CN112526222A - Handheld terminal system based on electromagnetic environment monitoring and monitoring method - Google Patents

Abstract

The invention discloses a handheld terminal system and a monitoring method based on electromagnetic environment monitoring, wherein the handheld terminal system comprises: the system comprises an equipment monitoring module, a task issuing module, a monitoring task planning module and a data management module; the handheld terminal system is used for monitoring at least one electromagnetic environment monitoring device; the equipment monitoring module is used for monitoring the equipment state in real time; the task issuing module is used for issuing a specified task to the electromagnetic environment monitoring equipment by a user; the task parameter adjusting submodule is used for adjusting task parameters of the task monitoring and planning submodule; the monitoring task planning module is used for planning a monitoring task by a user according to an actual occasion; the data management module is used for managing the acquired data of the electromagnetic environment monitoring equipment. The handheld terminal system has the functions of monitoring task planning, task issuing, equipment state monitoring and data management, and can realize short-distance control on equipment.

Description

Handheld terminal system based on electromagnetic environment monitoring and monitoring method

Technical Field

The invention relates to the field of handheld terminal systems, in particular to a handheld terminal system and a monitoring method based on electromagnetic environment monitoring.

Background

With the rapid development of short-distance low-power radio communication services and the popularization and use of a large number of new services combined with the internet in recent years, higher requirements are also put forward for the fine monitoring and management of radio spectrum resources, and the development direction of electromagnetic spectrum monitoring network systems in the future is changing from the traditional large-area monitoring system based on fixed-point monitoring to the grid monitoring sensing system based on a miniaturized monitoring station, so that the development and application of small/miniaturized electromagnetic environment monitoring equipment are driven. Generally, a miniature easy-to-use electromagnetic environment monitoring principle prototype consists of miniature electromagnetic environment monitoring equipment, data processing terminal software and handheld terminal software.

Aiming at the use requirements of spectrum data acquisition in a typical application scene, a hand-held terminal system is designed, which comprises a system architecture, an application interface and a communication protocol, and is used for completing the functions of monitoring task planning, task issuing, equipment state monitoring, data management and the like, and realizing short-distance control on equipment.

Disclosure of Invention

Based on the technical scheme, the invention aims to design a handheld terminal system aiming at the use requirement of spectrum data acquisition in a typical application scene, complete the functions of monitoring task planning, task issuing, equipment state monitoring, data management and the like, and realize short-distance control on equipment.

In order to achieve the above object, the present invention provides a handheld terminal system and a monitoring method based on electromagnetic environment monitoring, wherein the handheld terminal system is matched with an electromagnetic environment monitoring device to issue an instruction to the electromagnetic environment monitoring device, the electromagnetic environment monitoring device receives a task instruction issued by the handheld terminal system to complete data acquisition, and sends acquired data to a data processing terminal to complete an electromagnetic environment monitoring task, and the handheld terminal system includes: the system comprises an equipment monitoring module, a task issuing module, a monitoring task planning module and a data management module; the handheld terminal system is used for monitoring at least one electromagnetic environment monitoring device;

the equipment monitoring module is used for monitoring the equipment state in real time and comprises an equipment state monitoring submodule, a GPS position monitoring submodule, a collected data monitoring submodule, a storage space capacity monitoring submodule and a battery electric quantity monitoring submodule;

the task issuing module is used for issuing a specified task to the electromagnetic environment monitoring equipment by a user, and comprises a task monitoring and planning submodule, a task parameter adjusting submodule and a task confirmation issuing submodule, wherein the task monitoring and planning submodule is connected with the monitoring task planning module; the task parameter adjusting submodule is used for adjusting the task parameters of the task monitoring and planning submodule and issuing the adjusted task parameters to the task confirmation issuing submodule;

the monitoring task planning module is used for planning a monitoring task by a user according to an actual occasion and comprises a monitoring task template making submodule and a monitoring task template selecting submodule;

the data management module is used for managing the collected data of the electromagnetic environment monitoring equipment and comprises a data viewing submodule and a data operating submodule, wherein the data viewing submodule is used for viewing the current data collection condition, and the data operating submodule is used for deleting and emptying the collected data.

The handheld terminal system based on electromagnetic environment monitoring further comprises a wifi communication module, and the wifi communication module is used for connecting the handheld terminal system and the electromagnetic environment monitoring equipment.

The equipment monitoring module further comprises a relay protection device for remotely controlling the on-off of the electromagnetic environment monitoring equipment.

The monitoring task template comprises a fixed point acquisition task template and a mobile acquisition task template; the fixed-point acquisition task template is used in a fixed-point working mode, and in the working mode, the electromagnetic environment monitoring equipment is fixedly arranged at a specified place; the mobile acquisition task template is used in a mobile working mode, and in the working mode, the electromagnetic environment monitoring equipment is configured on workers and completes mobile acquisition tasks along with movement of the workers.

The task parameters comprise scanning frequency band, stepping, task start-stop time, sampling frequency band and acquisition interval distance.

The handheld terminal system is installed on an Android mobile phone and is displayed in the form of a mobile phone applet.

The electromagnetic environment monitoring equipment comprises a shell, a rear shell, and a partition board, a lithium battery, a core board and a switch board which are arranged inside the shell and the rear shell; the common antenna is attached to the inner side of the shell, and the switch board is arranged on the rear shell and electrically connected with the core board; the core board is electrically connected with the lithium battery; the miniature electromagnetic environment monitoring device completes automatic acquisition, preprocessing and storage of electromagnetic environment information according to a predetermined task by receiving a frequency spectrum monitoring task instruction.

The handheld terminal system sends a data acquisition instruction to the miniature electromagnetic environment monitoring equipment, the miniature electromagnetic environment monitoring equipment finishes data acquisition, sends the acquired data to the data processing terminal to finish data analysis, and realizes electromagnetic environment monitoring, wherein the monitoring method of the handheld terminal system comprises the following steps:

s1: monitoring the state of the equipment in real time through an equipment monitoring module, and acquiring equipment data;

s2: checking the current data acquisition condition, and deleting and clearing corresponding data according to the actual condition;

s3: the monitoring personnel select and load a task scene template according to the task type;

s4: the monitoring personnel adjust the task module on the basic template;

s5: generating an intelligent preferred recommendation scheme according to the adjusted monitoring task requirement;

s6: generating a code type task loading instruction according to a scheme selected by a monitoring person;

s7: code-based task load instructions are issued over the available communication link.

The beneficial effect of this application: aiming at the use requirements of frequency spectrum data acquisition in a typical application scene, a system architecture, an application interface and a communication protocol of a miniature easy-to-use electromagnetic environment monitoring handheld terminal system are realized, an operating system with the functions of monitoring task planning, task issuing, equipment state monitoring, data management and the like is completed, and short-distance control of equipment is realized.

Drawings

In order to more clearly illustrate the embodiments or technical solutions in the prior art of the present invention, the drawings used in the description of the embodiments or prior art will be briefly described below, and for those skilled in the art, other drawings can be obtained according to the structures of the drawings without creative efforts.

FIG. 1 is a functional block diagram of a handheld terminal system;

FIG. 2 is a schematic view of monitoring the status of the apparatus;

FIG. 3 is a task distribution flow chart;

FIG. 4 is a flowchart illustrating execution of a fixed point acquisition task template;

FIG. 5 is a flow chart of mobile acquisition task template execution;

FIG. 6 is a block diagram of an electromagnetic environment monitoring apparatus;

the implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

In order to more clearly understand the technical features, objects, and effects of the present invention, embodiments of the present invention will now be described with reference to the accompanying drawings.

As shown in fig. 1, in this embodiment, the present invention provides a handheld terminal system and a monitoring method based on electromagnetic environment monitoring, where the handheld terminal system is matched with an electromagnetic environment monitoring device to issue an instruction to the electromagnetic environment monitoring device, the electromagnetic environment monitoring device receives a task instruction issued by the handheld terminal system to complete data acquisition, and sends acquired data to a data processing terminal to complete an electromagnetic environment monitoring task, where the handheld terminal system includes: the system comprises an equipment monitoring module, a task issuing module, a monitoring task planning module and a data management module; the handheld terminal system is used for monitoring at least one electromagnetic environment monitoring device;

as shown in fig. 2, the device monitoring module is used for monitoring the device status in real time, and includes a device status monitoring submodule, a GPS location monitoring submodule, a collected data monitoring submodule, a storage space capacity monitoring submodule, and a battery power monitoring submodule;

as shown in fig. 3, the task issuing module is used for a user to issue a designated task to the electromagnetic environment monitoring device, and includes a task monitoring and planning sub-module, a task parameter adjusting sub-module and a task confirmation issuing sub-module, and the task monitoring and planning sub-module is connected to the monitoring task planning module; the task parameter adjusting submodule is used for adjusting the task parameters of the task monitoring and planning submodule and issuing the adjusted task parameters to the task confirmation issuing submodule;

the monitoring task planning module is used for planning a monitoring task by a user according to an actual occasion and comprises a monitoring task template making submodule and a monitoring task template selecting submodule;

the data management module is used for managing the collected data of the electromagnetic environment monitoring equipment and comprises a data viewing submodule and a data operating submodule, wherein the data viewing submodule is used for viewing the current data collection condition, and the data operating submodule is used for deleting and emptying the collected data.

The handheld terminal system based on electromagnetic environment monitoring further comprises a wifi communication module, and the wifi communication module is used for connecting the handheld terminal system and the electromagnetic environment monitoring equipment;

specifically, the WiFi communication module is an ESP8266EX, the ESP module integrates a 32-bit Tensilica processor, a standard digital peripheral interface, an antenna switch, a radio frequency balun, a power amplifier, a low noise amplifier, a filter, a power management module and the like, a peripheral circuit is simple, the working range can reach minus 40 degrees to plus 125 degrees, and ultra-low power consumption is achieved through multiple proprietary technologies.

The equipment monitoring module further comprises a relay protection device for remotely controlling the on-off of the electromagnetic environment monitoring equipment.

As shown in fig. 4 and 5, the monitoring task template includes a fixed-point acquisition task template and a mobile acquisition task template; the fixed-point acquisition task template is used in a fixed-point working mode, and in the working mode, the electromagnetic environment monitoring equipment is fixedly arranged at a specified place; the mobile acquisition task template is used in a mobile working mode, and in the working mode, the electromagnetic environment monitoring equipment is configured for workers and completes mobile acquisition tasks along with the movement of the workers;

specifically, the fixed-point task acquisition template is mainly applied to a fixed-point working mode, and after monitoring personnel lay equipment to a specified place, the monitoring personnel can quickly use handheld terminal software installed on a mobile phone to select the template and quickly issue tasks to the equipment; the mobile collection task template is mainly applied to a mobile working mode, monitoring personnel carry the equipment with the monitoring personnel, take a vehicle to carry out data collection along with the running route of the vehicle, and can quickly use handheld terminal software installed on a mobile phone by the monitoring personnel to select the template and quickly assign tasks to the equipment.

The task parameters comprise scanning frequency bands, stepping, task starting and stopping time, sampling frequency bands and acquisition interval distances;

specifically, according to the calculation of scanning starting frequency of 108MHz, ending frequency of 5GHz and scanning stepping of 25kHz, the storage space required by a frame of frequency spectrum data is about 290KB, and the frequency spectrum number acquired in the execution process of one monitoring task is related to the working mode of the equipment; for the fixed-point working mode, the acquisition interval time is calculated according to 10 minutes, namely, one frame of spectrum data is stored every 10 minutes, and the amount of the spectrum data stored in 120 hours is about 208 MB; for the "mobile operation mode", the total amount of spectral data collected in 120 hours (5 days) is about 1450MB, calculated by collecting spectral data every 100 meters for a total distance traveled per day of 100 kilometers.

The handheld terminal system is installed on an Android mobile phone and is displayed in the form of a mobile phone applet.

As shown in fig. 6, the electromagnetic environment monitoring device includes a housing and a rear case, and a separator, a lithium battery, a core board and a switch board disposed inside the housing and the rear case; the common antenna is attached to the inner side of the shell, and the switch board is arranged on the rear shell and electrically connected with the core board; the core board is electrically connected with the lithium battery; the miniature electromagnetic environment monitoring device completes automatic acquisition, preprocessing and storage of electromagnetic environment information according to a predetermined task by receiving a frequency spectrum monitoring task instruction.

The handheld terminal system sends a data acquisition instruction to the miniature electromagnetic environment monitoring equipment, the miniature electromagnetic environment monitoring equipment finishes data acquisition, sends the acquired data to the data processing terminal to finish data analysis, and realizes electromagnetic environment monitoring, wherein the monitoring method of the handheld terminal system comprises the following steps:

s1: monitoring the state of the equipment in real time through an equipment monitoring module, and acquiring equipment data;

s2: checking the current data acquisition condition, and deleting and clearing corresponding data according to the actual condition;

s3: the monitoring personnel select and load a task scene template according to the task type;

s4: the monitoring personnel adjust the task module on the basic template;

s5: generating an intelligent preferred recommendation scheme according to the adjusted monitoring task requirement;

s6: generating a code type task loading instruction according to a scheme selected by a monitoring person;

s7: code-based task load instructions are issued over the available communication link. A hand-held terminal system and a monitoring method based on electromagnetic environment monitoring are disclosed, the hand-held terminal system comprises: the system comprises an equipment monitoring module, a task issuing module, a monitoring task planning module and a data management module; the handheld terminal system is used for monitoring at least one electromagnetic environment monitoring device.

It should be added that the recommended configuration system of the handheld terminal system is above 5.0 android, the recommended configuration processors are cellcept series processors and kylin series processors, the recommended configuration system memory is above 4G, the recommended configuration storage space is above 16G, and the recommended configuration is installed in the gorgeon Mete 10.

The foregoing is illustrative of the preferred embodiments of this invention, and it is to be understood that the invention is not limited to the precise form disclosed herein and that various other combinations, modifications, and environments may be resorted to, falling within the scope of the concept as disclosed herein, either as described above or as apparent to those skilled in the relevant art. And that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (8)

1. The utility model provides a hand-held type terminal system based on electromagnetic environment monitoring, its characterized in that, hand-held type terminal system cooperatees with electromagnetic environment monitoring equipment, issues the instruction to electromagnetic environment monitoring equipment, and electromagnetic environment monitoring equipment receives the task instruction that hand-held type terminal system issued, accomplishes data acquisition to send the data of gathering to data processing terminal, accomplish the electromagnetic environment monitoring task, wherein, hand-held type terminal system includes: the system comprises an equipment monitoring module, a task issuing module, a monitoring task planning module and a data management module; the handheld terminal system is used for monitoring at least one electromagnetic environment monitoring device;

the equipment monitoring module is used for monitoring the equipment state in real time and comprises an equipment state monitoring submodule, a GPS position monitoring submodule, a collected data monitoring submodule, a storage space capacity monitoring submodule and a battery electric quantity monitoring submodule;

the task issuing module is used for issuing a specified task to the electromagnetic environment monitoring equipment by a user, and comprises a task monitoring and planning submodule, a task parameter adjusting submodule and a task confirmation issuing submodule, wherein the task monitoring and planning submodule is connected with the monitoring task planning module; the task parameter adjusting submodule is used for adjusting the task parameters of the task monitoring and planning submodule and issuing the adjusted task parameters to the task confirmation issuing submodule;

the monitoring task planning module is used for planning a monitoring task by a user according to an actual occasion and comprises a monitoring task template making submodule and a monitoring task template selecting submodule;

the data management module is used for managing the collected data of the electromagnetic environment monitoring equipment and comprises a data viewing submodule and a data operating submodule, wherein the data viewing submodule is used for viewing the current data collection condition, and the data operating submodule is used for deleting and emptying the collected data.

2. The electromagnetic environment monitoring-based handheld terminal system according to claim 1, wherein the electromagnetic environment monitoring-based handheld terminal system further comprises a wifi communication module, and the wifi communication module is used for connecting the handheld terminal system and the electromagnetic environment monitoring device.

3. The handheld terminal system based on electromagnetic environment monitoring of claim 1, wherein the device monitoring module further comprises a relay protection device for remotely controlling the electromagnetic environment monitoring device to be powered on or off.

4. The system of claim 1, wherein the monitoring task template comprises a fixed-point acquisition task template and a mobile acquisition task template; the fixed-point acquisition task template is used in a fixed-point working mode, and in the working mode, the electromagnetic environment monitoring equipment is fixedly arranged at a specified place; the mobile acquisition task template is used in a mobile working mode, and in the working mode, the electromagnetic environment monitoring equipment is configured on workers and completes mobile acquisition tasks along with movement of the workers.

5. The system of claim 4, wherein the task parameters include a scanning frequency band, a step, a task start-stop time, a sampling frequency band, and a collection interval distance.

6. The handheld terminal system based on electromagnetic environment monitoring as claimed in claim 1, wherein the handheld terminal system is installed in Android mobile phone and is presented in the form of mobile phone applet.

7. The system of claim 1, wherein the electromagnetic environment monitoring device comprises a housing and a rear case, and a separator, a lithium battery, a core board and a switch board arranged inside the housing and the rear case; the common antenna is attached to the inner side of the shell, and the switch board is arranged on the rear shell and electrically connected with the core board; the core board is electrically connected with the lithium battery; the miniature electromagnetic environment monitoring device completes automatic acquisition, preprocessing and storage of electromagnetic environment information according to a predetermined task by receiving a frequency spectrum monitoring task instruction.

8. The method for monitoring the handheld terminal system based on electromagnetic environment monitoring as claimed in any one of claims 1 to 7, wherein the handheld terminal system issues a data acquisition command to the miniature electromagnetic environment monitoring device, the miniature electromagnetic environment monitoring device completes data acquisition and sends the acquired data to the data processing terminal to complete data analysis, so as to implement electromagnetic environment monitoring, wherein the method for monitoring the handheld terminal system comprises the following steps:

s1: monitoring the state of the equipment in real time through an equipment monitoring module, and acquiring equipment data;

s2: checking the current data acquisition condition, and deleting and clearing corresponding data according to the actual condition;

s3: the monitoring personnel select and load a task scene template according to the task type;

s4: the monitoring personnel adjust the task module on the basic template;

s5: generating an intelligent preferred recommendation scheme according to the adjusted monitoring task requirement;

s6: generating a code type task loading instruction according to a scheme selected by a monitoring person;

s7: code-based task load instructions are issued over the available communication link.

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