Wade sensing display control system

The invention claimed is: 1. A method of controlling an HMI-apparatus for providing wading information to a driver of a vehicle, the method comprising: processing information received from two or more remote-ranging sensors into data relating to the depth of water about the vehicle, wherein the two or more remote-ranging sensors are disposed above the surface of the water and at an elevation greater than a threshold wading depth of the vehicle; and selectively controlling the HMI-apparatus to display the wading information in dependence on the data. 2. A method of controlling an HMI-apparatus, according to claim 1 comprising an additional step of determining whether at least part of the vehicle is disposed in water at the threshold wading depth of the vehicle based upon data provided by one or more water-contact sensors and wherein the additional step is carried out before or after the processing step. 3. A method of controlling an HMI-apparatus according to claim 2 wherein said data is left-side depth (Dleft) estimation and right-side depth (Dright) estimation. 4. A method of controlling an HMI-apparatus according to claim 3 wherein the processing step further comprises any one or a combination of: a) determining if the left-side depth estimation and/or right-side depth estimation is greater than the threshold wading depth when it has been determined that water is present at least at the threshold wading depth by any of said one or more water-contact sensors; b) determining if the left-side depth estimation and/or right-side depth estimation is greater than the threshold wading depth when it has not been determined that water is present at least at the threshold wading depth by any of said one or more water-contact sensors; c) determining if the left-side depth estimation and/or the right-side depth estimation is within the low-calibrateable-range; and d) determining if the left-side depth estimation and the right-side depth estimation are within a predetermined tolerance (ΔT) of one another. 5. A method of controlling an HMI-apparatus according to claim 4 wherein upon determining at step (a) that neither the left-side depth nor the right-side depth is greater than the threshold wading depth, the step of selectively controlling the HMI-apparatus comprises operating the HMI-apparatus without displaying the wading information. 6. A method of controlling an HMI-apparatus according to claim 4 wherein upon determining at step (b) that either the left-side depth or the right-side depth is greater than the threshold wading depth and at the same time that no contact sensor has issued data indicating that water is present at the threshold wading depth, the step of selectively controlling the HMI-apparatus comprises operating the HMI-apparatus without displaying the wading information. 7. A method of controlling an HMI-apparatus according to claim 4 wherein upon determining at step (c) that both the left-side depth and the right-side depth are below the lower limit of the low-calibrateable range, the step of selectively controlling the HMI-apparatus comprises operating the HMI-apparatus without displaying the wading information. 8. A method of controlling an HMI-apparatus according to claim 4 , wherein upon determining at step (d) that the left-side depth estimation and the right-side depth estimation are within the predetermined tolerance (ΔT) of one another, the method further comprises checking a lateral gradient of the vehicle and if the lateral gradient is non-zero the step of selectively controlling the HMI-apparatus comprises operating the HMI-apparatus without displaying the wading information. 9. A method according to claim 4 , wherein: the low-calibrateable-range is in the range of about 125 mm and about 450 mm; the predetermined tolerance (ΔT) is between about 50 mm and about 150 mm; and/or the upper limit of the low-calibrateable-range is provided by the threshold wading depth. 10. A method according to claim 1 wherein the threshold wading depth is between about 200 mm and about 450 mm. 11. A method of controlling an HMI-apparatus according to claim 1 , the method comprising one or more of: (i) determining if a threshold vehicle speed has been exceeded; (ii) determining if any of one or more contact-water sensors has not detected water at threshold wading depth within a first predetermined time period; (iii) determining if a vehicle is driving up-hill; (iv) determining if the depth of a body of water about the vehicle has reduced to a minimum depth; and (v) determining if a user has requested manual deactivation of the HMI-apparatus; and in response to any one or more of steps (i) through (v), the step of selectively controlling the HMI-apparatus comprises operating the HMI-apparatus without displaying the wading information. 12. A method according to claim 11 wherein: the first predetermined time period is at least 15 seconds; the minimum depth is less than the threshold wading depth; and/or the threshold wading depth is about 450 mm and the minimum depth is about 350 mm. 13. A vehicle comprising a system for wade-assisting, the system comprising two or more remote ranging sensors disposed at an elevation above a wading depth threshold of the vehicle; at least one water-contact sensor disposed at an elevation above the wading depth threshold different than the first elevation; an HMI-apparatus; and a control unit coupled to each of the two or more remote ranging sensors, to the at least one water-contact sensor and to the HMI-apparatus, wherein the control unit is configured to carry out the method of claim 1 . 14. A method of controlling an HMI-apparatus according to claim 1 wherein the information received from the two or more remote-ranging sensors is obtained by the two or more remote-ranging sensors remotely and without the two or more remote-ranging sensors contacting the water. 15. A method of controlling an HMI-apparatus according to claim 4 , wherein upon determining at step (d) that the left-side depth estimation and right-side depth estimation are not within the predetermined tolerance (ΔT) of one another, the method further comprises checking a lateral gradient of the vehicle and if the lateral gradient is zero, the method further comprises carrying out at least one of the following steps: carrying out the step of selectively controlling the HMI-apparatus by operating the HMI-apparatus without displaying the wading information; or modifying the wading information to show only the depth information corresponding to the remote ranging sensor angled with the lateral gradient. 16. A system for a vehicle, the system comprising: two or more remote ranging sensors disposed on the vehicle at an elevation above a wading depth threshold of the vehicle; an HMI apparatus configured to display wading information; and a controller arranged to process information received from the two or more remote ranging sensors into data relating to the depth of the water about the vehicle, wherein the two or more remote ranging sensors are disposed above the surface of the water, and to control the HMI apparatus to selectively provide the wading information in dependence on the data. 17. A system for a vehicle as claimed in claim 16 , the system further comprising at least one water-contact sensor disposed at or below the wading depth threshold, and wherein the control means is further arranged to determining if the at least one water-contact sensor is disposed in water and to further selectively provide the wading information in dependence on the determin