CN108093222A - A kind of hand-held VR imaging methods - Google Patents

Abstract

The present invention relates to a kind of hand-held VR imaging methods, comprise the following steps：S01：VR imaging devices are fixed at the eyes of head；S02：Self-test is carried out to VR imaging devices, hand sensor, infrared camera, infraluminescence source, wireless telecommunications system using the controller in handheld device；S03：Image taking is carried out using the infrared camera on the controller control VR imaging devices in handheld device；S04：Infrared camera sends the picture real-time radio taken to handheld device, and picture is saved into server by handheld device；S05：The picture taken is converted into VR images by VR imaging devices in real time.The beneficial effects of the invention are as follows：The sense of reality and feeling of immersion of VR environment, better user experience is effectively ensured, moreover, cost is relatively low, improves user experience when virtual reality interaction is carried out in the consumer level VR products of low cost.

Description

A kind of hand-held VR imaging methods

Technical field

The present invention relates to virtual reality technical field of imaging more particularly to a kind of hand-held VR imaging methods.

Background technology

Virtual reality technology (Virtual Reality, abbreviation VR) is an important directions of emulation technology, is emulation skill The set of the multiple technologies such as art and computer graphics human-machine interface technology multimedia technology sensing technology network technology, is one Challenging interleaving techniques front subject and research field；Virtual reality technology mainly includes simulated environment, perception, nature Technical ability and sensing equipment etc., simulated environment be generated by computer, dynamic 3 D stereo photorealism in real time.

At present, user is generally in when using VR equipment under the use environment of head-mounted display, i.e., human eye is in display Closed state, that is, except the content that head-mounted display is shown, can not see other things.Accordingly, with respect to human viewable's feelings Human-computer interaction under shape, the human-computer interaction between user and VR equipment implement complex, and convenience is poor.In recent years, Virtual reality interaction technique has become the hot spot of people's research.

At present, in VR (virtual reality) product, the common mode that is mainly the following realizes that VR is interacted：

1. utilizing the posture instrument set in VR head-mounted display apparatus, the head pose of user is detected, so that user is sharp " head is taken aim at " is formed with head pose to aim at user interface, and after aiming, external equipment can be used in user, such as clicks on external equipment The physical button transmission control instruction of upper setting, implements control operation, such as determines, returns to operation.

2. setting MEMS inertial navigation systems on external equipment such as hand-held remote controller, which can detect the fortune of external equipment Dynamic trend realizes that the cursor in user interface moves according to movement tendency, user is made to move cursor using mobile external equipment, Then send instructions down, such as the button clicked on hand-held remote controller implements control operation, such as determine, return to operation.

However, both above-mentioned virtual reality interactive modes, for mode 1, user need using head movement into Row aims at, and operates no depth feelings by being easily destroyed the sense of reality and feeling of immersion of VR environment, user experience is poor；For mode 2 For, MEMS inertial navigation systems are with high costs.

The content of the invention

The technical problem to be solved by the present invention is to solve the above shortcomings of the prior art and to provide a kind of hand-held VR imagings Method.

The technical solution that the present invention solves above-mentioned technical problem is as follows：

A kind of hand-held VR imaging methods are provided, are comprised the following steps：

S01：VR imaging devices are fixed at the eyes of head；

S02：Using the controller in handheld device to VR imaging devices, hand sensor, infrared camera, infraluminescence Source, wireless telecommunications system carry out self-test；

S03：Image taking is carried out using the infrared camera on the controller control VR imaging devices in handheld device；

S04：Infrared camera sends the picture real-time radio taken to handheld device, and handheld device preserves picture Into server；

S05：The picture taken is converted into VR images by VR imaging devices in real time.

The beneficial effects of the invention are as follows：The present invention carries out Image Acquisition by infrared camera, passes through wireless telecommunications system It realizes the wireless real-time data transmission between each equipment, conversion of the captured image to VR images is realized by VR imaging devices, VR imaging devices and infrared camera are controlled by handheld device, the sense of reality and feeling of immersion of VR environment, user's body is effectively ensured It tests preferably, moreover, cost is relatively low, improves user's body when virtual reality interaction is carried out in the consumer level VR products of low cost It tests.

Based on the above technical solutions, the present invention can also be improved as follows.

Further, in the step S03, infrared camera carries out appointed place according to the instruction of hand sensor and specifies The shooting of angle, to realize human-computer interaction.

The advantageous effect of above-mentioned further scheme is：Spot for photography and bat using hand sensor control infrared camera Angle is taken the photograph, improves human-computer interaction performance.

Further, infrared camera is when being shot, moreover it is possible to while the geographical location information of shooting picture is obtained, it is described Geographical location information can also finally be shown on VR images.

The advantageous effect of above-mentioned further scheme is：User is facilitated also to will appreciate that seen image while VR images are checked Geographical location information, it is functional more preferable.

Further, the infrared camera is binocular infrared camera, and the distance between two infrared photography devices are 6cm。

The advantageous effect of above-mentioned further scheme is：Enhance the stereoscopic effect of shooting picture.

Further, infraluminescence source provides light compensation for infrared camera, and the infraluminescence source can be used to exist for wavelength The infrared LED lamp of 850nm~1100nm scopes.

The advantageous effect of above-mentioned further scheme is：Play the role of improving the clarity of shooting picture in infraluminescence source.

Further, the handheld device is handle, bracelet or gloves.

Further, the VR imaging devices be overleaf be viewed as it is transparent or semitransparent, be viewed as in front it is self luminous Display screen, for showing image.

Further, the VR imaging devices are to show the stereoscopic display screen of stereo-picture, it can be achieved that stereoscopic Virtual Reality ring Border interacts.

The above-mentioned advantageous effect into two step schemes is：The visual experience of user is improved, stereoscopic effect is more preferable.

Description of the drawings

Fig. 1 is a kind of flow chart of hand-held VR imaging methods of the present invention.

Specific embodiment

The principle and features of the present invention will be described below with reference to the accompanying drawings, and the given examples are served only to explain the present invention, and It is non-to be used to limit the scope of the present invention.

A kind of hand-held VR imaging methods provided in this embodiment are described in detail below in conjunction with attached drawing.

As shown in Figure 1, a kind of hand-held VR imaging methods, comprise the following steps：

S01：VR imaging devices are fixed at the eyes of head, and the bottom of VR imaging devices leaves head and directs one's eyes downward and looks into The gap seen；

S02：Using the controller in handheld device to VR imaging devices, hand sensor, infrared camera, infraluminescence Source, wireless telecommunications system carry out self-test；

S03：Image taking is carried out using the infrared camera on the controller control VR imaging devices in handheld device；

S04：Infrared camera sends the picture real-time radio taken to handheld device, and handheld device preserves picture Into server；

S05：The picture taken is converted into VR images by VR imaging devices in real time.

Image Acquisition is carried out by infrared camera, realized by wireless telecommunications system between each equipment it is wireless in real time Data transmission realizes conversion of the captured image to VR images by VR imaging devices, VR imaging devices is controlled by handheld device And infrared camera, the sense of reality and feeling of immersion of VR environment is effectively ensured, better user experience moreover, cost is relatively low, improves User experience during virtual reality interaction is carried out in the consumer level VR products of low cost.

In the step S03, infrared camera carries out appointed place and specified angle according to the instruction of hand sensor Shooting, to realize human-computer interaction.

Infraluminescence source provides light compensation for infrared camera, to improve the clarity of shooting picture.

Infrared camera is when being shot, moreover it is possible to while the geographical location information of shooting picture is obtained, the geography position Confidence breath can also finally be shown on VR images.

The infrared camera is that the distance between binocular infrared camera, two infrared photography devices is 6cm.

The infrared LED lamp in 850nm~1100nm scopes for wavelength can be used in the infraluminescence source, i.e., infrared band logical filter Ripple device makes infrared light in above-mentioned wave-length coverage by the way that and the light beyond above range cannot then pass through.

The infraluminescence source can also be other wave-length coverages (for example wave-length coverage is among 900nm to 1050nm) Infrared LED lamp, infrared bandpass filters are matching at this time, ensure that the infrared light of the infrared LED lamp in this wave-length coverage can By being filtered out without the light in the wave-length coverage.

The handheld device is handle, bracelet or gloves.

The VR imaging devices be overleaf be viewed as it is transparent or semitransparent, self luminous display screen is viewed as in front, For showing image.

The VR imaging devices are to show the stereoscopic display screen of stereo-picture, it can be achieved that stereoscopic Virtual Reality environment intersects Mutually, user is facilitated to see stereo-picture, and shows that the scene in image is more true to nature.

The foregoing is merely presently preferred embodiments of the present invention, is not intended to limit the invention, it is all the present invention spirit and Within principle, any modifications, equivalent replacements and improvements are made should all be included in the protection scope of the present invention.

Claims (8)

1. a kind of hand-held VR imaging methods, which is characterized in that comprise the following steps：

S01：VR imaging devices are fixed at the eyes of head；

S02：Using the controller in handheld device to VR imaging devices, hand sensor, infrared camera, infraluminescence source, Wireless telecommunications system carries out self-test；

S03：Image taking is carried out using the infrared camera on the controller control VR imaging devices in handheld device；

S04：Infrared camera sends the picture real-time radio taken to handheld device, and picture is saved into clothes by handheld device Business device；

S05：The picture taken is converted into VR images by VR imaging devices in real time.

2. a kind of hand-held VR imaging methods according to claim 1, it is characterised in that：In the step S03, infrared photography Head carries out the shooting of appointed place and specified angle according to the instruction of hand sensor, to realize human-computer interaction.

3. a kind of hand-held VR imaging methods according to claim 2, it is characterised in that：Infrared camera is being shot When, moreover it is possible to while the geographical location information of shooting picture is obtained, the geographical location information can also finally be shown on VR images.

4. a kind of hand-held VR imaging methods according to claim 3, it is characterised in that：The infrared camera is red for binocular The distance between outer camera, two infrared photography devices are 6cm.

5. a kind of hand-held VR imaging methods according to claim 4, it is characterised in that：Infraluminescence source is infrared camera Light compensation is provided, the infrared LED lamp in 850nm~1100nm scopes for wavelength can be used in the infraluminescence source.

6. a kind of hand-held VR imaging methods according to claim 1, it is characterised in that：The handheld device is handle, hand Ring or gloves.

7. a kind of hand-held VR imaging methods according to claim 1, it is characterised in that：The VR imaging devices are overleaf Be viewed as it is transparent or semitransparent, self luminous display screen is viewed as in front, for showing image.

8. a kind of hand-held VR imaging methods according to claim 7, it is characterised in that：The VR imaging devices are that display is vertical The stereoscopic display screen of body image is, it can be achieved that stereoscopic Virtual Reality environment interacts.