Multi-viewing element endoscope

What is claimed is: 1. A tip section of a multi-viewing element endoscope, wherein the tip section has a flat end surface, a first curved side surface, and a second curved side surface opposing the first curved side surface, and wherein the tip section comprises: a front-pointing viewing element positioned on said flat end surface, said front-pointing viewing element comprising a camera located in said tip section and three discrete illuminators associated therewith, said front-pointing viewing element having a first field of view of at least 150 degrees; a first side-pointing viewing element positioned on the first curved side surface, said first side-pointing viewing element comprising a lens assembly located in said first curved side surface and a fiber optic, wherein said lens assembly is configured to receive light from an area of interest, and the received light is transferred through said fiber optic, and wherein said first side-pointing viewing element has a second field of view of at least 150 degrees; a first side fluid injector positioned on the first curved side surface; a first depression on the first curved side surface, wherein the first side-pointing viewing element and the first side fluid injector are positioned within the first depression; a second side-pointing viewing element positioned on the second curved side surface, said second side-pointing viewing element comprising a camera located in said tip section and a discrete side illuminator associated therewith, said second side-pointing viewing element having a third field of view of at least 150 degrees, wherein the first field of view partially overlaps with the second and third fields of view; a second side fluid injector positioned on the second curved side surface; and a second depression on the second curved side surface, wherein the second side-pointing viewing element and the second side fluid injector are positioned within the second depression. 2. The tip section according to claim 1 , further comprising a working channel configured for insertion of a surgical tool. 3. The tip section according to claim 1 , wherein said front-pointing viewing element has a length over which an external object remains in focus in a range of 3-100 millimeters. 4. The tip section according to claim 1 , wherein said first side-pointing viewing element has a length over which an external object remains in focus in a range of 2-33 millimeters and has a center positioned 7 to 11 millimeters from said flat end surface. 5. The tip section according to claim 1 , wherein said second side-pointing viewing element has a length over which an external object remains in focus in a range of 2-33 millimeters and has a center positioned 7 to 11 millimeters from said flat end surface. 6. The tip section according to claim 1 , wherein said fiber optic is configured to transfer the received light to a camera located in a handle of said multi-viewing element endoscope or in a console associated with said multi-viewing element endoscope. 7. The tip section according to claim 1 , wherein said front-pointing viewing element and said first side-pointing viewing element are pointing at directions essentially perpendicular to one another. 8. The tip section according to claim 1 , wherein each of said discrete front and side illuminators comprises one or more light-emitting diodes (LED). 9. A tip section of a multi viewing element endoscope, wherein the tip section has a flat end surface, a first curved side surface, and a second curved side surface opposing the first curved side surface, and wherein the tip section comprises: a front-pointing viewing element positioned on said flat end surface, said front-pointing viewing element comprising a camera located in said tip section and three discrete illuminators associated therewith, said front-pointing viewing element having a first field of view of at least 150 degrees; a first side-pointing viewing element positioned on the first curved side surface, said first side-pointing viewing element comprising a lens assembly located in said first curved side surface and a fiber optic, wherein said lens assembly is configured to receive light from an area of interest and the received light is transferred through said fiber optic to a camera located outside the tip section, wherein said first side-pointing viewing element has: a second field of view of at least 150 degrees, a length over which an external object remains in focus in a range of 2-33 millimeters, and a center positioned 7 to 11 millimeters from said flat end surface; and a second side-pointing viewing element positioned on the second curved side surface, said second side-pointing viewing element comprising a camera located in said tip section and a discrete side illuminator associated therewith, said second side-pointing viewing element having a third field of view of at least 150 degrees, wherein the first field of view partially overlaps with the second and third fields of view. 10. The tip section according to claim 9 , wherein said second side-pointing viewing element has a length over which an external object remains in focus in a range of 2-33 millimeters and has a center positioned 7 to 11 millimeters from said flat end surface. 11. The tip section according to claim 9 , wherein said front-pointing viewing element and said first side-pointing viewing element are pointing at directions essentially perpendicular to one another. 12. The tip section according to claim 9 , further comprising a working channel configured for insertion of a surgical tool. 13. The tip section according to claim 9 , the tip section further comprising: a side fluid injector positioned on the first curved side surface; and a depression on the first curved side surface, wherein the first side-pointing viewing element and the side fluid injector are positioned within the depression.