Mounting system for vehicular sensors

The invention claimed is: 1. A vehicular sensing system, said vehicular sensing system comprising: a mounting carrier that supports a plurality of sensor units; wherein said mounting carrier is configured to be mounted at a vehicle so that individual sensor units of said plurality of sensor units have respective fields of sensing exterior of the vehicle, and wherein the mounting carrier comprises a first end and second end; wherein a horizontal included angle of the plurality of sensor units is less than 90 degrees, and wherein the horizontal included angle is an angle between a principal axis of sensing of a first sensor unit of the plurality of sensor units that is nearest the first end of the mounting carrier and a principal axis of sensing of a second sensor unit of the plurality of sensor units that is nearest the second end of the mounting carrier; wherein, with said mounting carrier mounted at a corner of the vehicle, the plurality of sensor units have a combined horizontal field of sensing that is greater than 180 degrees; wherein, with said mounting carrier mounted at the vehicle, at least some of the individual sensor units of said plurality of sensor units are supported at different heights; wherein said mounting carrier comprises an electrical connector that is configured to electrically connect to an electrical connector of the vehicle when said mounting carrier is mounted at the vehicle; wherein the individual sensor units of said plurality of sensor units are electrically connected to said electrical connector of said mounting carrier; a control disposed at the vehicle, said control comprising a data processor for processing outputs of the individual sensor units of said plurality of sensor units; wherein, with said mounting carrier mounted at the vehicle, outputs of the individual sensor units of said plurality of sensor units are communicated to said control, and wherein said control, via processing at said control of outputs of the individual sensor units of said plurality of sensor units, determines presence of an object exterior the vehicle and within the field of sensing of at least one of the individual sensor units of said plurality of sensor units; wherein said control, via processing at said control of outputs of the individual sensor units of said plurality of sensor units, obtains height data pertaining to height of the object determined to be present exterior the vehicle and within the field of sensing of the at least one of the individual sensor units of said plurality of sensor units; and wherein said control, responsive at least in part to the obtained height data, determines at least one selected from the group consisting of (i) that the determined object comprises a pedestrian, (ii) that the determined object comprises a curb and (iii) clearance information. 2. The vehicular sensing system of claim 1 , wherein said mounting carrier provides for positioning of the individual sensor units of said plurality of sensor units in accurate locations relative to one another. 3. The vehicular sensing system of claim 1 , wherein said mounting carrier is attached to an exterior portion of the vehicle. 4. The vehicular sensing system of claim 3 , wherein the exterior portion of the vehicle comprises a bumper of the vehicle. 5. The vehicular sensing system of claim 3 , wherein said mounting carrier is attached to the exterior portion of the vehicle using ultrasonic welding, an adhesive or thermal bonding. 6. The vehicular sensing system of claim 1 , wherein the individual sensor units of said plurality of sensor units are electrically connected to a common circuit element that is in electrical connection with said electrical connector of said mounting carrier. 7. The vehicular sensing system of claim 6 , wherein, with said mounting carrier mounted at the vehicle, outputs of the individual sensor units of said plurality of sensor units are received at said common circuit element and communicated to said control. 8. The vehicular sensing system of claim 7 , wherein said mounting carrier includes integrated electrical connectors that electrically connect the individual sensor units of said plurality of sensor units to said common circuit element. 9. The vehicular sensing system of claim 8 , wherein said integrated electrical connectors are insert molded in said mounting carrier. 10. The vehicular sensing system of claim 8 , wherein said common circuit element is insert molded in said mounting carrier. 11. The vehicular sensing system of claim 1 , wherein, with said mounting carrier mounted at the vehicle, the combined horizontal field of sensing of said plurality of sensor units is greater than the horizontal field of sensing of the individual sensor units of said plurality of sensor units. 12. The vehicular sensing system of claim 1 , wherein said plurality of sensor units, with said mounting carrier mounted at the vehicle, provide a combined vertical field of sensing greater than the vertical field of sensing of the individual sensor units of said plurality of sensor units. 13. The vehicular sensing system of claim 1 , wherein said control comprises an electronic control unit of the vehicle, and wherein said electronic control unit, via processing at said control of outputs of the individual sensor units of said plurality of sensor units, provides an improved positional object height measurement and 3D imaging. 14. The vehicular sensing system of claim 1 , wherein said control comprises an electronic control unit of the vehicle, and wherein said electronic control unit, via processing at said control of outputs of the individual sensor units of said plurality of sensor units, provides improved positional accuracy. 15. The vehicular sensing system of claim 1 , wherein said vehicular sensing system provides a driver assist system function without sensing components visible on external surfaces of the vehicle. 16. The vehicular sensing system of claim 1 , wherein said vehicular sensing system provides 360 degree coverage around the vehicle and uses one selected from the group consisting of (i) a high bandwidth communication protocol and (ii) a proprietary network communication protocol. 17. The vehicular sensing system of claim 16 , wherein said vehicular sensing system supports one selected from the group consisting of (i) sequential transmission of outputs of the individual sensor units of said plurality of sensor units and (ii) simultaneous transmission of outputs of the individual sensor units of said plurality of sensor units. 18. The vehicular sensing system of claim 16 , wherein said vehicular sensing system provides object detection for at least one of automated parking, blind spot detection, cross traffic alert, lane change and merge aid, automatic emergency braking, pedestrian detection, turn assist, and intersection collision mitigation. 19. The vehicular sensing system of claim 1 , wherein said plurality of sensor units comprises a plurality of radar sensor units. 20. A vehicular sensing system, said vehicular sensing system comprising: a mounting carrier that supports a plurality of radar sensor units; wherein said mounting carrier is configured to be mounted at a vehicle so that individual radar sensor units of said plurality of radar sensor units have respective fields of sensing exterior of the vehicle, and wherein the mounting carrier comprises a first end and second end; wherein a horizontal included angle of the plurality of sensor units is less than 90 degrees, and wherein the horiz