Method of determining whether a frame of a work machine is approaching a tip over point

The invention claimed is: 1. A method of determining whether a frame of a work machine is approaching a tip over point, the frame comprising first and second support arrangements each supporting a portion of the load of the frame on a surface, the method comprising the steps of: detecting a first load upon the first support arrangement using first sensing means and detecting a second load upon the second support arrangement using second sensing means; generating signals indicative of the first and second loads; communicating the signals to a controller; and wherein the controller is configured to: generate an alert based upon the first and second loads when the first and/or second load signals indicate that the orientation of the work machine is approaching a tip over point; receive a plurality of signals over a time period from the first and second load sensing means; determine from the plurality of signals a change in at least one of the first and second loads over the time period; determine, based upon the change, whether a threshold value has been reached and, if reached, generate the alert; determine, based upon the change, whether the threshold value has been reached by: defining a balanced load center position at substantially equal first and second loads; determining a new load center position upon detecting the change in at least one of the first and second loads over the time period; determining, based upon the change in position between the balanced load center position and the new load center position, whether the threshold value, indicating that the orientation of the work machine is approaching a tip over point, has been reached; define the threshold value as a maximum displacement of the new load center from the balanced load center; and calculate the velocity of the movement of the load based upon the velocity of the movement for the load center from the balanced load center position to the new load center position. 2. A method as claimed in claim 1 wherein the controller determines whether at least one of the first and second loads have reached one or more threshold values and generates the alert if one or more threshold values have been reached. 3. A method as claimed in claim 1 wherein the controller is configured to: receive a plurality of signals over a time period from the first and second load sensing means; determine from the plurality of signals a change in at least one of the first and second loads over the time period; calculate the velocity of the movement of the load between the first and second support arrangements; and generate the alert if the velocity has reached a threshold value. 4. A work machine comprising a frame, the frame comprising: first and second support arrangements, each for supporting a portion of the load of the frame on a surface, the first and the second support arrangements each including a walking beam operably connected to the frame and at least one terrain engaging means operably connected to the walking beam; and an apparatus for performing the method of claim 1 , the apparatus comprising: first load sensing means for attachment to the first support arrangement for generating a signal indicative of a first load; second load sensing means for attachment to the second support arrangement for generating a signal indicative of a second load upon the second support arrangement; and the controller is configured to receive signals from the first and the second load sensing means and generate the alert, wherein one of the first or the second load sensing means are attached to the walking beam, wherein the first or the second load sensing means are arranged to detect the shear forces acting on the walking beam, and wherein the load sensing means comprises at least four sensors, each positioned substantially at a region of a maximum magnitude of shear force acting on the walking beam. 5. A method of determining whether a frame of a work machine is approaching a tip over point, the frame comprising first and second support arrangements each supporting a portion of the load of the frame on a surface, the method comprising the steps of: detecting a first load upon the first support arrangement using a first sensing means and detecting a second load upon the second support arrangement using a second sensing means; generating signals indicative of the first and the second loads; and communicating the signals to a controller; wherein the controller is configured to: generate an alert based upon the first and second loads when the first and/or second load signals indicate that an orientation of the work machine is approaching the tip over point; receive a plurality of signals over a time period from the first and second load sensing means; determine from the plurality of signals a change in at least one of the first and second loads over the time period; determine the magnitude of the change in at least one of the first and second loads; calculate the velocity of the movement of the load between the first and second support arrangements; calculate the momentum of the load based upon the velocity and magnitude of the change; and generate the alert if the momentum has reached a threshold value. 6. A method as claimed in claim 5 wherein the controller is configured to: receive a plurality of signals over a time period from the first and second load sensing means; determine from the plurality of signals a rate of change in at least one of the first and second loads over the time period; and generate the alert if the rate of change has reached a threshold value. 7. A method as claimed in claim 5 wherein the controller is configured to redefine the value of each signal as the root mean square of the values of a predetermined number of previously received signals. 8. A method as claimed in claim 5 wherein the controller is configure to generate the alert based upon the first and second loads and not upon a detected roll angle.