CN108538288A - In-vitro diagnosis apparatus control method, device, computer equipment and storage medium - Google Patents
In-vitro diagnosis apparatus control method, device, computer equipment and storage medium Download PDFInfo
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- 238000000338 in vitro Methods 0.000 title claims abstract description 176
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- G—PHYSICS
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- G10L—SPEECH ANALYSIS TECHNIQUES OR SPEECH SYNTHESIS; SPEECH RECOGNITION; SPEECH OR VOICE PROCESSING TECHNIQUES; SPEECH OR AUDIO CODING OR DECODING
- G10L15/00—Speech recognition
- G10L15/22—Procedures used during a speech recognition process, e.g. man-machine dialogue
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- G—PHYSICS
- G10—MUSICAL INSTRUMENTS; ACOUSTICS
- G10L—SPEECH ANALYSIS TECHNIQUES OR SPEECH SYNTHESIS; SPEECH RECOGNITION; SPEECH OR VOICE PROCESSING TECHNIQUES; SPEECH OR AUDIO CODING OR DECODING
- G10L15/00—Speech recognition
- G10L15/28—Constructional details of speech recognition systems
- G10L15/30—Distributed recognition, e.g. in client-server systems, for mobile phones or network applications
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- G—PHYSICS
- G10—MUSICAL INSTRUMENTS; ACOUSTICS
- G10L—SPEECH ANALYSIS TECHNIQUES OR SPEECH SYNTHESIS; SPEECH RECOGNITION; SPEECH OR VOICE PROCESSING TECHNIQUES; SPEECH OR AUDIO CODING OR DECODING
- G10L15/00—Speech recognition
- G10L15/22—Procedures used during a speech recognition process, e.g. man-machine dialogue
- G10L2015/223—Execution procedure of a spoken command
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- G—PHYSICS
- G10—MUSICAL INSTRUMENTS; ACOUSTICS
- G10L—SPEECH ANALYSIS TECHNIQUES OR SPEECH SYNTHESIS; SPEECH RECOGNITION; SPEECH OR VOICE PROCESSING TECHNIQUES; SPEECH OR AUDIO CODING OR DECODING
- G10L15/00—Speech recognition
- G10L15/22—Procedures used during a speech recognition process, e.g. man-machine dialogue
- G10L2015/225—Feedback of the input speech
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Abstract
This application involves a kind of in-vitro diagnosis apparatus control method, device, computer equipment and storage mediums.Method includes:Obtain concurrent sending voice control signal;Receive the semantic analysis result fed back according to audio controls;The state-detection of in-vitro diagnosis equipment is obtained as a result, state-detection result includes the test condition state-detection result of in-vitro diagnosis equipment;According to semantic analysis result and state-detection as a result, generating control instruction, and control instruction is sent to the instruction execution unit of in-vitro diagnosis equipment.Input can be kept more fast and effective by voice control using this method, the outer operating status of diagnostic device of combination and the testing result of cond, to realize the control to in-vitro diagnosis equipment by way of generating control instruction, during entire control, user sends out phonetic control command and bonding state testing result, the time required to saving control, and the generation of invalid control instruction is effectively reduced, to realize the high efficiency of in-vitro diagnosis equipment control.
Description
Technical field
This application involves in-vitro diagnosis equipment control technology fields, more particularly to a kind of in-vitro diagnosis equipment controlling party
Method, device, computer equipment and storage medium.
Background technology
With the development of biotechnology and the progress of automatic technology, there are more and more in-vitro diagnosis equipment.It passes
The in-vitro diagnosis of system generally requires user before test starting, in test process and after test and in repair and maintenance process
(predominantly medical worker, such as the check analysis personnel of hospital laboratory) is inputted by the methods of touch screen, mouse, hard button to be controlled
System instruction, realizes the operation and control to in-vitro diagnosis equipment.For example before starting new test, in-vitro diagnosis equipment generally requires
Test event, sample, reagent, consumptive material, equipment state of setting etc. could start diagnostic test in the case of meeting test condition,
User is required for inspection and exact p-value condition every time, and is tested by inputting in-vitro diagnosis equipment control instruction.It is this
Control method needs user's guard to be operated beside detection in-vitro diagnosis equipment, and control method is single, and user also is difficult to
Other operations are carried out while diagnostic device outside control volume, the time needed is long, not to in-vitro diagnosis equipment control efficiency
It is high.
Invention content
Based on this, it is necessary to which for the not high problem of control efficiency, providing a kind of can improve the external of control efficiency and examine
Disconnected apparatus control method, device, computer equipment and storage medium.
A kind of in-vitro diagnosis apparatus control method, including:
Obtain concurrent sending voice control signal;
Receive the semantic analysis result fed back according to the audio controls;
The state-detection of the in-vitro diagnosis equipment is obtained as a result, the state-detection result includes the in-vitro diagnosis sets
Standby test condition state-detection result;
According to the semantic analysis result and the state-detection as a result, generating control instruction, and sends the control and refer to
It enables to the instruction execution unit of the in-vitro diagnosis equipment.
The concurrent sending voice control signal of the acquisition includes in one of the embodiments,:
Audio controls are obtained, and the audio controls are sent to the speech processes with semantic analysis function
Platform.
The voice processing platforms include the intelligent sound service platform based on interconnection networking in one of the embodiments,
And/or the local algorithm platform that can voluntarily dispose that third party provides.
It is described in one of the embodiments, to be controlled according to the semantic analysis result and the state-detection as a result, generating
System instruction, and the instruction execution unit for sending the control instruction to the in-vitro diagnosis equipment includes:
It obtains and the matched conditions dictate of the semantic analysis result;
When the state-detection result meets the conditions dictate, control corresponding with the semantic analysis result is generated
Instruction, and the control instruction is sent to described instruction execution unit;
It is described according to the semantic analysis result and the state-detection as a result, generate control instruction, and send the control
After system instruction to described instruction execution unit, further include:
When the state-detection result is unsatisfactory for the conditions dictate, the state-detection knot is fed back by voice prompt
Fruit.
The acquisition is also wrapped with before the matched conditions dictate of the semantic analysis result in one of the embodiments,
It includes:
The semantic analysis result is matched with in-vitro diagnosis equipment state;
When there is no in-vitro diagnosis equipment state corresponding with the semantic analysis result, pass through voice feedback voice control
Signal error information processed;
When there is in-vitro diagnosis equipment state corresponding with the semantic analysis result, determine and the semantic analysis knot
The matched in-vitro diagnosis equipment state requirement of fruit.
It is described when the operation testing result is unsatisfactory for the conditions dictate in one of the embodiments, pass through language
Testing result is fed back in sound prompt:
When detecting that the in-vitro diagnosis equipment there are when failure, passes through voice feedback failure cause;
When being matched to preset trouble shooting method corresponding with the failure cause, the trouble shooting method is fed back;
When detecting that test condition does not meet preset requirement, is operated by voice feedback and correct prompt.
It is described in one of the embodiments, to be controlled according to the semantic analysis result and the state-detection as a result, generating
System instruction, and after sending the control instruction to the instruction execution unit of the in-vitro diagnosis equipment, further include:
The execution state of the control instruction is detected, and the execution state is fed back by voice prompt;
Obtain implementing result, when detecting that the implementing result meets preset condition, fed back by voice prompt described in
Implementing result.
A kind of in-vitro diagnosis plant control unit, including:
Voice obtains and sending module, and signal is controlled for obtaining concurrent sending voice;
Semantic analysis result receiving module, for receiving the semantic analysis result fed back according to the audio controls;
Condition Detection module, the state-detection for obtaining the in-vitro diagnosis equipment is as a result, the state-detection
As a result include the test condition state-detection result of the in-vitro diagnosis equipment;
Control module is used for according to the semantic analysis result and the state-detection as a result, generating control instruction, concurrently
Send the control instruction to the instruction execution unit of the in-vitro diagnosis equipment.
A kind of computer equipment, including memory, processor and storage can be run on a memory and on a processor
Computer program, the processor realize following steps when executing the computer program:
Obtain concurrent sending voice control signal;
Receive the semantic analysis result fed back according to the audio controls;
The state-detection of the in-vitro diagnosis equipment is obtained as a result, the state-detection result includes the in-vitro diagnosis sets
Standby test condition state-detection result;
According to the semantic analysis result and the state-detection as a result, generating control instruction, and sends the control and refer to
It enables to the in-vitro diagnosis equipment.
A kind of computer readable storage medium, is stored thereon with computer program, and the computer program is held by processor
Following steps are realized when row:
Obtain concurrent sending voice control signal;
Receive the semantic analysis result fed back according to the audio controls;
The state-detection of the in-vitro diagnosis equipment is obtained as a result, the state-detection result includes the in-vitro diagnosis sets
Standby test condition state-detection result;
According to the semantic analysis result and the state-detection as a result, generating control instruction, and sends the control and refer to
It enables to the in-vitro diagnosis equipment.
Above-mentioned in-vitro diagnosis apparatus control method, device, computer equipment and storage medium, by audio controls with
And semantic analysis result so that same control effect is reached by voice control and traditional control instruction that is manually entered, but
Being voice control, input is more fast and effective compared to manually controlling, and passes through the shapes such as test condition to the in-vitro diagnosis equipment
State is detected, it is ensured that in-vitro diagnosis equipment can normally start to test, the operating status and condition of the outer diagnostic device of combination
The testing result of state entirely controlled to be realized to the control of in-vitro diagnosis equipment by way of generating control instruction
Cheng Zhong, user send out phonetic control command and bonding state testing result, the time required to saving control, and effectively reduce in vain
The generation of control instruction, to realize the high efficiency of in-vitro diagnosis equipment control.
Description of the drawings
Fig. 1 is the applied environment figure of in-vitro diagnosis apparatus control method in the application one embodiment;
Fig. 2 is the flow diagram of in-vitro diagnosis apparatus control method in the application one embodiment;
Fig. 3 is the flow diagram of in-vitro diagnosis apparatus control method in the application another embodiment;
Fig. 4 is the flow diagram of in-vitro diagnosis apparatus control method in the application another embodiment;
Fig. 5 is the flow diagram of in-vitro diagnosis apparatus control method in the application another embodiment;
Fig. 6 is the control process schematic of in-vitro diagnosis apparatus control method in the application another application example;
Fig. 7 is the structure diagram of in-vitro diagnosis plant control unit in the application one embodiment;
Fig. 8 is the structure diagram of in-vitro diagnosis plant control unit in the application one embodiment;
Fig. 9 is the internal structure chart of the application one embodiment Computer equipment.
Specific implementation mode
It is with reference to the accompanying drawings and embodiments, right in order to make the object, technical solution and advantage of the application be more clearly understood
The application is further elaborated.It should be appreciated that specific embodiment described herein is only used to explain the application, not
For limiting the application.
In-vitro diagnosis apparatus control method provided by the present application, can be applied in application environment as shown in Figure 1.Its
In, terminal 102 is communicated with server 104 by network by network, it is ensured that the realization of entire speech control process.Its
In, terminal 102 can be, but not limited to the end for being integrated with the communication module of in-vitro diagnosis equipment, being set to in-vitro diagnosis equipment
End, personal computer, laptop, smart mobile phone, tablet computer and portable wearable device, server 104 can be used
The server cluster of independent server either multiple servers composition is realized.
In one embodiment, it as shown in Fig. 2, providing a kind of in-vitro diagnosis apparatus control method, applies in this way
It illustrates, includes the following steps for terminal in Fig. 1:
Step S100 obtains concurrent sending voice control signal.
Audio controls refer to user in a certain range, it is being sent out by speech form and can be identified to external
The control instruction of diagnostic device.Specifically, phonetic control command can be test before preparation instruction, such as sample application and load,
Load reagents, consumptive material addition etc.;Start and stop instruction is tested, such as starts test, stop test, pause test and restore test;
Test process control instruction, such as be inserted into emergency treatment test, resurvey automatically;And the instruction of in-vitro diagnosis device status inquiries, such as Shen
Please information inspection, test result is searched, the calibration results check.By voice-controlled operations in-vitro diagnosis equipment, not only liberate
User both hands, can other parallel operations while diagnostic device outside control volume, such as sample prepares, consumptive material loads, also
In-vitro diagnosis equipment control physical distance range is expanded, making the user do not need can be by voice control beside diagnostic device in vitro
The outer diagnostic device of system instruction operating body, can generally reach 4~5 meters or so, support user external in distant distance controlling
Diagnostic device, it is simple, effective, easy-to-use, and the control means of in-vitro diagnosis equipment are enriched, equipment control efficiency is improved,
Man-machine interaction experience is improved, further, it is also possible to suitably reduce the warning light on the outer diagnostic device of conventional bulk, buzzer, hard
The input and output such as button interact peripheral equipment, have the function that simplified equipment peripheral components, reduce equipment volume, is cost-effective.
Step S200 receives the semantic analysis result fed back according to audio controls.
Semantic analysis result refers to after carrying out analyzing processing to audio controls, and what is obtained is easy to identified analysis knot
Fruit.Due to the voice that the user that the acquisition of the audio controls of transmission is acquisition sends out, generally it is not easy to be recognized directly operation,
So in-vitro diagnosis equipment, the semanteme handled are further processed and fed back to by the phonetic control command to acquisition
The form that analysis result can be identified by the in-vitro diagnosis such as binary code, word, voice equipment is fed back, and specifically may be used
Can also be by preliminary treatment, easily to be computer language such as binary code that in-vitro diagnosis equipment can directly identify
In forms such as voice, the words for being converted to computer language.
Step S300 obtains the state-detection of in-vitro diagnosis equipment as a result, state-detection result includes in-vitro diagnosis equipment
Test condition state-detection result.
The state of in-vitro diagnosis equipment may include hardware state, application state, machine performance, liquid circuit module state, light
The equipment inherent condition states and consumptive material state, sample state etc. such as module status, temperature control modules state are learned according to test
Number and project and the change condition state changed.Test condition state refers to in-vitro diagnosis equipment while meeting good intrinsic
Cond and the change condition state for reaching sets requirement, so as to ensure to test the conditions dictate smoothly started.Specifically
Ground, hardware state refer to whether the condition of hardware of in-vitro diagnosis equipment is supported to work normally, and application state may include examining in vitro
Whether normal operation, machine performance refers to whether mechanical part can be normal for communication process, program operation process of disconnected equipment etc.
Operation, state-detection, which further includes power supply, circuit, temperature control modules, optical module, liquid circuit module of in-vitro diagnosis equipment etc., is
No normal work, test condition can specifically include in-vitro diagnosis equipment before starting test, need premise state to be achieved, example
Such as, before test starting, it is necessary to first load project reagent and test sample, whether the intrinsic cond of detection device, which reaches, is wanted
It asks, whether the consumptive material state that detects needed for test meets the requirements and whether project reagent and test sample fill according to preset requirement
It carries, after each state of in-vitro diagnosis equipment reaches preset requirement, control device starts, and starts to test.
Step S400 according to semantic analysis result and state-detection as a result, generating control instruction, and sends control instruction extremely
The instruction execution unit of in-vitro diagnosis equipment.
The action that the outer diagnostic device of semantic analysis result corresponding body will carry out, and the decision of state-detection result will carry out
Action whether can be smoothed out, in conjunction with semantic analysis result and state-detection as a result, generate control instruction, send control refers to
It enables to the instruction execution unit of in-vitro diagnosis equipment, instruction execution unit can be made to require to be smoothed out action according to control.
Above-mentioned in-vitro diagnosis apparatus control method, passes through audio controls and semantic analysis result so that pass through language
Sound control system reaches same control effect with traditional control instruction that is manually entered, but voice control is defeated compared to manually controlling
Enter more fast and effective, is detected by states such as test conditions to in-vitro diagnosis equipment, it is ensured that in-vitro diagnosis equipment energy
It is enough normally to start to test, the outer operating status of diagnostic device of combination and the testing result of cond, to be controlled by generating
The mode of system instruction realizes the control to in-vitro diagnosis equipment, and during entire control, user sends out phonetic control command and ties
Conjunction state testing result the time required to saving control, and effectively reduces the generation of invalid control instruction, external to realize
The high efficiency of diagnostic device control.
As shown in figure 3, in one embodiment, step S100 includes:
Step S120 obtains audio controls, and audio controls is sent to the language with semantic analysis function
Sound processing platform.
Semantic analysis function refers to that can the audio controls of acquisition be carried out analyzing processing, and what is obtained apparent is easy to
The function of the signal of identification.
Voice processing platforms include third party's voice processing platforms, third party's speech processes in one of the embodiments,
Platform includes that the local algorithm that can voluntarily dispose of intelligent sound service platform and/or third party's offer based on interconnection networking is flat
Platform.
Third party refers to independently of the object except terminal and in-vitro diagnosis equipment, and third party's voice processing platforms can be
The local algorithm platform that can voluntarily dispose that intelligent sound service platform or third party based on interconnection networking provide, third party
Voice service platform often uses AI (Artificial Intelligence, artificial intelligence) voice technology etc. to provide more
The speech-recognition services of accurate quick carry out intellectual analysis processing using speech recognition technology to the collected voice messaging of institute.
Artificial intelligence is research, develops intelligent theory, the skill of method, technology and application system for simulating, extending and extending people
Subject can realize the various theoretical and methods for carrying out efficient communication between people and computer with natural language, due to passing through use
The phonetic control command that the voice at family obtains is there may be nonstandard input, the problems such as syntax obscures, by using carrying
Third party's voice processing platforms of artificial intelligence process function, from the angle of computer language, the nature with potential ambiguity
Language in-put is converted into certain computer statement unambiguously.Third party's voice service platform can be specifically " Baidu's voice skill
Art platform ", " HKUST News voice open platform " etc..The phonetic order of user is got, it can be by wired or wireless
Mode is transferred to third party's voice service platform.Wired either wireless transmission mode can be specifically by cable it is direct-connected or
The wireless communication techniques such as WIFI (WIreless-FIdelit, Wireless Fidelity), bluetooth, 3G, 4G, 5G connect third party's speech processes
Platform after the completion of intelligent semantic analysis, analysis result is passed through wired or be wirelessly transmitted to in-vitro diagnosis equipment.
Specifically, the intelligent sound service platform based on interconnection networking can be in-vitro diagnosis equipment in the state of networking
Real-time semantic analysis result is provided, voice signal and is matched with the semantic results of setting with traditional acquired by equipment itself
Method compare, based on interconnection networking intelligent sound service platform have the characteristics that handling result more accurately it is more efficient.It is logical
The local algorithm platform that can voluntarily dispose for crossing third party's offer, is that third-party voice processing technology is deployed to this Horizon
Platform makes in the state of not networking, and obtains same accurate semantic analysis result.It is appreciated that in other embodiments, may be used also
It is flat with the local algorithm that can voluntarily dispose for including simultaneously intelligent sound service platform and third party's offer based on interconnection networking
Platform carries out speech processes in normal cluster by the intelligent sound service platform based on interconnection networking, when network disconnects,
The local algorithm platform that can voluntarily dispose for automatically switching to third party's offer, avoids because network failure causes equipment cannot be just
The case where being often used occurs.
In one embodiment, step S400 includes:
Step S420 is obtained and the matched conditions dictate of semantic analysis result.
User can be directed to different in-vitro diagnosis equipment states, send out different phonetic control commands, such as examine in vitro
Disconnected equipment is in before test starting, and test carries out fair state, and different phonetic control commands only works as in-vitro diagnosis equipment
It can just be performed in the state of corresponding, such as only in the state that test has begun, stop with pause instruction
It is effective instruction, therefore needs, according to semantic analysis result, to obtain corresponding conditions dictate.
Step S440 generates control corresponding with semantic analysis result and refers to when state-detection result meets conditions dictate
It enables, and sends control instruction to instruction execution unit.
When state-detection result meets conditions dictate, the corresponding phonetic control command of semantic analysis result can be operated
It executes, by generating corresponding with semantic analysis result control instruction, control instruction here refers to that in-vitro diagnosis equipment can be with
Control instruction is sent to in-vitro diagnosis equipment by the instruction of Direct Recognition and execution, to complete the control to in-vitro diagnosis equipment
System.
After step S400, further include:
Step S460 passes through voice prompt feedback states testing result when state-detection result is unsatisfactory for conditions dictate.
When state-detection result for example hardware state, application state, machine performance, liquid circuit module state, optical module state,
Consumptive material state, sample state, temperature control modules state etc. any one when being unsatisfactory for preset requirement, in-vitro diagnosis equipment is not
Can normal work, to meet the needs of user understands in-vitro diagnosis equipment state in time, using passing through voice prompt feedback states
Testing result, for example, the voice of current in-vitro diagnosis equipment state can be played, such as " in-vitro diagnosis equipment operation event
Barrier ", naturally it is also possible to pass through the other manners feedback states testing results such as screen display, word prompting, indicator light.
As shown in figure 4, in one embodiment, before step S420, further including:
Step S412 matches semantic analysis result with in-vitro diagnosis equipment state.
Step S414 passes through voice feedback when there is no in-vitro diagnosis equipment state corresponding with semantic analysis result
Audio controls error message.
When there is no in-vitro diagnosis equipment state corresponding with semantic analysis result, i.e., ought detecting the semantic analysis of feedback
When being as a result not belonging to the corresponding control instruction type of in-vitro diagnosis equipment, it is judged as that audio controls are error message at this time,
And by voice feedback to user, so that user adjusts in time.
Step S416, when there is in-vitro diagnosis equipment state corresponding with semantic analysis result, determining and semantic analysis
As a result matched in-vitro diagnosis equipment state requirement.
As shown in figure 5, in one embodiment, step S460 includes:
Step S462, when detecting that in-vitro diagnosis equipment there are when failure, passes through voice feedback failure cause;
Failure refers to hardware module, software module, mechanical module, liquid circuit module, optical module, the temperature of vitro detection equipment
There is the case where operation irregularity in any one inherent condition state such as degree control module.Failure can specifically include in-vitro diagnosis and set
The failure of standby mechanical part, such as sampling needle appearance collision failure, fluid path device fault, optical-component failure, power failure,
Circuit connection failure, the network connectivity fai_lures such as data packetloss, communication failure, program operation troubles etc., when detecting corresponding part
Failure when, by voice feedback failure cause, user do not have to check interface display, in real time actively by way of voice prompt
Prompt what failure is current in-vitro diagnosis equipment occur.Specifically, external when detecting by taking equipment is there are hardware fault as an example
For diagnostic device there are when hardware fault, which kind of hardware fault further detection belongs to, and obtain can clearly judge it is most accurate
Failure cause, by acquisition most accurately failure cause feeds back to user by voice prompt, it is corresponding to take in time
Maintenance measure.
Step S464 feeds back trouble shooting method when being matched to preset trouble shooting method corresponding with failure cause.
For in-vitro diagnosis equipment failure cause that may be present, it is preset with the solution of all kinds of failures, when detecting
When the specific failure cause of in-vitro diagnosis equipment, from preset piecemeal solution method, solution corresponding with failure cause is matched
Method, and feed back solution.Specifically, it can also pass through the feedbacks solution such as display screen by voice feedback solution
Certainly method, or voice and display screen is combined to feed back solution.
Step S466 is operated by voice feedback when detecting that test condition does not meet preset requirement and is corrected prompt.
Test condition does not meet preset requirement, refers to that change condition state is unsatisfactory for requiring, can be by adjusting being repaiied
Positive, it specifically includes consumptive material state, sample state etc. and is not up to according to the change condition state that testing time changes with project
Required preset condition is tested, illustrates to need to be adjusted test condition, is operated by voice feedback and corrects prompt.Example
Such as, according to testing result, the reason of outer diagnostic device of in-vitro diagnosis device plays voice prompt user's body cannot be tested and right
The amendment operation answered, such as:" there is no corresponding reagent, cannot start to test now, reagent please be replenished in time ".
In one embodiment, after step S400, further include:
Step S500 detects the execution state of control instruction, and feeds back execution state by voice prompt.
When in-vitro diagnosis equipment executes control instruction, illustrate that the phonetic control command of user is effective instruction, detection inspection
The execution state of control instruction is surveyed, and execution state is fed back by voice prompt so that user knows control result in time.
Step S600 obtains implementing result and is fed back by voice prompt when detecting that implementing result meets preset condition
Implementing result.
It when in-vitro diagnosis equipment execution control instruction and reaches a certain level, that is, when meeting preset condition, such as detects
Execution state is completed for item detection, can obtain corresponding implementing result, and implementing result is fed back to user, specifically,
Implementing result may include whether to complete, and can also include corresponding detection data after executing, can also be carried out at the same time prompt, example
Such as, some pattern detection, which has been chemically examined, finishes, and the test of in-vitro diagnosis device prompts is completed and testing result.
In one embodiment, phonetic control command further includes the instruction of in-vitro diagnosis device status inquiries.
Traditional in-vitro diagnosis equipment needs to input by interface, then checks the interface feedback information at interface to obtain body
Outer diagnostic device state.It is inquired by phonetic control command, user is made not have to check interface display it is known that in-vitro diagnosis
Equipment current state, so that it may to carry out relevant operation according to voice prompt.For example, speech polling:It " may I ask with the presence or absence of HIV
The reagent of (Human Immunodeficiency Virus, human immunodeficiency virus) test event" voice feedback:“HIV
Reagent loads not yet!" speech polling:" it may I ask equipment and whether there is failure at present" voice feedback:" equipment has been in failure
State please contacts producer customer service personnel in time!" speech polling:" it may I ask the result of laboratory test of Zhang San" voice feedback:" the change of Zhang San
It tests and is not over, continuing with waiting!”.
As shown in fig. 6, in a specific application example, in-vitro diagnosis apparatus control method applies to in-vitro diagnosis and sets
It is standby.
When user is in voice signal identification range, the voice messaging of user is acquired, and nothing is passed through by communication module
The mode of line is transferred to third party's voice service platform, and third party's voice service platform is using speech recognition technology to being collected
Voice messaging carry out intellectual analysis processing, intelligent semantic analysis after the completion of, analysis result is wirelessly transmitted back to
In-vitro diagnosis equipment.For example user can initiate phonetic order:" starting to test ", when package state-detection result and semantic point
Analysis is as a result, when equipment can start test, and equipment automatically begins to carry out test sample flow, and equipment plays voice prompt use automatically
Family control comes into effect, such as:" having started to test ";When detecting since the problems such as equipment fault causes equipment that cannot complete to use
When the instruction at family, equipment plays the reason of voice prompt user equipment cannot be tested automatically, such as:" there is no corresponding reagent, now
It cannot start to test, reagent please be replenished in time ".User can also pass through other users input mode, including voice control, touch
The various ways such as screen and button realize equipment control.Moreover, user can be while defeated by voice when carrying out other work
Entering can the outer diagnostic device of operating body.For example, when traditional equipment needs manual maintenance equipment, operation of repeatedly stopping is needed,
Switching interface check interface feedback information confirm next step maintained equipment action, using the equipment of voice control manual
Can obtain the Real-time Feedback of plant maintenance state while maintained equipment, and can be with manual maintenance equipment when it is same by voice
It walks control device and executes other actions, enrich the means of equipment control, and user's synchronization process others is supported to work.Example
Such as, during manual maintenance blocks up needle detection, the real-time voice prompt of equipment is paid close attention to, and equipment is operated to match by phonetic order
Close manual maintenance equipment.Phonetic order:" starting needle injection " corresponding needle in order to control starts fluid injection, and cooperation user's manual maintenance is stifled
Needle detects;Phonetic order:" closing needle injection " corresponding needle in order to control stops fluid injection, and cooperation user's manual maintenance blocks up needle detection;
Voice Real-time Feedback:" needle injection has been turned on fluid injection ", user can observe whether current needle is dredged, and optimize operating process,
It improves work efficiency.
It should be understood that although each step in the flow chart of Fig. 2-5 is shown successively according to the instruction of arrow,
These steps are not that the inevitable sequence indicated according to arrow executes successively.Unless expressly stating otherwise herein, these steps
Execution there is no stringent sequences to limit, these steps can execute in other order.Moreover, at least one in Fig. 2-5
Part steps may include that either these sub-steps of multiple stages or stage are not necessarily in synchronization to multiple sub-steps
Completion is executed, but can be executed at different times, the execution sequence in these sub-steps or stage is also not necessarily successively
It carries out, but can either the sub-step of other steps or at least part in stage be in turn or alternately with other steps
It executes.
As shown in fig. 7, in one embodiment, a kind of in-vitro diagnosis plant control unit is provided, including:
Voice obtains and sending module 200, and signal is controlled for obtaining concurrent sending voice;
Semantic analysis result receiving module 400, for receiving the semantic analysis result fed back according to audio controls;
Condition Detection module 600, the state-detection for obtaining in-vitro diagnosis equipment is as a result, state-detection result packet
Include the test condition state-detection result of in-vitro diagnosis equipment;
Control module 800 is used for according to semantic analysis result and state-detection as a result, generating control instruction, and send control
The instruction execution unit of system instruction extremely.
Above-mentioned in-vitro diagnosis plant control unit, passes through audio controls and semantic analysis result so that pass through language
Sound control system reaches same control effect with traditional control instruction that is manually entered, but voice control is defeated compared to manually controlling
Enter more fast and effective, is detected by states such as test conditions to in-vitro diagnosis equipment, it is ensured that in-vitro diagnosis equipment energy
It is enough normally to start to test, the outer operating status of diagnostic device of combination and the testing result of cond, to be controlled by generating
The mode of system instruction realizes the control to in-vitro diagnosis equipment, and during entire control, user sends out phonetic control command and ties
Conjunction state testing result the time required to saving control, and effectively reduces the generation of invalid control instruction, external to realize
The high efficiency of diagnostic device control.
In one embodiment, voice, which is obtained, is additionally operable to obtain audio controls with sending module 200, and by voice control
Signal processed is sent to the voice processing platforms with semantic analysis function.
Voice processing platforms include third party's voice processing platforms, third party's speech processes in one of the embodiments,
Platform includes that the local algorithm that can voluntarily dispose of intelligent sound service platform and/or third party's offer based on interconnection networking is flat
Platform.
In one embodiment, control module 800 are additionally operable to acquisition and the matched conditions dictate of semantic analysis result, when
When state-detection result meets conditions dictate, control instruction corresponding with semantic analysis result is generated, and send control instruction extremely
Instruction execution unit.
As shown in figure 8, in one embodiment, in-vitro diagnosis plant control unit further includes feedback module 900, works as state
When testing result is unsatisfactory for conditions dictate, pass through voice prompt feedback states testing result.
In one embodiment, control module 800 are additionally operable to carry out semantic analysis result and in-vitro diagnosis equipment state
Matching;When there is no in-vitro diagnosis equipment state corresponding with semantic analysis result, pass through voice feedback audio controls
Error message;When there is in-vitro diagnosis equipment state corresponding with semantic analysis result, determination is matched with semantic analysis result
In-vitro diagnosis equipment state requirement.
In one embodiment, feedback module 900 is additionally operable to when detecting that in-vitro diagnosis equipment there are when failure, passes through language
Sound feeds back failure cause;It is additionally operable to when being matched to preset trouble shooting method corresponding with failure cause, feeds back trouble shooting
Method;When detecting that test condition does not meet preset requirement, is operated by voice feedback and correct prompt.
In one embodiment, feedback module 900 is additionally operable to the execution state of detection control instruction, and passes through voice prompt
Execution state is fed back, implementing result is obtained, when detecting that implementing result meets preset condition, is fed back and is executed by voice prompt
As a result.
Specific restriction about in-vitro diagnosis plant control unit may refer to control above for in-vitro diagnosis equipment
The restriction of method, details are not described herein.Modules in above-mentioned in-vitro diagnosis plant control unit can be fully or partially through
Software, hardware and combinations thereof are realized.Above-mentioned each module can be embedded in or in the form of hardware independently of the place in computer equipment
It manages in device, can also in a software form be stored in the memory in computer equipment, in order to which processor calls execution or more
The corresponding operation of modules.
In one embodiment, a kind of computer equipment is provided, which can be terminal, internal structure
Figure can be as shown in Figure 9.The computer equipment includes the processor connected by system bus, memory, network interface, display
Screen and input unit.Wherein, the processor of the computer equipment is for providing calculating and control ability.The computer equipment is deposited
Reservoir includes non-volatile memory medium, built-in storage.The non-volatile memory medium is stored with operating system and computer journey
Sequence.The built-in storage provides environment for the operation of operating system and computer program in non-volatile memory medium.The calculating
The network interface of machine equipment is used to communicate by network connection with external terminal.When the computer program is executed by processor with
Realize a kind of in-vitro diagnosis apparatus control method.The display screen of the computer equipment can be liquid crystal display or electric ink
The input unit of display screen, the computer equipment can be the touch layer covered on display screen, can also be outside computer equipment
Button, trace ball or the Trackpad being arranged on shell can also be external keyboard, Trackpad or mouse etc..
It will be understood by those skilled in the art that structure shown in Fig. 9, is only tied with the relevant part of application scheme
The block diagram of structure does not constitute the restriction for the computer equipment being applied thereon to application scheme, specific computer equipment
May include either combining certain components than more or fewer components as shown in the figure or being arranged with different components.
In one embodiment, a kind of computer equipment is provided, including memory, processor and storage are on a memory
And the computer program that can be run on a processor, processor realize following steps when executing computer program:
Obtain concurrent sending voice control signal;
Receive the semantic analysis result fed back according to audio controls;
The state-detection of in-vitro diagnosis equipment is obtained as a result, state-detection result includes the test condition of in-vitro diagnosis equipment
State-detection result;
According to semantic analysis result and state-detection as a result, generating control instruction, and control instruction is sent to in-vitro diagnosis
The instruction execution unit of equipment.
The above-mentioned computer equipment for realizing in-vitro diagnosis apparatus control method passes through audio controls and semanteme
Analysis result so that same control effect is reached by voice control and traditional control instruction that is manually entered, but voice
Control is more fast and effective compared to input is manually controlled, and is examined by states such as test conditions to in-vitro diagnosis equipment
It surveys, it is ensured that in-vitro diagnosis equipment can normally start to test, the outer operating status of diagnostic device of combination and the inspection of cond
It surveys as a result, to realize control to in-vitro diagnosis equipment by way of generating control instruction, during entirely controlling, user
Phonetic control command and bonding state testing result are sent out, the time required to saving control, and effectively reduces invalid control instruction
Generation, to realize in-vitro diagnosis equipment control high efficiency.
In one embodiment, following steps are also realized when processor executes computer program:
Audio controls are obtained, and audio controls are sent to the speech processes with semantic analysis function and are put down
Platform, voice processing platforms include third party's voice processing platforms, third party's voice processing platforms packet in one of the embodiments,
Include the local algorithm platform that can voluntarily dispose that intelligent sound service platform and/or third party based on interconnection networking provide.
In one embodiment, following steps are also realized when processor executes computer program:
It obtains and the matched conditions dictate of semantic analysis result;
When state-detection result meets conditions dictate, control instruction corresponding with semantic analysis result is generated, and send
Control instruction is to instruction execution unit.
When state-detection result is unsatisfactory for conditions dictate, pass through voice prompt feedback states testing result.
In one embodiment, following steps are also realized when processor executes computer program:
Semantic analysis result is matched with in-vitro diagnosis equipment state;
When there is no in-vitro diagnosis equipment state corresponding with semantic analysis result, believed by voice feedback voice control
Number error message;
When there is in-vitro diagnosis equipment state corresponding with semantic analysis result, determination is matched with semantic analysis result
The requirement of in-vitro diagnosis equipment state.
In one embodiment, following steps are also realized when processor executes computer program:
When detecting that in-vitro diagnosis equipment there are when failure, passes through voice feedback failure cause;
When being matched to preset trouble shooting method corresponding with failure cause, trouble shooting method is fed back;
When detecting that test condition does not meet preset requirement, is operated by voice feedback and correct prompt.
In one embodiment, following steps are also realized when processor executes computer program:
The execution state of control instruction is detected, and execution state is fed back by voice prompt;Implementing result is obtained, detection is worked as
When meeting preset condition to implementing result, pass through voice prompt execution result back.
In one embodiment, a kind of computer readable storage medium is provided, computer program is stored thereon with, is calculated
Machine program realizes following steps when being executed by processor:
Obtain concurrent sending voice control signal;
Receive the semantic analysis result fed back according to audio controls;
The state-detection of in-vitro diagnosis equipment is obtained as a result, state-detection result includes the test condition of in-vitro diagnosis equipment
State-detection result;
According to semantic analysis result and state-detection as a result, generating control instruction, and control instruction is sent to in-vitro diagnosis
The instruction execution unit of equipment.
The above-mentioned storage medium for realizing in-vitro diagnosis apparatus control method passes through audio controls and semantic point
Analyse result so that same control effect is reached by voice control and traditional control instruction that is manually entered, but voice control
System is more fast and effective compared to input is manually controlled, and is detected by states such as test conditions to in-vitro diagnosis equipment,
Ensure that in-vitro diagnosis equipment can normally start to test, the outer operating status of diagnostic device of combination and the detection knot of cond
Fruit, to realize the control to in-vitro diagnosis equipment by way of generating control instruction, during entire control, user sends out
Phonetic control command and bonding state testing result the time required to saving control, and effectively reduce the production of invalid control instruction
It is raw, to realize the high efficiency of in-vitro diagnosis equipment control.
In one embodiment, following steps are also realized when computer program is executed by processor:
Audio controls are obtained, and audio controls are sent to the speech processes with semantic analysis function and are put down
Platform, voice processing platforms include third party's voice processing platforms, third party's voice processing platforms in one of the embodiments,
It include the local algorithm platform that can voluntarily dispose that intelligent sound service platform and/or third party based on interconnection networking provide.
In one embodiment, following steps are also realized when computer program is executed by processor:
It obtains and the matched conditions dictate of semantic analysis result;
When state-detection result meets conditions dictate, control instruction corresponding with semantic analysis result is generated, and send
Control instruction is to instruction execution unit.
When state-detection result is unsatisfactory for conditions dictate, pass through voice prompt feedback states testing result.
In one embodiment, following steps are also realized when computer program is executed by processor:
Semantic analysis result is matched with in-vitro diagnosis equipment state;
When there is no in-vitro diagnosis equipment state corresponding with semantic analysis result, believed by voice feedback voice control
Number error message;
When there is in-vitro diagnosis equipment state corresponding with semantic analysis result, determination is matched with semantic analysis result
The requirement of in-vitro diagnosis equipment state.
In one embodiment, following steps are also realized when computer program is executed by processor:
When detecting that in-vitro diagnosis equipment there are when failure, passes through voice feedback failure cause;
When being matched to preset trouble shooting method corresponding with failure cause, trouble shooting method is fed back;
When detecting that test condition does not meet preset requirement, is operated by voice feedback and correct prompt.
In one embodiment, following steps are also realized when computer program is executed by processor:
The execution state of control instruction is detected, and execution state is fed back by voice prompt;
It obtains implementing result and passes through voice prompt execution result back when detecting that implementing result meets preset condition.
One of ordinary skill in the art will appreciate that realizing all or part of flow in above-described embodiment method, being can be with
Relevant hardware is instructed to complete by computer program, computer program can be stored in a non-volatile computer and can be read
In storage medium, the computer program is when being executed, it may include such as the flow of the embodiment of above-mentioned each method.Wherein, the application
Any reference to memory, storage, database or other media used in each embodiment provided, may each comprise non-
Volatibility and/or volatile memory.Nonvolatile memory may include read-only memory (ROM), programming ROM (PROM),
Electrically programmable ROM (EPROM), electrically erasable ROM (EEPROM) or flash memory.Volatile memory may include arbitrary access
Memory (RAM) or external cache.By way of illustration and not limitation, RAM is available in many forms, such as static
RAM (SRAM), dynamic ram (DRAM), synchronous dram (SDRAM), double data rate sdram (DDRSDRAM), enhanced SDRAM
(ESDRAM), synchronization link (Synchlink) DRAM (SLDRAM), memory bus (Rambus) directly RAM (RDRAM), straight
Connect memory bus dynamic ram (DRDRAM) and memory bus dynamic ram (RDRAM) etc..
Each technical characteristic of above example can be combined arbitrarily, to keep description succinct, not to above-described embodiment
In each technical characteristic it is all possible combination be all described, as long as however, the combination of these technical characteristics be not present lance
Shield is all considered to be the range of this specification record.
Above example only expresses the several embodiments of the application, the description thereof is more specific and detailed, but can not
Therefore it is construed as limiting the scope of the patent.It should be pointed out that for those of ordinary skill in the art,
Under the premise of not departing from the application design, various modifications and improvements can be made, these belong to the protection domain of the application.
Therefore, the protection domain of the application patent should be determined by the appended claims.
Claims (10)
1. a kind of in-vitro diagnosis apparatus control method, which is characterized in that the method includes:
Obtain concurrent sending voice control signal;
Receive the semantic analysis result fed back according to the audio controls;
The state-detection of the in-vitro diagnosis equipment is obtained as a result, the state-detection result includes the in-vitro diagnosis equipment
Test condition state-detection result;
According to the semantic analysis result and the state-detection as a result, generating control instruction, and send the control instruction extremely
The instruction execution unit of the in-vitro diagnosis equipment.
2. in-vitro diagnosis apparatus control method according to claim 1, which is characterized in that described to obtain concurrent sending voice control
Signal processed includes:
Audio controls are obtained, and the audio controls are sent to the speech processes with semantic analysis function and are put down
Platform.
3. in-vitro diagnosis apparatus control method according to claim 2, which is characterized in that the voice processing platforms include
The local algorithm platform that can voluntarily dispose that intelligent sound service platform and/or third party based on interconnection networking provide.
4. in-vitro diagnosis apparatus control method according to claim 1, which is characterized in that described according to the semantic analysis
As a result with the state-detection as a result, generate control instruction, and the control instruction is sent to the finger of the in-vitro diagnosis equipment
The execution unit is enabled to include:
It obtains and the matched conditions dictate of the semantic analysis result;
When the state-detection result meets the conditions dictate, generates control corresponding with the semantic analysis result and refer to
It enables, and sends the control signal to described instruction execution unit;
It is described according to the semantic analysis result and the state-detection as a result, generate control instruction, and send it is described control refer to
It enables to described instruction execution unit, further includes:
When the state-detection result is unsatisfactory for the conditions dictate, the state-detection result is fed back by voice prompt.
5. in-vitro diagnosis apparatus control method according to claim 4, which is characterized in that the acquisition and the semanteme point
Before analysing the matched conditions dictate of result, further include:
The semantic analysis result is matched with in-vitro diagnosis equipment state;
When there is no in-vitro diagnosis equipment state corresponding with the semantic analysis result, believed by voice feedback voice control
Number error message;
When there is in-vitro diagnosis equipment state corresponding with the semantic analysis result, determine and the semantic analysis result
The in-vitro diagnosis equipment state requirement matched.
6. in-vitro diagnosis apparatus control method according to claim 4, which is characterized in that described when operation detection knot
When fruit is unsatisfactory for the conditions dictate, feeding back testing result by voice prompt includes:
When detecting that the in-vitro diagnosis equipment there are when failure, passes through voice feedback failure cause;
When being matched to preset trouble shooting method corresponding with the failure cause, the trouble shooting method is fed back;
When detecting that test condition does not meet preset requirement, is operated by voice feedback and correct prompt.
7. according to claim 1-6 any one of them in-vitro diagnosis apparatus control methods, which is characterized in that described in the basis
Semantic analysis result and the state-detection are as a result, generate control instruction, and send the control instruction to the in-vitro diagnosis
After the instruction execution unit of equipment, further include:
The execution state of the control instruction is detected, and the execution state is fed back by voice prompt;
It obtains implementing result and the execution is fed back by voice prompt when detecting that the implementing result meets preset condition
As a result.
8. a kind of in-vitro diagnosis plant control unit, which is characterized in that described device includes:
Voice obtains and sending module, and signal is controlled for obtaining concurrent sending voice;
Semantic analysis result receiving module, for receiving the semantic analysis result fed back according to the audio controls;
Condition Detection module, the state-detection for obtaining the in-vitro diagnosis equipment is as a result, the state-detection result
Test condition state-detection result including the in-vitro diagnosis equipment;
Control module is used for according to the semantic analysis result and the state-detection as a result, generating control instruction, and send institute
Control instruction is stated to the instruction execution unit of the in-vitro diagnosis equipment.
9. a kind of computer equipment, including memory, processor and storage are on a memory and the meter that can run on a processor
Calculation machine program, which is characterized in that the processor realizes any one of claim 1 to 7 institute when executing the computer program
The step of stating method.
10. a kind of computer readable storage medium, is stored thereon with computer program, which is characterized in that the computer program
The step of method described in any one of claim 1 to 7 is realized when being executed by processor.
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