NL2031721B1 - Intelligent hospital management system - Google Patents

Abstract

The present invention relates to an intelligent hospital management system, and belongs to the technical field of hospital management systems. 5 (+ Fig. 1)

Description

P1326/NLpd

INTELLIGENT HOSPITAL MANAGEMENT SYSTEM

TECHNICAL FIELD

The present invention relates to the technical field of hos- pital management systems.

BACKGROUND ART

A current hospital management system has the following de- fects: poor intelligence, resulting a failure to rapidly handle or improve the environment in spite of a good environment monitoring effect; poor prevention and control over infectious diseases, re- sulting in difficulty in finding the source of infection under the huge population flow in a hospital; and poor alarms.

SUMMARY

The present invention aims to provide an intelligent hospital management system to solve the problems raised in the above back- ground art.

In order to achieve the purpose, the present invention pro- vides the following technical solution: an intelligent hospital management system includes an intelligent control center, an ex- ternal environment monitoring module, an information entry module and a resource management module, where the external environment monitoring module is connected to the intelligent control center via a monitoring line, and configured to monitor an external envi- ronment of a hospital, the information entry module is connected to the intelligent control center via an entry line, and config- ured to enter national population information, external environ- ment data standards and real-time trajectory information of infec- tious diseases, and the resource management module is connected to the intelligent control center via a management line, and config- ured to manage human resources and movement or operation of elec- tronic apparatuses; the intelligent control center is further connected to a data analysis and processing module and a manual analysis and pro-

cessing module, the data analysis and processing module is config- ured to analyze and process data received by the intelligent con- trol center, and give processing opinions, the manual analysis and processing module is connected to the data analysis and processing module, and the manual analysis and processing module is config- ured to manually judge the processing opinions given by the data analysis and processing module, and output related instructions after determining that the processing options are reasonable, so as to ensure safety and accuracy of the management system; and the intelligent control center is further connected to a pop- ulation flow simulation module, and the population flow simulation module is used in conjunction to the information entry module, and configured to simulate a movement trajectory of a population en- tering the intelligent hospital, so that a trajectory of a popula- tion carrying infectious diseases can be determined, a source of infection and a contact population are convenient to determine, and safety is higher.

Preferably, the external environment monitoring module in- cludes a temperature and humidity monitoring module, a crowd den- sity monitoring module, a dust content monitoring module, a noise monitoring module, and a traffic monitoring module.

Preferably, the temperature and humidity monitoring module is specifically temperature and humidity detectors distributed at different positions of the intelligent hospital and configured to detect the temperature and humidity of different positions of the intelligent hospital, and transmit data to the intelligent control center in real time via lines. When the temperature and humidity are not suitable, the resource management module is controlled by the intelligent control center in time for processing to enable the temperature and humidity to be more suitable. The crowd densi- ty monitoring module is specifically a CCD camera, and is capable of analyzing the crowd density while carrying out shooting, and transmitting data to the intelligent control center in real time via lines. An area with the high crowd density is manual super- vised, and personnel are dispatched in time to deal with abnormal situations, so that the degree of intelligence is increased.

Preferably, the dust content monitoring module is specifical-

ly air quality detectors distributed at different positions of the intelligent hospital and mainly configured to detect the dust con- tent, and transmit data to the intelligent control center in real time via lines. The noise monitoring module is specifically noise monitors distributed at different positions of the intelligent hospital and configured to monitor the noise of the intelligent hospital, and transmit data to the intelligent control center in real time via lines. The traffic monitoring module is specifically monitoring cameras distributed at different positions of the in- telligent hospital and configured to transmit monitoring image da- ta to the intelligent control center in real time via lines.

Preferably, both the data analysis and processing module and the manual analysis and processing module are connected to an alarm module.

The present invention has the following technical effects and advantages. 1. The intelligent control center of the present invention is further connected to the population flow simulation module, and the population flow simulation module is used in conjunction with the information entry module, and configured to simulate the move- ment trajectory of the population entering the intelligent hospi- tal, so that the trajectory of the population carrying infectious diseases may be determined, the source of infection and the con- tact population are convenient to determine, and safety is higher. 2. The external environment monitoring module of the present invention includes the temperature and humidity monitoring module, the crowd density monitoring module, the dust content monitoring module, the noise monitoring module, and the traffic monitoring module to monitor the environment in the hospital and manage the environment in time, so that the environment in the hospital is more favorable, and the degree of intelligence is greatly in- creased.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a system frame diagram of the present invention.

FIG. 2 is a system diagram of an external environment moni- toring module of the present invention.

FIG. 3 is a composition diagram of a population flow simula- tion module of the present invention.

FIG. 4 is a composition diagram of an information entry mod- ule of the present invention.

In the figures: 1. Intelligent control center; 2. External environment monitoring module; 3. Information entry module; 4. Re- source management module; 5. Population flow simulation module; 6.

Data analysis and processing module; 7. Manual analysis and pro- cessing module; 8. Alarm module; 9. Temperature and humidity moni- toring module; 10. Crowd density monitoring module; 11. Dust con- tent monitoring module; 12. Noise monitoring module; 13. Traffic monitoring module; 14. Face recognition module; 15. Fingerprint entry module; 16. Human resource management module; 17. Power ap- paratus management module; 18. Medical staff flow simulation mod- ule; 19. Patient flow simulation module; and 20. Accompany nursing personnel flow simulation module.

DETAILED DESCRIPTION OF THE EMBODIMENTS

The technical solutions in the embodiments of the present in- vention will be clearly and completely described below with refer- ence to the accompanying drawings in the embodiments of the pre- sent invention. It is apparent that the described embodiments are only a part of, rather than all the embodiments of the present in- vention. Based on the embodiments of the present invention, all other embodiments obtained by those of ordinary skill in the art without creative efforts shall fall within the protection scope of the present invention.

Please refer to FIG. 1 to FIG. 4, an intelligent hospital management system includes an intelligent control center 1, an ex- ternal environment monitoring module 2, an information entry mod- ule 3 and a resource management module 4. The external environment monitoring module 2 is connected to the intelligent control center 1 via a monitoring line, and configured to monitor an external en- vironment of a hospital. The information entry module 3 is con- nected to the intelligent control center 1 via an entry line, and configured to enter national population information, external en- vironment data standards and real-time trajectory information of infectious diseases to ensure the integrity of information entry, and report to the nearest public security agency in time when de- tecting out unregistered persons or criminals, which may not only arrest criminals, but also effectively reduce the risk index of 5 the intelligent hospital where the system is installed. The re- source management module 4 is connected to the intelligent control center 1 via a management line, and configured to manage human re- sources and movement or operation of electronic apparatuses. The resource management module 4 is used in conjunction with the ex- ternal environment monitoring module 2 in actual use. The external environment monitoring module 2 is capable of monitoring the envi- ronment at different positions in the hospital, and transmitting data to the intelligent control center 1. The environment is ad- justed and managed in time by the resource management module 4 af- ter the data are analyzed and processed, so that the environment in the hospital may be more suitable, and the degree of intelli- gence is greatly increased.

The intelligent control center 1 is further connected to a data analysis and processing module 6 and a manual analysis and processing module 7. The data analysis and processing module 6 is configured to analyze and process data received by the intelligent control center 1, and give processing opinions. The manual analy- sis and processing module 7 is connected to the data analysis and processing module 6. The manual analysis and processing module 7 is configured to manually judge the processing opinions given by the data analysis and processing module 6, and output related in- structions after determining that the processing options are rea- sonable, thereby ensuring safety and accuracy of the management system, and avoiding judgment errors of the single data analysis and processing module 6.

The intelligent control center 1 is further connected to a population flow simulation module 5. The population flow simula- tion module 5 is used in conjunction with the information entry module 3, and configured to simulate a movement trajectory of a population entering the intelligent hospital, so that a trajectory of a population carrying infectious diseases may be determined, a source of infection and a contact population are convenient to de-

termine, and the safety is higher.

As an optimized technical solution of the present invention, as shown in FIG. 2, the external environment monitoring module 2 includes a temperature and humidity monitoring module 9, a crowd density monitoring module 10, a dust content monitoring module 11, a noise monitoring module 12, and a traffic monitoring module 13.

As an optimized technical solution of the present invention, as shown in FIG. 2, the temperature and humidity monitoring module 9 is specifically temperature and humidity detectors distributed at different positions of the intelligent hospital and configured to detect the temperature and humidity of different positions of the intelligent hospital, and transmit data to the intelligent control center 1 in real time via lines. When the temperature and humidity are not suitable, the resource management module 4 is controlled by the intelligent control center 1 in time for pro- cessing to enable the temperature and humidity to be more suita- ble. The crowd density monitoring module 10 is specifically a CCD camera, and is capable of analyzing the crowd density while carry- ing out shooting, and transmitting data to the intelligent control center 1 in real time via lines. An area with the high crowd den- sity is manual supervised. Personnel are dispatched in time to deal with abnormal situations, thereby increasing the degree of intelligence.

As an optimized technical solution of the present invention, as shown in FIG. 2, the dust content monitoring module 11 is spe- cifically air quality detectors distributed at different positions of the intelligent hospital and mainly configured to detect the dust content, and transmit data to the intelligent control center 1 in real time via lines. When the dust content is high, workers are dispatched through the intelligent control center 1 for dust reduction, or a spray device disposed in the hospital is started to settle dust in the air. The noise monitoring module 12 is spe- cifically noise monitors distributed at different positions of the intelligent hospital and configured to monitor the noise of the intelligent hospital, and transmit data to the intelligent control center 1 in real time via lines. When the noise is locally high, manual identification is carried out in time. If the high noise is caused by crowd gathering, workers are dispatched to evacuate the crowd, and if it is a traffic jam that is causing frequent honk- ing, the traffic may be evacuated. The specific operation may be selected according to the actual situation. The traffic monitoring module 13 is specifically monitoring cameras distributed at dif- ferent positions of the intelligent hospital and configured to transmit monitoring image data to the intelligent control center 1 in real time via lines, so as to monitor the road conditions in the hospital. Thus, traffic jams may be guided in time, and when an accident occurs, an alarm is given in time or medical staff are dispatched to deal with the accident quickly, thereby avoiding se- rious accidents in the hospital and improving the safety of the hospital.

As an optimized technical solution of the present invention, as shown in FIG. 4, the information entry module 3 includes a face recognition module 14 and a fingerprint input module 15. The face recognition module 14 and the fingerprint input module 15 are both disposed at each entrance of the intelligent hospital, and people may enter the hospital only after the identification is confirmed.

The intelligent control center 1 also manages a medical treatment system of the hospital. When a patient who has made an appointment in advance enters the hospital, automatic queuing may be achieved, which shortens the queuing time of the patient, and reduces the operation steps for the patient. The intelligent control center 1 may also be used for medical staff to go to work without punching in. In actual use, whether it is a patient, an escort or medical staff, the process of ID card identification is omitted, so that the patient may directly queue up for medical treatment without other additional steps, which effectively improves the efficiency of medical treatment, reduces crowd congestion, and greatly im- proves the degree of intelligence.

As an optimized technical solution of the present invention, as shown in FIG. 1, the resource management module 4 includes a human resource management module 16 and a power apparatus manage- ment module 17. The human resource management module 16 is specif- ically a voice player and an intelligent display. The intelligent control center 1 sends management requirements to the voice player and the intelligent display to manage manpower of each department after receiving processing results of the data analysis and pro- cessing module 6. In practical applications, security guards may be dispatched to guide the traffic jams. The power apparatus man- agement module 17 is configured to control start and shutdown of power apparatuses in the hospital, and may automatically turn off some apparatuses in unmanned areas, such as street lights, which may not only save electricity, but also monitor abnormal popula- tions. In actual use, criminals may be prevented from entering the hospital. When lawbreakers enter the hospital from a special loca- tion, the street lights may turn from dark to bright, and the in- dication effect may be stronger, which also has a good night trav- el experience for passers-by.

As an optimized technical solution of the present invention, as shown in FIG. 3, the population flow simulation module 5 in- cludes a medical staff flow simulation module 18, a patient flow simulation module 19 and an accompany nursing personnel flow simu- lation module 20. The population flow simulation module 5 is con- nected to a three-dimensional model of the intelligent hospital, and the medical staff flow simulation module 18, the patient flow simulation module 19 and the accompany nursing personnel flow sim- ulation module 20 are all built in the three-dimensional model.

Dense points are used as trajectory markers, and the trajectory markers are made to be more obvious by increasing the diameter of repeated points, and are generated by the intelligent system in actual use. The trajectory of a person in the hospital where the system is installed may be displayed by entering the corresponding

ID number. Thus, the source of infection or close contacts are better determined, which has an excellent control effect for pre- vention and control of infectious diseases.

As an optimized technical solution of the present invention, as shown in FIG. 1, both the data analysis and processing module 6 and the manual analysis and processing module 7 are connected to an alarm module 8 to provide a more timely processing method, so that the degree of intelligence is high, final results are more accurate due to manual participation in analysis and processing, and false alarms are avoided.

Finally, it should be noted that the above is only a pre- ferred embodiment of the present invention, and is not intended to limit the present invention. Although the present invention has been described in detail with reference to the above embodiment, for those skilled in the art, it is still apparent that the tech- nical solutions described in the above embodiment may be modified, or some technical features thereof may be equivalently replaced.

Any modifications, equivalent replacements, improvements, etc. made within the spirit and principles of the present invention shall fall within the protection scope of the present invention.

Claims (2)

CONCLUSIONS An intelligent hospital management system comprising an intelligent control center (1), an external environment monitoring module (2), an information input module (3) and a resource management module (4), wherein the external environment monitoring module (2) is controlled via a monitoring line is connected to the intelligent control center (1), and configured to monitor an external environment of a hospital, the information input module (3) is connected to the intelligent control center (1) via an input line, and is connected figured to input national population information, external environmental data standards and real-time trajectory information of infectious diseases, and the source control module (4) is connected to the intelligent control center (1) through a management line and is configured to control personnel and movement or operation of manage electronic devices; wherein the intelligent control center (1) is further connected to a data analysis and processing module (6) and a manual analysis and processing module (7), the data analysis and processing module (6) is configured to process data generated by the intelligent control center (1) to process and analyze, and provide processing advice, the manual analysis and processing module (7) is connected to the data analysis and processing module (6), and the manual analysis and processing processing module (7) is configured to manually review the processing recommendations provided by the data analysis and processing module (6) and execute related instructions after determining that the processing options are reasonable, to ensure the security and accuracy of to safeguard the management system; and wherein the intelligent control center (1) is further connected to a population flow simulation module (5), and the population flow simulation module (5) is used in combination with the information input module (3), and is configured to track a movement trajectory of a population entering the intelligent hospital, so that a trajectory of a population with infectious diseases can be determined, thereby identifying a source of infection and a contact population are easy to determine and safety is higher. An intelligent hospital management system according to claim 1, wherein the external environment monitoring module (2) is a temperature and humidity monitoring module (9), a crowd density monitoring module (10), a dust content monitoring module (11), a noise monitoring module (12), and a traffic monitoring module (13) to barrel.