Method and system for automatically determining water-level offset, and adjusting a nautical chart for such offset

The invention claimed is: 1. A method for displaying, on a display device carried on a surface water craft traversing a body of water, a depth chart for the body of water, the chart being established on the basis of a standard water level for the body of water, the method comprising the steps of: providing a digitized nautical chart for a geographic area that includes the body of water and adjacent shoreline, the chart being stored in a non-transitory computer-readable storage medium, the chart defining a plurality of different depth ranges, the chart including information specifying the regions of the geographic area occupied by each of the depth ranges, the chart further including a unique depth range indicator for each depth range, the depth range indicator generally indicating a depth value of the depth range; obtaining, using at least one sonar transducer, sonar data at each of a plurality of locations along a depth ring of the chart, wherein the sonar transducer produces and receives electronics signals indicative of depth; calculating, using a sonar signal processor and based on the sonar data, a sonar-indicated depth corresponding to each of the plurality of locations along the depth ring; determining an average sonar indicated depth for the depth ring based on each sonar indicated depth for the plurality of locations along the depth ring; determining a chart-indicated depth corresponding to said depth ring; calculating a water-level offset for the depth ring based on a comparison between the average sonar-indicated depth for the depth ring and the corresponding chart-indicated depth for the depth ring; adjusting each of the depth range indicators for the depth ring based on the water-level offset; and displaying on the display device the chart with the adjusted depth range indicators. 2. The method of claim 1 , wherein each depth ring generally has one edge corresponding to a minimum value and an opposite edge corresponding to a maximum value. 3. The method of claim 2 , wherein the depth rings comprise polygon rings. 4. The method of claim 2 , wherein the depth range indicators comprise colors, each depth ring having a corresponding unique color. 5. The method of claim 2 , wherein for each location, the chart-indicated depth is calculated by interpolation between the two edges of the corresponding depth ring and an offset value is determined for each location. 6. The method of claim 2 , further comprising storing, in the non-transitory computer-readable storage medium, a pre-calculated database corresponding to the chart, the database defining a spatial coordinate grid with a coarser resolution than a spatial resolution of the chart, the database including for each grid point a depth pre-calculated by interpolation on the chart, and wherein the chart-indicated depth for each location is determined using the database. 7. The method of claim 6 , wherein the chart-indicated depth is determined from the database using a technique selected from the group consisting of a nearest neighbor method, a bilinear interpolation method, and a bicubic interpolation method. 8. The method of claim 1 , wherein the depth ring of the chart is a first depth ring of the chart, the method further comprising: obtaining, using the at least one sonar transducer, second sonar data at each of a plurality of locations along a second depth ring of the chart, wherein the second depth ring is different than the first depth ring of the chart; calculating, using a sonar signal processor and based on the second sonar data, a sonar-indicated depth corresponding to each of the plurality of locations along the second depth ring; determining an average sonar indicated depth for the second depth ring based on each sonar indicated depth for the plurality of locations along the second depth ring; determining a chart-indicated depth corresponding to the second depth ring; calculating a second water-level offset corresponding to the second depth ring based on a comparison between the average sonar-indicated depth for the second depth ring and the corresponding chart-indicated depth for the second depth ring; determining an average water-level offset based on the water-level offset for the first depth ring and the second water-level offset for the second depth ring; adjusting each depth ring of the chart based on the average water-level offset; and displaying on the display device the chart with the adjusted depth rings. 9. The method of claim 1 , wherein a statistical data analysis is performed on each sonar-indicated depth for each location to determine a confidence level for each sonar-indicated depth. 10. The method of claim 9 , wherein one or more sonar-indicated depths are discarded based on the confidence level falling below a predetermined threshold. 11. The method of claim 1 , further comprising: quantifying a degree of confidence in the accuracy of the calculated water-level offset; and adjusting the water-level offset based on the calculated water-level offset if and only if the degree of confidence is above a predetermined threshold level. 12. The method of claim 1 , wherein the depth ranges comprise contour lines and the depth range indicators comprise depths respectively associated with the contour lines. 13. A sonar system for being carried on a surface water craft traversing a body of water, comprising: a transducer assembly for emitting depth-sounding sonar pulses and receiving echo returns therefrom indicative of a depth to the bottom of the body of water beneath the water craft, the transducer assembly converting the echo returns into electrical signals; a sonar signal processor in communication with the transducer assembly to receive the electrical signals therefrom; a display device in communication with the sonar signal processor; a non-transitory computer-readable storage medium on which is stored a digitized nautical chart for a geographic area that includes the body of water and adjacent shoreline, the storage medium being in communication with the sonar signal processor, the chart being established on the basis of a standard water level for the body of water, the chart defining a plurality of different depth ranges, the chart including information specifying the regions of the geographic area occupied by each of the depth ranges, the chart further including a unique depth range indicator for each depth range, the depth range indicator generally corresponding to a depth value of the depth range; wherein the sonar signal processor is programmed to cause the processor to: obtain, using the transducer assembly, sonar data at each of a plurality of locations along a depth ring of the chart; calculate, based on the sonar data, a sonar-indicated depth corresponding to each of the plurality of locations along the depth ring; determine an average sonar indicated depth for the depth ring based on each sonar indicated depth for the plurality of locations along the depth ring; determine, based on the chart stored in the storage medium, a chart-indicated depth corresponding to said depth ring; calculate a water-level offset for the depth ring based on a comparison between the average sonar-indicated depth for the depth ring and the corresponding chart-indicated depth for the depth ring; adjust each of the depth range indicators for the depth ring based on the water-level offset; and cause the display device to display the chart with the adjusted depth range indicators. 14. The sonar system of claim 13 , wherein the sonar signal processor receives a GPS signal from a GPS device on the water craft, the GPS signal being indicative