby forming a mechanical force transmitting connection between the first and the second members and the at least one vehicle load sensor pin; providing a hitch load sensing subsystem comprising a third member adapted to being connected or interconnected to a portion or part of the towing vehicle body; a fourth member movable relative to the third member and adapted to being connected or interconnected to a receiver tube of a tow hitch; and at least one hitch load sensor pin for outputting a signal representing an amount and direction of force on the receiver tube when a force is applied, the at least one hitch load sensor pin being connected or interconnected between the third and fourth members thereby forming a mechanical force transmitting connection between the third and the fourth members and the at least one hitch load sensor pin; receiving a first signal from the at least one vehicle load sensor pin containing information about a weight of at least a portion of the towing vehicle; receiving a second signal from the at least one hitch load sensor pin containing information about a load applied to at least a portion of the tow hitch; computing a load value using the first and second signals; and outputting the value to the vehicle via an electronic connection. 9. The method of claim 8 , wherein each of the at least one vehicle load sensor pin and the at least one hitch load sensor pin comprises: an elongated generally cylindrically hollow and elastically deformable shaft having at least one magneto-elastically active region directly or indirectly attached to or forming a part of the shaft at an axial location spaced from one end of the shaft, wherein the at least one active region possesses a remanent magnetic polarization; and a processor adapted to receiving signals from at least one magnetic field sensor device arranged proximate to the at least one magneto-elastically active region, wherein the at least one magnetic field sensor device includes at least one direction-sensitive magnetic field sensor configured for determination of a shear force in at least one direction, wherein the processor and the at least magnetic field sensor device are arranged to have a predetermined and fixed spatial position inside the hollow shaft. 10. The method of claim 8 , wherein the step of computing a load value includes computing a total weight value. 11. The method of claim 8 , wherein the step of computing a load value includes computing one or more of a longitudinal force, a vertical force, and a transverse force applied to a portion of the tow hitch. 12. The method of claim 8 , further comprising providing a maximum weight rating for use i