CN112945237A - Hospital navigation system, diagnosis guide system, terminal and navigation system - Google Patents
Hospital navigation system, diagnosis guide system, terminal and navigation system Download PDFInfo
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- CN112945237A CN112945237A CN202110164869.XA CN202110164869A CN112945237A CN 112945237 A CN112945237 A CN 112945237A CN 202110164869 A CN202110164869 A CN 202110164869A CN 112945237 A CN112945237 A CN 112945237A
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- 238000003745 diagnosis Methods 0.000 title description 9
- 239000000284 extract Substances 0.000 claims abstract description 8
- 238000013507 mapping Methods 0.000 claims description 6
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- 238000004891 communication Methods 0.000 description 2
- 230000006870 function Effects 0.000 description 2
- 238000003032 molecular docking Methods 0.000 description 2
- 238000013475 authorization Methods 0.000 description 1
- 230000009286 beneficial effect Effects 0.000 description 1
- 239000012141 concentrate Substances 0.000 description 1
- 238000009533 lab test Methods 0.000 description 1
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01C—MEASURING DISTANCES, LEVELS OR BEARINGS; SURVEYING; NAVIGATION; GYROSCOPIC INSTRUMENTS; PHOTOGRAMMETRY OR VIDEOGRAMMETRY
- G01C21/00—Navigation; Navigational instruments not provided for in groups G01C1/00 - G01C19/00
- G01C21/20—Instruments for performing navigational calculations
- G01C21/206—Instruments for performing navigational calculations specially adapted for indoor navigation
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Abstract
The invention relates to a hospital navigation system, which comprises a user interface and a background operation system, wherein the user interface comprises a map page and a destination input interface, the destination input interface comprises an image acquisition module, the image acquisition module shoots an image of a medical document and acquires destination information from the image, the background operation system extracts a destination according to the destination information, and the map page shows a route to the destination. The invention not only finds the invisible pain spot of the patient-the patient may not know where the next destination is when the hospital navigation system is opened in the hospital; and the medical documents given to the patients by hospitals are used as an entrance for solving the pain points, the entrance is extremely simple, the acquisition cost is extremely low, and the use is very convenient.
Description
Technical Field
The invention relates to a hospital navigation system and a diagnosis guide system; the invention also relates to a terminal of the diagnosis guiding system, and the navigation system, belonging to the technical field of positioning.
Background
At present, medical resources are very scarce resources, especially in large and medium cities. Large hospitals such as the third hospital and the like are large in scale, the overall planning layout is not reasonable (the hospitals usually carry out rapid expansion along with the increase of patients and cannot carry out prior global planning), and the patients are very difficult to find ways.
Large hospitals such as the third hospital are always full of patients, and particularly in an outpatient service area, many people concentrate on the outpatient service area for consultation, registration, way inquiry and the like. However, the hospital generally has the problem of insufficient staff, so how to solve the problem of simple way inquiry but huge workload is a big problem of the hospital.
In order to solve the problem of directing the way to the patient, some hospitals are provided with indoor navigation systems, so that the patient can find the way by the aid of the indoor navigation systems, but the hospitals are large in scale and very professional, and the patient does not know where to go next step when using the navigation system because the patient is not familiar with the treatment process, so that the utilization rate of the indoor navigation systems of many hospitals is low.
Disclosure of Invention
The invention aims to provide a hospital navigation system which can automatically extract a destination and perform navigation according to the requirements of a patient.
In order to achieve the purpose, the invention provides a hospital navigation system which comprises a user interface and a background operation system, wherein the user interface comprises a map page and a destination input interface, the destination input interface comprises an image acquisition module, the image acquisition module shoots an image of a medical document and acquires destination information from the image, the background operation system extracts a destination according to the destination information, and the map page shows a route to the destination.
Preferably, the image acquisition module takes a picture, and the destination information is a keyword in the picture.
Preferably, the destination is the same as the keyword, or a mapping relationship exists between the destination and the keyword.
Preferably, the medical documents are provided with links leading to the hospital navigation system.
Preferably, the image capture module includes an edge selection box tool that defines the image capture area.
Preferably, the image capture module includes an identify checkbox tool that defines a destination information identification area.
Preferably, the map comprises an indoor map of a hospital.
The invention also relates to a diagnosis guiding system which comprises any one of the hospital navigation systems.
The invention also relates to a terminal, which runs the diagnosis guide system.
The invention also relates to a navigation system, which comprises a user interface and a background operation system, wherein the user interface comprises a map page and a destination input interface, the destination input interface comprises an image acquisition module, the image acquisition module acquires an image of destination information, the background operation system extracts a destination according to the destination information, and the map page displays a route to the destination.
Compared with the prior art, the invention has the beneficial effects that: finding the patient's hidden pain spot — the patient may not know where to go to the next step in the hospital when the hospital navigation system is turned on; the medical documents given to the patient by the hospital are used as an entrance for solving the pain point, the entrance is extremely simple, the acquisition cost is zero, and the use is very convenient.
Detailed Description
The present invention will be described in detail below with reference to specific embodiments. These embodiments are not intended to limit the present invention, and structural, methodological, or functional changes made by those skilled in the art according to these embodiments are included in the scope of the present invention.
The hospital navigation system provided by the specific embodiment of the invention comprises a user interface and a background operation system.
The user interface includes a map page, and the map may be any one of a 2D map, a 2.5D map, and a 3D map. The user can perform various operations such as zooming in, zooming out, turning over and the like on the map. The user can also select a map of a specific area to be displayed, for example, when the map is an indoor map, the user can select a map of a specified floor to be displayed.
The user interface includes an input interface for a current location or a specified location. The current position may be obtained automatically, for example, a hospital navigation system may be combined with a positioning system to obtain the current position of the user automatically after authorization; the acquisition of the current position can also be obtained through manual/voice input of a user; the acquisition of the current position may also be obtained by the user clicking on the map page. The obtaining of the specified location may be obtained by manual/voice input by the user; the map can also be obtained by clicking on the map page by the user, and the detailed description is omitted.
The user interface comprises a destination input interface, and the background operation system acquires destination information through the destination input interface.
In the existing hospital navigation system, the destination input interface can only accept text or voice input. This provision of invisibility has the premise that the user knows exactly where to place his destination. However, in some places, such as hospitals and different hospitals, names of departments with the same function may be different, and even if names of departments with the same function are the same, a user may not know what the name of the department is specifically; in a hospital, not only the name of the department may cause the user to be unaware of the destination; there may also be situations where the patient is unfamiliar with the hospitalization procedure and does not know what to do next, in which case the user does not know where the destination is. In the case that the user does not know the destination, the user cannot input the correct destination by text or voice, and cannot take himself to the correct destination with the hospital navigation system.
To solve this problem, the applicant found that, starting from the registration of a patient entering a hospital, the hospital basically provides the patient with medical documents in each link, the documents may record the treatment information or the laboratory test information, and the medical documents can be used to directly or indirectly obtain the destination to which the patient needs to be reached for the next treatment.
Therefore, in this embodiment, the destination input interface includes an image capturing module, the image capturing module captures an image of the medical document, destination information is captured from the image, the background computing system extracts a destination according to the destination information, and the map page shows a route to the destination.
The background operation system can perform background operation on the information obtained from the user interface and output a corresponding result. For example, after the background computing system obtains the current location and the destination, an optimal route from the current location to the destination may be obtained through a specific algorithm, such as an a-algorithm, and the optimal route is displayed on a map page, thereby helping the user to quickly reach the destination.
It should be noted that, after finding that the patient does not know the hidden pain point of the next destination after opening the hospital navigation system in the hospital, the specific technical implementation seems not to be particularly difficult after innovating a solution of extracting the destination by using the medical document to help the patient to reach the destination quickly.
Thus, the core contribution of the present invention may not be to the specific navigation algorithm and system after the destination is obtained.
One of the core contributions of the present invention is the discovery of the above-mentioned stealth problem-the patient may not know where to go to the next step in the hospital to turn on the hospital navigation system.
The second key contribution of the invention is to utilize the medical documents from hospitals to patients as an entrance for solving the technical problems, the entrance is extremely simple, the acquisition cost is zero, and the use is very convenient.
Specifically, in the existing medical system and environment, many hospitals want to master the most valuable information in their hands, which is difficult for third-party companies to obtain; in addition, even if relevant information can be obtained from a third party providing an information system for the hospital, the associated communication docking costs are extremely high. The embodiment innovatively utilizes the medical documents given to the patient by the hospital, so that the cost of the patient and the hospital is not increased; moreover, the information acquisition mode is extremely convenient and fast, and extra personnel are not needed to communicate the docking cost (such as the communication cost with a third party). For patients, the hospital navigation system is extremely simple to use, and only corresponding documents need to be scanned, for example, the latest documents can be guided by the navigation system to reach the destination which should be reached next step. For example, after registration, the shooting registration list can reach the corresponding consulting room under the guidance of the navigation system; after the doctor visits, shoot the check list and can reach corresponding check point under navigation system's guide, shoot the list of getting it filled and can reach the window of getting it filled under navigation system's guide, and this etc. no longer give unnecessary details.
It should be noted that one of the invention points of the present embodiment is that the destination information can be extracted by capturing an image by the image capture module, but the navigation system of the present invention can still provide the destination information by a text or voice input method, and the two methods do not conflict with each other, but can coexist, thereby satisfying different user requirements.
The external form of the image acquisition module can be a small icon of the destination input interface, such as a small icon similar to a camera, and the user can shoot the required image by clicking the icon, so as to acquire destination information.
Preferably, the image acquisition module takes a picture, and the destination information is a keyword in the picture. By shooting the picture and taking the keywords from the picture as destination information, the occupied system memory is low, and the response is quick.
The destination and the keyword may be the same, for example, the registration list usually records the department of seeing a doctor, and at this time, when the image acquisition module takes the registration list, the name of the department of seeing a doctor can be directly extracted from the picture of the registration list, so that the name of the department of seeing a doctor is used as the destination, and the patient is directly guided to arrive at the department of seeing a doctor through the hospital navigation system, which can greatly improve the experience of seeing a doctor of the patient.
The destination and the keyword may be different, at this time, a mapping relationship exists between the destination and the keyword, that is, a mapping table is stored in advance in the background computing system, and after the keyword is acquired by the image acquisition module, the background computing system can automatically obtain the corresponding destination through the mapping table, which is also very convenient.
For example, the examination report usually only presents the examination result, and does not provide the patient with information related to the next purpose, at this time, when a certain examination item is not qualified when the image acquisition module shoots the examination report, it means that the patient may need further examination, at this time, the patient needs to go to the corresponding department to find a doctor, and at this time, the destination is obtained through a mapping table preset in advance.
The medical documents are provided with links which lead to a hospital navigation system. The link can be two-dimensional code, bar code, specific keyword or icon, and the link is scanned through the scanning tool of mobile terminals such as cell phones, and the applet or APP of the hospital navigation system can be called out at the mobile terminals such as cell phones, and the use is very convenient.
That is, in this embodiment, the hospital navigation system and the medical document are linked with each other, and the hospital navigation system can be called out by scanning the link on the medical document; the hospital navigation system scans the medical documents to obtain the destination, so that the hospital navigation system can provide a route to the destination conveniently.
The image capture module includes an edge selection box tool that defines an image capture area. Therefore, the user can select the image capturing area through the edge selection box tool. Specifically, when the image acquisition module shoots the image, the system automatically calls out the edge selection frame, and the user can manually adjust the position and the size of the edge selection frame, so that when the user faces a document which is too large or too small, the shooting area is manually adjusted, and the use is more humanized.
The image capture module includes an identify checkbox tool that defines a destination information identification area. Accordingly, the user can select the destination keyword recognition area through the recognition checkbox tool. Specifically, when the user collects the image through the image collection module, the user can manually click the area to be identified and call out the identification selection frame tool, so that the identification selection frame can manually define the specific keyword, and the identification area of the image collection module can be manually selected. Of course, the user may also adjust the position of the recognition selection box by swiping a finger, thereby transforming the selected recognition area.
The embodiment also relates to a diagnosis guiding system which comprises the hospital navigation system. Therefore, the diagnosis guide system includes not only the navigation system but also a registration system, a payment system, a document printing system, and the like.
The embodiment also relates to a terminal, and the diagnosis guide system runs on the terminal. Such a terminal may be a hand-held terminal or may be a self-moving terminal.
In the application scene of the hospital, the acquisition object of the image acquisition module is a medical document, and the navigation system is a hospital navigation system. In other application scenarios, the work object of the image capture module is a document corresponding to the scenario, for example, in a movie theater, the work object of the image capture module may be a movie ticket. In a shopping mall, the work object of the image acquisition module may be a bill.
Therefore, the present embodiment further provides a navigation system, which includes a user interface and a background computing system, where the user interface includes a map page and a destination input interface, the destination input interface includes an image acquisition module, the image acquisition module acquires destination information, the background computing system extracts a destination according to the destination information, and the map page displays a route to the destination. The navigation system collects destination information through the image collection module, is convenient, and does not need users to know destination information in advance, so that the invisible pain points of the users are greatly solved. Any embodiments similar or equivalent to the embodiments are also within the scope of the present invention.
It should be understood that although the present description refers to embodiments, not every embodiment contains only a single technical solution, and such description of the embodiments is for clarity reasons only, and those skilled in the art should make the description as a whole, and the technical solutions in the embodiments can also be combined appropriately to form other embodiments understood by those skilled in the art.
The above list of details is only for the purpose of describing possible embodiments of the invention, and they are not intended to limit the scope of the invention, and all equivalent embodiments or modifications that do not depart from the spirit of the present invention are intended to be included within the scope of the present invention.
Claims (10)
1. A hospital navigation system comprises a user interface and a background operation system, wherein the user interface comprises a map page and a destination input interface, and is characterized in that: the destination input interface comprises an image acquisition module, the image acquisition module shoots images of medical documents and acquires destination information from the images, the background operation system extracts destinations according to the destination information, and the map page displays routes to the destinations.
2. The hospital navigation system according to claim 1, wherein: the image acquisition module is used for shooting a picture, and the destination information is a keyword in the picture.
3. The hospital navigation system according to claim 2, wherein: the destination is the same as the keyword, or a mapping relation exists between the destination and the keyword.
4. The hospital navigation system according to claim 1, wherein: the medical documents are provided with links leading to the hospital navigation system.
5. The hospital navigation system according to claim 1, wherein: the image capture module includes an edge selection box tool that defines an image capture area.
6. The hospital navigation system according to claim 1, wherein: the image capture module includes an identify checkbox tool that defines a destination information identification area.
7. The hospital navigation system according to claim 1, wherein: the map comprises an indoor map of a hospital.
8. A system for medical consultation, characterized by: the referral system comprises the hospital navigation system of any one of claims 1 to 7.
9. A terminal, characterized by: the terminal operates the referral system of claim 8.
10. A navigation system comprising a user interface and a background computing system, the user interface comprising a map page, a destination entry interface, characterized in that: the destination input interface comprises an image acquisition module, the image acquisition module acquires an image of destination information, the background operation system extracts a destination according to the destination information, and the map page displays a route to the destination.
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Cited By (1)
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Cited By (2)
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