Reflective surface beamforming

That which is claimed: 1. A reflective sonar imaging system, the reflective sonar imaging system comprising: a reflective sonar imaging assembly including: a reflective surface defining a concave shape; a receiving aperture; and a receiver positioned between the reflective surface and the receiving aperture; a display; and processing circuitry, wherein the reflective surface is configured to cause sonar returns to be reflected as reflected sonar returns toward the receiver, wherein the sonar returns enter the reflective sonar imaging assembly through the receiving aperture, wherein the receiver is configured to receive the reflected sonar returns, wherein the receiver is configured to generate sonar return data using the reflected sonar returns that are received, wherein the processing circuitry is configured to receive the sonar return data and generate one or more sonar images based on the sonar return data, wherein the display is configured to present the one or more sonar images. 2. The reflective sonar imaging system of claim 1 , wherein the receiver is configured to shift to various positions along a first arc, wherein the first arc is radially curved. 3. The reflective sonar imaging system of claim 2 , wherein the receiver is configured to be manually shifted to various positions along the first arc. 4. The reflective sonar imaging system of claim 2 , wherein the receiver is configured to be shifted to various positions along the first arc automatically. 5. The reflective sonar imaging system of claim 1 , wherein a plurality of receivers are positioned between the reflective surface and the receiving aperture, wherein the plurality of receivers are stationary and are positioned along a first arc, wherein the first arc is radially curved. 6. The reflective sonar imaging system of claim 1 , wherein a plurality of receivers are positioned between the reflective surface and the receiving aperture, wherein the plurality of receivers are positioned along a first arc, wherein the plurality of receivers are configured to shift to various positions along the first arc, wherein the first arc is radially curved. 7. The reflective sonar imaging system of claim 1 , wherein the reflective sonar imaging system is configured to generate a two-dimensional sonar image, wherein a plurality of receivers are positioned along a first arc that is between the reflective surface and the receiving aperture, wherein the plurality of receivers are either stationary or are configured to shift along the first arc. 8. The reflective sonar imaging system of claim 1 , further comprising: a three-dimensional array of receivers, wherein the reflective sonar imaging system is configured to generate a three-dimensional sonar image, wherein the reflective surface defines a first axis and a second axis, wherein the second axis is perpendicular to the first axis, wherein the reflective surface has a concave shape along both the first axis and the second axis. 9. The reflective sonar imaging system of claim 1 , wherein the receiver is configured to shift to various positions along a first arc, wherein the first arc has a first radius, wherein the reflective surface defines a second arc having a second radius that is greater than the first radius, wherein the first arc and the second arc share a same center point. 10. The reflective sonar imaging system of claim 9 , wherein the second radius is 1.954 times greater than the first radius. 11. The reflective sonar imaging system of claim 10 , wherein the first radius is 25.591 millimeters, wherein the second radius is 50.000 millimeters. 12. The reflective sonar imaging system of claim 1 , wherein the reflective sonar imaging system is configured to generate sonar images for a field of view that is greater than ninety degrees. 13. The reflective sonar imaging system of claim 1 , wherein the receiver is a single point receiver. 14. The reflective sonar imaging system of claim 1 , wherein the reflective surface extends about a circular arc, wherein the circular arc extends at least 115 degrees. 15. The reflective sonar imaging system of claim 1 , wherein the reflective sonar imaging assembly includes aluminum, silver, gold, magnesium fluoride, calcium fluoride, high air content finely celled rubber foam material, other metals, or metal oxides at the reflective surface. 16. The reflective sonar imaging system of claim 1 , wherein the processing circuitry is configured to filter sonar returns having lower intensities. 17. A reflective sonar imaging assembly, the reflective sonar imaging assembly comprising: a reflective surface defining a concave shape; a receiving aperture; and a receiver positioned between the reflective surface and the receiving aperture, wherein the reflective surface is configured to cause sonar returns to be reflected as reflected sonar returns towards the receiver, wherein the sonar returns enter the reflective sonar imaging assembly through the receiving aperture, wherein the receiver is configured to receive the reflected sonar returns, wherein the receiver is configured to generate sonar return data using the reflected sonar returns that are received. 18. The reflective sonar imaging assembly of claim 17 , wherein the receiver is configured to shift to various positions along a first arc, wherein the first arc has a first radius, wherein the reflective surface defines a second arc having a second radius that is greater than the first radius, wherein the first arc and the second arc share a same center point. 19. The reflective sonar imaging assembly of claim 17 , wherein a plurality of receivers are positioned between the reflective surface and the receiving aperture, wherein the plurality of receivers are positioned along a first arc, wherein the first arc has a first radius, wherein the reflective surface defines a second arc having a second radius that is greater than the first radius, wherein the first arc and the second arc share a same center point. 20. A method for generating sonar images, the method comprising: providing a reflective sonar imaging assembly including: a reflective surface defining a concave shape; a receiving aperture; and a receiver positioned between the reflective surface and the receiving aperture, wherein the reflective surface is configured to cause sonar returns to be reflected as reflected sonar returns towards the receiver, wherein the sonar returns enter the reflective sonar imaging assembly through the receiving aperture, wherein the receiver is configured to receive the reflected sonar returns; providing processing circuitry; providing a display; receiving the reflected sonar returns at the receiver and generating sonar return data based on the reflected sonar returns; generating one or more sonar images based on the sonar return data; and causing presentation of the one or more sonar images on the display.