Inspection of drilled features in objects

The invention claimed is: 1. An apparatus for determining a specific depth of a feature formed in a surface of an object, the feature having been formed through the surface of the object by a cutting tool, the apparatus comprising: a camera configured to capture an image of the feature and a portion of the surface of the object proximate to the feature; and one or more processors operatively coupled to the camera and configured to: detect, in the image, an edge of the feature between the feature and the surface of the object; using the detected edge, calculate a diameter for a circle; acquire a point angle of the cutting tool; determine whether the portion of the surface of the object proximate to the feature has one of three curvatures selected from: a curvature substantially equal to zero, a curvature substantially concave relative to the camera, and a curvature substantially convex relative to the camera; and, responsive to determining that the portion of the surface of the object proximate to the feature has curvature substantially equal to zero, using the diameter of the best fit circle that best fits to the detected edge, and the acquired point angle, calculate a depth value for the feature; responsive to determining that the portion of the surface of the object proximate to the feature is concave relative to the camera, and wherein a shape of the detected edge in the image is substantially an ellipse, using the diameter of the circle equal to a minor axis of the ellipse and the acquired point angle, calculate the depth value for the feature; responsive to determining that the portion of the surface of the object proximate to the feature is convex relative to the camera, and wherein a shape of the detected edge in the image is substantially an ellipse, using the diameter of the circle equal to a major axis of the ellipse and the acquired point angle, calculate the depth value for the feature; whereby the specific depth of the feature is determined. 2. The apparatus according to claim 1 , wherein the feature is a countersink of a hole through a portion of the surface of the object. 3. The apparatus according to claim 1 , wherein the one or more processors are further configured to: compare the calculated depth value to a predefined range of depth values; and, if the calculated depth value is within the predefined range of depth values, assign a first label to the feature; or, if the calculated depth value is not within the predefined range of depth values, assign a second label to the feature, the second label being different to the first label. 4. The apparatus according to claim 1 , wherein the one or more processors are configured to, using the calculated diameter, the acquired point angle, and one or more trigonometric functions, calculate the depth value for the feature. 5. The apparatus according to claim 1 , wherein: the apparatus further comprises a lighting system configured to emit electromagnetic radiation; the camera is configured to detect the electromagnetic radiation emitted by the lighting system; and the lighting system is configured to emit electromagnetic radiation onto the feature and the portion of the surface of the object proximate to the feature, thereby increasing contrast in the image between the feature and the surface of the object. 6. The apparatus according to claim 1 , wherein the camera is located on an end effector of a robot arm. 7. The apparatus according to claim 1 , wherein the apparatus further comprises the cutting tool; the camera is further configured to capture one or more images of the object prior to the feature being formed in the object; and the one or more processors are further configured to: using the one or more images of the object prior to the feature being formed in the object, move the cutting to be normal to the surface of the object; and, thereafter, control the cutting tool to form the feature in the surface of the object. 8. A method of determining a specific depth of a feature formed in a surface of an object, the feature having been formed through the surface of the object by a cutting tool, the method comprising: capturing an image of the feature and a portion of the surface of the object proximate to the feature; detecting, in the image, an edge of the feature between the feature and the surface of the object; using the detected edge, calculating a diameter for a circle; acquiring a point angle of the cutting tool; determine whether the portion of the surface of the object proximate to the feature has one of three curvatures selected from: a curvature substantially equal to zero, a curvature substantially concave relative to the camera, and a curvature substantially convex relative to the camera; and, responsive to determining that the portion of the surface of the object proximate to the feature has curvature substantially equal to zero, using the diameter of the best fit circle that best fits to the detected edge, and the acquired point angle, calculate a depth value for the feature responsive to determining that the portion of the surface of the object proximate to the feature is concave relative to the camera, and wherein a shape of the detected edge in the image is substantially an ellipse, using the diameter of the circle equal to a minor axis of the ellipse and the acquired point angle, calculate the depth value for the feature; responsive to determining that the portion of the surface of the object proximate to the feature is convex relative to the camera, and wherein a shape of the detected edge in the image is substantially an ellipse, using the diameter of the circle equal to a major axis of the ellipse and the acquired point angle, calculate the depth value for the feature; whereby the specific depth of the feature is determined. 9. An aircraft panel comprising one or more holes, each hole comprising a countersunk portion, each countersunk portion being associated with a depth value, each depth value having been determined using a method according to claim 8 .