CN115378995B - User information uploading method based on middleware of Internet of things - Google Patents

Abstract

The invention relates to the field of information processing, and discloses a terminal device based on the management of middleware of the Internet of things in a middleware management platform of the Internet of things, wherein the terminal is used for pre-configuring floor signal information and extracting position information of identifiable WIFI access points for setting appointed WIFI access points, scanning the distribution of WIFI access point signals by utilizing the universality of the existing WIFI signal access network, effectively judging whether the terminal device is positioned indoors or outdoors by extracting WIFI signal identification information, and automatically acquiring and reporting corrected geographic positions by automatically filling GPS signal positions of short message messages and positions determined by the WIFI signals, so that the terminal device is beneficial to rapidly processing emergency situations and rapidly rescue.

Description

User information uploading method based on middleware of Internet of things

Technical Field

The invention relates to the field of information processing, in particular to a method for uploading user information based on an Internet of things middleware.

Background

The building of the hospital Internet of things system takes an Internet of things integrated management platform as a core, utilizes the Internet of things middleware to intensively collect and classify and manage all RFID equipment signals of the courtyard, and uploads hardware data information to application software to realize information interaction.

The middleware management platform provides a user to manage the bottom hardware information through an application layer, sets RFID card reader parameters, ZIGBEE static and dynamic nodes, WIFI nodes and the like, and can control the working states of various hardware. Therefore, the function that a user can control the Internet of things equipment through the service provided by the upper layer application is realized.

Through the management platform of middleware, the system transmission and configuration can be carried out through an Internet of things management system based on equipment configuration and the like in the Internet of things system of a hospital, the Internet of things system in the traditional hospital system is only internal management arranged in the hospital, but due to cross-regional hospital construction and emergency treatment taking precautions in medical treatment as a main part, the management system of the hospital is urgently required to be connected with external system configuration, and particularly in the transmission based on call rescue information, how to integrate alarm information of a user with the Internet of things system of the hospital becomes a problem to be solved urgently.

Disclosure of Invention

In order to solve one of the problems, the invention provides a method for uploading user information of an internet of things middleware.

The method comprises the steps that an Internet of things middleware management platform performs unified management configuration on equipment of a WIFI access point, opens a starting port of a middleware, receives data sent by a server and the equipment, and the middleware receives the data and manages the equipment;

The user terminal is configured in an Internet of things middleware management platform; when the user terminal acquires the rapid triggering alarm signal, accessing GPS position information at the latest moment in a cache list, filling the GPS position information into a short message, and starting a WIFI signal scanning interface of the user terminal;

The user terminal judges whether the user terminal is positioned indoors or not according to the list information of the WIFI access point signals acquired by the user terminal;

When the user terminal is judged to be located indoors, access information of a WIFI access point is obtained, the access information at least comprises ID information of the WIFI access point, and the regional information of the floor where the user terminal is located is determined according to the ID information of a WIFI access point signal list; and filling the longitude and latitude codes of the acquired floor information and GPS position information into a short message and sending the short message.

Preferably, the short message further includes ID information of a user terminal, where the ID information of the user terminal is used to identify the identity information of the user.

Preferably, the ID information of the user terminal is SIM card information of the terminal or a mobile phone number of the user or a MAC number of the user terminal.

Preferably, the acquiring the ID information of the WIFI access point determines the area information of the floor where the WIFI access point is located, specifically, the database of the server side stores the corresponding relation information of the code information of the specified WIFI access point and the position in advance, the terminal extracts the ID information of the WIFI access point, determines whether the ID information of the WIFI access point includes the specified WIFI access point information, and if the ID information of the specified WIFI access point accessed by the user terminal is used as the floor information area information.

Preferably, if the ID information of the obtained WIFI access point does not include the specified WIFI access point ID code information, the extracting clustering is performed according to the keywords in the ID information of the WIFI access point, and when the floor information is identified, the extracted floor area information is according to the size of the signal coverage area.

Preferably, the obtained WIFI access point ID information includes specified WIFI access point ID code information, and the user terminal is not connected to the specified WIFI access point ID information, and if the non-specified WIFI access point ID information currently connected to the user terminal cannot determine the floor area information, an instruction is sent to the specified WIFI access point, the power of the WIFI access point is amplified, and the terminal obtains possible floor area information according to the corresponding relationship between the signal strength and the position information; and meanwhile, clustering the ID information of the non-appointed WIFI access point, and correcting the floor area information according to the signal size of the scanning WIFI access point.

Preferably, the short message format is a 20 byte frame structure, and the short message includes a structure body, floor position information and an identification number.

Preferably, each specified WIFI access point stores a location code, where the location code is used to indicate the geographic location where the specified WIFI access point to which the location code belongs, and the location code corresponding to each geographic location is unique.

Preferably, the reserved field in the short message format is set to transmit an identification signal when the location information is ambiguous, and the adjacent location information is identification information of other identifiable user terminals. The method is applied to alarm services of a hospital system.

According to the scheme, the terminal is used for automatically acquiring and reporting corrected geographic positions by setting a designated WIFI access point, pre-configuring floor signal information and extracting position information of identifiable WIFI access points in combination with management configuration of equipment in the middleware of the Internet of things platform, the distribution of WIFI access point signals is scanned by utilizing the universality of the existing WIFI access network, whether the WIFI access point signals are located indoors or outdoors is effectively judged by extracting WIFI signal identification information, and the situation that specific addresses of the users cannot be clarified due to factors such as tension of alarming people is avoided by automatically filling GPS signal positions of short message messages and positions determined by WIFI signals; thereby being beneficial to rapidly processing emergency situations and rapidly rescuing.

Drawings

The features and advantages of the present disclosure will be more clearly understood by reference to the accompanying drawings, which are schematic and should not be construed as limiting the disclosure in any way.

Fig. 1 is a schematic diagram of an internet of things middleware platform to device configuration according to the present invention.

FIG. 2 is a schematic illustration of a process flow of the present invention.

Detailed Description

These and other features and characteristics of the present disclosure, as well as the methods of operation, functions of the related elements of structure, combinations of parts and economies of manufacture, may be better understood with reference to the following description and the accompanying drawings, all of which form a part of this specification. It is to be expressly understood, however, that the drawings are for the purpose of illustration and description only and are not intended as a definition of the limits of the disclosure. It will be understood that the figures are not drawn to scale. Various block diagrams are used in the present disclosure to illustrate various modifications of the embodiments according to the present disclosure.

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

In this context "/" means "or" for example, a/B may mean a or B; "and/or" herein is merely an association relationship describing an association object, and means that three relationships may exist, for example, a and/or B may mean: a exists alone, A and B exist together, and B exists alone.

It should be noted that, in order to clearly describe the technical solution of the embodiments of the present application, in the embodiments of the present application, the terms "first", "second", and the like are used to distinguish the same item or similar items having substantially the same function or effect, and those skilled in the art will understand that the terms "first", "second", and the like do not limit the number and execution order. For example, the first information and the second information are used to distinguish between different information, and not to describe a particular order of information.

It should be noted that, in the embodiments of the present invention, words such as "exemplary" or "such as" are used to mean serving as an example, instance, or illustration. Any embodiment or design described herein as "exemplary" or "e.g." in an embodiment should not be taken as preferred or advantageous over other embodiments or designs. Rather, the use of words such as "exemplary" or "such as" is intended to present related concepts in a concrete fashion.

Example 1

The middleware platform is used for monitoring data of different technical equipment adopted by different manufacturers and simultaneously supporting a plurality of terminal equipment to run simultaneously; converting the acquired data into a unified data format, and storing the unified data format into a database; and providing a data access interface taking web service as a standard; and unified management of the data of the Internet of things is realized.

The middleware management platform of the Internet of things provides information of the RFID card reader parameters, ZIGBEE static and dynamic nodes and WIFI nodes for a user to manage the bottom hardware information through an application layer, and the user hey can control the working states of various hardware. The implementation user can control the functions of the Internet of things equipment through the services provided by the upper layer application.

As shown in fig. 1, basic information of the hardware device is displayed, and modification of the device information is performed; and maintaining information of the hardware equipment, and checking information of all the hardware equipment through an equipment list to maintain basic information of the equipment.

In the middleware management platform of the Internet of things, unified management configuration is carried out on loading equipment of an access point accessed by WIFI, a starting port of the middleware is opened, normal running of a program is guaranteed, the port is opened and used for receiving data sent by the equipment, the middleware can receive the data, then equipment signals are processed, and then the data is forwarded.

And the middleware management platform provides preset specified WIFI access signals to map the information of the preset specified WIFI access points with the position codes. In practice, it is found that the mobile positioning information is mostly in an outdoor environment in an application scenario such as a rehabilitation center, but when the mobile positioning information is in an indoor environment, since the position information and the GPS signal are not in one dimension, the alarm information of the position of the mobile terminal cannot be accurately obtained, and the position information in the indoor environment needs to be determined on the basis of a two-dimensional map.

For this purpose, the mobile terminal and the middleware management platform store GPS signals in the mobile terminal, and when the GPS signals are in the preset regional floor information, judge whether the position information is indoor or outdoor, and the existing mobile terminal can only position in the two-dimensional regional position information by means of the GPS signals. But the positioning of the relevant position information does not distinguish whether it is an indoor or an outdoor signal. When the user's patient is in a different area, the user is performing an alarm in case of emergency when in the floor, and for GPS signals, it is only to locate the current building location, but the current room and the user's floor information cannot be accurately known. In this regard, accurate information about the current user is not available to the caregivers and rescue is likewise delayed.

The invention utilizes the spare resources of the short message interface in the middleware platform and the information of the WIFI access point, and the position information of the alarm information of the user can be ensured to be acquired by the service desk in real time by automatically filling the automatic short message format of the mobile terminal and rapidly triggering the alarm information when the user triggers the alarm information.

As shown in fig. 2, the method includes a short message sending module of the user terminal, when acquiring the GPS signal, starting the WIFI signal scanning interface, and acquiring historical WIFI access point information of different WIFI signals through the WIFI signal scanning interface.

And the user terminal judges the position information of the user terminal according to the strength and the historical access information of the WIFI signal acquired by the user terminal. And acquiring whether the user terminal is indoor or outdoor according to the area information of the WIFI signals, the WIFI signal list and the ID information of the WIFI signals.

It can be understood that, when the WIFI signal prompt is that the identification name of the WIFI access point is 2109, etc. in the WIFI signal list to be accessed, which is scanned in the user terminal, or the scanned ID information includes a large number of signal intensity distribution characteristics, for example, a large number of WIFI access points with signal intensities close to the same or within a preset threshold range, it can be determined that the user terminal is located indoors.

The user terminal can acquire accurate floor information according to the access information of the WIFI access point. Optionally, the floor information is obtained according to the ID identification signal of the WIFI access point, and when the extracted floor position information of the WIFI access point is obtained, the obtained floor information and the longitude and latitude of the GPS signal are encoded and filled into the short message encoding signal with the fixed format.

The short message information is information alarm short message, and is sent to the user terminal according to the triggering information of the user terminal alarm terminal. Optionally, the user terminal is a mobile phone terminal, and a short message sending module can be set in the mobile phone terminal, and the short message sending module reorganizes the automatic position information, adds the mobile phone number and longitude and latitude information of the user and the determined floor position information, synthesizes the mobile phone number and longitude and latitude information into the short message content to be finally sent, and forwards the short message to the alarm server station through the base station.

Preferably, the shortcut triggering mode of the user can correspond to different alert modes, and the accurate mode can adopt one-to-one or one-to-many modes to perform mapping. When the user triggers an alarm, the mobile terminal automatically acquires and combines the position information and sends the position information to the courtyard service platform.

The specific format of the short message, the frame structure is 24 bytes: one location structure (14 bytes) +rssi (3 bytes) +identification number ID (3 bytes);

The position structure includes { RESERVED CHAR [2]; reserving 2 bytes; float Latitude;4 bytes; float Longitude;4 bytes; float High;4 bytes; char RSSI [3];3 bytes

; Char identification number [3];3 bytes };20 bytes.

And the mobile terminal automatically fills the short message and sends the short message to the alarm service platform, and the alarm service platform obtains the position of the alarm user and the floor information to which the alarm user belongs after processing the short message.

Optionally, when judging to trigger the alarm information, the mobile terminal automatically aggregates or extracts the position information of the short messages when finding that the received position short messages contain a plurality of short messages, sets time stamp information in reserved bytes, and automatically performs filling combination according to the data structure so as to send the alarm short messages meeting the specification to the alarm server; after the alarm server receives the text short message, whether the text short message is the position short message can be judged by the information of the field in the reserved byte, and the data structure of a position structure body (14 bytes) +RSSI (3 bytes) +identification number ID (3 bytes) is obtained by reconstruction (RSSI is floor information of a sender, ID information is user identification such as a mobile phone number), and meanwhile, the data structure is transmitted to an alarm processing party. The alarm receiver can determine the position information of the alarm user according to the received information.

Optionally, the mobile terminal directly sends out an alarm through a short message form, when the mobile communication equipment gives an alarm, the mobile terminal automatically edits the longitude and latitude of the position and the alarm object into a short message, uniformly encrypts and sends the short message to a short message platform, and after the short message platform receives the short message, the short message platform automatically matches three fields of a mobile phone number, the longitude and latitude of the mobile communication equipment, the alarm suspicious floor information and the like according to the short message, distributes relevant information to a service desk center in a corresponding area, and associates the accurate position of an alarm person with the alarm person number, so that the service desk side can quickly give an alarm.

The specific steps for acquiring the floor information according to the WIFI signal are as follows: in the middleware platform of the Internet of things, for identifiable historical WIFI access signals, a server side sets a position code for each identifiable WIFI access point, and the position codes correspond to position information of the floor area and the like. Optionally, the WIFI access point capable of identifying the location information sends an inquiry request to determine whether the request is allowed to be set as the specified access point, and the inquiry request can be set at the location of the specified WIFI access point and tag information is added.

The specified WIFI access points can be controlled by remote instructions, each specified WIFI access point stores a position code, the position code is used for representing the geographic position of the specified WIFI access point to which the specified WIFI access point belongs, and the position code corresponding to each geographic position is unique.

The location code can be set when the appointed WIFI access point is deployed, and after the setting is completed, the location code and geographic location description information of the geographic location where the appointed WIFI access point is located are associated and stored in a local database of the server.

Alternatively, the deployment of the specified WIFI access point may be performed according to the corresponding relationship between the geographic location description information and the location code of different geographic locations stored in the remote server, and the corresponding location code may be stored in the specified WIFI access point.

For a non-designated WIFI access point, the user terminal obtains access information such as name information of the WIFI access point, a WIFI access module of the terminal scans surrounding information of WIFI accessible networks, obtains a user identification name of the WIFI access point information, performs feature extraction on the name of the WIFI signal according to the intensity of the signal, and performs region division according to the region range of the access size of the signal and the WIFI access point information, such as when judging that the WIFI signal contains floor information. For example, when the WIFI access point includes information of floors and rooms such as 1309, the mobile terminal obtains access sequences of the WIFI signals, and when 1309 is information with the largest signal, the information is sent to the alarm information by taking the information as a location center. When the signal of the accessed WIFI access point is not the largest, ID information of the WIFI access information with the largest signal, historical access IP address information of the WIFI access point and the like are obtained, registration information of a user is obtained according to the obtained ID information, and a location information area is determined according to the access record information of the user and the ID information. Alternatively, the geographical location information may be obtained by direct TCP/IP communication between mobile terminals, where the mobile terminals may listen on a fixed port, and if another device knows the IP address and port number of the device, the location information may be directly transmitted through TCP/IP network information. When the alarm terminal is triggered, the user terminal acquires the access information of the WIFI access point of the user, acquires the floor position information of the user according to the identification signal and the access IP address of the WIFI access information, and automatically fills a short message format to send to the alarm terminal.

Optionally, according to whether the terminal is accessed to the corresponding WIFI access point and the signal strength represented by the specified WIFI position at present when the scanned WIFI access point signal includes the specified WIFI access point information and the non-specified WIFI access point information, the position of the terminal may be determined.

Optionally, when the scanned WIFI access point signal includes a specified WIFI access point, but the identification information of the non-specified access point cannot be extracted and the location information is obtained, the alarm service desk may authorize or directly send a control command to the specified WIFI access information access point according to the feedback of the user terminal, adjust the signal strength, and locate the location floor location information of the alarm user terminal according to the repeated coverage or access range of the mapping table signal according to the range information of the specified WIFI access point in the floor coverage information. Specifically, when the specified WIFI access point is within the scanning range of the user terminal, the specified WIFI access point with the WIFI signal appearing in the scanning list may be instructed to be centered, and the WIFI signal is triggered to increase the transmitting power.

When the position information of the mobile terminal cannot be acquired through the WIFI signal, the user terminal triggers the adjacent communication mode, the information of the adjacent communication mode terminal can be established with the user terminal, the reserved field is set to transmit the identification information of other identifiable adjacent user terminals, the mobile terminal can acquire the position information determined by the adjacent terminal to fill the short message position information, and instead, the user terminal can also directly transmit the user information of the adjacent communication mode to the alarm service desk. The alarm service desk can call a user associated with the adjacent terminal to correct whether the alarm person information of the position service desk is accurate or not. In addition, in a practical application scenario, in a dangerous situation, the battery capacity of the mobile terminal is high, and the signal of the base station is relatively poor and the battery consumption is high because the environment in which the terminal is located is relatively special. The method can acquire the position information or the information of the adjacent communication user by adopting the direct connection adjacent communication mode, so that the position information is transmitted in an automatic filling mode, and the alarm efficiency of the user can be improved.

It will be appreciated by those skilled in the art that implementing all or part of the above-described embodiment method may be implemented by a computer program to instruct related hardware, where the program may be stored in a computer readable storage medium, and the program may include the above-described embodiment method when executed. Wherein the storage medium may be a magnetic disk, an optical disk, a Read-Only Memory (ROM), a random access Memory (Random Access Memory, RAM), a Flash Memory (Flash Memory), a hard disk (HARD DISK DRIVE, abbreviated as HDD), a Solid state disk (Solid-state-STATE DRIVE, SSD), or the like; the storage medium may also comprise a combination of memories of the kind described above.

As used in this disclosure, the terms "component," "module," "system," and the like are intended to refer to a computer-related entity, either hardware, firmware, a combination of hardware and software, or software in execution. For example, the components may be, but are not limited to: a process running on a processor, an object, an executable, a thread of execution, a program, and/or a computer. By way of example, both an application running on a computing device and the computing device can be a component. One or more components may reside within a process and/or thread of execution and a component may be localized on one computer and/or distributed between two or more computers. Furthermore, these components can execute from various computer readable media having various data structures thereon. The components may communicate by way of local and/or remote processes such as in accordance with a signal having one or more data packets (e.g., data from one component interacting with another component in a local system, distributed system, and/or across a network such as the internet with other systems by way of the signal).

It should be noted that the above embodiments are only for illustrating the technical solution of the present invention and not for limiting the same, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the technical solution of the present invention may be modified or substituted without departing from the spirit and scope of the technical solution of the present invention, which is intended to be covered in the scope of the claims of the present invention.

Claims (8)

1. A method for uploading user information based on middleware of the Internet of things is characterized by comprising the following steps:

The method comprises the steps that an Internet of things middleware management platform performs unified management configuration on equipment of a WIFI access point, opens a starting port of a middleware, receives data sent by a server and the equipment, and the middleware receives the data and manages the equipment;

The user terminal is configured in the middleware management platform of the Internet of things; when the user terminal acquires the rapid triggering alarm signal, accessing GPS position information at the latest moment in a cache list, filling the GPS position information into a short message, and starting a WIFI signal scanning interface of the user terminal;

The user terminal judges whether the user terminal is positioned indoors or not according to the list information of the WIFI access point signals acquired by the user terminal;

When the user terminal is judged to be located indoors, access information of a WIFI access point is obtained, the access information at least comprises ID information of the WIFI access point, and when the signal of the WIFI access point accessed by the user terminal is maximum, the area information of the floor where the user terminal is located is determined according to the ID information of the WIFI access point; filling the longitude and latitude of the acquired floor information and GPS position information into a short message in a coding way and sending the short message; when the WIFI access point signal accessed by the user terminal is not the largest, acquiring ID information of WIFI access information with the largest signal and historical access IP address information of the WIFI access point, acquiring registration information of the user according to the acquired registration information, and determining a position information area according to the user access record information and the ID information;

The obtained WIFI access point ID information comprises appointed WIFI access point ID coding information, the user terminal is not accessed to the appointed WIFI access point, the non-appointed WIFI access point ID information accessed by the user terminal at present cannot determine floor area information, an instruction is sent to the appointed WIFI access point, the power of the WIFI access point is amplified, and the terminal obtains possible floor area information according to the corresponding relation between signal intensity and position information; meanwhile, clustering ID information of the non-appointed WIFI access point, and correcting floor area information according to the signal size of the scanning WIFI access point;

When the position information of the user terminal cannot be acquired through the WIFI signal, the user terminal triggers a proximity communication mode, acquires information of other user terminals establishing the proximity communication mode with the user terminal, sets a reserved field to transmit identification information of the other user terminals which can be identified nearby, acquires the position information determined by the other adjacent user terminals, fills the position information in the short message, sends the position information to an alarm service desk, calls an associated user of the user terminal adjacent to the user terminal, and corrects the position information of an alarm person.

2. The method of claim 1, wherein: the short message further includes ID information of a user terminal, and the ID information of the user terminal is used to identify the identity information of the user.

3. The method of claim 2, further characterized by: the ID information of the user terminal is SIM card information of the terminal or a mobile phone number of the user or a MAC number of the user terminal.

4. A method as claimed in claim 3, further characterized by: the method comprises the steps that ID information of a WIFI access point is obtained to determine the area information of a floor where the WIFI access point is located, specifically, corresponding relation information of coding information of the appointed WIFI access point and the position is stored in a database of a server side in advance, the terminal extracts the ID information of the WIFI access point, whether the ID information of the WIFI access point comprises the appointed WIFI access point information or not is judged, and if the ID information of the appointed WIFI access point accessed by a user terminal is used as floor information area information.

5. The method as recited in claim 4, further characterized by: if the ID information of the WIFI access point does not comprise the ID coding information of the appointed WIFI access point, extracting and clustering are carried out according to keywords in the ID information of the WIFI access point, and when floor information is identified, the extracted floor area information is according to the size of a signal coverage area.

6. The method of claim 5, further characterized by a short message format of 20 bytes of frame structure, said short message including a structure, floor location information and identification number.

7. The method of claim 6, further characterized by: each specified WIFI access point stores a position code, and the position code is used for indicating the geographic position of the specified WIFI access point to which the specified WIFI access point belongs, and the position code corresponding to each geographic position is unique.

8. The method of any of claims 1-7, further characterized by: the method is applied to alarm services of a hospital system.