CN106200884A - head-mounted display apparatus and control method thereof - Google Patents

Abstract

Head-mounted display apparatus control method of the present invention, comprises the following steps: the kinestate of detection head-mounted display apparatus；Judge whether described kinestate meets pre-conditioned；If described kinestate meets pre-conditioned, detect the distance between described head-mounted display apparatus and user's head；According to the distance between described head-mounted display apparatus and user's head, keep or adjust the running status that described head-mounted display apparatus is current.The present invention also provides for a kind of head-mounted display apparatus.Head-mounted display apparatus of the present invention and control method thereof, by detecting the kinestate of head-mounted display apparatus, automatically keep or adjust the running status of head-mounted display apparatus, on the one hand make the use of head-mounted display apparatus more conform to the use habit of user, there is good man-machine interaction experience；On the other hand, by detection in time and the running status of adjustment head-mounted display apparatus, it is possible to efficiently control equipment energy consumption, significantly increase the flying power of head-mounted display apparatus.

Description

Head-mounted display device and control method thereof

Technical Field

The invention relates to the technical field of intelligent wearable equipment, in particular to head-mounted display equipment and a control method thereof.

Background

With the rapid development of data processor chips and sensor chip technologies and processes, the trend of miniaturization of core operation modules, various sensors and audio and video processors has been shown, and a gate leading to the field of intelligent wearable devices is opened for people.

A Head-Mounted Display (HMD) may Display content displayed in an image Display element by placing one or more image Display elements in a location near one or both eyes of a user, such that the content may be presented in front of the user's eyes, and the displayed content may fill or partially fill the user's field of view. The head-mounted display equipment has wide application prospect in various fields such as games, virtual reality, multimedia, entertainment, simulation, scientific research and the like.

At present, the wearable equipment field of intelligence technical development is rapid, and the wearable equipment of intelligence's classification is more various, and the function is also more perfect. However, there still exist some aspects that need further improvement and optimization, such as how to make the usage of the smart wearable device more conform to the usage habit of the user, how to make the smart wearable device have better endurance, and the like, which are all technical problems that need attention and solution in the development process of the smart wearable technology.

Disclosure of Invention

The invention aims to provide a head-mounted display device and a control method thereof.

In view of the above, an aspect of the present invention provides a head-mounted display device control method, including: detecting a motion state of the head-mounted display device; judging whether the motion state meets a preset condition or not; if the motion state meets a preset condition, detecting the distance between the head-mounted display equipment and the head of the user; and maintaining or adjusting the current running state of the head-mounted display equipment according to the distance between the head-mounted display equipment and the head of the user.

Preferably, the step of detecting the motion state of the head-mounted display device is to detect a motion speed, an acceleration, a motion amplitude and/or a motion angle of the head-mounted display device.

Preferably, the step of judging whether the motion state meets a preset condition specifically includes: judging whether the motion speed of the head-mounted display equipment reaches a preset speed threshold value or not, and if so, determining that the motion state of the head-mounted display equipment meets a preset condition; or judging whether the motion acceleration of the head-mounted display equipment reaches a preset acceleration threshold value, and if so, determining that the motion state of the head-mounted display equipment meets a preset condition; or judging whether the motion amplitude of the head-mounted display equipment reaches a preset amplitude threshold value, and if so, determining that the motion state of the head-mounted display equipment meets a preset condition; or judging whether the motion angle of the head-mounted display equipment reaches a preset angle threshold value, and if so, determining that the motion state of the head-mounted display equipment meets a preset condition.

Preferably, the step of maintaining or adjusting the current operation state of the head-mounted display device according to the distance between the head-mounted display device and the head of the user specifically includes: if the distance between the head-mounted display equipment and the head of the user is smaller than or equal to a preset distance threshold value, keeping the current running state of the head-mounted display equipment, or starting the head-mounted display equipment; and if the distance between the head-mounted display equipment and the head of the user is detected to be larger than a preset distance threshold value, closing the head-mounted display equipment, or adjusting the current running state of the head-mounted display equipment to be in a standby state or a dormant state.

Preferably, the step of detecting the distance between the head-mounted display device and the head of the user if the motion state meets a preset condition specifically includes: and if the motion state meets the preset condition, detecting the distance between the head-mounted display equipment and the eyes of the user by identifying the eye features of the user.

Another aspect of the present invention provides a head-mounted display apparatus including: a motion detection module: the device comprises a detection module for detecting the motion state of the head-mounted display device; a judging module: the motion detection module is used for detecting the motion state of the head-mounted display equipment; a distance detection module: means for detecting a distance between the head mounted display device and a user's head; a control module: the distance detection module is used for detecting the distance between the head-mounted display device and the head of the user, and keeping or adjusting the current running state of the head-mounted display device according to the distance between the head-mounted display device and the head of the user.

Preferably, the motion detection module comprises: a speed detection unit: detecting a motion speed of the head-mounted display device; an acceleration detection unit: detecting a motion acceleration of the head-mounted display device; a motion amplitude detection unit: detecting a motion amplitude of the head mounted display device; a movement angle detection unit: for detecting a movement angle of the head mounted display device.

Preferably, the judging module includes: a speed determination unit: the speed detection unit is used for detecting the movement speed of the head-mounted display equipment; an acceleration determination unit: the acceleration detection unit is used for detecting the motion acceleration of the head-mounted display equipment; a motion amplitude judgment unit: the motion amplitude detection unit is used for detecting the motion amplitude of the head-mounted display equipment; a motion angle determination unit: the motion angle detection unit is used for detecting the motion angle of the head-mounted display device, and judging whether the motion angle of the head-mounted display device detected by the motion angle detection unit reaches a preset angle threshold value.

Preferably, the control module comprises: a state holding unit: the system comprises a display module, a display module and a control module, wherein the display module is used for maintaining the current running state of the head-mounted display device; a state adjustment unit: the system is used for turning on or off the head-mounted display equipment and adjusting the current running state of the head-mounted display equipment to be a standby state or a dormant state.

Preferably, the head-mounted display device further includes: a human eye recognition unit: for identifying eye features of a user; the distance detection module is further used for detecting the distance between the head-mounted display equipment and the eyes of the user according to the eye features of the user identified by the human eye identification unit.

According to the head-mounted display equipment and the control method thereof, the movement state of the head-mounted display equipment is detected, and when the movement state meets the preset condition, the distance between the head-mounted display equipment and the head of a user is detected, so that whether the head-mounted display equipment is used or not is determined, and the running state of the head-mounted display equipment is further maintained or adjusted. According to the head-mounted display equipment and the control method thereof, the running state of the head-mounted display equipment is automatically maintained or adjusted by detecting the motion state of the head-mounted display equipment, so that on one hand, the head-mounted display equipment is more convenient to use, more accords with the use habit of a user, and has good human-computer interaction experience; on the other hand, the running state of the head-mounted display equipment is detected and adjusted in time, so that the energy consumption of the equipment can be effectively controlled, and the cruising ability of the head-mounted display equipment is remarkably improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without inventive exercise:

fig. 1 illustrates a flowchart of a head mounted display device control method according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a head mounted display device according to an embodiment of the invention;

FIG. 3 is a schematic structural diagram of a motion detection module of a head-mounted display device according to an embodiment of the invention;

FIG. 4 is a schematic structural diagram of a determination module of a head-mounted display device according to an embodiment of the invention;

fig. 5 is a schematic structural diagram of a control module of a head-mounted display device according to an embodiment of the present invention.

Detailed Description

So that the objects, features and advantages of the present invention can be more clearly understood, a more particular description of the invention, briefly summarized above, may be had by reference to the embodiments thereof that are illustrated in the appended drawings. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, this is merely an example of the present invention, which may be embodied in other ways than is specifically described herein, and therefore the scope of the present invention is not limited by the specific examples disclosed below.

Fig. 1 shows a flowchart of a head mounted display device control method according to an embodiment of the present invention.

The head-mounted display equipment control method provided by the embodiment of the invention comprises the following steps: step 101, detecting a motion state of a head-mounted display device; step 102, judging whether the motion state meets a preset condition or not; 103, detecting the distance between the head-mounted display equipment and the head of the user if the motion state meets a preset condition; and step 104, maintaining or adjusting the current running state of the head-mounted display device according to the distance between the head-mounted display device and the head of the user.

In the technical scheme, firstly, the motion state of the head-mounted display device is judged by collecting the motion data of the head-mounted display device, specifically, the motion state may be a relatively static state or a relatively motion state. When the motion state meets the preset condition, the distance between the head-mounted display equipment and the head of the user is further detected to judge whether the head-mounted display equipment is worn and used by the user or not, and then the current motion state of the head-mounted display equipment is controlled to be maintained or adjusted.

In the above technical solution, preferably, step 101 is specifically: detecting a motion speed, an acceleration, a motion amplitude, and/or a motion angle of the head-mounted display device.

In the technical scheme, the head-mounted display device has different motion states when being in different use states, specifically, when the head-mounted display device is not used and is in a standing state, when the head-mounted display device is worn by a user and moves along with the body or head action of the user, and in the process that the head-mounted display device is taken up and worn by the user from the standing state, the head-mounted display device has different motion states respectively, and the motion data of the head-mounted display device is collected more accurately through different motion state detection dimensions or any combination thereof, such as motion speed, acceleration, motion amplitude and/or motion angle, so as to determine the motion state of the head-mounted display device.

In the above technical solution, preferably, step 102 specifically includes: judging whether the motion speed of the head-mounted display equipment reaches a preset speed threshold value or not, and if so, determining that the motion state of the head-mounted display equipment meets a preset condition; or judging whether the motion acceleration of the head-mounted display equipment reaches a preset acceleration threshold value, and if so, determining that the motion state of the head-mounted display equipment meets a preset condition; or judging whether the motion amplitude of the head-mounted display equipment reaches a preset amplitude threshold value, and if so, determining that the motion state of the head-mounted display equipment meets a preset condition; or judging whether the motion angle of the head-mounted display equipment reaches a preset angle threshold value, and if so, determining that the motion state of the head-mounted display equipment meets a preset condition.

In the technical scheme, the speed, the acceleration, the motion amplitude and/or the motion angle of the detected head-mounted display device are compared with corresponding preset thresholds by respectively presetting a speed threshold, an acceleration threshold, a motion amplitude threshold and a motion angle threshold, and when one or more of the preset thresholds meet preset threshold conditions, the motion state of the head-mounted display device is determined to meet the preset conditions.

In the above technical solution, preferably, step 103 specifically includes: and if the motion state meets the preset condition, detecting the distance between the head-mounted display equipment and the eyes of the user by identifying the eye features of the user.

In this technical solution, if the motion state of the head-mounted display device meets a preset condition, the distance between the head-mounted display device and the head of the user is further detected to determine whether the head-mounted display device is in the user wearing state, and specifically, the distance between the head-mounted display device and the eyes of the user may be determined as the distance between the head-mounted display device and the head of the user by identifying eye features of the user.

In the above technical solution, preferably, step 104 specifically includes: if the distance between the head-mounted display equipment and the head of the user is smaller than or equal to a preset distance threshold value, keeping the current running state of the head-mounted display equipment, or starting the head-mounted display equipment; and if the distance between the head-mounted display equipment and the head of the user is detected to be larger than a preset distance threshold value, closing the head-mounted display equipment, or adjusting the current running state of the head-mounted display equipment to be in a standby state or a dormant state.

In this technical scheme, when it is detected that the distance between the head-mounted display device and the head of the user is less than or equal to a preset distance threshold, the head-mounted display device is worn by the user at the current moment, specifically, the user may be wearing the head-mounted display device all the time, or the user has just finished wearing the head-mounted display device. Further detecting the running state of the head-mounted display equipment, and if the head-mounted display equipment is in a normal running state of starting up, keeping the current running state; and if the head-mounted display equipment is in a shutdown state, a standby state or a dormant state, automatically starting the head-mounted display equipment. Similarly, when it is detected that the distance between the head-mounted display device and the head of the user is greater than the preset distance threshold, the head-mounted display device is not worn by the user at the current moment, specifically, the head-mounted display device may not be worn by the user all the time, or the head-mounted display device may be just taken down by the user. Further detecting the running state of the head-mounted display equipment, and if the head-mounted display equipment is in a normal running state of starting up, automatically closing the head-mounted display equipment or adjusting the head-mounted display equipment to be in a state of shutdown, standby or dormancy; if the mobile terminal is in a shutdown state, a standby state or a dormant state, the current running state is kept.

According to the head-mounted display equipment control method, the motion state of the head-mounted display equipment is detected, and when the motion state meets the preset condition, the distance between the head-mounted display equipment and the head of a user is detected, so that whether the head-mounted display equipment is used or not is determined, and the running state of the head-mounted display equipment is further maintained or adjusted, so that the use of the head-mounted display equipment is more intelligent, the use habit of the user is better met, and good human-computer interaction experience is achieved; on the other hand, the running state of the head-mounted display equipment is detected and adjusted in time, so that the energy consumption of the equipment can be effectively controlled, and the cruising ability of the head-mounted display equipment is remarkably improved.

Fig. 2 is a schematic structural diagram of a head-mounted display device according to an embodiment of the present invention.

The head-mounted display device 200 according to the embodiment of the present invention includes a motion detection module 201: the device comprises a detection module for detecting the motion state of the head-mounted display device; the judging module 202: the motion detection module is used for detecting the motion state of the head-mounted display equipment; the distance detection module 203: means for detecting a distance between the head mounted display device and a user's head; the control module 204: the distance detection module is used for detecting the distance between the head-mounted display device and the head of the user, and keeping or adjusting the current running state of the head-mounted display device according to the distance between the head-mounted display device and the head of the user.

In this technical solution, first, the motion detection module 201 collects motion data of the head-mounted display device 200, and determines a motion state of the head-mounted display device 200, specifically, the motion state may be a relatively static state or a relatively motion state. When the motion state meets the preset condition, the distance between the head-mounted display device 200 and the head of the user is further detected to judge whether the head-mounted display device 200 is worn and used by the user, and then the current motion state of the head-mounted display device 200 is controlled to be maintained or adjusted.

In the above technical solution, preferably, as shown in fig. 3, the motion detection module 201 includes: speed detection unit 2011: detecting a motion speed of the head-mounted display device; acceleration detection unit 2012: detecting a motion acceleration of the head-mounted display device; motion amplitude detection unit 2013: detecting a motion amplitude of the head mounted display device; movement angle detection unit 2014: for detecting a movement angle of the head mounted display device.

In this technical solution, when the head-mounted display device 200 is in different use states, there are different motion states, specifically, when the head-mounted display device 200 is not used and is in a rest state, when the head-mounted display device 200 is worn by a user and moves along with the body or head movements of the user, and in the process that the head-mounted display device 200 is taken up and worn by the user from the rest state, the head-mounted display device 200 has different motion states, respectively, the motion detection module 201 more accurately collects the motion data of the head-mounted display device 200 through different motion state detection dimensions or any combination thereof, for example, a motion speed, an acceleration, a motion amplitude, and/or a motion angle, and determines the motion state of the head-mounted display device 200.

In the foregoing technical solution, as shown in fig. 4, preferably, the determining module 202 includes: speed determination unit 2021: for judging whether the movement speed of the head-mounted display device 200 reaches a preset speed threshold; acceleration determination unit 2022: is used for judging whether the motion acceleration of the head-mounted display device 200 reaches a preset acceleration threshold value; motion amplitude determination unit 2023: for judging whether the motion amplitude of the head-mounted display device 200 reaches a preset amplitude threshold value; motion angle determination unit 2024: for determining whether the motion angle of the head-mounted display device 200 reaches a preset angle threshold.

In this technical solution, by respectively presetting a speed threshold, an acceleration threshold, a motion amplitude threshold, and a motion angle threshold, the detected speed, acceleration, motion amplitude, and/or motion angle of the head-mounted display device 200 are compared with the corresponding preset thresholds, and when one or more of the thresholds meet a preset threshold condition, it is determined that the motion state of the head-mounted display device 200 meets the preset condition.

In the above technical solution, preferably, the head-mounted display apparatus 200 further includes: a human eye recognition unit: for identifying an eye feature of a user; the distance detection module 203 is further configured to detect a distance between the head-mounted display device 200 and the eyes of the user according to the eye features of the user identified by the human eye identification unit.

In this technical solution, if the motion state of the head-mounted display device 200 meets a preset condition, the distance between the head-mounted display device 200 and the head of the user is further detected to determine whether the head-mounted display device 200 is in the user wearing state, specifically, the eye features of the user may be identified by a human eye identification unit, and the distance between the head-mounted display device 200 and the eyes of the user is determined as the distance between the head-mounted display device 200 and the head of the user.

In the above technical solution, preferably, as shown in fig. 5, the control module 204 includes: state holding unit 2041: for maintaining a current operating state of the head mounted display device 200; state adjustment unit 2042: for turning on or off the head-mounted display device 200, and adjusting the current operating state of the head-mounted display device 200 to a standby or sleep state.

In the above technical solution, when the distance detection module 203 detects that the distance between the head-mounted display device 200 and the head of the user is less than or equal to the preset distance threshold, the head-mounted display device 200 is worn by the user at the current moment, specifically, the user may be used while wearing the head-mounted display device 200, or the user may just finish wearing the head-mounted display device 200. Further detecting the operating state of the head-mounted display device 200, if the head-mounted display device is in the normal operating state of the power on, the state keeping unit 2041 controls the head-mounted display device 200 to keep the current operating state; if the head-mounted display device is in a power-off, standby or sleep state, the state adjusting unit 2042 controls to automatically turn on the head-mounted display device 200. Similarly, when the distance detection module 203 detects that the distance between the head-mounted display apparatus 200 and the head of the user is greater than the preset distance threshold, the head-mounted display apparatus 200 is not worn by the user at the present moment, specifically, the user may not wear the head-mounted display apparatus all the time, or the user may just take off the head-mounted display apparatus. Further detecting the operating state of the head-mounted display device 200, if the head-mounted display device is in a normal operating state when the device is turned on, the state adjusting unit 2042 controls to automatically turn off the head-mounted display device 200 or adjust the head-mounted display device 200 to a standby state or a sleep state; if the display device is in the power-off, standby or hibernation state, the state holding unit 2041 controls the head-mounted display device 200 to maintain the current operating state.

According to the head-mounted display equipment disclosed by the embodiment of the invention, by detecting the motion state of the head-mounted display equipment and detecting the distance between the head-mounted display equipment and the head of a user when the motion state meets the preset condition, whether the head-mounted display equipment is used or not is determined, and then the running state of the head-mounted display equipment is kept or adjusted, so that the use of the head-mounted display equipment is more intelligent, the use habit of the user is better met, and the good human-computer interaction experience is realized; on the other hand, the running state of the head-mounted display equipment is detected and adjusted in time, so that the energy consumption of the equipment can be effectively controlled, and the cruising ability of the head-mounted display equipment is remarkably improved.

It is again stated that all of the features disclosed in this specification, or all of the steps in any method or process so disclosed, may be combined in any combination, except mutually exclusive features and/or steps.

Any feature disclosed in this specification (including any accompanying claims, abstract and drawings), may be replaced by alternative features serving equivalent or similar purposes, unless expressly stated otherwise. That is, unless expressly stated otherwise, each feature is only an example of a generic series of equivalent or similar features.

The invention is not limited to the foregoing embodiments. The invention extends to any novel feature or any novel combination of features disclosed in this specification, and to any novel method or process steps or any novel combination of features disclosed.

Claims (10)

1. A head-mounted display device control method is characterized by comprising the following steps:

detecting a motion state of the head-mounted display device;

judging whether the motion state meets a preset condition or not;

if the motion state meets a preset condition, detecting the distance between the head-mounted display equipment and the head of the user;

and maintaining or adjusting the current running state of the head-mounted display equipment according to the distance between the head-mounted display equipment and the head of the user.

2. The method for controlling a head-mounted display device according to claim 1, wherein the step of detecting the motion state of the head-mounted display device specifically comprises: detecting a motion speed, an acceleration, a motion amplitude, and/or a motion angle of the head-mounted display device.

3. The method according to claim 2, wherein the step of determining whether the motion state meets a preset condition is specifically:

judging whether the motion speed of the head-mounted display equipment reaches a preset speed threshold value or not, and if so, determining that the motion state of the head-mounted display equipment meets a preset condition; or,

judging whether the motion acceleration of the head-mounted display equipment reaches a preset acceleration threshold value, and if so, determining that the motion state of the head-mounted display equipment meets a preset condition; or,

judging whether the motion amplitude of the head-mounted display equipment reaches a preset amplitude threshold value or not, and if so, determining that the motion state of the head-mounted display equipment meets a preset condition; or,

and judging whether the motion angle of the head-mounted display equipment reaches a preset angle threshold value, if so, determining that the motion state of the head-mounted display equipment meets a preset condition.

4. The method according to any one of claims 1 to 3, wherein the step of maintaining or adjusting the current operating state of the head-mounted display device according to the distance between the head-mounted display device and the head of the user is specifically:

if the distance between the head-mounted display equipment and the head of the user is smaller than or equal to a preset distance threshold value, keeping the current running state of the head-mounted display equipment, or starting the head-mounted display equipment; and the number of the first and second groups,

if the distance between the head-mounted display equipment and the head of the user is detected to be larger than a preset distance threshold value, the head-mounted display equipment is closed, or the current running state of the head-mounted display equipment is adjusted to be a standby state or a dormant state.

5. The head-mounted display device according to claim 4, wherein the step of detecting the distance between the head-mounted display device and the head of the user if the motion state meets a preset condition specifically comprises:

and if the motion state meets the preset condition, detecting the distance between the head-mounted display equipment and the eyes of the user by identifying the eye features of the user.

6. A head-mounted display device, comprising:

a motion detection module: the device comprises a detection module for detecting the motion state of the head-mounted display device;

a judging module: the motion detection module is used for detecting the motion state of the head-mounted display equipment;

a distance detection module: means for detecting a distance between the head mounted display device and a user's head;

a control module: the distance detection module is used for detecting the distance between the head-mounted display device and the head of the user, and keeping or adjusting the current running state of the head-mounted display device according to the distance between the head-mounted display device and the head of the user.

7. The head-mounted display device of claim 6, wherein the motion detection module comprises:

a speed detection unit: detecting a motion speed of the head-mounted display device;

an acceleration detection unit: detecting a motion acceleration of the head-mounted display device;

a motion amplitude detection unit: detecting a motion amplitude of the head mounted display device;

a movement angle detection unit: for detecting a movement angle of the head mounted display device.

8. The head-mounted display device of claim 7, wherein the determining module comprises:

a speed determination unit: the speed detection unit is used for detecting the movement speed of the head-mounted display equipment;

an acceleration determination unit: the acceleration detection unit is used for detecting the motion acceleration of the head-mounted display equipment;

a motion amplitude judgment unit: the motion amplitude detection unit is used for detecting the motion amplitude of the head-mounted display equipment;

a motion angle determination unit: the motion angle detection unit is used for detecting the motion angle of the head-mounted display device, and judging whether the motion angle of the head-mounted display device detected by the motion angle detection unit reaches a preset angle threshold value.

9. The head-mounted display device of any of claims 6-8, wherein the control module comprises:

a state holding unit: the system comprises a display module, a display module and a control module, wherein the display module is used for maintaining the current running state of the head-mounted display device;

a state adjustment unit: the system is used for turning on or off the head-mounted display equipment and adjusting the current running state of the head-mounted display equipment to be a standby state or a dormant state.

10. The head-mounted display device of claim 9, further comprising:

a human eye recognition unit: for identifying eye features of a user;

the distance detection module is further used for detecting the distance between the head-mounted display equipment and the eyes of the user according to the eye features of the user identified by the human eye identification unit.