The control method of a kind of virtual reality device and system
Technical field
The present embodiments relate to virtual reality technology, particularly relate to the control method of a kind of virtual reality device and be
System.
Background technology
Along with the development of virtual reality technology, the virtual reality device such as virtual implementing helmet is widely used in city rule
Draw, indoor design, industrial simulation, historic site recovery, bridge road design, real estate sale, Tourism teaching, hydraulic and electric engineering, geology
The various fields such as disaster, educational training, Entertainment.
The control method of existing virtual implementing helmet is, the control of the display virtual real helmet in the terminals such as smart mobile phone
Interface processed, after user selects in controlling interface, terminal virtual implementing helmet communicates and realizes corresponding function.Such as,
When waking up the intelligent helmet of dormancy up, owing to user cannot see terminal screen when wearing intelligent helmet, it is therefore desirable to
User removes virtual implementing helmet, then wakes up intelligent helmet up by the control interface in terminal, finally wears the intelligence waken up up
The helmet.
Visible, need user's wearing repeatedly by terminal control virtual implementing helmet and extract virtual implementing helmet, calling out
Waking up, efficiency is low and poor user experience.
Summary of the invention
The present invention provides control method and the system of a kind of virtual reality device, sets realizing fast wake-up virtual reality
Standby, improve Consumer's Experience.
First aspect, embodiments provides the control method of a kind of virtual reality device, including:
When described virtual reality device in a dormant state time obtain infrared signal;
Described infrared signal according to obtaining determines whether to wake up up;
If it is determined that wake up up, then exit described resting state.
Second aspect, the embodiment of the present invention additionally provides the control system of a kind of virtual reality device, described Virtual Realization
Equipment includes that first processor, described first processor respectively infrared transmitter and infrared remote receiver are powered;
Described infrared transmitter for when described Virtual Realization equipment in a dormant state time launch Infrared;
Described first processor for when described Virtual Realization equipment in a dormant state time infrared connect by described first
Receive device and obtain infrared signal;
Described first processor is additionally operable to, and the described infrared signal according to obtaining determines whether to wake up up;If it is determined that wake up up,
Then close described infrared remote receiver and exit described resting state.
The embodiment of the present invention can virtual reality device in a dormant state time, the infrared signal according to obtaining determines and is
No wake up virtual reality device up.After finger is insinuated in virtual reality device by user, infrared signal is sent out after running into user's finger
Raw reflection, produces according to the infrared signal of reflection and interrupts, and then exit resting state, wake up virtual reality device up.Prior art
User is needed to be waken up up by terminal control virtual reality device after taking virtual reality device, operation complexity and Consumer's Experience
Difference.The embodiment of the present invention can determine according to the infrared signal got wake up up when user wear virtual reality device, uses
Family can wake up virtual reality device up when wearing virtual reality device, it is not necessary to extracts, and improves virtual reality device
Efficiency of remodeling improves Consumer's Experience.
Accompanying drawing explanation
Fig. 1 is the flow chart of the control method of the virtual reality device in the embodiment of the present invention one;
Fig. 2 be the infrared transmitter in the embodiment of the present invention one and infrared remote receiver to position view;
Fig. 3 is the position view in the same direction of the infrared transmitter in the embodiment of the present invention one and infrared remote receiver;
Fig. 4 is the flow chart of the control method of the virtual reality device in the embodiment of the present invention two;
Fig. 5 is the flow chart of the control method of the virtual reality device in the embodiment of the present invention three;
Fig. 6 is the flow chart of the control method of the virtual reality device in the embodiment of the present invention four;
Fig. 7 is the structural representation of the control system of a virtual reality device in the embodiment of the present invention five;
Fig. 8 is the structural representation of the control system of another virtual reality device in the embodiment of the present invention five.
Detailed description of the invention
The present invention is described in further detail with embodiment below in conjunction with the accompanying drawings.It is understood that this place is retouched
The specific embodiment stated is used only for explaining the present invention, rather than limitation of the invention.It also should be noted that, in order to just
Part related to the present invention is illustrate only rather than entire infrastructure in description, accompanying drawing.
Embodiment one
The flow chart of the control method of the virtual reality device that Fig. 1 provides for the embodiment of the present invention one, the present embodiment can be fitted
For waking up the situation to virtual reality device up when wearing virtual reality device, the method can be held by virtual reality device
OK, following steps are specifically included:
Step 110, when virtual reality device in a dormant state time obtain infrared signal.
Virtual reality device can be virtual implementing helmet etc..Virtual implementing helmet is provided with infrared transmitter and infrared connects
Receive device, and be infrared transmitter by first processor and infrared remote receiver is powered.In addition first processor is additionally operable to control red
External transmitter launches Infrared, controls infrared remote receiver and receives infrared signal.Optionally, first processor is micro-control unit
(Microcontroller Unit, MCU), also known as SensorHub.Owing to the power consumption of micro-control unit is less than virtual implementing helmet
Power consumption, therefore use MCU can virtual implementing helmet in a dormant state time complete power supply and infrared signal process function,
Power consumption, saves energy can be reduced again.The transmitting range of infrared transmitter can be set less than or equal to 10cm.
Optionally, infrared transmitter and infrared remote receiver can mode as shown in Figure 2 configure.Fig. 2 mid-infrared is launched
Device is arranged oppositely with infrared remote receiver, and the Infrared that infrared transmitter sends is projected directly in infrared remote receiver.Now, red
Distance between external transmitter and infrared remote receiver can be 5-10cm, probes into finger for user.
Optionally, infrared transmitter and infrared remote receiver can mode as shown in Figure 3 configure.Fig. 3 mid-infrared is launched
Device is arranged in the same direction with infrared remote receiver, and the Infrared that infrared transmitter sends cannot be projected directly in infrared remote receiver.This
Time, the distance between infrared transmitter and infrared remote receiver is 1-5cm, infrared transmitter (or infrared remote receiver) and offside inwall
Between distance can be 5-10cm, inwall is the inwall of virtual reality device.
Step 120, according to obtain infrared signal determine whether to wake up up.
For the set-up mode shown in Fig. 2, when user's finger is insinuated between infrared transmitter and infrared remote receiver, red
The infrared signal strength reduction that outer receptor receives.When being attenuated to preset infrared signal intensity, determine and wake up up;Otherwise determine
Continue resting state.Exemplary, infrared transmitter sends the Infrared that signal intensity is 3, presets infrared signal intensity and is
2, when the intensity of the infrared signal that infrared remote receiver receives is less than or equal to 2, determines and wake up up.
For the set-up mode shown in Fig. 3, when user's finger is insinuated into infrared transmitter (or infrared remote receiver) and inwall
Between time, handle the infrared signal intensity enhancing that digital reflex infrared remote receiver receives.When strengthening to presetting infrared signal intensity
Time, determine and wake up up;Otherwise determine lasting resting state.Exemplary, infrared transmitter sends the infrared light that signal intensity is 3
Line, presetting infrared signal intensity is 1, when the intensity of the infrared signal that infrared remote receiver receives is more than or equal to 1, determines and carries out
Wake up up.
Step 130 if it is determined that wake up up, then exits resting state.
When exiting park mode, MCU wakes up the processor (also known as the second processor) of virtual reality device up, and then realizes calling out
Wake up.Optionally, the second processor is application processor (Application Processor, AP).
Further, in order to reduce energy consumption, after waking up the second processor up, close infrared remote receiver.
The present embodiment can virtual reality device in a dormant state time, according to obtain infrared signal determine whether to call out
Awake virtual reality device.After finger is insinuated in virtual reality device by user, infrared signal occurs anti-after running into user's finger
Penetrate, produce according to the infrared signal of reflection and interrupt, and then exit resting state, wake up virtual reality device up.Prior art needs
User is waken up up by terminal control virtual reality device after taking virtual reality device, operation complexity and poor user experience.
The present embodiment can determine according to the infrared signal got and wake up up when user wears virtual reality device, make user permissible
Wake up virtual reality device up when wearing virtual reality device, it is not necessary to extract, improve the effect of remodeling of virtual reality device
Rate improves Consumer's Experience.
Embodiment two
The flow chart of the control method of the virtual reality device that Fig. 4 provides for the embodiment of the present invention two, as to embodiment
One further illustrate, step 120, according to obtain infrared signal determine whether to wake up up, can be implemented by following manner:
Step 121, judge obtain infrared signal whether be human vein signal.
When infrared illumination is mapped to finger, the infrared signal that infrared remote receiver gets is the vein scattergram of finger.Quiet
Finger can be made a distinction by the texture of arteries and veins scattergram with other objects (such as club etc.).Vein scattergram due to everyone
The most different, but vein scattergram all contains the features such as blood vessel, therefore can pass through rectangular histogram or the side of image characteristics extraction
Formula determines whether for vein scattergram, and then determines whether for human vein signal.
Step 122, if human vein signal, it is determined that wake up up.
The present embodiment is by judging whether the infrared signal obtained is that human vein signal determines whether to trigger as user
Wake up up, rather than the infrared signal that other object false touches produce, and then avoid false touch, improve the accuracy waken up up.
Step 123, if not human vein signal, then export the first information.
First information can be audio prompt information, and such as alarm sound or one section of voice, this voice content can be
" non-human triggering please check " etc..
Embodiment three
The flow chart of the control method of the virtual reality device that Fig. 5 provides for the embodiment of the present invention three, as to above-mentioned reality
Execute further illustrating of example, step 130 exit resting state, specifically includes:
Step 131, according to human vein signal, targeted customer is carried out hand vein recognition.
Targeted customer is for currently wearing the user of virtual reality device.Hand vein recognition belongs to biological identification technology.Can refer to
Existing hand vein recognition algorithm is identified.Such as: the digital picture of vein is stored in computer systems, it is achieved eigenvalue
Storage.During vein comparison, take vein figure in real time, use the filtering of advanced person, image binaryzation, refinement means that digital picture is carried
Take feature, use matching algorithm to mate with the vein pattern value comparison prestored, thus individual is carried out identity authentication, confirm body
Part.The vein pattern value that vein pattern value is the user with virtual reality device operating right prestored, each user can be right
Answer 1-10 vein pattern value.
If the success of step 132 hand vein recognition, then exit resting state.
Optionally, MCU is used to realize hand vein recognition.When MCU determines that after hand vein recognition user has operating right, then
MCU triggers interruption, wakes up the second processor (processor of virtual reality device) up.
If the failure of step 133 hand vein recognition, then export the second information.
Second information can be audio prompt information, and such as alarm sound or one section of voice, this voice content can be
" hand vein recognition unsuccessfully please retry " etc..
The identity of user can be authenticated by the present embodiment based on vein scattergram, and then realizes the mirror to targeted customer
Power, improves virtual reality device and uses the controllability of authority.User can use finger quick registration to the control of virtual reality device
Interface processed, improves operating efficiency and Consumer's Experience.
Embodiment four
The flow chart of the control method of the virtual reality device that Fig. 6 provides for the embodiment of the present invention four, as to above-mentioned reality
Execute further illustrating of example, step 130, exit resting state after, also include:
Step 140, the iris image of acquisition targeted customer.
Owing to the treating capacity of iris identification is bigger, it is therefore desirable to after releasing resting state, by virtual reality device
Processor (the second processor) performs.Iris image is obtained by the photographic head (camera) of virtual reality device, by infrared
Emitter launches Infrared as light source.The iris image of acquisition is sent in the second processor be identified by photographic head.
Step 150, according to iris image, targeted customer is carried out iris identification.
First, iris image is carried out subordinate process make its meet extract iris feature demand: 1, Iris Location: determine
Inner circle, cylindrical and conic section position in the picture.Wherein, inner circle is the border of iris and pupil, and cylindrical is iris and Gong
The border of film, conic section is the border of iris and upper lower eyelid.2, iris image normalization: by the iris size in image,
It is adjusted to the fixed dimension that identification system is arranged.3, image enhaucament: for the image after normalization, carry out brightness, contrast and
Smoothnesses etc. process, and improve the discrimination of iris information in image.Secondly, needed for extracting iris identification from iris image
Characteristic point, and it is encoded.Finally, feature coding feature extraction obtained is compiled with the iris image feature in data base
Code mates one by one, it may be judged whether for identical iris, thus reaches the purpose of identification.
The present embodiment can pass through iris recognition technology, realizes identifying more accurately, iris on virtual reality device
Identification is compared hand vein recognition and is had higher anti-counterfeiting and reliability, therefore, it is possible to recognition efficiency is greatly improved.Meanwhile, user
Without mobile finger, and then simplify user operation, improve Consumer's Experience.
Embodiment five
The structural representation of the control system 1 of the virtual reality device that Fig. 7 provides for the embodiment of the present invention five, including first
Processor 11, described first processor 11 respectively infrared transmitter 12 and infrared remote receiver 13 are powered;
Described first processor 11 for when described Virtual Realization equipment in a dormant state time control described infrared emission
Infrared launched by device 12;
Described first processor 11 for when described Virtual Realization equipment in a dormant state time by described first infrared
Receptor 13 obtains infrared signal;
Described first processor 11 is additionally operable to, and the described infrared signal according to obtaining determines whether to wake up up;If it is determined that call out
Wake up, then exit described resting state.
Further, if it is determined that wake up up, then close described infrared remote receiver 13 and exit described resting state.
Further, described first processor 11 specifically for:
Judge whether the described infrared signal that described infrared remote receiver 13 obtains is human vein signal;
If human vein signal, it is determined that wake up up.
Further, described first processor 11 specifically for:
According to the described human vein signal that described infrared remote receiver 13 obtains, targeted customer is carried out hand vein recognition;
If hand vein recognition success, then exit described resting state.
Further, as shown in Figure 8, photographic head 14 and the second processor 15 are also included;
Described first processor 11 is additionally operable to when exiting described resting state to wake up up described second processor 15 and described
Photographic head 14;
Described photographic head 14 is for obtaining the iris image of targeted customer;
Described second processor 15 is used for the described iris image according to the acquisition of described photographic head 14 to described targeted customer
Carry out iris identification.
Further, described second processor 15 is application processor.
Further, described first processor 11 is micro-control unit.
Said system can perform the method that the embodiment of the present invention one to embodiment four is provided, and possesses execution said method phase
The functional module answered and beneficial effect.The ins and outs of the most detailed description, can be found in the embodiment of the present invention one
The method provided to embodiment four.
Note, above are only presently preferred embodiments of the present invention and institute's application technology principle.It will be appreciated by those skilled in the art that
The invention is not restricted to specific embodiment described here, can carry out for a person skilled in the art various obvious change,
Readjust and substitute without departing from protection scope of the present invention.Therefore, although by above example, the present invention is carried out
It is described in further detail, but the present invention is not limited only to above example, without departing from the inventive concept, also
Other Equivalent embodiments more can be included, and the scope of the present invention is determined by scope of the appended claims.