CN115514781A - Internet of things data processing system - Google Patents

Abstract

The invention discloses an internet of things data processing system. Wherein, this system includes: the intelligent device at least comprises gateway equipment and at least runs a target application program, wherein the target application program is used for adapting to a communication protocol of the Internet of things equipment; the internet of things equipment is arranged in the hospital and is accessed into the hospital internet of things system by multiplexing the gateway equipment in the intelligent equipment, wherein the internet of things equipment is used for acquiring the specified information of a target object and transmitting the specified information to a server of the hospital internet of things system through the gateway equipment; and the server is communicated with the Internet of things equipment through the gateway equipment and is used for receiving the designated information transmitted by the gateway equipment. The invention solves the technical problems that the gateway equipment needs to be independently deployed, centralized display cannot be managed in a unified way and sign detection can be finished only by matching with the display equipment in the prior art.

Description

Internet of things data processing system

Technical Field

The invention relates to the field of data processing, in particular to an internet of things data processing system.

Background

With the rapid development of medical technology and medical equipment, a plurality of internet of things devices are introduced into a hospital, and medical workers can observe objects to be nursed in real time through the internet of things devices and treat the objects in time. However, as the number and types of internet-of-things devices increase, the following problems arise. On one hand, when different internet of things devices are deployed in a hospital, individual gateway devices need to be deployed, the deployment process is complicated, the cost is high, and manufacturers are incompatible; on the other hand, the internet of things devices are distributed in deployment, single in scene and incapable of being managed in a unified mode, centralized display is achieved, for example, blood pressure detection devices only measure and display blood pressure, infusion detection devices only pay attention to infusion conditions and the like, all the internet of things devices are difficult to combine into a complete solution, and especially for characteristic measurement type devices, physical sign measurement, display and alarm functions need to be completed together with display devices.

Aiming at the technical problems that in the prior art, gateway equipment needs to be deployed independently, centralized display cannot be managed in a unified mode, and sign detection can be completed only by matching with display equipment, an effective solution is not provided at present.

Disclosure of Invention

The embodiment of the invention provides an internet of things data processing system, which at least solves the technical problems that in the prior art, gateway equipment needs to be deployed independently, centralized display cannot be managed in a unified manner, and physical sign detection can be finished only by matching with display equipment.

According to an aspect of an embodiment of the present invention, there is provided an internet of things data processing system, which is applied to a hospital, and includes: the intelligent device at least comprises gateway equipment and at least runs a target application program, wherein the target application program is used for adapting to a communication protocol of the Internet of things equipment; the system comprises an Internet of things device, a server and a multiplexing intelligent device, wherein the Internet of things device is arranged in a hospital and is accessed to the Internet of things system of the hospital through a gateway device in the multiplexing intelligent device, and the Internet of things device is used for specifying information of a target object and transmitting the specified information to the server of the Internet of things system of the hospital through the gateway device; and the server is communicated with the Internet of things equipment through the gateway equipment and is used for receiving the designated information transparently transmitted by the gateway equipment.

In the embodiment of the invention, the internet of things data processing system is applied to hospitals, and the system comprises: the intelligent equipment at least comprises gateway equipment and at least runs a target application program, wherein the target application program is used for adapting to a communication protocol of the Internet of things equipment; the system comprises an Internet of things device, a server and a plurality of intelligent devices, wherein the Internet of things device is arranged in a hospital and is accessed to a hospital Internet of things system through gateway devices in the multiplexing intelligent devices, and the Internet of things device is used for acquiring specified information of a target object and transmitting the specified information to the server of the hospital Internet of things system through the gateway devices; and the server is communicated with the Internet of things equipment through the gateway equipment and is used for receiving the designated information transparently transmitted by the gateway equipment. Can realize using smart machine (like ward head of a bed smart machine or bedside smart machine) as gateway equipment, and then reduce the access cost of thing allies oneself with equipment, and simultaneously, above-mentioned smart machine is apart from the nearest gateway equipment of thing allies oneself with equipment distance, access stability is better, the access cost is lower, the communication protocol of the thing allies oneself with equipment of many producers is realized to usable target application adaptation, and then it is compatible to realize the thing allies oneself with equipment of many producers, and smart machine deploys numerous, also can keep stable data connection constantly when the thing allies oneself with equipment removes. The technical problems that in the prior art, the gateway equipment needs to be deployed independently, centralized display cannot be managed in a unified mode, and sign detection can be completed only by matching with display equipment are solved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the invention and do not constitute a limitation of the invention. In the drawings:

FIG. 1 is a block diagram of an alternative data processing system for Internet of things according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of an alternative scenario for an Internet of things data processing system according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of an alternative embodiment of an Internet of things data processing system according to the present invention;

FIG. 4 is a schematic diagram illustrating an access principle of an alternative IOT data processing system according to an embodiment of the present invention;

FIG. 5 is a block diagram of an alternative embodiment of an IOT data processing system according to the present invention.

Detailed Description

In order to make those skilled in the art better understand the technical solutions of the present invention, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that the terms "first," "second," and the like in the description and claims of the present invention and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the invention described herein are capable of operation in other sequences than those illustrated or described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

Example 1

According to an embodiment of the present invention, there is provided an internet of things data processing system, where the processing system is applied to a hospital, fig. 1 is a schematic structural diagram of an optional internet of things data processing system according to an embodiment of the present invention, and as shown in fig. 1, the system includes the following devices:

the intelligent device at least comprises a gateway device and at least runs a target application program, wherein the target application program is used for adapting to the communication protocol of the Internet of things device.

The intelligent equipment can be equipment arranged at the bedside of a sickbed, and the bedside equipment can be provided with a display screen and can realize the functions of voice, video and the like. The target application program runs on the intelligent device, the communication protocols of different internet of things devices can be determined according to the target application program, and the internet of things devices are accessed through the communication protocols corresponding to the internet of things devices.

In an optional implementation manner, taking the intelligent device as a bedside device as an example, the user a may talk back to the user B in real time through the bedside device, and the user a or the user B may interact with other systems in real time through the bedside device, and query related information in real time. When the user A is a to-be-nursed object and the user B is a doctor, the user A can make real-time talkback with the user B in an office by using the voice and video function of the bedside equipment, and inform the doctor of the current physical condition of the user A, so that the doctor can give a treatment scheme in time. When the user A is a to-be-nursed object and the user B is a nurse, the user A can inquire a hospitalization expense list or an examination result and the like through the bedside equipment, and meanwhile, the bedside equipment can intelligently remind the user A of hospital attention, appointment examination, payment, surgical advices, medicine taking and the like. The user B can inquire the basic information (electronic medical record, medical information and the like) of the object to be nursed, the suffered diseases and the like through the bedside equipment and can also check in through face brushing.

The intelligent device comprises a gateway device, wherein the gateway device is used for supporting conversion between different protocols and realizing interconnection between networks with different protocols, and in order to realize the network interconnection, the intelligent device runs a target application program and is used for controlling the gateway device to realize conversion of communication protocols between the intelligent device and the internet of things device, so that the intelligent device and the internet of things device can realize network interconnection.

The gateway equipment has the functions of equipment access, data transparent transmission and equipment management. The communication protocol may be a TCP/IP protocol, an IPX/SPX protocol, a NetBEUI protocol, or the like, for example, the communication protocol between a certain internet of things device and the intelligent device is a TCP/IP protocol, after the target application detects the protocol, the target application pairs the intelligent device with the communication protocol, and after the pairing is successful, the intelligent device and the internet of things device are interconnected.

In an optional implementation manner, communication interfaces such as bluetooth, WIFI or serial ports of the internet of things device are directly connected with the gateway device through a wired network, a serial port or a GPIO, or can be connected with the gateway device through Lora, WIFI, ZIgbee, bluetooth, near Field Communication (NFC for short) or the like, and the short-distance transmission wireless technology transmits biological information of an object to be nursed monitored by the internet of things device to the bedside device through the gateway device.

And the Internet of things equipment is arranged in the ward and the hospital, and is accessed into the hospital Internet of things system through the gateway equipment in the multiplexing intelligent equipment, wherein the Internet of things equipment is used for acquiring the specified information of the target object and transmitting the specified information to a server of the hospital Internet of things system through the gateway equipment.

The above-mentioned thing allies oneself with equipment can be a plurality of, for example, a plurality of thing allies oneself with equipment can be intelligent mattress, infusion monitoring device, sign collection system, positioner, intelligent wrist strap etc. respectively, and above-mentioned a plurality of thing allies oneself with the device and has different communication protocols, all can insert hospital thing networking system through multiplexing above-mentioned gateway equipment. Specifically, the target application program can be adapted to the communication protocol of each internet of things device, and then the protocol matching is performed with the intelligent device, so that the network interconnection between a single intelligent device and a plurality of internet of things devices is realized simultaneously.

The target object can be an object to be nursed, and the designated information is biological information of the object to be nursed; the target object can also be a medical staff, and the designated information is information such as sex, age, position and the like of the medical staff; the target object can also be an internet of things device, and the designated information is information such as the model, manufacturer and power of the internet of things device. And the server is communicated with the Internet of things equipment through the gateway equipment and is used for receiving the designated information transparently transmitted by the gateway equipment.

The server is provided with an access management module, a data storage module, a data analysis module, a centralized display module, a data providing module and the like, and can receive data, store data, analyze protocols, perform centralized display, manage data and the like through the modules. For example, in a hospital ward scenario, when the internet of things device detects real-time electrocardiogram data of a target object, the server communicates with the internet of things device through the gateway device, performs protocol analysis on the received electrocardiogram data to generate service data corresponding to the designated information, stores the received service data, manages the service data after a period of time, and displays the service data on the display device of the server.

In an optional implementation manner, the information transmission function between the intelligent device and the server is interrupted, at this time, the internet of things device temporarily stores the designated information of the monitored target object in the local bedside device through the gateway device, after the information transmission function between the intelligent device and the server is recovered, all biological information temporarily stored by the intelligent device can be transmitted to the server, the server performs protocol analysis after receiving the designated information, generates corresponding service data, manages the data, and displays the data on the display device of the server.

In another alternative embodiment, the layout of the patient room is described, and as shown in fig. 1 and fig. 2, in this example, the smart device is a bedside device, the target device is a subject to be cared, and the specified information is biological information of the subject to be cared. The bedside device 12 includes a bedside device integrated with the bedside screen 121, a bedside device integrated with the bedside screen 122, and a gateway device 123, where the bedside screen 121 and the bedside screen 122 are used for displaying specified information, and the internet of things device 11 may be an intelligent mattress, which is connected to the gateway device 123 of the bedside device 12 through a communication protocol, such as bluetooth, WIFI, or a serial port. The subject 14 lies on the intelligent mattress, the intelligent mattress contacts with the subject 14 to be nursed to transmit the biological information of the subject 14 to be nursed to the server 13 through the gateway device 123, and the server 13 generates the service data of the subject 14 to be nursed through protocol analysis and displays the service data on the display device of the server 13 in a centralized manner.

As can be seen from the above, in the embodiment of the present application, the system for processing internet of things data is applied to a hospital, and the system includes: the intelligent equipment at least comprises gateway equipment and at least runs a target application program, wherein the target application program is used for adapting to a communication protocol of the Internet of things equipment; the system comprises an Internet of things device, a server and a plurality of intelligent devices, wherein the Internet of things device is arranged in a hospital and is accessed to a hospital Internet of things system through gateway devices in the multiplexing intelligent devices, and the Internet of things device is used for acquiring specified information of a target object and transmitting the specified information to the server of the hospital Internet of things system through the gateway devices; and the server is communicated with the Internet of things equipment through the gateway equipment and is used for receiving the designated information transparently transmitted by the gateway equipment. Can realize using smart machine (like ward head of a bed smart machine or bedside smart machine) as gateway equipment, and then reduce the access cost of thing allies oneself with equipment, and simultaneously, above-mentioned smart machine is apart from the nearest gateway equipment of thing allies oneself with equipment distance, it is better to insert stability, the access cost is lower, the communication protocol of the thing allies oneself with equipment of multiple producers is realized to usable target application adaptation, and then it is compatible to realize the thing allies oneself with equipment of multiple producers, and smart machine deploys numerous, also can keep stable data connection constantly when thing allies oneself with equipment removal. The technical problems that in the prior art, the gateway equipment needs to be deployed independently, centralized display cannot be managed in a unified mode, and sign detection can be completed only by matching with display equipment are solved.

As an optional embodiment, the intelligent device is prestored with a plurality of communication protocols, and the intelligent device is further configured to, under the condition that an access request of the internet of things device is detected, obtain a device identifier of the internet of things device through the target application program, determine, according to the device identifier, a communication protocol corresponding to the internet of things device, and access the internet of things device through the communication protocol corresponding to the internet of things device.

The communication protocol pre-stored by the intelligent device can be a communication protocol corresponding to a plurality of internet of things devices, and each internet of things device has a corresponding device identifier. For example, the communication protocol prestored in the intelligent device is a TCP/IP protocol, an IPX/SPX protocol, and a NetBEUI protocol, the ward has three pieces of equipment connected to the internet, the device identifiers are a, B, and C, and have different communication protocols, the communication protocol of the equipment connected to the internet is a TCP/IP protocol, the communication protocol of the equipment connected to the internet is an IPX/SPX protocol, and the communication protocol of the equipment connected to the internet is a NetBEUI protocol. Similarly, the internet of things equipment B and the internet of things equipment C can also be accessed into the intelligent equipment in the above mode, and then are accessed into the hospital internet of things system, and the designated information of the target object acquired by the internet of things equipment is transmitted to the server of the hospital internet of things system.

As an optional embodiment, in the case that the intelligent device has a plurality of communication protocols in advance, and the plurality of communication protocols do not include a communication protocol corresponding to the internet of things device, the intelligent device initiates a protocol update request to the server, where the server updates the communication protocol pre-stored in the intelligent device, and the updated communication protocol includes the communication protocol corresponding to the internet of things device.

The multiple communication protocols pre-stored in the intelligent device do not include a communication protocol corresponding to a certain internet of things device. For example, in a hospital ward scene, because an internet of things device a is newly introduced into a hospital along with the replacement of the internet of things device, a communication protocol corresponding to the internet of things device a is a NetBEUI protocol, and communication protocols prestored in the intelligent device are a TCP/IP protocol and an IPX/SPX protocol. At this time, the intelligent device initiates a protocol update request to the server, and adds the communication protocol of the internet of things device a to the intelligent device. After the temporary-stored communication protocol of the intelligent device is updated, the Internet of things device A initiates an access request, after the intelligent device detects the access request of the Internet of things device A, the intelligent device obtains the device identification of the Internet of things device A through a target application program, then determines the communication protocol corresponding to the Internet of things device A, accesses the Internet of things device A into the intelligent device through the protocol, then accesses the Internet of things system of a hospital, and transmits the designated information of the target object obtained by the Internet of things device A to a server of the Internet of things system of the hospital.

As an optional embodiment, the target object is an object to be cared for, and the internet of things device further includes: the physical sign acquisition device is used for acquiring biological information of a to-be-nursed object; the sign acquisition device also multiplexes intelligent equipment as an upper computer, and the biological information is displayed, analyzed and alarmed through the intelligent equipment.

The above-mentioned sign collection system can include the following function: the system comprises an identification function, a voice prompt function and an information acquisition function. For example, in a hospital ward scene, a plurality of objects to be nursed are in the same ward, the physical sign acquisition device can identify the identities of the objects to be nursed through the identification function, and the physical sign acquisition process can be performed only after the objects to be nursed are confirmed by the identities. Sign collection system also can utilize voice prompt function suggestion to treat that the nursing subject carries out corresponding sign collection operation, treats that the nursing subject can make corresponding operation according to specific voice prompt, accomplishes the sign and gathers, and simultaneously at this in-process, also can remind the notice in the nursing subject collection process, and then safe, quick orderly completion sign is gathered. The sign acquisition device can acquire the sign information of the object to be nursed, such as the height, the weight and some clinical data of the object to be nursed through the information acquisition function.

When the sign acquisition device multiplexes the intelligent equipment and serves as an upper computer, the biological information acquired by the sign detection device is displayed through the display device of the intelligent equipment. For example, in a hospital ward scene, the subject to be nursed can view his/her own biological information in time through the display device of the smart device, for example, the subject to be nursed can know his/her own biological information such as height, weight and some clinical data.

In an optional implementation manner, the physical sign detecting device may detect biological information of the subject to be cared for, such as height, weight, body temperature, respiration, heart rate, blood sugar, blood pressure, blood oxygen, and the like, transmit the biological information to the intelligent device through the gateway device, and display the biological information on the display device of the intelligent device.

In another alternative embodiment, the subject to be treated needs to view clinical data of his blood sugar, blood pressure and blood oxygen. And the clinical data that actually detects still include height, weight, body temperature, breathing, rhythm of the heart etc. treat that the nursing subject can be based on the demand control smart machine of oneself and filter above-mentioned biological information, integrate, and then confirm appointed biological information through the binary data of sign detection device output. Carry out the protocol analysis to this appointed biological information, generate the business data that biological information corresponds, and show on the display device of smart machine, make treat that the nursing object can the concrete numerical value of audio-visual seeing, smart machine can be according to the reference range that appointed biological information corresponds to the business data that generates carries out the analysis simultaneously, if exceed above-mentioned reference range, sign detection device sends alarming function, make treat that the nursing object can know the current sign condition of oneself in real time, also can inform simultaneously for medical staff and then guarantee medical safety better.

As an optional embodiment, the intelligent device is further configured to perform protocol analysis on the collected specified part of the biological information, and generate service data corresponding to the biological information, where the display device is configured to display the service data.

The biological information is binary data output by the physical sign detection device, and the business data is data which can be displayed in figures or icons. For example, medical staff or an object to be cared can control the intelligent device to screen and integrate the biological information according to actual requirements, select specified part of the biological information to perform protocol analysis to form available medical data, and display the medical data on a display device of the intelligent device to provide intelligent auxiliary decisions for clinical diagnosis and nursing, so that medical safety is better guaranteed, and quality medical services are provided for the object to be cared.

As an optional embodiment, the intelligent device is further configured to obtain device information of the internet of things device, and transparently transmit the device information to the server; the internet of things data processing system further comprises: the system comprises an access platform of the internet of things equipment, wherein the access platform of the internet of things equipment is erected on a server and used for executing at least one of the following steps according to designated information and equipment information transparently transmitted by the server: displaying the designated information and/or the equipment information; and alarming based on the specified information and/or the equipment information.

The internet of things data processing system can centrally manage the internet of things equipment through the internet of things equipment access platform, uniformly display the internet of things data, and provide support for the internet of things data of other business systems. The device information of the internet of things device can be model, working power, working voltage, rated power, rated voltage, working duration and the like. And after the intelligent equipment transmits the acquired equipment information of the Internet of things equipment to the server, the intelligent equipment subscribes or pushes the equipment information to an Internet of things equipment access platform. In a similar way, the access platform of the internet of things equipment can also acquire the designated information of the target object acquired by the internet of things equipment.

In an optional implementation manner, the model of the device information of the internet of things device a acquired by the access platform of the internet of things device is abc, the working power is 2000 watts, the working voltage is 220 volts, the rated power is 2000 watts, the rated voltage is 220 volts, and the working time is 8 hours.

In another optional implementation manner, the model of the device information of the internet of things device a acquired by the internet of things device access platform is abc, the working power is 2500 watts, the working voltage is 380 volts, the rated power is 2000 watts, the rated voltage is 220 volts, and the working time is 8 hours.

In another optional implementation manner, in a hospital ward scenario, a target object is taken as an object to be nursed, and the specified information is biological information of the object to be nursed. The range of heart rate of a normal human body is pre-stored in the Internet of things device access platform for 60-90 times/minute, the blood oxygen saturation is more than or equal to 92%, the range of systolic blood pressure is 90-139mmHg, and the range of diastolic blood pressure is 60-89mmHg. The method comprises the steps that the access platform of the internet of things equipment acquires biological information of a to-be-nursed object A, for example, the heart rate is 70 times/minute, the blood oxygen saturation is 95%, the systolic blood pressure is 120mmHg, the diastolic blood pressure is 70mmHg, the access platform of the internet of things equipment determines that the biological information of the to-be-nursed object is in a normal state after being compared with pre-stored data, and at the moment, the access platform of the internet of things equipment can display the biological information of the to-be-nursed object A.

In another alternative embodiment, in a hospital ward scene, the target object is still taken as the object to be nursed, and the specified information is biological information of the object to be nursed. The range of heart rate of a normal human body is prestored in the access platform of the Internet of things device and is 60-90 times/minute, the blood oxygen saturation is more than or equal to 92%, the range of systolic blood pressure and diastolic blood pressure is 90-139mmHg, and the range of 60-89mmHg. The method comprises the steps that an Internet of things device access platform obtains biological information of a to-be-nursed object A, for example, the heart rate is 55 times/minute, the blood oxygen saturation is 90%, the systolic blood pressure is 150mmHg, the diastolic blood pressure is 70mmHg, the Internet of things device access platform determines that part of the biological information of the to-be-nursed object is in an abnormal state after being compared with pre-stored data, the Internet of things device access platform gives an alarm based on the biological information to inform relevant medical personnel, relative measures are taken according to the specific biological information, in an emergency situation, an emergency plan can be made according to the biological information, and the to-be-nursed object is diagnosed and treated in time, so that the life safety of the to-be-nursed object is ensured, and meanwhile, the condition of the to-be-nursed object is prevented from further worsening.

As an optional embodiment, the input device is in communication with the intelligent device, and is configured to receive the operation information, and transparently transmit operation data corresponding to the operation information to the server through the intelligent device.

The input device can be a keyboard, a voice device, a touch device and the like. For example, the input device is a keyboard, the keyboard is connected with or communicated with bedside equipment, a user can upload operation data corresponding to input operation information to the bedside equipment on the keyboard in a typing mode according to own needs, the intelligent device transparently transmits the operation data to the server, after the server receives the operation data, protocol analysis is carried out on multiple operation data, specific operation information is further determined, the server displays the operation information, and relevant personnel take corresponding measures according to displayed contents. Similarly, when the input device is a voice device or a touch device, the functions can be realized. Specifically, which function is selected may be determined according to the personal condition of the user. It should be noted that the user may be a subject to be cared for or a medical staff concerned.

As an alternative embodiment, the operational data includes at least one of: medication data, emotion data of a subject to be nursed, visit data of a ward, and ward examination data.

When the operation data is the medication data of the object to be cared, the medical staff may include the type of the medication taken by the object to be cared, the number or weight of the medication, and the specific time for the object to be cared to take the medication. After the medication data are transmitted to the server through the bedside equipment, medical staff can store the medication data and observe the physical conditions and the like of the to-be-nursed object after taking the medicine, and through storage for a period of time, the medical staff can determine the optimal medication data according to the medication data and the physical conditions after taking the medicine, so that the recovery of the to-be-nursed object is accelerated.

When the above operation data is the emotion data of the object to be nursed, the medical staff can take corresponding measures according to the emotion data of the object to be nursed, and if the object to be nursed is heavy in mood and violent in mood, the medical staff can dredge the mood of the object to be nursed in time, so that the condition of illness of the object to be nursed is worsened is avoided.

When the operation data is visiting data of the ward, medical staff can know which people visit the object to be nursed at what time through the visiting data of the ward. In an optional implementation manner, the operation data is emotion data of the object to be nursed and visit data of the ward, and medical staff judge the most suitable visit staff and visit time according to the person who visits, the visit time and the emotion data of the object to be nursed, so that recovery of the state of illness of the object to be nursed is facilitated.

The operation data is ward examination data, and the ward examination person may be daily ward examination data of a doctor or daily cleaning times of a cleaner. For example, the hospital management department can determine whether the ward has been ward round today through ward examination data, and if the ward has not been ward round, the ward management department can inform the ward round in time to complete the ward round. For another example, a hospital cleaning department may determine whether the ward is cleaned today through ward examination data, and if the ward is cleaned at the time of the cleaning, the hospital cleaning department may inform the relevant cleaning personnel in time to complete the cleaning work, so as to determine that the object to be cared has a clean and comfortable medical environment.

As an optional embodiment, the internet of things device further includes at least one of the following: intelligent mattress, infusion monitoring device and positioner.

The intelligent mattress has the functions of intelligent driving, simple interaction, real-time monitoring of physical function data, emergency rescue, life help seeking and the like. Taking the target object as the object to be nursed as an example, the intelligent home service system not only can provide intelligent home service for the object to be nursed, such as local massage and the like for the object to be nursed, but also can communicate with the intelligent device, monitor and record the biological information of the object to be nursed, and provide reference basis for medical staff in clinic.

The infusion monitoring device can objectively judge the infusion speed, the infusion time and the like, and further help medical staff to timely, accurately and efficiently complete the infusion supervision task of a to-be-nursed object. For example, the medical staff can determine the specific requirements of the object to be nursed according to the real transfusion condition of the object to be nursed, thereby avoiding the medical staff from running back and forth.

In an optional implementation mode, the infusion monitoring device can be provided with various information prompts, such as infusion ending early warning information, infusion speed early warning information and infusion calling information, so that medical staff can make preparations before nursing in time, uniform information distribution and management are realized, the distance between the medical staff and an object to be nursed is effectively shortened, the situation is more accurately mastered, the situation is timely processed, and nursing service is more in place.

In another optional implementation mode, the medical staff can monitor and alarm the infusion time at any time, for example, when the infusion time is within one minute, the intelligent device can send a red alarm signal to remind the medical staff of timely treatment, and simultaneously, the intelligent device sends a sound alarm to remind the object to be nursed and the family members of the patient to change the liquid.

In another alternative embodiment, the above-mentioned sign collecting device may be a wearable device, a smart wristband or a fingertip blood glucose meter, and may be worn on a certain part of the body of the subject to be cared for at any time. For example, the handheld device is a fingertip blood glucose meter, the fingertip blood glucose meter can be clamped on an index finger of the object to be nursed, and the fingertip blood glucose meter transmits the monitored biological information (such as blood oxygen content, heart rate and the like) of the object to be nursed to a server of a hospital internet of things system through the gateway device.

The positioning device has a positioning function. For example, the RFID electronic device harmless to the human body can be worn on the infant, the bedside equipment can receive the wireless radio frequency signal sent by the infant electronic device at any time, and the state of the electronic device is judged according to the signal, so that the position of the infant is monitored and tracked in real time. When the intelligent device receives a weak wireless radio frequency signal and reaches a preset value, alarm information is sent out in time, and the condition that the baby is stolen is avoided.

As an optional embodiment, the above-mentioned system for processing internet of things further includes a handheld device, where the handheld device is in communication with the server, and is used to obtain the specified information in the server.

The handheld device can be a medical handset, and medical personnel can acquire the specified information of the target object in the server through the handset. Taking a target object as an object to be nursed and the designated information as biological information of the object to be nursed as an example, the handheld device can acquire personal information, electronic medical records, operation information, medication data, clinical data and the like of a patient, and medical staff can track and record the illness state of the object to be nursed and check the medical records through the biological information, so that the patient can be treated.

As shown in fig. 3, the internet of things device layer has a plurality of internet of things devices, such as a smart mattress, an infusion monitoring device, a sign collecting device, a positioning device, a smart wristband, and other devices. The internet of things equipment on the internet of things equipment layer can be connected with the gateway equipment on the gateway layer through WiFi, zigbee, bluetooth, NFC, wired network and other modes of the network layer, wherein the internet of things equipment layer can be connected with the gateway equipment through a mode of direct connection of the equipment, can also be connected with the gateway equipment through a mode of a traditional gateway, and can also be connected with the gateway equipment included by the intelligent equipment. The platform layer is used for managing the designated information received by the server, for example, the platform layer can access and manage the designated information through the server, perform data storage and data analysis on the designated information, analyze a designated information protocol into service data and display the service data on display equipment connected with the server in a centralized manner, and provide the service data to an in-hospital service system, a centralized management platform of an association of things or a third-party service system of the application layer.

As shown in fig. 4, the equipment of the internet of things can be connected with the gateway device through GPIO, serial port, bluetooth, wiFi, lora, and other connection protocols, the gateway device can access the equipment of the internet of things to the gateway device through the connection protocols, and transmit the device information of the equipment of the internet of things or the specific information acquired by the equipment of the internet of things to the sign detection device or the server through the gateway device data, and the gateway device can perform device management on the equipment of the internet of things according to the target application program and the communication protocol. When the gateway device reports the designated information and the device information to the server, the server receives the binary data related to the designated information and the device information, and performs protocol analysis on the data to process the binary data into service data corresponding to the designated information and service data corresponding to the device information, wherein the service data can be numbers or icons. The server further displays the service data on a display device connected with the server in a centralized manner, and also can manage the service data and finally pushes the service data to a third-party service application for displaying in a third-party service application scene. After the sign acquisition device subscribes binary data of biological information related to sign acquisition through the gateway equipment, the sign acquisition device analyzes the protocol of the data, processes the data into business data corresponding to the biological information, and immediately displays the business data on the display equipment of the intelligent equipment.

As shown in fig. 5, the above-mentioned internet of things data processing system may be implemented by the following steps:

s301, implementing personnel starts to scan an IotHub Device (an Internet of things gateway Device);

s302, an IoMt Server (medical Internet of things Server) acquires an access rule of an IotHub Device, such as sn (machine code) and model;

s303, the IoMt Server returns a filtering rule to the IotHub Device by using Filters;

s304, the IotHub Device scans IOT (Internet of things) equipment;

s305, the IOT equipment feeds back a scanning response to the IotHub Device;

s306, the IotHub Device filters irrelevant IOT equipment according to rules and determines communication IOT equipment;

s307, the enforcement personnel carry out validity verification on the IOT equipment through the IotHub Device;

s308, the IoMt Server verifies the validity of the IotHub Device;

s309, a system administrator sends an access instruction of the auditing equipment to the IoMt Server;

s310, the IoMt Server sends an audit passing instruction to the MQTT Broker by using an MQTT protocol;

s311, the IotHub Device determines a Device access signal through an MQTT protocol issued by an MQTT Broker;

s312, establishing communication connection between the IotHub Device and the IOT Device;

s313, the IOT equipment transmits the specified information to the IotHub Device;

s314, the IotHub Device transmits the designated information to an MQTT Broker by using an MQTT protocol;

s315, the MQTT Broker forwards the data to the IoMt Server by using the rule engine.

The above-mentioned serial numbers of the embodiments of the present invention are merely for description and do not represent the merits of the embodiments.

In the above embodiments of the present invention, the descriptions of the respective embodiments have respective emphasis, and for parts that are not described in detail in a certain embodiment, reference may be made to related descriptions of other embodiments.

In the embodiments provided in the present application, it should be understood that the disclosed technology can be implemented in other ways. The above-described embodiments of the apparatus are merely illustrative, and for example, the division of the units may be a logical division, and in actual implementation, there may be another division, for example, multiple units or components may be combined or integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed coupling or direct coupling or communication connection between each other may be an indirect coupling or communication connection through some interfaces, units or modules, and may be electrical or in other forms.

The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one position, or may be distributed on a plurality of units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.

In addition, functional units in the embodiments of the present invention may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit. The integrated unit can be realized in a form of hardware, and can also be realized in a form of a software functional unit.

The integrated unit, if implemented in the form of a software functional unit and sold or used as a stand-alone product, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present invention, which is substantially or partly contributed by the prior art, or all or part of the technical solution may be embodied in a software product, which is stored in a storage medium and includes instructions for causing a computer device (which may be a personal computer, a server, or a network device) to perform all or part of the steps of the method according to the embodiments of the present invention. And the aforementioned storage medium includes: a U-disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a removable hard disk, a magnetic disk, or an optical disk, and various media capable of storing program codes.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (10)

1. An internet of things data processing system, which is applied to a hospital, and comprises:

the intelligent device at least comprises gateway equipment and at least runs a target application program, wherein the target application program is used for adapting to a communication protocol of the Internet of things equipment;

the internet of things equipment is arranged in the hospital and is accessed into the hospital internet of things system by multiplexing the gateway equipment in the intelligent equipment, wherein the internet of things equipment is used for acquiring the specified information of the target object and transmitting the specified information to a server of the hospital internet of things system through the gateway equipment;

and the server is communicated with the Internet of things equipment through the gateway equipment and is used for receiving the designated information transmitted by the gateway equipment.

2. The system according to claim 1, wherein the smart device has a plurality of communication protocols prestored therein, and is further configured to, when detecting an access request of the internet of things device, obtain a device identifier of the internet of things device through the target application program, determine a communication protocol corresponding to the internet of things device according to the device identifier, and access the internet of things device through the communication protocol corresponding to the internet of things device.

3. The system according to claim 2, wherein in a case where the plurality of communication protocols do not include a communication protocol corresponding to the internet of things device, the smart device initiates a protocol update request to the server, where the server updates the communication protocol pre-stored in the smart device, and the updated communication protocol includes the communication protocol corresponding to the internet of things device.

4. The system of claim 1, wherein the target object is an object to be cared for, and the device of the internet of things comprises:

the physical sign acquisition device is used for acquiring biological information of the to-be-nursed object;

the sign acquisition device also multiplexes the intelligent equipment as an upper computer, and the biological information is displayed, analyzed and alarmed through the intelligent equipment.

5. The system according to claim 4, wherein the smart device is further configured to perform protocol analysis on the collected specified part of the biological information, and generate the business data corresponding to the biological information.

6. The system according to claim 1, wherein the smart device is further configured to obtain device information of the internet of things device, and transmit the device information to the server; the internet of things data processing system further comprises:

the internet of things equipment access platform is erected on the server and used for executing at least one of the following steps according to the designated information and the equipment information which are transmitted by the server in a transparent mode:

displaying the specified information and/or the equipment information;

and alarming based on the specified information and/or the equipment information.

7. The system of claim 1, further comprising:

and the input equipment is communicated with the intelligent equipment and is used for receiving operation information and transmitting operation data corresponding to the operation information to the server through the intelligent equipment.

8. The system of claim 7, wherein the operational data comprises at least one of: medication data, emotion data of a subject to be nursed, visit data of a ward, and ward examination data.

9. The system of claim 4, wherein the equipment of the Internet of things further comprises at least one of: intelligent mattress, infusion monitoring device and positioner.

10. The system of claim 1, further comprising:

and the handheld device is communicated with the server and is used for acquiring the specified information in the server.

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