CN105306561A - Service request processing method of medical imaging system and medical imaging system - Google Patents
Service request processing method of medical imaging system and medical imaging system Download PDFInfo
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- H—ELECTRICITY
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- H04L67/00—Network arrangements or protocols for supporting network services or applications
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- A61B6/02—Arrangements for diagnosis sequentially in different planes; Stereoscopic radiation diagnosis
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Abstract
The invention discloses a service request processing method of a medical imaging system and a medical imaging system. The service request processing method of the medical imaging system comprises the following steps: a service software module receives a service request and then analyzes the service request and forwards the analyzed service request to an application software module; and the application software module converts the analyzed service request into parameter configuration information and transmits the parameter configuration information to a service executing unit. The technical scheme disclosed by the invention is strong in reusability; the inherent characteristic or function of the service software module to the application software module can be directly used; the reliability is high since the application software module and the service software module are completely independent from each other physically without mutual interference; when any one of application software and service software has a fault, the operating of the other one cannot be affected.
Description
Technical field
The present invention relates to medical imaging field, particularly a kind of service request processing method of medical image system and medical image system.
Background technology
At medical imaging field, its product of a great variety, the such as product of corresponding x-ray system type, include suspension type digital X-ray imaging system, mobile type digital x-ray imaging system, digital galactophore x-ray imaging system, column digital X-ray imaging system, flat bed digital X-ray imaging system, and C-arm x-ray imaging system etc.; And the product (CT, computedtomography) of corresponding computed tomography imaging system type, that includes 16 layers of CT, 32 layers of CT, 64 layers of CT etc.; Corresponding to the product (MRI of magnetic resonance imaging type, magneticresonanceimaging), that includes permanent-magnet type MR, superconduct MR, the magnetic resonance product of permanent magnetism or superconduct can also segment further according to its magnetic field intensity (0.2T, 0.5T, 1.5T, 3T); And the product of positron emission tomography (PET, PositronEmissionTomography) type; Also have such as multi-modality imaging system type: PET-CT (PositronEmissionTomography-ComputedTomography) product and PET-MR (PositronEmissionTomography-MagneticResonance) product.
The medical imaging product be more than enumerated to or be not also enumerated to, it is generally divided into two kinds on software application: one is normal mode of operation, performed by application software, the technician of hospital carries out the collection of medical image, the operation such as Treatment Analysis, Computer image genration to related data to patient; Another kind is services pattern, performed by service software, service engineering Shi Jinhang primarily of equipment manufacturers operates, and such as utilize die body (phantom) to debug imaging system, calibrate, the operating state making product reach best, image reach best effects.
The software architecture of the corresponding software of above-mentioned pattern can be divided into two kinds of forms usually, one is integrated form, namely application software and service software adopt same set of software to realize, as shown in Figure 1a, here the implication of same set of software is that both adopt same process to run, communication modes between it is in-process communication, when needing the switching only need carrying out the page when using different mode.Shortcoming is poor reliability, if service software collapses, whole software can be caused normally to run, and if the module interface of application software there occurs change, service software also needs to adjust accordingly, very high for cost multiple product shares a set of software.
The second is stand alone type, and namely application software and service software are point other two covers software, and the communication modes between it is Inter-Process Communication, as shown in Figure 1 b.The advantage of this form is good reliability, and under there will not be integration type software framework, service software collapses the problem simultaneously causing application software to use.But shortcoming is, because it is two different software programs, in two cover softwares, contain similar program code when performing same services request, the potential wasting of resources is existed to physical memory.
Summary of the invention
The problem to be solved in the present invention is to provide a kind of service request processing method and medical image system of medical image system, solves the problems referred to above of integrated form framework in existing medical image system software, the existence of free-standing framework.
For solving the problem, the invention provides a kind of service request processing method of medical image system, comprising:
Service software modules receives service request, and is transmitted to application software module after described service request being resolved; Described application software module and described service software modules are freestanding software module, and described application software module is applied to normal mode of operation, and described service software modules is applied to services pattern; Service request after described parsing is converted to parameter configuration by application software module, and described parameter configuration is sent to service execution unit.
Preferably, described service software modules reception service request comprises: service software modules receives service request by the service processing module loading on graphic user interface.Service request corresponding to described service processing module comprises following at least one: dull and stereotyped service request, frame service request, quality control service request or system configuration service request.
Preferably, described service software modules receives service request by the service processing module loading on graphic user interface and comprises: when receiving service request by service processing module, the functional module reception service request that loading service processing module is corresponding.
Preferably, described service request is the request of Image chain function.
Preferably, Inter-Process Communication mode is adopted between the inner each submodule of described service software modules.
For solving the problem, present invention also offers a kind of medical image system, comprise application software module, service software modules, described application software module and service software modules are freestanding software module, described application software module is applied to normal mode of operation, and described service software modules is applied to services pattern; Described application software module and described service software modules are the framework of configuration independent of one another; Described service software modules receives service request, and is transmitted to application software module after described service request being resolved; Service request after described parsing is converted to parameter configuration by application software module, and described parameter configuration is sent to service execution unit.
Preferably, described service software modules comprises: presentation layer, for forming graphic user interface; Communication Layer, for the data communication between described graphic user interface and service layer; Service layer, for by described graphic user interface loading service, receive service request; Described service layer comprises service processing module, and service processing module receives corresponding service request.
Preferably, described service processing module comprises following at least one: dull and stereotyped service processing module, frame service processing module, quality control service processing module, system configuration service processing module.Described service layer also comprises functional module, the total functional service request of corresponding at least two service processing module of each described functional module; When receiving service request by described service processing module, loading corresponding functional module and receiving service request.Described functional module is plug-in type software module.
Compared with prior art, the advantage of technical solution of the present invention is:
Reusability is strong, and service software modules can directly use the inherent characteristic of application software module or function; Reliability is strong, and application software module and service software modules be completely independent physically, do not interfere with each other, and no matter is application software or service software, all can not has influence on running software each other when any one breaks down.Service software modules the is multiplexing portion of program code of application software module, has saved physical memory.
Further, clear layer, is divided into 3 layers by service software modules, and every one deck only needs the work paying close attention to self; And without any association between each functional module of the service layer of service software modules, during user operation, only have a service processing module to be loaded simultaneously.
Further, can concurrent development, utilize the independence software architecture of service software modules, multiple developer can carry out functional development simultaneously, improve development efficiency; Scalability is strong, can modify or adding according to the needs of product, even redefining, can not have influence on the function of application software module carrying out service software modules.
Accompanying drawing explanation
Fig. 1 a, 1b are respectively the integrated form medical image system of prior art and the structural representation of free-standing medical image system;
Fig. 2 is the structural representation of medical image system of the present invention;
Fig. 3 is the flow chart of service request processing method of the present invention;
Fig. 4 is the sequential chart of IMAQ service request of the present invention process;
Fig. 5 is the three-decker schematic diagram of service software modules of the present invention.
Embodiment
For enabling above-mentioned purpose of the present invention, feature and advantage more become apparent, and are described in detail the specific embodiment of the present invention below in conjunction with accompanying drawing.Set forth detail in the following description so that fully understand the present invention.But the present invention can be different from alternate manner described here to implement with multiple, those skilled in the art can when without prejudice to doing similar popularization when intension of the present invention.Therefore the present invention is not by the restriction of following public embodiment.
Fig. 2 is the structural representation of medical image system of the present invention, see Fig. 2.Medical image system 100 comprises application software module 101, the service software modules 102 of software module, and multiple service execution unit: system control unit 103, image acquisition units 104, data processing unit 105 etc.
Application software module 101 and service software modules 102 are freestanding software module, and between it, communication modes is Inter-Process Communication.Application software module 101 is applied to normal mode of operation, and service software modules 102 is applied to services pattern.
Service execution unit only lists system control unit 103, image acquisition units 104 and data processing unit 105 here as signal, also there are other multiple service execution unit in reality.Service execution unit carries out the concrete unit implemented to service request, and service execution unit can be realized by hardware cell or software unit.Such as system control unit 103 is generally software simulating, for the Systematical control of medical image system, such as, sends the dependent instruction of plant equipment horizontal revolving motion, the sequencing control etc. of electronic device, but can be realized by hardware sometimes.
Image acquisition units 104 normally software simulating, for the collection of medical image, carries out logic control to each hardware cell relating to IMAQ, obtains view data.The hardware cell of image acquisition units 104 logic control has a variety of, and such as, in x-ray imaging product, hardware cell can comprise high voltage unit, tube unit, collimator unit, detector cells etc.Wherein high voltage unit is used for providing high pressure to bulb, and tube unit is for generation of X ray, and collimator unit is used for carrying out collimation adjustment to X ray, and detector cells for receiving the X ray through patient, and passes through conversion to form view data.
Data processing unit 105 is usually by software simulating, for carrying out data processing to the view data collected, it can be such as the preliminary treatment to view data, namely by the view data collected through the adjustment of window width and window level, preliminary denoising, eliminate artifact to form the image that can supply medical observation, or further data processing is carried out to view data, such as, to the data processing method such as enhancing display, special image rendering mode, special display effect of the statistical analysis of the correlation values of area-of-interest in image, the removal of special artifact, medical tissue.
Fig. 3 is the flow chart of medical image system service request processing method of the present invention, see Fig. 3.In the inventive solutions, be different from the free-standing framework form of prior art, the service software modules 102 in technical solution of the present invention also sends concrete configuration parameter related data not directly to each hardware module.Following specific implementation process is only illustrated with x-ray imaging system, and technical scheme of the present invention by the execution mode of x-ray imaging system, can be applied to other medical image systems by those skilled in the art.
In technical solution of the present invention, the flow process of service request processing method comprises:
S201, service software modules receives service request, and is transmitted to application software module after described service request being resolved.
Composition graphs 3, Fig. 4 are described, and Fig. 4 is the sequential chart carrying out the process of IMAQ respective service request.For x-ray imaging system, service request can comprise multiple, such as: dull and stereotyped service, frame service, quality control service, system configuration service.Wherein, dull and stereotyped service, frame service and quality control service all can relate to IMAQ.Such as in quality control service, by gathering one or more image under service software pattern, and data analysis is carried out to the image collected, to verify whether the image collected reaches the relevant criterion of picture quality, if do not reach standard, then need to keep in repair medical image system, calibrate.
When user have selected quality control service at graphical user interface (being realized by service software modules), and specifically need to carry out IMAQ in quality control service.Service software modules is based on the service request selected, and here specifically for IMAQ, its service request is the selection of scan protocols.Such as corresponding x-ray imaging system, scan protocols can be bit scan agreement, Chest image scan protocols, chest left anterior oblique position scan protocols, hand anteroposterior position scan protocols, belly anteroposterior position scan protocols, belly side bit scan agreement, ankle-joint anteroposterior position scan protocols, ankle-joint side bit scan agreement etc. behind front.
After service software modules, service request is resolved, if service request is for have selected a scan protocols, it a series of continuous action be can be resolved to according to workflow, such as, the transmission of scan protocols, data, state feedback, reception view data etc. determined.After service request is parsed, be transmitted to application software module.
In step S202, the service request after described parsing is converted to parameter configuration by application software module, and described parameter configuration is sent to service execution unit.
Application software module is according to service request the selection of scan protocols (now specifically), be parameter configuration by the protocol conversion of selection, in x-ray imaging system, scan protocols contains field range (FOV), bulb high pressure numerical value, the focal length of scanning area, if relate to collection multi-layer image, then also need the number etc. of the thickness of selection scanning, interlamellar spacing, lamella.What such as select is bit scan agreement behind front, then according to this scan protocols, for it configures corresponding parameter: FOV is 40cm*40cm, high pressure generator magnitude of voltage 120KV, bulb is 140cm etc. to detector SID (SourcetoImagereceptorDistance) distance.
Afterwards, above-mentioned parameter configuration can be sent to system control unit 103, after system control unit 103 receives parameter configuration, the control signal to other unit of other system can be converted into further, state feedback be carried out to service software modules simultaneously.State feedback is such as: high pressure is ready can carry out exposing, dull and stereotyped ready.
According to the control signal that system control unit 103 sends, have sent a request of windowing such as to image acquisition units 104, image acquisition units 104 control hardware unit bulb, completes exposing operation according to the request of windowing, and controls the collection that detector completes view data within the time for exposure simultaneously.After collection terminates, system control unit 103 sends to service software modules 102 state feedback that IMAQ terminates.
Then, the view data collected is sent to service software modules 102 by image acquisition units 104.
After service software modules 102 receives view data, can select view data to be sent to data processing unit 105, requested image data processing.After image real time transfer completes, data processing unit 105 by result feedback to service software modules 102.
Finally, the graphic user interface of service software modules 102 can see medical image, for carrying out the analysis of picture quality.More than complete once in the service request procedure that quality control service hypograph gathers.
The service request processing method reusability of medical image system of the present invention is strong, and service software modules can directly use the inherent characteristic of application software module or function.Service software modules is for the service request received, only accepted and be transmitted to application software module, parameter configuration is not carried out in service software modules, and by application software module, service request is converted to parameter configuration, send to hardware device afterwards, the multiplexing related program code of application software module, has saved physical memory.
In a kind of execution mode of technical solution of the present invention, service software modules 102 is the software architecture of three layers, and as shown in Figure 5, it is divided into presentation layer 301, Communication Layer 302 and service layer 303.
Presentation layer 301 comprises and is configured for carrying out mutual graphic user interface with user, and user can carry out the associative operation of service request by graphic user interface.Also can show at graphic user interface according to the data processed result that service request obtains.
Communication Layer 302 is the medium of communications between presentation layer 301 and service layer 303, for the data communication between it.Communication Layer 302 specifically can be realized by multiple Inter-Process Communication mode, such as: the mode of LPC (LocalProcedureCall), RPC (RemoteProcedureCall), shared drive and function call.
Service layer 303 is for passing through graphic user interface loading service, receiving service request, and the service that can load comprises dull and stereotyped service, frame service, system configuration service, quality control service.Service layer 303 comprises the service processing module (corresponding number in the figure 3032,3033,3034,3035) for each service request.Serviced component management 3031 is the modules managed each service processing module, such as, revise the title of respective service, increase, revise or delete corresponding service processing module.Preferably, plug-in type software module is adopted to realize the software architecture of service layer 303.When loading service, a kind of service processing module can be loaded in the software systems of service layer 303 according to concrete service request, carry out corresponding operating by user at graphic user interface.
In a kind of execution mode of technical solution of the present invention, according to the total functional service request of each service, set up independently functional module.Such as, in dull and stereotyped service request, frame service request and Quality Control service, all comprise the functional service request of Image chain function (IMAQ, image real time transfer), then an Image chain functional module 3036 can be set separately.Image chain functional module 3036 adopts plug-in type software module equally, is loaded in the software systems of service layer 303 when loading service.
Such as, when carrying out flat board service 3032, if relate to IMAQ, then load Image chain functional module 3036 to graphic user interface, carry out the selection of IMAQ related functionality service request for user, as the selection of scan protocols.Because functional module sets up according to the total function of multiple service, when carrying out Quality Control and serving 3035, relate to Image chain function, identical Image chain functional module 3036 can be loaded, carry out the selection of scan protocols for user.Preferably, each service processing module in service layer, functional module adopt Inter-Process Communication mode, such as LPC (LocalProcedureCall) mechanics of communication.
In technical solution of the present invention, service software modules is divided into the structure of three layers, every one deck only needs the work paying close attention to self, and between each functional module of service layer of service software modules, not association, only has a module to be loaded simultaneously during user operation.The general utility functions of each service is established as independent functional module by service layer, carries out the multiplexing of functional module when carrying out functional service request.
For the functional module that service processing module during loading service is corresponding, such as dull and stereotyped service 3032 can corresponding Image chain functional module.Multiple function sub-modules can also be comprised, such as: IMAQ, dull and stereotyped calibration, image uniformity detection, DAP (DoseAreaProduct) calibration etc. under this functional module.
Above content by means of only to the function of module each in software architecture and between information send and be described, but to those skilled in the art, enough by the explanation in above-mentioned embodiment, concrete software code programming, functional realiey are carried out to each software module, technique scheme is realized to reach, solve the technology of the present invention object, reach technique effect described in the invention.
Although the present invention with preferred embodiment openly as above; but it is not for limiting the present invention; any those skilled in the art without departing from the spirit and scope of the present invention; the Method and Technology content of above-mentioned announcement can be utilized to make possible variation and amendment to technical solution of the present invention; therefore; every content not departing from technical solution of the present invention; the any simple modification done above embodiment according to technical spirit of the present invention, equivalent variations and modification, all belong to the protection range of technical solution of the present invention.
Claims (10)
1. a service request processing method for medical image system, is characterized in that, comprising:
Service software modules receives service request, and is transmitted to application software module after described service request being resolved; Adopt Inter-Process Communication mode between described application software module and described service software modules, described application software module is applied to normal mode of operation, and described service software modules is applied to services pattern;
Service request after described parsing is converted to parameter configuration by application software module, and described parameter configuration is sent to service execution unit.
2. service request processing method according to claim 1, is characterized in that, described service software modules receives service request and comprises: service software modules receives service request by the service processing module loading on graphic user interface.
3. service request processing method according to claim 2, it is characterized in that, service request corresponding to described service processing module comprises following at least one: dull and stereotyped service request, frame service request, quality control service request or system configuration service request.
4. service request processing method according to claim 2, it is characterized in that, described service software modules receives service request by the service processing module loading on graphic user interface and comprises: when receiving service request by service processing module, the functional module reception service request that loading service processing module is corresponding; The total functional service request of corresponding at least two service processing module of described functional module.
5. service request processing method according to claim 4, is characterized in that, service request corresponding to described functional module is the request of Image chain function.
6. service request processing method according to claim 1, is characterized in that, adopts Inter-Process Communication mode between the inner each submodule of described service software modules.
7. a medical image system, comprises application software module, service software modules, and described application software module is applied to normal mode of operation, and described service software modules is applied to services pattern, it is characterized in that:
Described application software module and described service software modules are the framework of configuration independent of one another;
Inter-Process Communication mode is adopted between described application software module and described service software modules;
Described service software modules for receiving service request, and is transmitted to application software module after described service request being resolved;
Described application software module is used for the service request after described parsing to be converted to parameter configuration, and described parameter configuration is sent to service execution unit.
8. medical image system according to claim 7, is characterized in that, described service software modules comprises:
Presentation layer, for forming graphic user interface;
Communication Layer, for the data communication between described graphic user interface and service layer;
Service layer, for by described graphic user interface loading service, receive service request; Described service layer comprises service processing module, and service processing module receives corresponding service request.
9. medical image system according to claim 8, it is characterized in that, described service processing module comprises following at least one: dull and stereotyped service processing module, frame service processing module, quality control service processing module, system configuration service processing module.
10. medical image system according to claim 9, is characterized in that, described service layer also comprises functional module; Described functional module is plug-in type software module; The total functional service request of corresponding at least two service processing module of each described functional module; When receiving service request by described service processing module, loading corresponding functional module and receiving service request.
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