JPWO2020141410A5

JPWO2020141410A5 -

Info

Publication number: JPWO2020141410A5
Application number: JP2021537924A
Authority: JP
Publication date: 2022-12-21
Anticipated expiration: 2039-12-23

Claims

displaying the frame sequence on a display device at a frame rate;
setting with a control module a lighting configuration applied by the display device during a frame period of each frame of the frame sequence based on the frame rate;
A computer-implemented method comprising:
When the lighting arrangement is applied by the display device,
at least one of the illuminance and duration of the lighting strobe;
at least one of the illuminance of an illumination fill preceding the illumination strobe during the frame period and the illuminance of an illumination fill following the illumination strobe during the frame period;
to control the
computer-implemented method.

Setting the lighting configuration includes:
determining the illumination intensity of the illumination strobe based on a first relationship between illumination intensity and frame rate range;
determining the illumination intensity of the illumination fill preceding the illumination strobe based on a second relationship between illumination intensity and the frame rate range;
determining the illuminance of the illumination fill following the illumination strobe based on a third relationship between illuminance and the frame rate range;
2. The computer-implemented method of claim 1.

wherein the first relationship, the second relationship and the third relationship are implemented as one or more lookup tables;
3. The computer-implemented method of claim 2.

wherein said first relationship, said second relationship and said third relationship are implemented as one or more functions of a software program;
3. The computer-implemented method of claim 2.

wherein said first relationship, said second relationship and said third relationship are implemented as one or more trained models generated by a machine learning algorithm;
3. The computer-implemented method of claim 2.

at least one of the first relationship, the second relationship and the third relationship is adjustable based on user input;
3. The computer-implemented method of claim 2.

the first relationship represents an increase in illuminance of the illumination strobe as a frame rate of at least a subset of the frame rate range increases;
the second relationship represents a first rate decrease in illuminance of the illumination fill preceding the illumination strobe as the frame rate of at least the subset of the frame rate range increases;
wherein the third relationship represents a decrease at a second rate of illuminance of the illumination fill following the illumination strobe as the frame rate of at least the subset of the frame rate range increases;
3. The computer-implemented method of claim 2.

the second rate is lower than the first rate;
8. The computer-implemented method of claim 7.

the second rate is equal to the first rate;
8. The computer-implemented method of claim 7.

Setting the lighting configuration includes:
responsive to the frame rate not exceeding a first frame rate threshold, increasing the illuminance of the illumination strobe, the illuminance of the illumination fill preceding the illumination strobe, and the illuminance of the illumination fill following the illumination strobe to including setting to the same illuminance,
2. The computer-implemented method of claim 1.

Setting the lighting configuration includes:
In response to the frame rate exceeding a second frame rate threshold higher than the first frame rate threshold,
setting the illuminance of the illumination strobe to a first level;
setting the illuminance of the illumination fill preceding the illumination strobe to a second level;
setting the illuminance of the illumination fill following the illumination strobe to a third level;
the first level is greater than the second level and the third level;
11. The computer-implemented method of claim 10.

the second level is less than the third level;
12. The computer-implemented method of claim 11.

at least one of the first frame rate threshold and the second frame rate threshold is user configurable;
12. The computer-implemented method of claim 11.

The first frame rate threshold, the second frame rate threshold based on application of a machine learning algorithm to one or more lighting configurations set in one or more previous frame sequences displayed on the display device. , determining at least one of the first level, the second level, and the third level;
12. The computer-implemented method of claim 11.

Setting the lighting configuration includes:
setting the duration of the illumination strobe to a first duration in response to the frame rate not exceeding a first frame rate threshold;
setting the duration of the illumination strobe to a second duration in response to the frame rate exceeding the first frame rate threshold;
2. The computer-implemented method of claim 1.

displaying the frame sequence on a display device at a frame rate;
In response to the frame rate not exceeding a first frame rate threshold,
displaying each frame of the frame sequence using a constant illumination intensity during the corresponding frame period;
In response to the frame rate exceeding the first frame rate threshold,
displaying each frame of the frame sequence using an illumination strobe and an illumination fill following the illumination strobe during the corresponding frame period;
the level of the lighting fill and at least one of the intensity and duration of the lighting strobe being based on the frame rate;
computer-implemented method.

responsive to the frame rate exceeding the first frame rate threshold and not exceeding the second frame rate threshold;
displaying each frame of said frame sequence further using a lighting fill preceding said lighting strobe during a corresponding frame period, wherein the level of said lighting fill preceding said lighting strobe is at said frame rate; based on and
In response to the frame rate exceeding the second frame rate threshold,
displaying each frame of the frame sequence using an illumination strobe and an illumination fill following the illumination strobe but not preceding the illumination strobe during a corresponding frame period;
17. The computer-implemented method of claim 16.

Displaying each frame of the frame sequence using an illumination strobe and an illumination fill following the illumination strobe during a corresponding frame period uses an illumination strobe having an illumination intensity based on the frame rate. displaying each frame of the frame sequence by
18. The computer-implemented method of claim 17.

Displaying each frame of the frame sequence using an illumination strobe and an illumination fill following the illumination strobe during a corresponding frame period further includes an illumination strobe having a duration based on the frame rate. displaying each frame of the frame sequence using
19. The computer-implemented method of claim 18.

rendering the frame sequence for display on a display device at the frame rate;
setting, with a control module, a lighting configuration to be applied by the display device during a frame period of each frame of the frame sequence based on the frame rate;
A display system configured to perform
When the lighting arrangement is applied by the display device,
at least one of the illuminance and duration of the lighting strobe;
at least one of an illuminance of an illumination film preceding the illumination strobe in the frame period and an illuminance of an illumination fill following the illumination strobe in the frame period;
to control the
display system.

Setting the lighting configuration includes:
determining at least one of the illumination strobe intensity or the duration based on a first relationship with a frame rate range;
determining the illuminance of the lighting fill preceding the lighting strobe based on a second relationship with the frame rate range;
determining the illuminance of the lighting fill following the lighting strobe based on a third relationship with the frame rate range;
21. The display system of Claim 20.

wherein the first relationship, the second relationship and the third relationship are implemented as one or more lookup tables;
22. The display system of Claim 21.

said first relationship, said second relationship and said third relationship are implemented as one or more functions of a software program running on said rendering device or said display device;
22. The display system of claim 21.

wherein the first relationship, the second relationship and the third relationship are implemented as one or more trained models generated by a machine learning algorithm running on the rendering device or the display device;
22. The display system of claim 21.

further comprising a storage component storing a software program that provides a graphical user interface for receiving user input to adjust at least one of the first relationship, the second relationship, and the third relationship;
22. The display system of Claim 21.

the first relationship represents an increase in at least one of the illumination strobe intensity and duration as the frame rate of at least a subset of the frame rate range increases;
the second relationship represents a first rate decrease in illuminance of the illumination fill preceding the illumination strobe as the frame rate of at least the subset of the frame rate range increases;
wherein the third relationship represents a decrease at a second rate of illuminance of the illumination fill following the illumination strobe as the frame rate of at least the subset of the frame rate range increases;
22. The display system of claim 21.

the second rate is lower than the first rate;
27. The display system of Claim 26.

the second rate is equal to the first rate;
27. The display system of Claim 26.

further comprising the display device;
The display device is
receiving a representation of the lighting configuration;
applying the lighting configuration during a frame period of each frame of the frame sequence to display the frame;
is configured to do
22. The display system of Claim 21.

the display device is a transmissive display device;
applying the lighting configuration during a frame period includes controlling backlight illumination during the frame period based on the lighting configuration;
30. The display system of Claim 29.

The display device is an emissive display device,
applying the lighting configuration during a frame period includes adjusting power supplied to pixels of the display device during the frame period based on the lighting configuration;
31. The display system of claim 30.