CN102128842A

CN102128842A - Portable double-resource X-ray parallel three-dimensional industrial CI (computed tomography) system and control method thereof

Info

Publication number: CN102128842A
Application number: CN201010549357.7A
Authority: CN
Inventors: 李华; 徐立中
Original assignee: 李华; 徐立中
Current assignee: GUANGZHOU HUARUI ELECTRONIC TECHNOLOGY CO., LTD.
Priority date: 2010-11-18
Filing date: 2010-11-18
Publication date: 2011-07-20
Anticipated expiration: 2030-11-18
Also published as: CN102128842B

Abstract

The invention relates to a portable double-resource X-ray parallel three-dimensional industrial CI (computed tomography) system, which can be used for quickly acquiring a projection image and greatly reducing a mechanical rotation angle of an imaging system. In the technical scheme, the system comprises a notebook computer (18) and a CT machine (12), wherein the notebook computer (18) is provided with a GPU (graphics processing unit) for supporting OpenCl parallel processing; an embedded control system and two vertical light source platforms, namely a first X light source platform (21) and a second X light source platform (24), are arranged in the CT machine (12); the first X light source platform (21) and the second X light source platform (24) are respectively provided with an X-ray tube and a high-definition CCD (charge coupled device) detection imager; an imaging object support platform (23) capable of horizontally rotating for 180 degrees is arranged at the crossing point of the light of light sources of the first X light source platform (21) and the second X light source platform (24); the embedded control system is respectively connected to a control panel of the imaging object support platform (23), an X-ray tube control panel, a control panel of the high-definition CCD detection imagers and a control key (15) of the CT machine (12) through leads; and the notebook computer (18) is connected to the embedded control system of the CT machine (12) through a network cable (17). The invention also discloses a control method of the portable double-resource X-ray parallel three-dimensional industrial CT system.

Description

Parallel three-dimensional industrial CT system of portable double source X-ray and control method thereof

Technical field

The invention belongs to industrial CT system device field, especially a kind ofly obtain projected image fast, significantly be reduced to the picture system mechanics anglec of rotation, thereby improve system stability and reduce the parallel three-dimensional industrial CT system of portable double source X-ray and the control method thereof of mechanical rotation imaging system cost.

Background technology

At present the CT system does not still have and adopts two light sources-be detected as the picture parallel processing, and two parallel processing techniques of embedded system, CPU-GPU parallel processing.Common CT system, the image imaging processing time is long, and the mechanical imaging moiety anglec of rotation is big, and the special image disposal system is comparatively expensive.Be unfavorable for portable realization, be unfavorable for wireless network communication.

Summary of the invention

The purpose of this invention is to provide and a kind ofly obtain projected image fast, significantly be reduced to the picture system mechanics anglec of rotation, thereby improve system stability and reduce the parallel three-dimensional industrial CT system of portable double source X-ray and the control method thereof of mechanical rotation imaging system cost.

Technical scheme of the present invention is: the portable double source X-ray three-dimensional industrial CT system that walks abreast, it is characterized in that forming by notebook computer (18) and CT machine (12), notebook computer (18) disposes GPU in order to support the OpenCL parallel processing, be provided with embedded control system and mutual vertical two light source platforms setting up in CT machine (12) inside, the i.e. first X source platform (21) second X source platforms (24), the first X source platform (21) and the second X source platform (24) are respectively arranged with X-ray tube and high definition CCD surveys imager, is provided with the imaging object support platform (23) that can horizontally rotate 180 degree at the first X source platform (21) and place, second X source platform (24) the source light point of crossing; Embedded control system is connected by lead with the control button (15) of imaging object support platform (23) control panel, X-ray tube control panel, high definition CCD detection imager control panel and CT machine (12) respectively, and the embedded control system of notebook computer (18) and CT machine (12) is connected by netting twine (17).

The described first X source platform (21) is formed by connecting by orthogonal facade (211) and plane (212), X-ray tube (22) is arranged on facade (211) side, the high definition CCD of the first X source platform surveys imager (26) and is arranged on a upward end relative with X-ray tube (22) of plane (212), and plane (212) are provided with X-ray tube (22) lens direction translation guide rail (28); The described second X source platform (24) is formed by connecting by orthogonal facade (213) and plane (214), the X-ray tube of the second X source platform (25) is arranged on facade (213) side, the high definition CCD of the second X source platform surveys imager (211) and is arranged on a upward end relative with X-ray tube (25) of plane (214), plane (214) is provided with X-ray tube (25) lens direction translation guide rail (215), plane (212) be positioned at above the plane (214) and with plane (214) vertical setting, embedded control system is connected with translation guide rail (215) control panel with translation guide rail (28) respectively.

The RJ45 Ethernet interface of described embedded control system CPU (30) and notebook computer (18) CPU (37) is connected by ethernet line (39); Embedded control system CPU (30) is made up of CPU core (31), graphics process accelerator GE (32) and central dedicated digital signal processor DSP (33), and CPU core (31) is connected with central dedicated digital signal processor DSP (33) with graphics process accelerator GE (32) respectively; Notebook computer (18) is provided with graph processing chips GPU (38), and notebook computer (18) CPU (37) is connected with graph processing chips GPU (38).

Described embedded control system is provided with the 3G communication module.

Control the method for the parallel three-dimensional industrial CT system of portable double source X-ray, it is characterized in that comprising the following steps:

The first step, system boot preheating judge whether that then the preheating of X-light ray pipe finishes, as do not have, and then continue preheating, otherwise enter for second step;

Second goes on foot, spends at subject The Cloud Terrace initial position 0, begins the shooting successively of an X-light source and the 2nd X-light source;

The 3rd step, successively after the shooting, being provided with according to embedded system program increases subject The Cloud Terrace angle D;

The 4th goes on foot, is made a video recording successively by an X-light source and the 2nd X-light source under this angle of subject The Cloud Terrace, enters next step then;

The 5th goes on foot, judges whether The Cloud Terrace reaches 180 degree, as then not getting back to for the 3rd step, as reaching 180 degree, then enters next step;

The 6th step, employing OPENCL use the CPU on the notebook computer, and the double source image information that the GE of GPU and embedded system, the parallel processing of DSP unit are obtained is carried out the CT three-dimensional image reconstruction.After image reconstruction finished, science and engineering finished herein.

Effect of the present invention is: portable double source X-ray three-dimensional industry CT (ComputedTomography) system that walks abreast, the 3G radio communication with embedded system of joining, make that the three-dimensional industry CT of the parallel X-ray of this portable double source can the communication of wireless and long-range master-control room server, realize three-dimensional industry CT imaging portable, quick, real-time Connection Service.Be suitable for using at operation field.Native system adopts two miniature X-ray pipes (mini X-ray tube) that are mutually 90 degree to form two light sources, form double source imaging system with two high definition X-ray CCD cameras of 90 degree each other for measured body, under the management of embedded system control circuit, realize the optimization X-ray projected image of measured object is obtained.Its characteristics are:

1, obtains projected image fast, will obtain projected image speed and be enhanced about more than once; 2, significantly be reduced to the picture system mechanics anglec of rotation, thereby improved system stability and reduced mechanical rotation imaging system cost; 3, native system adopts the central processing unit (CPU) and graphic process unit (GPU) parallel processing of embedded system and portable servicer, obtains the calculation function of superhuge computer, realizes three-dimensional imaging fast; 4, join in the 3G of embedded system radio communication, make that the three-dimensional industry CT of the parallel X-ray of this portable double source can the communication of wireless and long-range master-control room server, realize three-dimensional industry CT imaging portable, quick, real-time Connection Service, be suitable for using at operation field.

Below in conjunction with drawings and Examples the utility model is described further.

Description of drawings

Fig. 1 is a structural representation of the present invention;

Fig. 2 is a light-source structure synoptic diagram among Fig. 1;

Fig. 3 is a CPU connection diagram of the present invention;

Fig. 4 is a control flow chart of the present invention.

Embodiment

Among Fig. 1, the portable double source X-ray three-dimensional industrial CT system that walks abreast, form by notebook computer 18 and CT machine 12, notebook computer 18 disposes GPU (graph processing chips) in order to support the OpenCL parallel processing, be provided with embedded control system and mutual vertical two light source platforms setting up in CT machine 12 inside, the i.e. first X source platform, 21 second X source platforms 24, the first X source platform 21 and the second X source platform 24 are respectively arranged with X-ray tube and high definition CCD surveys imager, is provided with the imaging object support platform 23 that can horizontally rotate 180 degree at the first X source platform 21 and place, the second X source platform, 24 source light point of crossing; Embedded control system is connected (referring to Fig. 2) with the control button 15 of imaging object support platform 23 control panels, X-ray tube control panel, high definition CCD detection imager control panel and CT machine 12 by lead respectively, embedded control system is provided with the 3G communication module, the embedded control system of notebook computer 18 and CT machine 12 is connected by

netting twine

17,14 is high definition LCD colorful display screen among the figure, and 16 is the outer cabinet handle of CT machine 12.

Among Fig. 2, the first X source platform 21 is formed by connecting by orthogonal facade 211 and plane 212, X-ray tube 22 is arranged on facade 211 sides, the high definition CCD of the first X source platform surveys imager 26 and is arranged on the plane 212 end relative with X-ray tube 22, and plane 212 is provided with X-ray tube 22 lens direction translation guide rails 28; The described second X source platform 24 is formed by connecting by orthogonal facade 213 and plane 214, the X-ray tube 25 of the second X source platform is arranged on facade 213 sides, the high definition CCD of the second X source platform surveys imager 211 and is arranged on the plane 214 end relative with X-ray tube 25, plane 214 is provided with X-ray tube 25 lens direction translation guide rails 215, plane 212 be positioned at above the plane 214 and with plane 214 vertical settings, embedded control system is connected with translation guide rail 215 control panels with translation guide rail 28 respectively, 29 for supporting the pedestal of the imaging object support platform that can horizontally rotate 180 degree, 27 for supporting the platform that the corresponding first X source high definition CCD surveys imager, and 210 for supporting the platform that the corresponding second X source high definition CCD surveys imager.

Among Fig. 3, the RJ45 Ethernet interface of embedded control system CPU30 and notebook computer 18CPU37 is connected by ethernet line 39; Embedded control system CPU30 is made up of CPU core 31, graphics process accelerator GE32 and central dedicated digital signal processor DSP33, and CPU core 31 is connected with central dedicated digital signal processor DSP33 with graphics process accelerator GE32 respectively; Notebook computer 18 is provided with graph processing chips GPU38, and notebook computer 18CPU (37) is connected with graph processing chips GPU38.

Among Fig. 4, control the method for the parallel three-dimensional industrial CT system of portable double source X-ray, it is characterized in that comprising the following steps:

The 3rd step, successively after the shooting, being provided with according to embedded system program increases The Cloud Terrace angle D;

The 4th goes on foot, is made a video recording successively by an X-light source and the 2nd X-light source under this angle of The Cloud Terrace, enters next step then;

Claims

1. the portable double source X-ray three-dimensional industrial CT system that walks abreast, it is characterized in that forming by notebook computer (18) and CT machine (12), notebook computer (18) disposes GPU in order to support the OpenCL parallel processing, be provided with embedded control system and mutual vertical two light source platforms setting up in CT machine (12) inside, the i.e. first X source platform (21) second X source platforms (24), the first X source platform (21) and the second X source platform (24) are respectively arranged with X-ray tube and high definition CCD surveys imager, is provided with the imaging object support platform (23) that can horizontally rotate 180 degree at the first X source platform (21) and place, second X source platform (24) the source light point of crossing; Embedded control system is connected by lead with the control button (15) of imaging object support platform (23) control panel, X-ray tube control panel, high definition CCD detection imager control panel and CT machine (12) respectively, and the embedded control system of notebook computer (18) and CT machine (12) is connected by netting twine (17).

2. the portable double source X-ray according to claim 1 three-dimensional industrial CT system that walks abreast, it is characterized in that the described first X source platform (21) is formed by connecting by orthogonal facade (211) and plane (212), X-ray tube (22) is arranged on facade (211) side, the high definition CCD of the first X source platform surveys imager (26) and is arranged on a upward end relative with X-ray tube (22) of plane (212), and plane (212) are provided with X-ray tube (22) lens direction translation guide rail (28); The described second X source platform (24) is formed by connecting by orthogonal facade (213) and plane (214), the X-ray tube of the second X source platform (25) is arranged on facade (213) side, the high definition CCD of the second X source platform surveys imager (211) and is arranged on a upward end relative with X-ray tube (25) of plane (214), plane (214) is provided with X-ray tube (25) lens direction translation guide rail (215), plane (212) be positioned at above the plane (214) and with plane (214) vertical setting, embedded control system is connected with translation guide rail (215) control panel with translation guide rail (28) respectively.

3. the portable double source X-ray according to claim 1 and 2 three-dimensional industrial CT system that walks abreast is characterized in that the RJ45 Ethernet interface of described embedded control system CPU (30) and notebook computer (18) CPU (37) is connected by ethernet line (39); Embedded control system CPU (30) is made up of for central dedicated digital signal processor DSP (33) CPU core (31), graphics process accelerator GE (32) and 33, and CPU core (31) is connected with central dedicated digital signal processor DSP (33) with graphics process accelerator GE (32) respectively; Notebook computer (18) is provided with graph processing chips GPU (38), and notebook computer (18) CPU (37) is connected with graph processing chips GPU (38).

4. the portable double source X-ray according to claim 1 and 2 three-dimensional industrial CT system that walks abreast is characterized in that described embedded control system is provided with the 3G communication module.

5. the method for the parallel three-dimensional industrial CT system of the described portable double source X-ray of above-mentioned each claim of control is characterized in that comprising the following steps:

Second goes on foot, spends at subject support platform initial position 0, begins the shooting successively of an X-light source and the 2nd X-light source;

The 3rd step, successively after the shooting, being provided with according to embedded system program increases subject support platform angle D;

The 4th goes on foot, is made a video recording successively by an X-light source and the 2nd X-light source under this angle of subject support platform, enters next step then;

The 5th goes on foot, judges whether the subject support platform reaches 180 degree, as then not getting back to for the 3rd step, as reaching 180 degree, then enters next step;

The 6th step, employing OPENCL use the CPU on the notebook computer, GE (the graphics processing engine of GPU and embedded system, graphics-processing engine), DSP (digital signal processing, DigitalSignal Processing) the parallel processing double source image information that obtained in unit is carried out the CT three-dimensional image reconstruction.After image reconstruction finished, science and engineering finished herein.