Operational interface in a multi-viewing element endoscope

We claim: 1. An endoscopy display system comprising: an endoscope comprising a distal tip, wherein said distal tip has at least three image capturing components, and a handle, wherein said handle has at least one actuator that, when activated, generates a video processing command; a controller external to said endoscope, wherein said controller comprises a video processing system adapted to transmit commands to said three image capturing components and receive an image feed from each of said three image capturing components; and a display system, wherein said display system comprises at least one monitor that concurrently receives each of said processed image feeds from the video processing system and concurrently visually displays each of said processed image feeds, wherein the processed image feeds are positioned adjacent to each other with at least one of the processed image feeds' lengths and widths being equal and wherein said video processing system is adapted to process each of said image feeds in accordance with the video processing command to cause at least one of: a position of each of said processed image feeds on the at least one monitor to change; a zoom into only one of said three processed image feeds; a recording of only one of said three processed image feeds; a recording of all three of said three processed image feeds; a freezing of only one of said three processed image feeds; a freezing of all three of said three processed image feeds; a highlighting of only one of said three processed image feeds; or a superimposing of a navigation indicator on only one of said three processed image feeds. 2. The endoscopy display system of claim 1 wherein the display system comprises three separate monitors positioned in a serial horizontal sequence, each of said three monitors displaying one of said processed image feeds with a first image feed being displayed on a central monitor, a second image feed being displayed on a left monitor, and a third image feed being displayed on a right monitor, and wherein, when said video processing command causes the position of each of said processed image feeds to change, positions of each image feed changes resulting in the second image feed being on the central monitor, the first image feed being on the right monitor, and the third image feed being on the left monitor. 3. The endoscopy display system of claim 1 wherein the display system comprises three separate monitors positioned in a serial horizontal sequence, each of said three monitors displaying one of said processed image feeds with a first image feed being displayed on a central monitor, a second image feed being displayed on a left monitor, and a third image feed being displayed on a right monitor, and wherein, when said video processing command causes the position of each of said processed image feeds to change, positions of each image feed changes resulting in the third image feed being on the central monitor, the first image feed being on the left monitor, and the second image feed being on the right monitor. 4. The endoscopy display system of claim 1 wherein the display system comprises only one monitor, said monitor displaying all three processed image feeds with a first image feed being centrally positioned on said monitor, a second image feed being on a right of said centrally positioned image feed, and a third image being on a left of said centrally positioned image feed, and wherein, when said video processing command causes the position of each of said processed image feeds to change, positions of each image feed changes resulting in the second image feed being centrally positioned, the first image feed being on the right, and the third image feed being on the left. 5. The endoscopy display system of claim 1 wherein the display system comprises only one monitor, said monitor displaying all three processed image feeds with a first image feed being centrally positioned on said monitor, a second image feed being on a right of said centrally positioned image feed, and a third image being on a left of said centrally positioned image feed, and wherein, when said video processing command causes the position of each of said processed image feeds to change, positions of each image feed changes resulting in the third image feed being centrally positioned, the first image feed being on the left, and the second image feed being on the right. 6. The endoscopy display system of claim 1 wherein the video processing system is adapted to generate, and transmit to said display system, a navigation path image that visually shows a position of, or progression of, at least a portion of the endoscope through an anatomical region based on time. 7. The endoscopy display system of claim 1 wherein the video processing system is adapted to generate, and transmit to said display system, a timer which is a decrementing clock counting down from a pre-set amount of time. 8. The endoscopy display system of claim 1 wherein a first of the three image capturing components is located on a front face of the distal tip, a second of the three image capturing components is located on a first side of the distal tip, and a third of the three image capturing components is located on a second side, opposing said first side, of the distal tip. 9. The endoscopy display system of claim 8 wherein the display system comprises a left monitor, a central monitor, and a right monitor positioned in a serial horizontal sequence, each of said three separate monitors having a native aspect ratio associated thereto, wherein an image feed from the first image capturing component is displayed on the central monitor, an image feed from the second image capturing component is displayed on the left monitor, and an image feed from the third image capturing component is displayed on the right monitor. 10. The endoscopy display system of claim 9 wherein the video processing system in combination with the display system skews the image feed from the second image capturing component toward a right side of the left monitor and skews the image feed from the third image capturing component toward a left side of the right monitor. 11. The endoscopy display system of claim 10 wherein the video processing system in combination with the display system are adapted to generate and display patient data separate and distinct from said image feed from the second image capturing component adjacent a left side of the left monitor or is adapted to generate and display patient data separate and distinct from said image feed from the third image capturing component adjacent a right side of the right monitor. 12. The endoscopy display system of claim 9 wherein the video processing system in combination with the display system aligns a top boundary of the image feed from the first image capturing component with a top boundary of the image feed from the second image capturing component with the image feed from the third image capturing component. 13. The endoscopy display system of claim 9 wherein the native aspect ratio is 4:3 or 5:4. 14. The endoscopy display system of claim 9 wherein the native aspect ratio of said left and right monitors is modulated by no more than 30%. 15. The endoscopy display system of claim 9 wherein the left, center, and right monitors are integrated into a unitary frame encasement. 16. The endoscopy display system of claim 9 wherein the center monitor defines a first plane, wherein the left monitor is positioned at a first angle relative to said first plane and the right monitor is positioned at a second angle relative to said firs