Driving guide method and apparatus for vehicle

What is claimed is: 1 . A driving guide method in a computation device, the method comprising: acquiring predicted driving information of a vehicle that is driving manually; acquiring gaze information of a user of the vehicle; identifying at least one recognition pattern information that is acquired based on history information corresponding to the predicted driving information; identifying recognition pattern information corresponding to the gaze information from among the at least one recognition pattern information; and displaying information on a region of interest that is determined based on the recognition pattern information. 2 . The driving guide method of claim 1 , further comprising, based on the region of interest and the gaze information of the user, identifying whether the user recognizes the region of interest, wherein the at least one recognition pattern information comprises a first recognition pattern based on a gaze of a user who has evaded a possible accident in a dangerous section included in the predicted driving information, and a second recognition pattern based on a gaze of a user who has failed to evade the possible accident in the dangerous section. 3 . The driving guide method of claim 2 , wherein the displaying of the information on the region of interest comprises identifying a possible accident-causing object included in the displayed region of interest, and wherein the region of interest comprises a region extracted from the first recognition pattern and required to be recognized by the user, and the possible accident-causing object comprises an object corresponding to a cause by which the dangerous section is determined. 4 . The driving guide method of claim 2 , wherein the displaying of the information on the region of interest comprises: when a previous driving record of the user satisfies a preset standard, splitting a screen by combining the region of interest; or when the previous driving record fails to satisfy the preset standard, splitting the screen by discriminating the region of interest. 5 . The driving guide method of claim 2 , wherein the identifying of whether the region of interest is recognized comprises, when the user does not recognizes the displayed region of interest, guiding a predicted drive route such that the predicted driving route includes a less number of dangerous sections compared to a case where the user recognizes the region of interest, and wherein when an accident occurs because the region of interest is not recognized, the manual driving of the vehicle by the user is controlled. 6 . A driving guide method in a computation device, the method comprising: acquiring predicted driving information of a vehicle that is driving autonomously; acquiring gaze information of a user of the vehicle; identifying a first recognition pattern that is acquired based on history information corresponding to the predicted driving information; and displaying information on a region of interest that is determined based on the first recognition pattern corresponding to at least one dangerous section included in the predicted driving information. 7 . The driving guide method of claim 6 , further comprising, based on the region of interest and the gaze information of the user, identifying whether the user recognizes the region of interest, wherein the region of interest comprises a region extracted from the first recognition pattern and required to be recognized by the user, the possible accident-causing object comprises an object corresponding to a reason for the at least one dangerous section is determined, and the first recognition pattern is determined based on gaze information of a user who has evaded a possible accident in the at least one dangerous section. 8 . The driving guide method of claim 7 , wherein the displaying of the information on the region of interest comprises: when the possible accident-causing object is located in the region of interest, performing object recognition is performed with respect to the possible accident-causing object and thereby displaying the recognized possible accident-causing object; or when the possible accident-causing object does not exist, displaying an area where the region of interest is located in an enlarged form. 9 . The driving guide method of claim 6 , wherein the predicted driving information comprises a predicted drive route of the vehicle and information on a dangerous section included in the predicted drive route, wherein the first recognition pattern is determined based on a gaze of a user who has evaded a possible accident in the dangerous section, and wherein gaze information of the user comprises an order whereby the user's gaze stops and a time for which the user's gaze stop. 10 . The driving guide method of claim 7 , wherein the identifying of whether the region of interest is recognized comprises: when the region of interest is recognized by the user in consideration of the gaze information of the user, guiding a predicted drive route such that the predicted drive route comprises a shortest route to a destination of the vehicle; or when the region of interest is not recognized by the user, guiding the predicted drive route such that the predicted drive route comprises a less number of dangerous sections compared to a case when the region of interest is recognized by the user. 11 . A vehicle comprising: a processor configured to acquire predicted driving information of the vehicle driving manually, acquire gaze information of a user of the vehicle, identify at least one pattern information acquired based on history information corresponding to the predicted driving information, identify recognition pattern information corresponding to the gaze information among the at least one recognition pattern information, and determine a region of interest based on the identified recognition pattern information; and a display configured to display the region of interest. 12 . The vehicle of claim 11 , wherein the processor is configured to whether the region of interest is recognized, based on the region of interest and the gaze information of the user, and wherein the at least one recognition pattern information comprises a first recognition pattern based on a gaze of a user who has evaded a possible accident in a dangerous section included in the predicted driving information, and a second recognition pattern based on a gaze of a user who has failed to evade the possible accident in the dangerous section. 13 . The vehicle of claim 12 , wherein the processor is configured to identify a possible accident-causing object included in the displayed region of interest; and wherein the region of interest comprises a region extracted from the first recognition pattern and required to be recognized by the user, and the possible accident-causing object comprises an object corresponding to a cause by which the dangerous section is determined. 14 . The vehicle of claim 12 , wherein the processor is configured to: when a previous driving record of the user satisfies a preset standard, splitting a screen by combining the region of interest; or when the previous driving record fails to satisfy the preset standard, splitting the screen by discriminating the region of interest. 15 . The vehicle of claim 12 , wherein the processor is configured to: when the user does not recognizes the displayed region of interest, guide a predicted drive route such that the predicted driving route includes a less number of dangerous sections compared to a case where the user reco