Method and apparatus for correcting current position in navigation system via human-machine interface

What is claimed is: 1. An apparatus for correcting a user position in a navigation system, comprising: one or more processors for controlling overall operations of the navigation system; a human-machine interface for interaction between the navigation system and a user, the interface further comprising at least a display; one or more navigation sensors configured to detect sensor data proximate to the user position; one or more positioning receivers of the navigation system which receives and analyzes positioning signals to estimate the user position; a map database which stores digital map data of road networks including at least coordinate positions and attributes of road segments and road nodes, and a positioning module configured to: receive an indication from the user that the user position is incorrect; examine by a first map-matching algorithm a map database and the sensor data to find at least one candidate position; present, via the human-machine interface, the at least one candidate position to the user; receive from the user a selection from the at least one candidate, the selection indicating a location of the user as perceived by the user, perform an integrity check on the selection, wherein the selection is validated by determining whether the selection satisfies at least one of a threshold and a probability range, where the threshold is a set threshold for a map-matching probability and the probability range is a set range measured from a likeliest match; and update the user position on a digital map image displayed on the human-machine interface in accordance with the integrity check. 2. The apparatus of claim 1 , wherein the positioning module is further configured to select the candidate position by the first map-matching algorithm, where the candidate position is proximate to at least one of a recent trajectory of the user based on data from one or more navigation sensors, and a calculated route. 3. The apparatus of claim 1 , wherein the processor further conducts an operation of calculating a route between a start point and a destination specified by the user based on digital map data retrieved from the map database, and performing a route guidance operation to guide the user to the destination through the calculated route by showing upcoming maneuvers on the human-machine interface of the navigation system. 4. The apparatus of claim 2 , wherein the at least one candidate position corresponds to a road link. 5. The apparatus of claim 2 , wherein the at least one candidate position corresponds to a maneuver of the calculated route. 6. The apparatus of claim 2 , wherein the at least one candidate position corresponds to a point-of-interest retrieved from the map database. 7. The apparatus of claim 2 , wherein the positioning module is further configured to present the at least one candidate position to the user via the human-machine interface in a candidate list, and the at least one candidate position is identified in the candidate list by at least one of a road name, a directional identifier, and a point-of-interest name, corresponding to the candidate position. 8. The apparatus of claim 2 , wherein the positioning module is further configured to present the at least one candidate position to the user via the human-machine interface on the digital map image, and the at least one candidate position is identified on the digital map image by at least one of a road name, a directional identifier, a point-of-interest name and a point-of-interest icon, corresponding to the candidate position.