CN202875480U - Augmented reality system testing platform based on projector - Google Patents
Augmented reality system testing platform based on projector Download PDFInfo
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- CN202875480U CN202875480U CN2012205969268U CN201220596926U CN202875480U CN 202875480 U CN202875480 U CN 202875480U CN 2012205969268 U CN2012205969268 U CN 2012205969268U CN 201220596926 U CN201220596926 U CN 201220596926U CN 202875480 U CN202875480 U CN 202875480U
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- projector
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- horizontal table
- reality system
- head mould
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Abstract
The utility model relates to an augmented reality system testing platform based on a projector. The augmented reality system testing platform comprises a support body (1), a horizontal worktable (2), the projector (3), binocular stereoscopic vision cameras (4), auxiliary light sources (5), a height sensor (6) and a head-form fixing frame, the head-form fixing frame is arranged on the horizontal worktable (2) and can axially rotate, the support body (1) is of a rectangular frame structure, the projector (3) projecting under is fixedly mounted at the center of the upper portion of the support body (1), the cameras (4) are symmetrically and fixedly mounted on two sides of the projector (3), the distance between the cameras can be adjusted, the auxiliary light sources (5) are mounted at four corners of the upper surface of a frame respectively, the angles and the brightness of the auxiliary light sources (5) can be adjusted, the horizontal worktable (2) capable of moving up and down is mounted at the horizontal position of the middle of the support body (1), and the height sensor (6) is fixed on a side vertical column of the support body (1), connected with the horizontal worktable (2) and used for measuring the height value of the horizontal worktable (2).
Description
Technical field:
This utility model relates to a kind of augmented reality system test platform that is applied to the robotic assisted surgery navigation.
Background technology:
Along with the continuous progress of computer, robotics, robotic surgical device has obtained good clinical effectiveness at medical field.In recent years, robot and computer-assisted surgery technology just progressively are applied to the higher operation of this required precision of department of cerebral surgery.
In traditional cerebral surgery operation, the doctor determines position and the size of affected area by the understanding to patient's two dimensional image, and the effect of operation depends on doctor's experience to a great extent, therefore can't locate accurately focus in the preoperative.In art, how to avoid important functional areas, nerve and blood vessel simultaneously, select a suitable path to arrive the deep layer focus, also have difficulties.The robot assisted surgical technic has solved this problem to a certain extent.Robot assisted surgery (Robot assisted surgery, be called for short RAS) refer to utilize the advanced person's of current medical domain imaging device, under the help of robot and computer, auxiliary doctor carries out preoperative diagnosis and surgery planning, visual guiding is provided in operation or monitors service function, auxiliary doctor finishes operation technique in high quality.It has broken through the boundary of traditional surgery, is of great significance for tools such as improving location of operation precision, minimizing surgical injury, shortening operating time and raising success rate of operation.Augmented reality (Augmented Reality, be called for short AR) be the technology that real world scene that a kind of additional information of utilizing computer to produce is seen user strengthens or expands, be applied in the higher department of cerebral surgery skull operation of required precision, not only can finish collection and three-dimensional reconstruction to skull position initial data, and the doctor can carry out the art preplanning by threedimensional model, to the positioning accuracy and the success rate that improve operation, alleviate patient's misery, tool is of great significance.
For the research of the augmented reality that is applied to department of cerebral surgery, can not directly in patient is performed the operation, do experiment, thereby develop the system test platform of a cover complete function, most important to the expansion of this area research work.
Summary of the invention:
The technical problems to be solved in the utility model is the augmented reality system test platform that one of development is applied to the robotic assisted surgery navigation, adopt the binocular stereo vision video camera that research is carried out imaging to picture, and one-tenth's image studied, extract key feature wherein, and key position identified, locates and follow the tracks of etc.
By reference to the accompanying drawings, be described as follows:
A kind of augmented reality system test platform based on projector, comprise rack body 1, horizontal table 2, projector 3, binocular stereo vision video camera 4, secondary light source 5, height sensor 6 and be arranged on the horizontal table 2 and can prolong the head mould fixed mount of axial rotation, described rack body 1 is the cuboid tower structure, in rack body 1 center upper portion position, a cross beam type fixed mount is set, fixedly mount one under the projector 3 of projection, in projector 3 both sides, binocular stereo vision video camera 4 of each symmetrical fixed installation, and spacing can be adjusted, and shooting angle can manual fine-tuning; At four angles of frame upper surface, each installs an angle and the adjustable secondary light source 5 of brightness; At the middle part of rack body 1 horizontal level the horizontal table that can move up and down 2 is installed, height sensor 6 is fixed on is connected connection on the heel post of rack body 1 and with horizontal table, its height value is measured.
Described head mould fixed mount the latter half is that a hinge joint is fixed on and can rotates vertical pole 9 around axis on the horizontal table 2; In the upper end of pole 9, link a fork 8 and be used for adjusting the angle of pitch of head mould and locking; In fork 8 upper ends, fixedly mount a head mould cervical region retainer ring 7, this ring minute inside and outside double-layer structure, internal ring is used for the stationary gripper die cervical region, and can realize the adjustment to head mould left and right side corner in the outer shroud inner rotation, and outer shroud is fixedly connected with fork 8.
Described up and down mobile horizontal table 2 can adopt at four posts of framework and the mode of slide rail partly is installed, also can adopt at four flexible winding machines of angles installation.
Described height sensor 6 can adopt grating scale, magnetic railings ruler or other linear transducer.
The beneficial effects of the utility model:
1, by adjusting the height of workbench, can adjust the spacing of head mould and camera lens, create the experiment condition of different sighting distances, to satisfy the various research needs that strengthen in the existing system.
2, the spacing of head mould and camera lens can draw by the height sensor Measurement accuracy, for the demarcation of video camera and framing etc. provide foundation.
3, adjust spacing and the angle of binocular stereo vision camera lens, can realize the binocular imaging scope under the different eye-distances, strengthen in the existing system to satisfy, the research that changes eye-distance and angle needs.
4, projector can projection go out the grating fringe of setting on head mould, such as color fringe under the black and white clause of different coding, GTG clause at different levels, the different colours model etc., augmented reality systematic research needs had both been satisfied, also improved grating precision, enriched the color of grating, with directly draw grid lines at head mould and compare, no matter all be significantly increased at aspects such as striped precision, mode and test efficiencies.
5, secondary light source can be arranged on different visual field height, and this aspect such as adaptability to the research augmented reality is also most important.
6, the adjustment of head mould direction and angle, but the research of the different parts of the Study of the Realization object and trace simulation.
Description of drawings:
Fig. 1 is augmented reality system test platform and integrally structural representation;
Fig. 2 is head mould fixed rack structure schematic diagram.
Wherein 1, rack body 2, horizontal table 3, projector 4, binocular stereo vision video camera 5, secondary light source 6, height sensor 7, cervical region retainer ring 8, fork 9, pole
The specific embodiment:
Whole test platform comprises the formations such as rack body 1, horizontal table 2, projector 3, binocular stereo vision video camera 4, secondary light source 5, height sensor 6, as shown in Figure 1.
In rack body 1 center upper portion part, a cross beam type fixed mount is set, fixedly mount a projector 3, its key is to make the camera lens of projector to be positioned at upper face center, and under projection;
In projector 3 both sides, each fixedly mounts a binocular stereo vision video camera 4, is used for carrying out image acquisition, its key is that two video cameras take over against following horizontal table, two video cameras are symmetrical to be installed, and spacing can adjust, and shooting angle can manual fine-tuning;
At four angles of frame upper surface, each installs a secondary light source 5, be used for to regulate takes the brightness in district, and its key is that the angle of four lamps and brightness can adjust;
In the frame mid portion level horizontal table 2 is installed.It is mainly characterized in that this workbench is keeping under the level, can its residing height of accurate adjustment, and by height sensor 6 its height value is measured.Horizontal table 2 need keep level when moving up and down, can adopt the mode that slide rail partly is installed at four posts of framework, also can adopt at four angles flexible winding machine is installed, height sensor can adopt grating scale, magnetic railings ruler or other linear transducer, and the current height that can measure horizontal table gets final product.
The head mould fixed mount is installed on the horizontal table, as shown in Figure 2.
During work, by the head mould fixed mount head mould is fixed on the horizontal table 2, the latter half of head mould fixed mount is a vertical pole 9, is fixed on the horizontal table 2 by the hinge joint mode.It is mainly characterized in that pole 9 can rotate around the axis of oneself, and then realize the deflection adjustment of head mould in horizontal plane;
In the upper end of pole, link the angle of pitch that a fork 8 is used for adjusting head mould, it is mainly characterized in that can lock after adjusting the extend protection elevation angle;
In fork 8 upper ends, fixedly mount a head mould cervical region retainer ring 7, it is mainly characterized in that this ring minute inside and outside double-layer structure, internal ring is used for the stationary gripper die cervical region, and can in the outer shroud inner rotation, realize the adjustment to head mould left and right side corner.
During work, first head mould is fixed on the horizontal table, and adjust to direction or the angle that research needs, then adjust the height of workbench, make head mould enter into the visual field of binocular stereo vision video camera, throw grating with projector at head mould again, carry out image acquisition and carry out subsequent treatment by binocular stereo camera.
Claims (4)
1. augmented reality system test platform based on projector, comprise rack body (1), horizontal table (2), projector (3), binocular stereo vision video camera (4), secondary light source (5), height sensor (6) and be arranged on the horizontal table (2) and can prolong the head mould fixed mount of axial rotation, it is characterized in that: described rack body (1) is the cuboid tower structure, in rack body (1) center upper portion position, a cross beam type fixed mount is set, fixedly mount one under the projector (3) of projection, in projector (3) both sides, each symmetrical binocular stereo vision video camera (4) of installing, and spacing can be adjusted, and shooting angle can manual fine-tuning; At four angles of frame upper surface, each installs an angle and the adjustable secondary light source of brightness (5); At the middle part of rack body (1) horizontal level a horizontal table that can move up and down (2) is installed, height sensor (6) is fixed on the heel post of rack body (1) and is connected 2 with horizontal table) connection, its height value is measured.
2. a kind of augmented reality system test platform based on projector according to claim 1 is characterized in that: described head mould fixed mount the latter half is that a hinge joint is fixed on the vertical pole (9) that can rotate around axis on the horizontal table (2); Upper end in pole (9) links a fork (8) and is used for adjusting the angle of pitch of head mould and locking; In fork (8) upper end, fixedly mount a head mould cervical region retainer ring (7), this ring minute inside and outside double-layer structure, internal ring is used for the stationary gripper die cervical region, and can realize the adjustment to head mould left and right side corner in the outer shroud inner rotation, outer shroud is fixedly connected with fork (8).
3. a kind of augmented reality system test platform based on projector according to claim 1 is characterized in that: described up and down mobile horizontal table (2) can adopt at four posts of framework and the mode of slide rail partly is installed, also can adopt at four angles flexible winding machines are installed.
4. a kind of augmented reality system test platform based on projector according to claim 1, it is characterized in that: described height sensor (6) can adopt grating scale, magnetic railings ruler or other linear transducer.
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CN2012205969268U CN202875480U (en) | 2012-11-13 | 2012-11-13 | Augmented reality system testing platform based on projector |
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CN2012205969268U CN202875480U (en) | 2012-11-13 | 2012-11-13 | Augmented reality system testing platform based on projector |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102920513A (en) * | 2012-11-13 | 2013-02-13 | 吉林大学 | Augmented reality system experiment platform based on projector |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
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CN102920513A (en) * | 2012-11-13 | 2013-02-13 | 吉林大学 | Augmented reality system experiment platform based on projector |
CN102920513B (en) * | 2012-11-13 | 2014-10-29 | 吉林大学 | Augmented reality system experiment platform based on projector |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20130417 Termination date: 20151113 |
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EXPY | Termination of patent right or utility model |