CN113223517B - Device position adjusting method and device based on doctor voice instruction - Google Patents

Abstract

The invention discloses a device position adjusting method and device based on doctor voice instructions, wherein the method is applied to disease detection equipment and comprises the following steps: receiving voice information of a doctor, and extracting a detection instruction from the voice information; responding to the detection instruction to acquire a current image of the seeker; determining the current posture of the patient from the current image; and adjusting the detection equipment to a corresponding detection position according to the current posture and the detection instruction. The invention can receive the voice information of the doctor, determine the detection item and the posture of the doctor according to the language information, and finally carry out position adjustment according to the detection item and the posture of the doctor, so that the whole process is simple and quick, the doctor does not need to adjust the doctor before detection or move the doctor by itself during detection, and the angle of the doctor is matched, thereby not only shortening the diagnosis and detection time and improving the detection and diagnosis efficiency, but also reducing the detection difficulty of the doctor.

Description

Device position adjusting method and device based on doctor voice instruction

Technical Field

The invention relates to the technical field of medical assistance, in particular to a device position adjusting method and device based on doctor voice instructions.

Background

With the popularity of various smart devices, the rate and time at which people use smart devices has also grown. If people don't pay attention to eye hygiene or play electronic products frequently in the use process, eye fatigue is caused by light weight, various eye diseases are caused by heavy weight, and a certain risk is caused for human health.

For early prevention and treatment, the most effective method is to go to the hospital for clinical examination by a doctor. When in examination, the patient is often limp and limp, the body and the head of the patient are fixed through the detection equipment, and then the angle or the position of the detection equipment is adjusted, so that a doctor can carry out clinical examination on the patient from different angles.

However, the conventional method has the following problems that as different detection or different treatments may be performed from different angles, a doctor often needs to adjust the position of a doctor to different degrees before detection, or the doctor moves the figure by itself during detection, so as to cooperate with the fixed angle of the doctor to perform detection, the operation not only prolongs the time of diagnosis and detection, but also needs to adjust the position again when the doctor performs detection at different angles or different projects, and the difficulty of detection of the doctor is increased.

Disclosure of Invention

The invention provides a device position adjustment method and device based on doctor voice instructions, wherein the method can carry out position adjustment according to doctor instructions and the current form of a doctor seeker, so that the detection time is shortened, and the detection efficiency is improved.

A first aspect of an embodiment of the present invention provides a method for adjusting a device position based on a doctor's voice instruction, the method being applied to a disease detection device, the method including:

receiving voice information of a doctor, and extracting a detection instruction from the voice information;

responding to the detection instruction to acquire a current image of the seeker;

determining the current posture of the patient from the current image;

and adjusting the detection equipment to a corresponding detection position according to the current posture and the detection instruction.

In a possible implementation manner of the first aspect, the determining a current modality of the diagnostician from the current image includes:

classifying the current image to obtain a human body image;

extracting a plurality of joint points from the human body image;

and sequentially connecting the plurality of joint points to obtain the current posture.

In a possible implementation manner of the first aspect, the adjusting the detection device to a corresponding detection position according to the current posture and the detection instruction includes:

searching corresponding detection item information in response to the detection instruction;

determining a corresponding detection posture according to the detection item information;

calculating a body state difference value of the current body state and the detected body state, wherein the body state difference value comprises an angle difference value and a position difference value;

and adjusting the detection equipment to a corresponding detection position by utilizing the body state difference value.

In a possible implementation manner of the first aspect, the adjusting the detection device to a corresponding detection position using the posture difference value includes:

when the body state difference value is an angle difference value, acquiring a relative angle value between a patient and the detection equipment;

adding the angle difference value and the relative angle value to obtain a target angle value;

and adjusting the detection equipment to a corresponding detection position according to the target angle value.

In a possible implementation manner of the first aspect, the adjusting the detection device to a corresponding detection position using the posture difference value includes:

when the body state difference value is a position difference value, acquiring a position coordinate value of the current body state;

taking the position coordinate value as a zero point coordinate value, and adding the zero point coordinate value and the position difference value to obtain a target coordinate value;

and adjusting the detection equipment to a corresponding detection position according to the target coordinate value.

In a possible implementation manner of the first aspect, the acquiring, in response to the detection instruction, a current image of the patient includes:

respectively acquiring first position information of a doctor and second position information of the detection equipment;

when the first position information and the second position information are at a position interval;

and when the position interval is smaller than the preset interval, responding to the detection instruction to acquire the current image of the patient.

In a possible implementation manner of the first aspect, the extracting a detection instruction from the voice information includes:

extracting voice voiceprints from the voice information;

performing voiceprint matching on the voice voiceprint and a preset voiceprint;

when the voice voiceprint is identical to the voiceprint of the preset voiceprint, acquiring a voice text of the voice information;

performing voice word segmentation on the voice text to obtain a plurality of word segments;

screening target keywords from the plurality of segmented words, and searching corresponding detection instructions from a preset detection information base according to the target keywords.

A second aspect of an embodiment of the present invention provides an apparatus position adjustment device based on a doctor's voice instruction, the device being applied to a disease detection apparatus, the device comprising:

the extraction module is used for receiving the voice information of the doctor and extracting a detection instruction from the voice information;

the response module is used for responding to the detection instruction and collecting the current image of the patient;

the determining module is used for determining the current posture of the patient from the current image;

and the adjusting module is used for adjusting the detection equipment to the corresponding detection position according to the current posture and the detection instruction.

Compared with the prior art, the device position adjusting method and device based on the doctor voice instruction provided by the embodiment of the invention have the beneficial effects that: the invention can receive the voice information of the doctor, determine the detection item and the posture of the doctor according to the language information, and finally carry out position adjustment according to the detection item and the posture of the doctor, so that the whole process is simple and quick, the doctor does not need to adjust the doctor before detection or move the doctor by itself during detection, and the angle of the doctor is matched, thereby not only shortening the diagnosis and detection time and improving the detection and diagnosis efficiency, but also reducing the detection difficulty of the doctor.

Drawings

FIG. 1 is a flowchart of a method for adjusting a device position based on a doctor's voice command according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a device position adjusting apparatus according to an embodiment of the present invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The conventional inspection method has the following problems that as different detection or different treatments are possibly carried out from different angles, doctors often need to adjust the positions of the diagnostician to different degrees before detection, or the doctors move the figure by themselves during detection, so that the detection is carried out by matching with the fixed angle of the diagnostician, the diagnosis and detection time is prolonged, and the doctors need to adjust the positions again when carrying out the detection of different angles or different projects, so that the detection difficulty of the doctors is increased.

In order to solve the above-mentioned problems, a device position adjustment method based on doctor voice instructions according to the present embodiment will be described and illustrated in detail by the following specific embodiments.

Referring to fig. 1, a flowchart of a method for adjusting a device position based on a doctor voice command according to an embodiment of the present invention is shown.

In this embodiment, the method is applied to a disease detection apparatus. The disease detection equipment can be a detection seat provided with a head of a fixed patient or a body of the patient, and can automatically move, rotate or swing when in use, so that a doctor or the patient does not need to move, and the doctor can conveniently operate.

Wherein, as an example, the device position adjustment method based on doctor voice instruction may include:

s11, receiving voice information of a doctor, and extracting detection instructions from the voice information.

The voice information may be voice information transmitted when the doctor performs an examination, for example, the name of the examination item, the code of the examination item, or the item of operation. After receiving the voice information, a detection instruction can be extracted from the voice information, so that the voice information is matched with a doctor, and corresponding examination operation is assisted.

At the time of examination, it may be that the doctor is speaking, it may be that the patient is speaking, and it may be that the nurse is speaking, so after receiving the voice information, it is necessary to determine whether the voice information is the doctor himself. As an example, step S11 may include the following sub-steps:

substep S111, extracting a voice voiceprint from the voice information.

Specifically, sound waves of the voice information can be obtained, and the sound waves are decomposed through Fourier functions, so that corresponding voice voiceprints are obtained.

And step S112, carrying out voiceprint matching on the voice voiceprint and a preset voiceprint.

The preset voiceprint is a voiceprint which is recorded in advance by a doctor.

After the voice voiceprint is obtained, the voice voiceprint can be matched with a preset voiceprint, and whether the voice voiceprint is identical with the preset voiceprint or not is determined.

And S113, when the voice voiceprint is matched with the voiceprint of the preset voiceprint to be the same, acquiring the voice text of the voice information.

When the voice voiceprint is identical with the voiceprint of the preset voiceprint, determining that the voice information is the voice information of the doctor, and acquiring a corresponding voice text from the voice information, wherein the voice text contains the content sent by the doctor.

And S114, performing voice word segmentation on the voice text to obtain a plurality of word segments.

The phonetic text may contain other languages or words than the content of the examination, which are not relevant to the examination. In order to accurately identify the corresponding examination content or examination item, the speech text may be segmented to obtain a plurality of segmented words.

In actual operation, the voice text can be input into a preset word segmentation device for word segmentation, and word segmentation rules of the word segmentation device can be adjusted according to actual needs of users.

And step S115, screening target keywords from the plurality of segmented words, and searching corresponding detection instructions from a preset detection information base according to the target keywords.

After obtaining the plurality of segmented words, a target keyword may be selected from the plurality of segmented words, where the target keyword may be a code, a code number, or a name of a check item, etc.

After the corresponding target keywords are identified, the target keywords can be input into a preset detection information base, corresponding detection items are searched in the preset detection information base, and corresponding detection instructions are generated.

S12, responding to the detection instruction to acquire the current image of the patient.

After the detection instruction is acquired, the current image can be obtained by responding to the detection instruction and shooting the current patient sitting in the detection equipment. Specifically, the detection device may be provided with a camera, and the camera may be controlled to acquire the current image of the patient in response to the detection instruction.

When in use, because the doctor and the equipment are far away, the doctor and the nurse can be in communication to cause false triggering. To ensure that the doctor is currently on the side of the physician to examine the acquisition to send a voice trigger, step S12 may include the following sub-steps, as an example:

substep S121, acquiring first location information of a doctor and second location information of the detection device, respectively.

The first location information of the doctor, which may be the current location information of the doctor, and the second location information of the detection device, which may be the current location information of the detection device, may be acquired, respectively.

Substep S122, when the first position information and the second position information are the position intervals.

In actual operation, the difference between the two pieces of position information can be calculated to obtain the position spacing.

And step 123, when the position interval is smaller than the preset interval, the current image of the patient is acquired in response to the detection instruction.

When the position spacing is smaller than the preset spacing, the doctor can be determined to be on the side of the patient and the detection equipment, and the current image of the patient can be acquired in response to the detection instruction.

S13, determining the current posture of the patient from the current image.

In this embodiment, the current state of the patient can be determined through the current image, so as to determine whether the current state is suitable for the next detection item, and if not, the state of the patient can be adjusted, so that the state of the patient meets the detection requirement. And the whole adjustment process does not need doctor participation, so that the operation of doctors can be facilitated.

In particular, the current posture may be the posture or the body mass of the seeker at the detection device.

As an example, step S13 may include the following sub-steps:

and S131, classifying the current image to obtain a human body image.

In a specific implementation, the current image may be subjected to image classification to obtain a corresponding human body image. Taking eye diseases as an example, the human body image may be a head image of a seeker.

The corresponding head image can be obtained by identifying the head features and then classifying the image based on the head features.

And step S132, extracting a plurality of joint points from the human body image.

A plurality of joint points can be obtained from the human body image respectively, and the joint points can be the connection points of all joints of the human body.

In the application, if the eye disease is checked, the vertexes of bones of the head are taken as the nodes, and a plurality of nodes are extracted from the head image.

In order to extract each joint point more accurately, the connection position of the detection device and the head of the patient may be taken as a reference point, and a point separated from the reference point by a predetermined distance may be acquired from the head image as a joint point.

And step S133, sequentially connecting the plurality of joint points to obtain the current posture.

Finally, connecting a plurality of joint points end to end, and obtaining the current posture of the diagnostician.

S14, adjusting the detection equipment to a corresponding detection position according to the current posture and the detection instruction.

After the current posture of the patient is obtained, the position of the detection equipment can be adjusted based on the detection instruction based on the current posture, so that the patient on the detection equipment can meet the detection requirement, and then a doctor can check the patient.

Specifically, in order to accurately adjust the posture of the diagnostician for the convenience of the doctor' S operation, step S14 may include, as an example, the following sub-steps:

and step S141, corresponding detection item information is searched in response to the detection instruction.

The detection item information may be the content of the detection item.

In actual operation, the detection instruction can be input into the project information base to search the corresponding detection project information in response to the detection instruction.

And sub-step S142, determining a corresponding detection posture according to the detection item information.

Because each detection item corresponds to one detection posture, the detection posture corresponding to the detection item can be determined through detection item information.

The detection posture is specifically that the patient is fixed in the detection equipment corresponding to the posture when executing the detection project.

In a substep S143, a body state difference value between the current body state and the detected body state is calculated, where the body state difference value includes an angle difference value and a position difference value.

And acquiring a body state difference value of the current body state and the detected body state. Specifically, the coordinates of each node of the current posture and the detection coordinates corresponding to the detected posture can be calculated respectively, and the corresponding posture difference value is obtained by subtracting the two coordinates.

In actual operation, the position may be adjusted, and the angle may be adjusted.

And step S144, adjusting the detection equipment to a corresponding detection position by utilizing the body state difference value.

After the body state difference value is determined, the detection device can be controlled to adjust or move according to the body state difference value, so that the corresponding detection position is reached. Because the seeker is on the detection equipment, the seeker can move along with the detection equipment, so that the seeker reaches the corresponding detection position.

In an alternative embodiment, the body state difference value comprises an angle difference value, wherein, as an example, the sub-step S144 may comprise the following sub-steps:

and S1441, when the body state difference value is an angle difference value, acquiring a relative angle value between the patient and the detection equipment.

In actual operation, the position where the detection device contacts with any one of the diagnostician can be taken as a reference point, and then the reference point is taken as a reference point, so that the angle difference between the detected posture and the reference point is calculated, and the relative angle value is obtained.

And a substep S1442, adding the angle difference value and the relative angle value to obtain a target angle value.

Substep S1443, adjusting the detection device to a corresponding detection position according to the target angle value.

And adding the angle difference value and the relative angle value to obtain a target angle value, and controlling the detection equipment to move the target angle value, so that the detection equipment is adjusted to a corresponding detection position.

In another alternative embodiment, the body state difference value comprises a position difference value, wherein, as an example, the sub-step S144 may comprise the following sub-steps:

and S1444, when the body state difference value is a position difference value, acquiring a position coordinate value of the current body state.

Specifically, the position where the detection device contacts any one of the diagnostician may be taken as a reference point, and the reference point may be taken as a position coordinate value. For computational accuracy, the reference point may be the same reference point that is used to calculate the current morphology.

And S1445, taking the position coordinate value as a zero point coordinate value, and adding the zero point coordinate value and the position difference value to obtain a target coordinate value.

Substep S1446, adjusting the detection device to a corresponding detection position according to the target coordinate value.

Finally, adding the zero point coordinate value and the position difference value to obtain a target coordinate value, calculating a moving distance according to the target coordinate value, and controlling the detection equipment to move by a corresponding moving distance so as to adjust the detection equipment to a corresponding detection position

In this embodiment, the embodiment of the present invention provides a method for adjusting a device position based on a doctor voice command, which has the following beneficial effects: the invention can receive the voice information of the doctor, determine the detection item and the posture of the doctor according to the language information, and finally carry out position adjustment according to the detection item and the posture of the doctor, so that the whole process is simple and quick, the doctor does not need to adjust the doctor before detection or move the doctor by itself during detection, and the angle of the doctor is matched, thereby not only shortening the diagnosis and detection time and improving the detection and diagnosis efficiency, but also reducing the detection difficulty of the doctor.

The embodiment of the invention also provides a device position adjusting device based on the doctor voice command, and referring to fig. 2, a schematic structural diagram of the device position adjusting device based on the doctor voice command is shown.

Wherein, as an example, the device position adjustment apparatus based on doctor voice instruction is applied to a disease detection device, the apparatus comprising:

an extraction module 201, configured to receive voice information of a doctor, and extract a detection instruction from the voice information;

a response module 202, configured to acquire a current image of the patient in response to the detection instruction;

a determining module 203, configured to determine a current posture of the patient from the current image;

and the adjusting module 204 is configured to adjust the detecting device to a corresponding detecting position according to the current posture and the detecting instruction.

Further, the determining module is further configured to:

classifying the current image to obtain a human body image;

extracting a plurality of joint points from the human body image;

and sequentially connecting the plurality of joint points to obtain the current posture.

Further, the adjusting module is further configured to:

searching corresponding detection item information in response to the detection instruction;

determining a corresponding detection posture according to the detection item information;

calculating a body state difference value of the current body state and the detected body state, wherein the body state difference value comprises an angle difference value and a position difference value;

and adjusting the detection equipment to a corresponding detection position by utilizing the body state difference value.

Further, the adjusting module is further configured to:

when the body state difference value is an angle difference value, acquiring a relative angle value between a patient and the detection equipment;

adding the angle difference value and the relative angle value to obtain a target angle value;

and adjusting the detection equipment to a corresponding detection position according to the target angle value.

Further, the adjusting module is further configured to:

when the body state difference value is a position difference value, acquiring a position coordinate value of the current body state;

taking the position coordinate value as a zero point coordinate value, and adding the zero point coordinate value and the position difference value to obtain a target coordinate value;

and adjusting the detection equipment to a corresponding detection position according to the target coordinate value.

Further, the response module is further configured to:

respectively acquiring first position information of a doctor and second position information of the detection equipment;

when the first position information and the second position information are at a position interval;

and when the position interval is smaller than the preset interval, responding to the detection instruction to acquire the current image of the patient.

Further, the extraction module is further configured to:

extracting voice voiceprints from the voice information;

performing voiceprint matching on the voice voiceprint and a preset voiceprint;

when the voice voiceprint is identical to the voiceprint of the preset voiceprint, acquiring a voice text of the voice information;

performing voice word segmentation on the voice text to obtain a plurality of word segments;

screening target keywords from the plurality of segmented words, and searching corresponding detection instructions from a preset detection information base according to the target keywords.

Further, an embodiment of the present application further provides an electronic device, including: the device position adjustment method based on the doctor voice instruction according to the above embodiment is implemented by a memory, a processor, and a computer program stored on the memory and executable on the processor when the processor executes the program.

Further, the embodiment of the application also provides a computer readable storage medium, which stores computer executable instructions for causing a computer to execute the device position adjustment method based on the doctor voice instruction according to the embodiment.

While the foregoing is directed to the preferred embodiments of the present invention, it will be appreciated by those skilled in the art that changes and modifications may be made without departing from the principles of the invention, such changes and modifications are also intended to be within the scope of the invention.

Claims (6)

1. A method for adjusting a device position based on a doctor's voice instruction, the method being applied to a disease detection device, the method comprising:

receiving voice information of a doctor, and extracting a detection instruction from the voice information;

responding to the detection instruction to acquire a current image of the seeker;

determining the current posture of the patient from the current image;

adjusting the detection equipment to a corresponding detection position according to the current posture and the detection instruction;

the determining the current posture of the consultant from the current image comprises the following steps:

classifying the current image to obtain a human body image;

extracting a plurality of joint points from the human body image;

sequentially connecting the plurality of joint points to obtain a current posture;

the adjusting the detection device to a corresponding detection position according to the current posture and the detection instruction comprises:

searching corresponding detection item information in response to the detection instruction;

determining a corresponding detection posture according to the detection item information;

calculating a body state difference value of the current body state and the detected body state, wherein the body state difference value comprises an angle difference value and a position difference value;

adjusting the detection equipment to a corresponding detection position by utilizing the body state difference value;

the adjusting the detecting device to a corresponding detecting position by using the posture difference value comprises the following steps:

when the body state difference value is an angle difference value, acquiring a relative angle value between a patient and the detection equipment;

adding the angle difference value and the relative angle value to obtain a target angle value;

adjusting the detection equipment to a corresponding detection position according to the target angle value;

the adjusting the detecting device to a corresponding detecting position by using the posture difference value comprises the following steps:

when the body state difference value is a position difference value, acquiring a position coordinate value of the current body state;

taking the position coordinate value as a zero point coordinate value, and adding the zero point coordinate value and the position difference value to obtain a target coordinate value;

adjusting the detection equipment to a corresponding detection position according to the target coordinate value;

the responding to the detection instruction to collect the current image of the patient comprises the following steps:

respectively acquiring first position information of a doctor and second position information of the detection equipment;

calculating the position distance between the first position information and the second position information;

and when the position interval is smaller than the preset interval, responding to the detection instruction to acquire the current image of the patient.

2. The method for adjusting a position of a device based on a doctor's voice instruction according to claim 1, wherein the adjusting the detecting device to a corresponding detecting position using the posture difference value comprises:

when the body state difference value is a position difference value, acquiring a position coordinate value of the current body state;

taking the position coordinate value as a zero point coordinate value, and adding the zero point coordinate value and the position difference value to obtain a target coordinate value;

and adjusting the detection equipment to a corresponding detection position according to the target coordinate value.

3. The method for adjusting a position of a device based on a voice instruction of a doctor according to claim 1, wherein the extracting a detection instruction from the voice information comprises:

extracting voice voiceprints from the voice information;

performing voiceprint matching on the voice voiceprint and a preset voiceprint;

when the voice voiceprint is identical to the voiceprint of the preset voiceprint, acquiring a voice text of the voice information;

performing voice word segmentation on the voice text to obtain a plurality of word segments;

screening target keywords from the plurality of segmented words, and searching corresponding detection instructions from a preset detection information base according to the target keywords.

4. A device position adjustment apparatus based on doctor's voice instructions, the apparatus being applied to a disease detection device, the apparatus comprising:

the extraction module is used for receiving the voice information of the doctor and extracting a detection instruction from the voice information;

the response module is used for responding to the detection instruction and collecting the current image of the patient;

the determining module is used for determining the current posture of the patient from the current image;

the adjusting module is used for adjusting the detecting equipment to a corresponding detecting position according to the current posture and the detecting instruction;

the determining module is further configured to:

classifying the current image to obtain a human body image;

extracting a plurality of joint points from the human body image;

sequentially connecting the plurality of joint points to obtain a current posture;

the adjustment module is also used for:

searching corresponding detection item information in response to the detection instruction;

determining a corresponding detection posture according to the detection item information;

calculating a body state difference value of the current body state and the detected body state, wherein the body state difference value comprises an angle difference value and a position difference value;

adjusting the detection equipment to a corresponding detection position by utilizing the body state difference value;

the adjustment module is also used for:

when the body state difference value is an angle difference value, acquiring a relative angle value between a patient and the detection equipment;

adding the angle difference value and the relative angle value to obtain a target angle value;

adjusting the detection equipment to a corresponding detection position according to the target angle value;

the response module is further configured to:

respectively acquiring first position information of a doctor and second position information of the detection equipment;

calculating the position distance between the first position information and the second position information;

and when the position interval is smaller than the preset interval, responding to the detection instruction to acquire the current image of the patient.

5. An electronic device, comprising: a memory, a processor and a computer program stored on the memory and executable on the processor, wherein the processor implements the method for adjusting the position of a device based on doctor's voice instructions as claimed in any one of claims 1-3 when executing the program.

6. A computer-readable storage medium storing computer-executable instructions for causing a computer to perform the doctor's voice instruction-based device position adjustment method according to any one of claims 1 to 3.