Vehicular vision system

The invention claimed is: 1. A vehicular vision system, the vehicular vision system comprising: a driver-side camera disposed at a driver side of a body of a vehicle equipped with the vehicular vision system and having a field of view exterior of the equipped vehicle and at least rearward of the equipped vehicle; wherein the driver-side camera comprises a lens and a two-dimensional imaging array sensor having an array of at least one million photosensing elements arranged in an array of rows and columns; wherein the array of the imaging array sensor of the driver-side camera has a center region; wherein the lens of the driver-side camera comprises a wide angle lens having a center axis and a peripheral region around the center axis; wherein the lens of the driver-side camera is disposed at the imaging array sensor of the driver-side camera with the center axis of the lens offset from the center region of the array of the imaging array sensor of the driver-side camera; a passenger-side camera disposed at a passenger side of the body of the vehicle equipped with the vehicular vision system and having a field of view exterior of the equipped vehicle and at least rearward of the equipped vehicle; wherein the passenger-side camera comprises a lens and a two-dimensional imaging array sensor having an array of at least one million photosensing elements arranged in an array of rows and columns; wherein the array of the imaging array sensor of the passenger-side camera has a center region; wherein the lens of the passenger-side camera comprises a wide angle lens having a center axis and a peripheral region around the center axis; wherein the lens of the passenger-side camera is disposed at the imaging array sensor of the passenger-side camera with the center axis of the lens offset from the center region of the array of the imaging array sensor of the passenger-side camera; wherein the driver-side camera and the passenger-side camera capture image data; wherein image data captured by the driver-side camera that is associated with light imaged at the imaging array sensor of the driver-side camera that has passed through the center axis of the lens of the driver-side camera has less distortion than image data captured by the imaging array sensor of the driver-side camera that is associated with light imaged at the imaging array sensor of the driver-side camera that has passed through the peripheral region of the lens of the driver-side camera; wherein image data captured by the passenger-side camera that is associated with light imaged at the imaging array sensor of the passenger-side camera that has passed through the center axis of the lens of the passenger-side camera has less distortion than image data captured by the imaging array sensor of the passenger-side camera that is associated with light imaged at the imaging array sensor of the passenger-side camera that has passed through the peripheral region of the lens of the passenger-side camera; wherein, with the driver-side camera disposed at the driver side of the body of the equipped vehicle, the center axis of the lens of the driver-side camera is laterally offset from the center region of the array of the imaging array sensor of the driver-side camera towards an inboard side of the array of the imaging array sensor of the driver-side camera that is laterally closer to the driver side of the body of the equipped vehicle than the center region of the array of the imaging array sensor of the driver-side camera; wherein, with the passenger-side camera disposed at the driver side of the body of the equipped vehicle, the center axis of the lens of the passenger-side camera is laterally offset from the center region of the array of the imaging array sensor of the passenger-side camera towards an inboard side of the array of the imaging array sensor of the passenger-side camera that is laterally closer to the passenger side of the body of the equipped vehicle than the center region of the array of the imaging array sensor of the passenger-side camera; at least one video display disposed in the equipped vehicle and viewable by a driver of the equipped vehicle when the driver is normally operating the equipped vehicle, wherein the at least one video display is operable to display video images derived from image data captured by the driver-side camera and to display video images derived from image data captured by the passenger-side camera; wherein the displayed video images derived from image data captured by the driver-side camera have less distortion at displayed image portions representative of an area closer to the driver side of the body of the vehicle and greater distortion at displayed image portions representative of an area further laterally outboard from the driver side of the body of the vehicle; wherein the displayed video images derived from image data captured by the passenger-side camera have less distortion at displayed image portions representative of an area closer to the passenger side of the body of the vehicle and greater distortion at displayed image portions representative of an area further laterally outboard from the passenger side of the body of the vehicle; and a head tracking system operable to determine a movement of the driver's head, and wherein, responsive to a determined movement of the driver's head, the vehicular vision system adjusts the displayed video images to adjust the rearward view to the driver of the equipped vehicle as viewed at the video display. 2. The vehicular vision system of claim 1 , wherein the array of each imaging array sensor has a width dimension and a height dimension, and wherein the center axis of the lens is offset along the width dimension of the array of the respective imaging array sensor. 3. The vehicular vision system of claim 2 , wherein the center axis of the lens is offset by at least a quarter of the width dimension of the array of the respective imaging array sensor. 4. The vehicular vision system of claim 1 , comprising a filtering element that reduces stray light entering each lens from interfering with the respective imaging array sensor. 5. The vehicular vision system of claim 1 , wherein each lens has a distortion at least at an f-theta distortion. 6. The vehicular vision system of claim 1 , wherein the array of each imaging array sensor has a higher density of photosensing elements at a first portion of the array of the respective imaging array sensor and a lower density of photosensing elements at a second portion of the array of the respective imaging array sensor, and wherein light that passes through the center axis of the lens is imaged at the first portion of the array of the respective imaging array sensor. 7. The vehicular vision system of claim 1 , comprising an image processor that processes image data captured by the driver-side camera and the passenger-side camera, wherein the image processor at least partially corrects distortion in captured image data via processing of captured image data. 8. The vehicular vision system of claim 1 , wherein the array of each imaging array sensor comprises at least about 480 rows of photosensing elements and at least about 640 columns of photosensing elements, and wherein the center axis of each lens is laterally offset at least about 100 columns of photosensing elements from the center region of the array of the respective imaging array sensor. 9. The vehicular vision system of claim 1 , wherein the array of each imaging array sensor comprises at least about 800 rows of photosensing elements and at least about 1200 columns of photosensing elements, and wherein the center axis of each lens is laterally offset at least about 200 columns of photosensing elements from the ce