초록 ▼

A gaze direction detection device according to the present technology includes a detector for detecting a gaze of a driver over a predetermined period of time, a determiner for outputting second gaze information indicating that the driver is gazing, from first gaze information detected by the detect

A gaze direction detection device according to the present technology includes a detector for detecting a gaze of a driver over a predetermined period of time, a determiner for outputting second gaze information indicating that the driver is gazing, from first gaze information detected by the detector, a generator for generating a gaze distribution from the second gaze information output by the determiner, and a corrector for correcting the first gaze information detected by the detector, where the corrector calculates a center of a reference distribution that is set in advance and a center of the gaze distribution generated by the generator, and causes the center of the reference distribution and the center of the gaze distribution to overlap each other, and then calculates a correction parameter based on a difference between the reference distribution and the gaze distribution, and corrects the first gaze information with the correction parameter.

대표청구항 ▼

1. A gaze direction detection device comprising: a detector for detecting a gaze of a driver over a predetermined period of time;a determiner for outputting second gaze information indicating that the driver is gazing, from first gaze information detected by the detector;a generator for generating a

1. A gaze direction detection device comprising: a detector for detecting a gaze of a driver over a predetermined period of time;a determiner for outputting second gaze information indicating that the driver is gazing, from first gaze information detected by the detector;a generator for generating a gaze distribution from the second gaze information output by the determiner; anda corrector for correcting the first gaze information detected by the detector,wherein the corrector calculates a center of a reference distribution that is set in advance and a center of the gaze distribution generated by the generator, and causes the center of the reference distribution and the center of the gaze distribution to overlap each other, and then calculates a correction parameter based on a difference between the reference distribution and the gaze distribution, and corrects the first gaze information with the correction parameter. 2. The gaze direction detection device according to claim 1, wherein the correction parameter is calculated, at a time of comparison of the gaze distribution and the reference distribution, from at least one parameter selected from an amount of parallel translation in a horizontal direction, an amount of parallel translation in a vertical direction, an enlargement factor, a reduction factor, and an angle of rotation of the gaze distribution with respect to the reference distribution. 3. A gaze direction detection method to be performed by a generator for outputting, from first gaze information of a driver over a predetermined period of time detected by a detector, second gaze information indicating that the driver is gazing, and then generating a gaze distribution from the second gaze information, and the method being performed by a corrector for correcting the first gaze information detected by the detector, wherein, when correcting the first gaze information detected by the detector, the corrector causes a center of a reference distribution that is set in advance and a center of the gaze distribution generated by the generator to overlap each other, and then calculates a correction parameter based on a difference between the reference distribution and the gaze distribution, and corrects the first gaze information with the correction parameter. 4. The gaze direction detection method according to claim 3, wherein the correction parameter is obtained by calculating the difference of the gaze distribution from the reference distribution. 5. The gaze direction detection method according to claim 3, wherein the correction parameter is calculated, at a time of comparison of the gaze distribution and the reference distribution, from at least one parameter selected from an amount of parallel translation in a horizontal direction, an amount of parallel translation in a vertical direction, an enlargement factor, a reduction factor, and an angle of rotation of the gaze distribution with respect to the reference distribution.