CN205229572U - Real -time localization tracking device of multiple target and virtual reality system based on mark point - Google Patents

Abstract

The utility model discloses a based on the real -time localization tracking device of multiple target of mark point and have this because the virtual reality system of the real -time localization tracking device of multiple target of mark point. Should based on real -time localization tracking device of multiple target of mark point include at least one camera (10), respectively send multi -wavelength's light a plurality of luminous bodies (40), allow respectively a plurality of infra -red filter (51, 52, 53, 54, 55) that the light of the wavelength among the multi -wavelength passes through, a plurality of luminous bodies (40) are arranged respectively on a plurality of moving object (200), a plurality of infra -red filter (51, 52, 53, 54, 55) set up the camera lens the place ahead of at least one camera (10). Implement the utility model discloses a based on the real -time localization tracking device of multiple target of mark point, a plurality of moving object's of accurate control simultaneously movement track.

Description

The real-time location tracking device of multiple goal based on gauge point and virtual reality system

Technical field

The utility model belongs to technical field of virtual reality.The utility model particularly relates to a kind of based on marking the multiple goal real-time location tracking device that (mark) puts and the virtual reality system possessing this multiple goal based on gauge point real-time location tracking device.

Background technology

Virtual reality (virtualReality, VR, also known as clever border, unreal very etc.) technology is one and combines computer graphics, multimedia technology, computer simulation technique, image processing, pattern-recognition, sensor measuring technology and psychology, physiological interdisciplinary study field, its application has covered all kinds of Military and civil fields of product design manufacture, simulated training, tele-medicine, space exploration, educational training, scientific research, amusement etc.Virtual reality has submergence sense (Immersion), interactivity (Interactivity), imagination (Imagination) feature.

In reality environment, need to locate in real time game player, to adapt to the scene that it is seen by virtual glasses, the virtual helmet etc., or prevent game player from meeting other players or object.There are multiple technologies can realize carrying out real-time location tracking to multiple goal at present, as common camera, GPS (GPS), inertial navigation etc.Common camera intuitively can observe the motion of visual field internal object, but is not easy to distinguish be concerned about object in complex detection environment; GPS (GPS) can carry out precise positioning tracking to target in open environment, but at the limited special confined space of Electromagnetic Wave Propagation as the building of mine, signal difference, GPS lost efficacy; Inertial navigation is applicable to the location tracking (as drilling well) of target in open environment or confined space, can make up the deficiency of GPS location, but inertial navigation technology is still immature.

Utility model content

The purpose of this utility model is, provides a kind of multiple goal based on gauge point real-time location tracking device, precisely can monitor the movement locus of multiple mobile object simultaneously.

The utility model is achieved through the following technical solutions: the real-time location tracking device of a kind of multiple goal based on gauge point, multiple infrared fileters that the described multiple goal based on gauge point real-time location tracking device comprises at least one camera, sends multiple luminophors of the light of multi-wavelength respectively, allows the light of a kind of wavelength in described multi-wavelength to pass through respectively, described multiple luminophor is arranged on multiple mobile object, and described multiple infrared fileter is arranged on the camera lens front of at least one camera described.

As the further improvement of technique scheme, the real-time location tracking device of the described multiple goal based on gauge point comprises a camera, this camera maintains static, and the described multiple goal based on gauge point real-time location tracking device also comprises rotating disk and for driving the drive unit of described turntable rotation, described rotating disk is evenly provided with the through hole for inlaying described multiple infrared fileter around circumference.

As the further improvement of technique scheme, the real-time location tracking device of the described multiple goal based on gauge point comprises a camera, this camera maintains static, and the described multiple goal based on gauge point real-time location tracking device also comprises rotating disk and for driving the drive unit of described turntable rotation, described rotating disk is evenly provided with the through hole for inlaying described multiple infrared fileter around circumference, and the quantity of described multiple infrared fileter, the quantity of described multiple luminophor, the quantity of described through hole are more than 5.

As the further improvement of technique scheme, the real-time location tracking device of the described multiple goal based on gauge point comprises a camera, this camera maintains static, and the described multiple goal based on gauge point real-time location tracking device also comprises movable plate and the drive unit for driving described movable plate to move back and forth, and described movable plate is provided with the perforation for inlaying described multiple infrared fileter with same intervals.

As the further improvement of technique scheme, the described multiple goal based on gauge point real-time location tracking device comprises multiple camera, the plurality of camera maintains static, and the real-time location tracking device of the described multiple goal based on gauge point also comprises rotating disk, described rotating disk is evenly provided with the through hole for inlaying described multiple infrared fileter around circumference.

As the further improvement of technique scheme, the described multiple goal based on gauge point real-time location tracking device comprises multiple camera, the plurality of camera maintains static, and the real-time location tracking device of the described multiple goal based on gauge point also comprises movable plate, described movable plate is provided with the perforation for inlaying described multiple infrared fileter with same intervals.

As the further improvement of technique scheme, the scope of the described multi-wavelength that described multiple luminophor sends is 700nm to 1500nm.

As the further improvement of technique scheme, described multiple luminophor is LED.

According to one side more of the present utility model, a kind of virtual reality system is provided, it comprises virtual glasses and the above-mentioned real-time location tracking of the multiple goal based on gauge point device, each luminophor of described multiple luminophor is arranged on described virtual glasses, described multiple mobile object is such as multiple people, everyone wears virtual glasses, and described arithmetic facility is used for the positional information obtaining target according to the image by gathering based on the real-time location tracking device of multiple goal of gauge point.Described virtual reality system can be such as virtual house viewing system or virtual three-dimensional games system etc.

Enforcement the beneficial effects of the utility model are: the real-time location tracking device of the multiple goal based on gauge point of the present utility model comprises at least one camera, send multiple luminophors of the light of multi-wavelength respectively, allow multiple infrared fileters that the light of a kind of wavelength in described multi-wavelength passes through respectively, camera and wavelength light splitting technology are combined, use one or more camera precisely to monitor the movement locus of one or more target simultaneously, real-time location tracking can be carried out to be concerned about multiple targets in open environment or confined space, obtain the movement locus of each target.

Accompanying drawing explanation

Fig. 1 adopts the schematic diagram according to the virtual reality system of the real-time location tracking of the multiple goal based on the gauge point device of the first embodiment of the present utility model;

Fig. 2 is the schematic perspective view of the major part of the real-time location tracking of the multiple goal based on the gauge point device of Fig. 1;

Fig. 3 is the elevational schematic view of the major part of the real-time location tracking of the multiple goal based on the gauge point device of Fig. 1;

Fig. 4 is the elevational schematic view of the real-time location tracking of the multiple goal based on the gauge point device according to the second embodiment of the present utility model;

Fig. 5 is the elevational schematic view of the real-time location tracking of the multiple goal based on the gauge point device according to the 3rd embodiment of the present utility model;

Fig. 6 is the elevational schematic view of the real-time location tracking of the multiple goal based on the gauge point device according to the 4th embodiment of the present utility model;

Fig. 7 be with according to the real-time location tracking of the multiple goal based on the gauge point device of the first embodiment of the present utility model schematic perspective view with the use of virtual glasses;

Fig. 8 is the process flow diagram according to the real-time location tracking method of the multiple goal based on gauge point of an embodiment of the present utility model;

Fig. 9 is the schematic diagram of step S12 in the real-time location tracking method of the multiple goal based on gauge point of key diagram 8;

Figure 10 is the schematic diagram of step S14 in the real-time location tracking method of the multiple goal based on gauge point of key diagram 8;

Figure 11 adopts the schematic block diagram according to the virtual reality system of an embodiment of the present utility model;

Number in the figure implication is as follows: 100,100C, 100D-are based on the real-time location tracking device of multiple goal of gauge point; 10,10C, 10D, 11D, 12D, 13D, 14D, 15D, 16D, 17D-camera; 20-drive unit; 51,52,53,54,55,51C, 52C, 53C, 54C, 55C, 51D, 52D, 53D, 54D, 55D, 56D, 57D-infrared fileter; 30-rotating disk; 30A-shaft collar; 32-through hole; 34C, 34D-bore a hole; 30C-movable plate; 30D-fixed head; 40-luminophor; 200-mobile object; The virtual glasses of 300-; 400-arithmetic facility; 1000-virtual reality system.

Embodiment

Below in conjunction with accompanying drawing, embodiment of the present utility model is further detailed.

Be described below in detail embodiment of the present utility model, the example of described embodiment is shown in the drawings, and wherein same or similar label represents same or similar element or has element that is identical or similar functions from start to finish.Being exemplary below by the embodiment be described with reference to the drawings, only for explaining the utility model, and can not being interpreted as restriction of the present utility model.On the contrary, embodiment of the present utility model comprise fall into attached claims spirit and intension within the scope of all changes, amendment and equivalent.

The utility model people study with keen determination, utility model goes out the real-time location tracking device of a kind of multiple goal based on gauge point, camera and wavelength light splitting technology are combined, use the movement locus of the one or more camera precisely one or more gauge point of monitoring (being arranged in mobile object or target) simultaneously, in open environment or confined space, real-time location tracking can be carried out to be concerned about multiple gauge points, obtain the movement locus of each gauge point.Multiple infrared fileters that should comprise at least one camera, and send multiple luminophors of the light of multi-wavelength respectively, allow the light of a kind of wavelength in described multi-wavelength to pass through respectively based on the multiple goal real-time location tracking device of gauge point, described multiple luminophor is arranged on multiple mobile object, and described multiple infrared fileter is arranged on the camera lens front of at least one camera described.According to the real-time location tracking device of the multiple goal based on gauge point of the present utility model, at non-visible light wave band, optically Real-Time Monitoring can be made to follow the trail of multiple target, provides the movement locus of target, and use infrared light, to a certain degree can avoid the impact of visible ray.

Composition graphs 1-Fig. 3 is described the first embodiment of the present utility model.In the present embodiment, 5 infrared fileters 51,52,53 that the described multiple goal based on gauge point real-time location tracking device 100 comprises a camera 10, sends 5 luminophors 40 of the light of 5 kinds of wavelength respectively, allows the light of a kind of wavelength in described 5 kinds of wavelength to pass through respectively, 54,55.Luminophor 40 is arranged on multiple mobile object 200.Luminophor 40 i.e. so-called gauge point, and it is arranged in mobile object or target.In the present embodiment, mobile object 200 is for being in the people in virtual reality system.

As shown in Figures 2 and 3, in the present embodiment, the real-time location tracking device 100 of the described multiple goal based on gauge point comprises a camera 10.This camera 10 maintains static.And the described multiple goal based on gauge point real-time location tracking device 100 also comprises rotating disk 30 and the drive unit 20 for driving described rotating disk 30 to rotate.Although in the illustrated embodiment, camera 10 maintains static, 5 infrared fileters 51,52,53,54,55 rotate the position to aiming at camera 10 respectively, but the utility model is not limited thereto, such as can like this: 5 infrared fileters 51,52,53,54,55 maintain static, drive unit drives camera 10 rotates, camera 10 rotate to 5 infrared fileters 51,52,53,54, an infrared fileter in 55 is aimed at.

In the present embodiment, drive unit 20 train of reduction gears that comprises motor and be connected with motor power.Described rotating disk 30 is evenly provided with the through hole 32 of the circle for inlaying described multiple infrared fileter 51,52,53,54,55 around circumference.Circular infrared fileter 51,52,53,54,55 are separately fixed in 5 through holes 32.And described multiple infrared fileter 51,52,53,54,55 is all arranged on the camera lens front of camera 10.

Multiple infrared fileters 51,52,53,54,55 are such as the narrow band pass filter of 700nm to 1500nm, are preferably the narrow band pass filter of 800nm to 1100nm scope.Infrared fileter 51,52,53,54,55 can buy optical filter on the market.In first embodiment, described multiple luminophor 40 is LED.The wavelength of the light that luminophor 40 sends and multiple infrared fileter 51,52,53,54,55 allow the wavelength one_to_one corresponding passed through.

Camera 10 is high speed camera, the shooting speed of this camera is m frame/second (m>100), different wave length (λ 1, λ 2, λ 3 ... λ 5, wherein, 700nm< λ 1, λ 2, λ 3 ... λ 5<1500nm) Filter mosaic on rotating disk 30, the center of circle of the infrared fileter of each circle is uniformly distributed on the circle that radius is R, as shown in Figure 3, rotating disk 30 is placed in parallel in camera 10 front end at a high speed, in the process of image acquisition, the optical center line of high speed camera 10 perpendicular to rotating disk 30 and with the intersection point of rotating disk 30 and a certain infrared fileter 51, 52, 53, 54, the center of circle of 55 overlaps, drive unit 20 (such as being coordinated with gear case by direct current generator) drives rotating disk 30 to rotate, rotational angular velocity ω=m/5 revolutions per second.In addition, 5 kinds of wavelength (λ 1, λ 2 is sent respectively, λ 3 ... λ 5) 5 luminophors 40 of light be arranged on the body of people, people moves in the scope that virtual reality system sets, and people moves in the shooting visual field of camera 10, and camera 10 can be taken and obtain a series of pictures.All pictures of camera 10 gained of the multiple goal real-time location tracking device 100 based on gauge point can be reached arithmetic facility 400 (such as computing machine, special IC, special software) described later, different from picture classification according to wavelength, same class picture is placed in chronological order, forms the movement locus (namely can calculate movement locus and the current kinetic position of people) of luminophor 40 under this wavelength.In virtual reality system, when obtaining movement locus and the current motion bit postpone of people, just can adjust the virtual scene that people is seen by the virtual helmet or virtual glasses.

In other words, in a first embodiment, by placing wavelength light-dividing device in high speed camera front end, realize at different wave length (λ 1, λ 2, λ 3 ... λ 5) optical filter between switch, switching rate and the high speed camera shooting speed of optical filter match.Different wave length (λ 1, λ 2, λ 3 ... λ 5) infrared light supply move in the visual field of high speed camera, high speed camera shooting obtain a picture group sheet.Because the optical filter of camera front end switches, every pictures can only photograph the light source of wavelength corresponding to the front filter, and other light source does not appear in picture, and often adjacent two pictures photograph the light source of different wave length.All pictures are classified for the picture photographing different wave length according to time shaft, the picture belonging to Same Wavelength is placed by shooting time sequencing, does image procossing, form the movement locus of target corresponding to this wavelength with certain speed playing pictures.

Then, composition graphs 4 is described the second embodiment of the present utility model.In a second embodiment, the described multiple goal based on gauge point real-time location tracking device 100A comprises 5 cameras.5 cameras are respectively first camera 11, second camera 12, third camera 13, the 4th camera 14, the 5th camera 15.First camera 11, second camera 12, third camera 13, the 4th camera 14, the 5th camera 15 maintain static, and the real-time location tracking device of the described multiple goal based on gauge point also comprises shaft collar 30A.Described shaft collar 30A is evenly provided with for inlaying described multiple infrared fileter 51,52,53,54, the through hole 32 of 55 around circumference.In a second embodiment, first camera 11 and infrared fileter 51 with the use of, gather the image about the first mobile object.Second camera 12 and infrared fileter 52 with the use of, gather the image about the second mobile object.Third camera 13 and infrared fileter 53 with the use of, gather the image about the 3rd mobile object.4th camera 14 and infrared fileter 54 with the use of, gather the image about the 4th mobile object.5th camera 15 and infrared fileter 55 with the use of, gather the image about the 5th mobile object.Therefore, in a second embodiment, without the need to arranging drive unit, the reliability of the real-time location tracking of the multiple goal based on gauge point device 100A is higher.

Then, composition graphs 5 is described the 3rd embodiment of the present utility model.In the third embodiment, the described multiple goal based on gauge point real-time location tracking device 100C comprises a camera 10C.This camera 10C maintains static.And the described multiple goal based on gauge point real-time location tracking device 100C also comprises movable plate 30C and the drive unit (not shown) for driving described movable plate 30C to move back and forth.The train of reduction gears that the drive unit of the 3rd embodiment such as also can comprise motor and be connected with motor power, by controlling positive and negative rotation of motor, drive described movable plate 30C to move around in the lateral direction, those of ordinary skill in the art know this type of drive, do not repeat.Described movable plate 30C is provided with for inlaying described 5 infrared fileter 51C, the perforation 34C of 52C, 53C, 54C, 55C with same intervals (also can different interval).

When needing the image gathering mobile object, movable plate 30C is driven to move by drive unit, camera 10C is made to aim at multiple infrared fileter 51C, 52C, 53C, an infrared fileter in 54C, 55C, photographs and allows with aimed at infrared fileter the image that the luminophor 40 of the wavelength passed through is corresponding.

Then, composition graphs 6 is described the 4th embodiment of the present utility model.In the fourth embodiment, the described multiple goal based on gauge point real-time location tracking device 100D comprises 7 cameras, and 7 cameras are respectively first camera 11D, second camera 12D, third camera 13D, the 4th camera 14D, the 5th camera 15D, the 6th camera 16D, the 7th camera 17D.Wherein, first camera 11D, second camera 12D, third camera 13D, the 4th camera 14D, the 5th camera 15D, the 6th camera 16D, the 7th camera 17D maintain static.And the described multiple goal based on gauge point real-time location tracking device 100D also comprises fixed head 30D.Described fixed head 30D is provided with for inlaying described 7 infrared fileter 51D, the perforation 34D of 52D, 53D, 54D, 55D, 56D, 57D with same intervals (also can different interval).In the fourth embodiment, first camera 11D and infrared fileter 51D with the use of, gather the image about the first mobile object.Second camera 12D and infrared fileter 52D with the use of, gather the image about the second mobile object.Third camera 13D and infrared fileter 53D with the use of, gather the image about the 3rd mobile object.4th camera 14D and infrared fileter 54D with the use of, gather the image about the 4th mobile object.5th camera 15D and infrared fileter 55D with the use of, gather the image about the 5th mobile object.6th camera 16D and infrared fileter 56D with the use of, gather the image about the 6th mobile object.7th camera 17D and infrared fileter 57D with the use of, gather the image about the 7th mobile object.Therefore, in the fourth embodiment, without the need to arranging drive unit, the reliability of the real-time location tracking of the multiple goal based on gauge point device 100D is higher.

The utility model also provides a kind of multiple goal based on gauge point real-time location tracking method.As shown in Figures 8 to 10, the real-time location tracking method of the described multiple goal based on gauge point comprises the steps:

S11, utilizes the above-mentioned real-time location tracking of the multiple goal based on gauge point device to gather image;

S12, to the image gathered according to wavelength (λ 1, λ 2, λ 3 ... λ n) classify;

S13, plays the image of each wavelength with given pace according to shooting time order;

S14, obtains and each wavelength (λ 1, λ 2, λ 3 ... λ n) movement locus of corresponding mobile object.

As shown in figure 11, the utility model also provides a kind of virtual reality system 1000.It comprises virtual glasses 300, the above-mentioned real-time location tracking of the multiple goal based on gauge point device 100/100C/100D and arithmetic facility 400, and each luminophor 40 of described multiple luminophor is arranged on described virtual glasses 300 as gauge point.Virtual glasses 300 such as can for being integrated in the virtual glasses of the virtual helmet.Described multiple mobile object 200 is such as multiple people.Described arithmetic facility 400 is for obtaining the positional information of target according to the image by gathering based on the multiple goal real-time location tracking device 100/100C/100D of gauge point.

Based in the real-time location tracking method of multiple goal of gauge point, step S12-S14 is such as realized by arithmetic facility 400.Arithmetic facility 400 can pass through existing techniques in realizing, does not repeat.In addition, arithmetic facility 400 can be integrated in camera 10.

According to the embodiment of the real-time location tracking device of the multiple goal based on gauge point of the present utility model, high speed camera and wavelength light splitting technology are combined, use one or more camera precisely to monitor the movement locus of one or more target simultaneously, in open environment or confined space, real-time location tracking can be carried out to be concerned about multiple targets, obtain the movement locus of each target.Like this, at non-visible light wave band, optically Real-Time Monitoring can be made to follow the trail of multiple target, provide the movement locus of target, and use infrared light, to a certain degree can avoid the impact of visible ray.

Multiple goal based on gauge point of the present utility model real-time location tracking device can be applied to virtually sees the aspects such as the game of room, virtual three-dimensional, reality environment, scene modeling.

In description of the present utility model, it is to be appreciated that term " first ", " second " etc. are only for describing object, and instruction or hint relative importance can not be interpreted as.In description of the present utility model, it should be noted that, unless otherwise clearly defined and limited, term " is connected ", " connection " should be interpreted broadly, such as, can be fixedly connected with, also can be removably connect, or connect integratedly; Can be mechanical connection, also can be electrical connection; Can be directly be connected, also indirectly can be connected by intermediary.For the ordinary skill in the art, concrete condition the concrete meaning of above-mentioned term in the utility model can be understood.In addition, in description of the present utility model, except as otherwise noted, the implication of " multiple " is two or more.

Describe and can be understood in process flow diagram or in this any process otherwise described or method, represent and comprise one or more for realizing the module of the code of the executable instruction of the step of specific logical function or process, fragment or part, and the scope of preferred implementation of the present utility model comprises other realization, wherein can not according to order that is shown or that discuss, comprise according to involved function by the mode while of basic or by contrary order, carry out n-back test, this should understand by embodiment person of ordinary skill in the field of the present utility model.

Although illustrate and described embodiment of the present utility model, those having ordinary skill in the art will appreciate that: can carry out multiple change, amendment, replacement and modification to these embodiments when not departing from principle of the present utility model and aim, scope of the present utility model is by claim and equivalents thereof.

Claims (10)

1. based on the real-time location tracking device of multiple goal of gauge point, it is characterized in that, multiple infrared fileters that the described multiple goal based on gauge point real-time location tracking device comprises at least one camera, sends multiple luminophors of the light of multi-wavelength respectively, allows the light of a kind of wavelength in described multi-wavelength to pass through respectively, described multiple luminophor is arranged on multiple mobile object, and described multiple infrared fileter is arranged on the camera lens front of at least one camera described.

2. the real-time location tracking device of the multiple goal based on gauge point according to claim 1, it is characterized in that, the real-time location tracking device of the described multiple goal based on gauge point comprises a camera, this camera maintains static, and the described multiple goal based on gauge point real-time location tracking device also comprises rotating disk and for driving the drive unit of described turntable rotation, described rotating disk is evenly provided with the through hole for inlaying described multiple infrared fileter around circumference.

3. the real-time location tracking device of the multiple goal based on gauge point according to claim 1, it is characterized in that, the real-time location tracking device of the described multiple goal based on gauge point comprises a camera, this camera maintains static, and the described multiple goal based on gauge point real-time location tracking device also comprises rotating disk and for driving the drive unit of described turntable rotation, described rotating disk is evenly provided with the through hole for inlaying described multiple infrared fileter around circumference, the quantity of described multiple infrared fileter, the quantity of described multiple luminophor, the quantity of described through hole is more than 5.

4. the real-time location tracking device of the multiple goal based on gauge point according to claim 1, it is characterized in that, the real-time location tracking device of the described multiple goal based on gauge point comprises a camera, this camera maintains static, and the described multiple goal based on gauge point real-time location tracking device also comprises movable plate and the drive unit for driving described movable plate to move back and forth, and described movable plate is provided with the perforation for inlaying described multiple infrared fileter with same intervals.

5. the real-time location tracking device of the multiple goal based on gauge point according to claim 1, it is characterized in that, the described multiple goal based on gauge point real-time location tracking device comprises multiple camera, the plurality of camera maintains static, and the real-time location tracking device of the described multiple goal based on gauge point also comprises rotating disk, described rotating disk is evenly provided with the through hole for inlaying described multiple infrared fileter around circumference.

6. the real-time location tracking device of the multiple goal based on gauge point according to claim 1, it is characterized in that, the described multiple goal based on gauge point real-time location tracking device comprises multiple camera, the plurality of camera maintains static, and the real-time location tracking device of the described multiple goal based on gauge point also comprises movable plate, described movable plate is provided with the perforation for inlaying described multiple infrared fileter with same intervals.

7. the real-time location tracking of the multiple goal based on the gauge point device according to any one of claim 1 to 6, is characterized in that, the scope of the described multi-wavelength that described multiple luminophor sends is 700nm to 1500nm.

8. the real-time location tracking of the multiple goal based on the gauge point device according to any one of claim 1 to 6, it is characterized in that, described multiple luminophor is LED.

9. a virtual reality system, it is characterized in that comprising virtual glasses, the real-time location tracking device of the multiple goal based on gauge point according to claim 1 and arithmetic facility, each luminophor of described multiple luminophor is arranged on described virtual glasses, and described arithmetic facility is used for the positional information obtaining target according to the image by gathering based on the real-time location tracking device of multiple goal of gauge point.

10. virtual reality system according to claim 9, described virtual reality system is virtual house viewing system or virtual three-dimensional games system.