DISTANCE ADAPTIVE HOLOGRAPHIC DISPLAYING METHOD AND DEVICE BASED ON EYEBALL TRACKING

US 20160154458A1
Filed: 11/28/2015
Published: 06/02/2016
Est. Priority Date: 11/28/2014
Status: Active Grant

First Claim

Patent Images

1. A distance adaptive holographic displaying method based on eyeball tracking, comprising the following steps of:

detecting a human face of a user and acquiring positions of eyes of the user, wherein the positions of the eyes of the user comprise a distance between the eyes and a displaying screen;

adjusting the size of an object in a holographic scene along a z-axis direction in the holographic three-dimensional display according to the distance, adjusting viewpoints of different individual holographic three-dimensional images that need to be projected into a left eye and a right eye of the eyes according to the size of the object in the holographic scene along the z-axis direction, and displaying the viewpoints in the displaying screen;

adjusting an emergent direction of the light emitted by the displaying screen to the direction of the left eye and the right eye of the eyes so that the different individual holographic three-dimensional images of the left eye and the right eye are imaged into the left eye and the right eye respectively; and

tracking the change of the positions of the eyes, and repeating the aforesaid steps to dynamically acquire the different individual holographic three-dimensional images of the left eye and the right eye so that, when the eyes are moving, the left eye and the right eye can always acquire individual holographic three-dimensional images having the correct viewpoints of the holographic three-dimensional display and of the size of the object in the holographic scene along the z-axis direction.

View all claims

3 Assignments

Timeline View

Assignment View

0 Petitions

Accused Products

Abstract

A distance adaptive holographic displaying method and device based on eyeball tracking are disclosed. The method includes: detecting a human face of a user and acquiring positions of eyes of the user, wherein the positions of the eyes of the user comprise a distance between the eyes and a displaying screen; adjusting the size of an object in a holographic scene along a z-axis direction in the holographic three-dimensional display according to the distance, and displaying the object in the displaying screen; adjusting an emergent direction of the light emitted by the displaying screen to the direction of the left eye and the right eye of the eyes so that the different individual holographic three-dimensional images of the left eye and the right eye are imaged into the left eye and the right eye respectively; and tracking the change of the positions of the eyes, and repeating the aforesaid steps to dynamically adjust viewpoints and the displayed content. The present disclosure can adapt to different groups of people at different distances and conform to the visual principle of human beings, thereby improving user experiences.

23 Citations

View as Search Results

10 Claims

1. A distance adaptive holographic displaying method based on eyeball tracking, comprising the following steps of:
- detecting a human face of a user and acquiring positions of eyes of the user, wherein the positions of the eyes of the user comprise a distance between the eyes and a displaying screen;
  
  adjusting the size of an object in a holographic scene along a z-axis direction in the holographic three-dimensional display according to the distance, adjusting viewpoints of different individual holographic three-dimensional images that need to be projected into a left eye and a right eye of the eyes according to the size of the object in the holographic scene along the z-axis direction, and displaying the viewpoints in the displaying screen;
  
  adjusting an emergent direction of the light emitted by the displaying screen to the direction of the left eye and the right eye of the eyes so that the different individual holographic three-dimensional images of the left eye and the right eye are imaged into the left eye and the right eye respectively; and
  
  tracking the change of the positions of the eyes, and repeating the aforesaid steps to dynamically acquire the different individual holographic three-dimensional images of the left eye and the right eye so that, when the eyes are moving, the left eye and the right eye can always acquire individual holographic three-dimensional images having the correct viewpoints of the holographic three-dimensional display and of the size of the object in the holographic scene along the z-axis direction.
- View Dependent Claims (2, 3, 4, 5)
- - 2. The method of claim 1, wherein adjusting the size of an object in a holographic scene along a z-axis direction in the holographic three-dimensional display according to the distance further comprises adjusting the content of the object in the holographic scene in the holographic three-dimensional display, wherein the content of the object in the holographic scene is the appearance content of the object within a region of the object that can be covered by the sight of the both human eyes, and the step of adjusting the size of an object in a holographic scene along a z-axis direction in the individual holographic three-dimensional display according to the distance comprises the following steps of:
    - determining whether the distance is getting larger or smaller; and
      
      if the distance is getting larger, reducing the size of the object in the holographic scene along the z-axis direction in the holographic three-dimensional display, and meanwhile, enlarging the region of the object that can be covered by the sight of the both human eyes so as to obtain the content of the object in the holographic scene in the adjusted holographic three-dimensional display; and
      
      otherwise, enlarging the size of the object in the holographic scene along the z-axis direction in the holographic three-dimensional display, and meanwhile, reducing the region of the object that can be covered by the sight of the both human eyes so as to obtain the content of the object in the holographic scene in the adjusted holographic three-dimensional display.
  - 3. The method of claim 2, wherein the step of determining whether the distance is getting larger or smaller further comprises the following steps of:
    - determining whether the distance is smaller than a first threshold value, and if the distance is smaller than the first threshold value, then the distance is getting smaller, and the size of the object in the holographic scene along the z-axis direction in the holographic three-dimensional display will not be enlarged and the content of the object in the holographic scene in the holographic three-dimensional display will not be adjusted; and
      
      determining whether the distance is larger than a second threshold value, and if the distance is larger than the second threshold value, then the distance is getting larger, and the size of the object in the holographic scene along the z-axis direction in the holographic three-dimensional display will not be reduced and the content of the object in the holographic scene in the holographic three-dimensional display will not be adjusted.
  - 4. The method of claim 1, wherein when the eyes are moving, each of the distances is acquired in the following way:
    - acquiring, according to data obtained by detecting the human face, the following coordinate values corresponding to the eyeballs of the eyes;
      
      (x_L1,y_L1) and (x_R1,y_R1), (x_L2,y_L2) and (x_R2,y_R2), . . . ,(x_Ln,y_Ln) and (x_Rn,y_Rn), wherein L represents the left eye, R represents the right eye, n represents that the eyes move from position 1 to position n, and a three-dimensional standard coordinate system is adopted; and
      
      acquiring a distance Z between the eyes and the displaying screen according to a distance between an infrared distance meter and the eyes measured by the infrared distance meter when the eyes are moving, a coordinate value of the infrared distance meter in the coordinate system, and coordinate values corresponding to the eyeballs of the eyes;
      
      or acquiring the distance Z between the eyes and the displaying screen according to the distance between the infrared distance meter and the eyes, and an angle of an optical axis of the infrared distance meter with respect to a plane of the displaying screen;
      
      or directly taking the distance between the infrared distance meter and the eyes as the distance Z between the eyes and the displaying screen.
  - 5. The method of claim 1, further comprising the following step of:
    - acquiring different individual holographic sounds that need to be projected into a left ear and a right ear of ears according to the viewpoints of the holographic three-dimensional display and the size of the object in the holographic scene along the z-axis direction, and outputting the different individual holographic sounds corresponding to the left ear and the right ear respectively.

6. A distance adaptive holographic displaying device based on eyeball tracking, comprising:
- a position acquiring module, being configured to detect a human face of a user and acquire positions of eyes of the user, wherein the positions of the eyes of the user comprise a distance between the eyes and a displaying screen;
  
  a displaying module, being configured to adjust the size of an object in a holographic scene along a z-axis direction in the holographic three-dimensional display according to the distance, to adjust viewpoints of different individual holographic three-dimensional images that need to be projected into a left eye and a right eye of the eyes according to the size of the object in the holographic scene along the z-axis direction, and to display the viewpoints in the displaying screen; and
  
  an adjusting module, being configured to adjust an emergent direction of the light emitted by the displaying screen to the direction of the left eye and the right eye of the eyes so that the different individual holographic three-dimensional images of the left eye and the right eye are imaged into the left eye and the right eye respectively;
  
  wherein the position acquiring module is further configured to track the positions of the eyes, and the displaying module adjusts the different individual holographic three-dimensional images of the left eye and the right eye dynamically so that, when the eyes are moving, the left eye and the right eye can always acquire individual holographic three-dimensional images having the correct viewpoints of the holographic three-dimensional display and of the size of the object in the holographic scene along the z-axis direction by means of the adjusting module.
- View Dependent Claims (7, 8, 9, 10)
- - 7. The device of claim 6, wherein the displaying module comprises a displaying unit, an adjusting unit and a first determining unit, and the adjusting unit is configured to adjust the size of an object in a holographic scene along a z-axis direction in the holographic three-dimensional display and the content of the object in the holographic scene in the holographic three-dimensional display according to the distance, wherein the content of the object in the holographic scene is the appearance content of the object within a region of the object that can be covered by the sight of the both human eyes;
    - the first determining unit is configured to determine whether the distance is getting larger or smaller;
      
      if the first determining unit determines that the distance is getting larger, the adjusting unit is controlled to reduce the size of the object in the holographic scene along the z-axis direction in the holographic three-dimensional display, and meanwhile, enlarge the region of the object that can be covered by the sight of the both human eyes so as to obtain the content of the object in the holographic scene in the adjusted holographic three-dimensional display; and
      
      otherwise, the adjusting unit is controlled to enlarge the size of the object in the holographic scene along the z-axis direction in the holographic three-dimensional display, and meanwhile, reduce the region of the object that can be covered by the sight of the both human eyes so as to obtain the content of the object in the holographic scene in the adjusted holographic three-dimensional display; and
      
      the displaying unit is configured to display the holographic three-dimensional image adjusted by the adjusting unit.
  - 8. The device of claim 7, wherein the displaying module further comprises a second determining unit configured to determine whether the distance is smaller than a first threshold value, and if the distance is smaller than the first threshold value, then the distance is getting smaller, and the adjusting unit is controlled neither to enlarge the size of the object in the holographic scene along the z-axis direction in the holographic three-dimensional display nor to adjust the content of the object in the holographic scene in the holographic three-dimensional display;
    - and the second determining unit is further configured to determine whether the distance is larger than a second threshold value, and if the distance is larger than the second threshold value, then the distance is getting larger, and the adjusting unit is controlled neither to reduce the size of the object in the holographic scene along the z-axis direction in the holographic three-dimensional display nor to adjust the content of the object in the holographic scene in the holographic three-dimensional display.
  - 9. The device of claim 6, wherein the position acquiring module comprises a distance measuring unit, an image capturing unit and a calculating unit, and the calculating unit is specifically configured to:
    - acquire, according to data obtained by detecting the human face by the image capturing unit, the following coordinate values corresponding to the eyeballs of the eyes;
      
      (x_L1,y_L1) and (x_R1, y_R1), (x_L2,y_L2) and (x_R2,y_R2), . . . ,(x_Ln,y_Ln) and (x_Rn,y_Rn), wherein L represents the left eye, R represents the right eye, n represents that the eyes move from position 1 to position n, the xy coordinate plane is parallel to the surface of the displaying screen, and a three-dimensional standard coordinate system is adopted; and
      
      acquire a distance Z between the eyes and the displaying screen according to a distance between the distance measuring unit and the eyes measured by the distance measuring unit when the eyes are moving, a coordinate value of the distance measuring unit in the coordinate system, and coordinate values corresponding to the eyeballs of the eyes;
      
      or acquire the distance Z between the eyes and the displaying screen according to the distance between the distance measuring unit and the eyes, and an angle of an optical axis of the distance measuring unit with respect to a plane of the displaying screen;
      
      or directly take the distance between the distance measuring unit and the eyes as the distance Z between the eyes and the displaying screen.
  - 10. The device of claim 6, further comprising a sound adjusting module specifically configured to adjust different individual holographic sounds that need to be projected into a left ear and a right ear of ears according to the viewpoints of the holographic three-dimensional display and the size of the object in the holographic scene along the z-axis direction, and to output the different individual holographic sounds corresponding to the left ear and the right ear respectively.

Specification

Resources

Litigation Campaign Assessment

Current Assignee
Shenzhen Smart Superv Co., Ltd.
Original Assignee
Shenzhen Estar Technology Group Co., Ltd.
Inventors
Liu, Meihong, Gao, Wei, XU, WANLIANG

Granted Patent

US 10,101,807 B2
Time in Patent Office

Days
Field of Search
US Class Current
CPC Class Codes

G03H 1/0005   Adaptation of holography to...

G03H 2001/0088   for video-holography, i.e. ...

G03H 2210/30   3D object

G06F 3/013   Eye tracking input arrangem...

H04N 13/117   the virtual viewpoint locat...

H04N 13/31   using parallax barriers

H04N 13/373   for tracking forward-backwa...

H04N 13/376   for tracking left-right tra...

H04N 13/383   for tracking with gaze dete...

DISTANCE ADAPTIVE HOLOGRAPHIC DISPLAYING METHOD AND DEVICE BASED ON EYEBALL TRACKING

First Claim

3 Assignments

0 Petitions

Accused Products

Abstract

23 Citations

10 Claims

Specification

Use Cases

Quick Links

Others

DISTANCE ADAPTIVE HOLOGRAPHIC DISPLAYING METHOD AND DEVICE BASED ON EYEBALL TRACKING

First Claim

3 Assignments

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

23 Citations

10 Claims

Specification

Subscription Required

Use Cases

Quick Links

Others