CN107689990A - A kind of data reporting method of monitoring terminal - Google Patents
A kind of data reporting method of monitoring terminal Download PDFInfo
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- CN107689990A CN107689990A CN201710733132.9A CN201710733132A CN107689990A CN 107689990 A CN107689990 A CN 107689990A CN 201710733132 A CN201710733132 A CN 201710733132A CN 107689990 A CN107689990 A CN 107689990A
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L67/00—Network arrangements or protocols for supporting network services or applications
- H04L67/50—Network services
- H04L67/60—Scheduling or organising the servicing of application requests, e.g. requests for application data transmissions using the analysis and optimisation of the required network resources
- H04L67/63—Routing a service request depending on the request content or context
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01D—MEASURING NOT SPECIALLY ADAPTED FOR A SPECIFIC VARIABLE; ARRANGEMENTS FOR MEASURING TWO OR MORE VARIABLES NOT COVERED IN A SINGLE OTHER SUBCLASS; TARIFF METERING APPARATUS; MEASURING OR TESTING NOT OTHERWISE PROVIDED FOR
- G01D9/00—Recording measured values
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- Computer Networks & Wireless Communication (AREA)
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Abstract
The invention provides a kind of data reporting method of monitoring terminal, applied to ground quality detection, comprise the following steps:Monitoring terminal carries out address detected to obtain detection data with predetermined period of time;And obtain detection data and judge whether existing data record afterwards, when data record be present by the detection data currently gathered compared with data record, and the difference of acquisition is judged whether to be more than default activation threshold value;If data record existing for original is deleted, preserved current detection data as new data record;Current detection data are sent to monitoring service end if not, terminate this acquisition operations, monitoring terminal judge current detection data reach one it is default report interval after, detection data are sent to monitoring service end.The beneficial effect of its technical scheme is, overcomes collection and directly transmission that monitor terminal in the prior art only lays particular emphasis on data, wherein also including invalid data, causes service end the problem of load excessive occur.
Description
Technical field
The present invention relates to geology detection technique field, more particularly to a kind of data reporting method of monitoring terminal.
Background technology
For some mountain areas, often because geological structure complicated geological disaster takes place frequently, and brought sternly to people's lives and properties
The destruction of weight, existing is using monitoring and the side administered to main geological disaster point to the preventing and treating of geological disaster and administering method
Formula, it patrols mainly by manpower, therefore big human input, poor in timeliness be present, finds the problem of dangerous situation early warning cycle is long, in addition
Also have and set monitoring terminal to be detected using in the region that geological disaster takes place frequently, and monitoring terminal common at present, there is
The defects of following:Using transfer mode gathered data, the collection and directly transmission of data are only laid particular emphasis on, for invalid number
According to also directly pushing to Surveillance center.Once there are emergency situations, the data monitored are more huge at the scene of monitored area, its
In mix the greatly invalid or even data message that can mislead, without corresponding pretreatment and conversion, can make
Server load into Surveillance center is excessive, ties down emergency command efficiency.
The content of the invention
For the above mentioned problem that quality detection and existing monitoring terminal are respectively present over the ground in the prior art, one is now provided
Kind is intended to carry out analysis judgement in advance to the detection data of monitoring terminal collection, and is uploaded after default correlated condition is met
To monitoring service end, efficiently solve existing monitoring terminal and be sent directly to service end after coherent detection data are gathered and make
It is huge into data volume, the data reporting method of server load problems of too.
Concrete technical scheme is as follows:
A kind of data reporting method of monitoring terminal, applied to ground quality detection, it is characterised in that including:
Monitoring terminal, and the monitoring service end being remotely connected with the monitoring terminal;Specifically include following steps:
Step S1, described monitoring terminal carries out address detected detection to obtain a detection data with a predetermined period of time;
Step S2, described monitoring terminal judges whether existing on the detection after the detection data are obtained
The data record of data, and enter the detection data currently gathered with the data record when the data record be present
Row compares, to obtain one first comparative result;
Step S3, judge whether first comparative result is more than a default activation threshold value;
If so, perform step S4;
If it is not, perform step S6;
Step S4, described monitoring terminal deletes the data record existing for original, and the current detection data are made
Preserved for new data record;
Step S5, described monitoring terminal sends current detection data to the monitoring service end, terminates this and adopts
Collection operation, and return to step S1;
Step S6, the monitoring terminal judge the current detection data reach one it is default report interval after, ought
The preceding detection data are sent to the monitoring service end, terminate this acquisition operations and return to step S1.
Preferably, in the step S2, if the monitoring terminal does not deposit the data record of the detection data, including
Following steps:
Step A1, the detection data currently gathered first are preserved as data record;
Step A2, the detection data gathered first are sent to the service end, and terminates this acquisition operations;
Step A3, return to step S1.
Preferably, the detection sensor of the monitoring terminal connection includes:
Inclinometer, the detection data of the inclinometer collection are the inclination angle value of current geology;
And/or
Indicator water gage, the detection data of the indicator water gage collection are the water level value of current geology;
And/or
Water gage is measured, the detection data of the amount water gage collection are the water depth value of current geology;And/or
Earth pressure test meter, the detection data of the earth pressure test meter collection are the soil pressure force value of current geology;
And/or
Osmometer, the detection data of the osmometer collection are the underground water place value of current geology.
Preferably, the monitoring terminal is filtered processing first to the detection data gathered each time, to obtain
The detection data after filtering process.
Preferably, the monitoring terminal also includes, the method for obtaining the positional information of the monitoring terminal, specifically include with
Lower step:
Step B1, whether described monitoring terminal detects the vibration of itself more than a predetermined threshold value;
If so, perform step B2;
If it is not, return to step B1;
Step B2, described monitoring terminal obtains the position coordinates of current location;
Step B3, described monitoring terminal judges whether existing on the position after the position coordinates is obtained
The position record of coordinate, and when the position record be present, the position coordinates currently obtained and the position are recorded
Through being compared, to obtain the second comparative result;
Step B4, described monitoring terminal judges whether second comparative result is more than one second predetermined threshold value;
If so, perform step B5;
If it is not, then return to step B1;
Step B5, the position record deletion that the monitoring terminal will preserve, the position currently obtained is sat
It is denoted as being preserved for new position record;
Step B6, described monitoring terminal sends the position coordinates currently obtained to the monitoring service end, and returns
Return step B1;
Preferably, in the step B3, if the monitoring terminal does not deposit the position record, comprise the following steps:
Step C1, described monitoring terminal records the position coordinates currently obtained first as the position, and protects
Deposit;
Step C2, the position coordinates gathered first is sent to the service end, and terminates this acquisition operations;
Step C3, return to step B1.
Preferably, wirelessly communicated between the monitoring terminal and the service end.
Preferably, the monitoring terminal provides a processing unit, locating unit and to positioning unit power supply
One first power supply, the processing unit, which controls the positioning unit to obtain the method for the position coordinates, includes following step
Suddenly:
Step D1, described processing unit is by sending one first enabled instruction to first power supply unit, so that described
First power supply unit is to electric on the positioning unit;
Step D2, for described positioning unit after the position coordinates is successfully obtained, the processing unit sends one first electricity
Source out code is to second power supply unit;
Step D3, described second power supply unit disconnects power supply after first power-off instruction is received.
Preferably, the monitoring terminal provides a processing unit, detection sensor and powered to the detection sensor
One first power supply unit;
The processing unit control the method for the detection data that the sensor collection obtains current geology include with
Lower step:
Step E1, described processing unit within the scheduled time send one second enabled instruction to described second supply
Electric unit, so that second power supply unit is to electric in the detection sensor;
Step E2, for described detection sensor after successful acquisition obtains the detection data, the processing unit sends one
Second source out code is to second power supply unit;
Step E3, described second source unit disconnects power supply after receiving the second source and closing.
Preferably, a client is also provided, is connected with the monitoring service end, the client is serviced by the monitoring
End authorizes access after, the testing number that the monitoring service end is sent is obtained in the monitoring service end according to this and institute's rheme
Put coordinate.
Above-mentioned technical proposal has the following advantages that or beneficial effect:Can be by detection terminal in advance to the detection data of collection
Analyzed and processed, and sent after correlated condition is met to monitoring service end, and then can ensure to monitor service end pair
The geological state monitored of monitoring terminal is accomplished timely to understand, and overcomes monitoring terminal in the prior art and is only responsible for gathering
Detection data send to service end, the data of reception are analyzed by service end, and caused by the data volume that sends it is huge
Greatly, and there is a variety of useless data, the defects of load excessive being caused to service end.
Brief description of the drawings
With reference to appended accompanying drawing, more fully to describe embodiments of the invention.However, appended accompanying drawing be merely to illustrate and
Illustrate, and be not meant to limit the scope of the invention.
Fig. 1 is a kind of flow chart of the embodiment of the data reporting method of monitoring terminal of the present invention;
Fig. 2 is in a kind of embodiment of the data reporting method of monitoring terminal of the present invention, on it will gather first described in
Detect flow chart of the data as data record;
Fig. 3 is in a kind of embodiment of the data reporting method of monitoring terminal of the present invention, on by the positional information of acquisition
Report to the flow chart of monitoring service end;
Fig. 4 is in a kind of embodiment of the data reporting method of monitoring terminal of the present invention, on it will gather first described in
The flow chart that position coordinates records as position;
Fig. 5 is in a kind of embodiment of the data reporting method of monitoring terminal of the present invention, controls and positions on processing unit
Unit obtains the flow chart of the method for position coordinates;
Fig. 6 is in a kind of embodiment of the data reporting method of monitoring terminal of the present invention, controls and senses on processing unit
Device collection obtains the flow chart of the method for the detection data of current geology.
Embodiment
Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is carried out clear, complete
Site preparation describes, it is clear that described embodiment is only part of the embodiment of the present invention, rather than whole embodiments.It is based on
Embodiment in the present invention, those of ordinary skill in the art obtained on the premise of creative work is not made it is all its
His embodiment, belongs to the scope of protection of the invention.
It should be noted that in the case where not conflicting, the feature in embodiment and embodiment in the present invention can phase
Mutually combination.
The invention will be further described with specific embodiment below in conjunction with the accompanying drawings, but not as limiting to the invention.
Technical scheme includes a kind of data reporting method of monitoring terminal.
A kind of embodiment of the data reporting method of monitoring terminal, applied to ground quality detection, wherein, including:
Monitoring terminal, and the monitoring service end being remotely connected with monitoring terminal;
As shown in figure 1, specifically include following steps:
Step S1, monitoring terminal carries out ground quality detection to obtain a detection data with a predetermined period of time;
Step S2, monitoring terminal judges whether the existing data note on detecting data after detection data are obtained
Record, and when data record be present by the detection data currently gathered with data record compared with, one first compared with acquisition
As a result;
Step S3, judge whether the first comparative result is more than a default activation threshold value;
If so, perform step S4;
If it is not, perform step S6;
Step S4, monitoring terminal deletes data record existing for original, remembers current detection data as new data
Record preserves;
Step S5, monitoring terminal sends current detection data to monitoring service end, terminates this acquisition operations, and
Return to step S1;
Step S6, monitoring terminal judge current detection data reach one it is default report interval after, by current detection
Data are sent to monitoring service end, terminate this acquisition operations and return to step S1.
For of the prior art, monitoring terminal only lays particular emphasis on the collection and directly transmission of data, for invalid data
Also directly push in the service end of Surveillance center, the service that in turn results in needs data volume to be processed huge, load excessive occurs
The problem of.
In the present invention, rational monitoring sensor frequency acquisition can be set according to different monitoring types, meet user couple
Sensor monitoring frequency (the more new demand of object state), and alarm triggering threshold values accordingly is set and reports interval (as often
It 1 group, can be set), report interval in (such as daily 1 group, i.e., in 24h) if the detection data monitored do not have significant change
Or do not reach triggering threshold values i.e. according to reporting interval to be reported, but detection sensor is gathering by fixed frequency all the time
More new object state, once the first comparative result i.e. both differences for monitoring to detect data and a upper data record exceed
Threshold values is triggered, is sent immediately, can so ensure frequency acquisition it is also ensured that to object state being real-time perception.
In a kind of preferably embodiment, in step s 2, if monitoring terminal does not deposit the data record of detection data, such as
Shown in Fig. 2, then comprise the following steps:
Step A1, the detection data currently gathered first are preserved as data record;
Step A2, the detection data gathered first are sent to service end, and terminates this acquisition operations;
Step A3, return to step S1.
In above-mentioned technical proposal, typically the detection data gathered first are preserved as data, and it is later every
The data record that the detection data once gathered can be all compared as next detection data.
In a kind of preferably embodiment, the detection sensor of monitoring terminal connection includes:
Inclinometer, the detection data of inclinometer collection are the inclination angle value of current geology;
In a kind of preferably embodiment, the detection sensor of monitoring terminal connection includes, indicator water gage, radar water
The detection data of position meter collection are the water level value of current geology;
In a kind of preferably embodiment, the detection sensor of monitoring terminal connection includes, and measures water gage, measures water gage
The detection data of collection are the water depth value of current geology;
In a kind of preferably embodiment, the detection sensor of monitoring terminal connection includes, earth pressure test meter, soil pressure
The detection data of power tester collection are the soil pressure force value of current geology;
In a kind of preferably embodiment, the detection sensor of monitoring terminal connection includes, osmometer, osmometer collection
Detection data be current geology underground water place value.
, it is necessary to which explanation, what is provided is the coherent detection sensor of quality detection over the ground in above-mentioned technical proposal, but not
This is confined to, can also include being the other detection sensor types for being applied to ground quality detection.
In a kind of preferably embodiment, monitoring terminal is filtered place first to the detection data gathered each time
Reason, to obtain the detection data after filtering process.
In above-mentioned technical proposal, in order to avoid itself measurement error of the detection sensor in detection terminal, influence to monitoring
The collection result of environment, the monitoring terminal are filtered place using Weighted Average Algorithm to the detection data of every wheel collection
Reason, to obtain the detection data after filtering process.
In a kind of preferably embodiment, monitoring terminal also includes, the method for obtaining the positional information of monitoring terminal, such as
Shown in Fig. 3, following steps are specifically included:
Step B1, whether monitoring terminal detects the vibration of itself more than a predetermined threshold value;
If so, perform step B2;
If it is not, return to step B1;
Step B2, monitoring terminal obtains the position coordinates of current location;
Step B3, monitoring terminal judges whether that the existing position on position coordinates is remembered after position coordinates is obtained
Record, and when existence position records, the position coordinates currently obtained is recorded compared with position, compared with obtaining second
As a result, the second comparative result is the difference between current position coordinates and position coordinates record;
Step B4, monitoring terminal judges whether the second comparative result is more than one second predetermined threshold value;
If so, perform step B5;
If it is not, then return to step B1;
Step B5, the position record deletion that monitoring terminal will preserve, using the position coordinates currently obtained as new position
Record is put to be preserved;
Step B6, monitoring terminal sends the position coordinates currently obtained to monitoring service end, and return to step B1.
, can be by setting positioning unit, such as Big Dipper positioning unit, the monitoring terminal in monitoring terminal in above-mentioned technical proposal
Integrated big-dipper satellite burglary-resisting system, integrate Big Dipper positioning chip, mated condition detecting sensor and logical algorithm and form a set of north
Struggle against anti-theft tracking function, can be returned after monitoring terminal is stolen by real-time position coordinates to equipment trace playback, so as to root
Stolen equipment is recovered according to positional information.
In a kind of preferably embodiment, in step B3, if monitoring terminal does not deposit position record, as shown in figure 4, then
Comprise the following steps:
Step C1, monitoring terminal records the position coordinates currently obtained first as position, and preserves;
Step C2, the position coordinates gathered first is sent to service end, and terminates this acquisition operations;
Step C3, return to step B1.
In a kind of preferably embodiment, wirelessly communicated between monitoring terminal and service end.
In above-mentioned technical proposal, monitoring terminal can by set communication module (e.g., GPRS, SMS) with monitoring service end it
Between realize communication;
Whether the detection data of field monitoring terminal can return, and stablizing for communication link is most important, and much monitors
Point, which is laid when public network signal covering in region is bad or such as earthquake, communications tower are impaired in extreme circumstances, can not return number
According to, and Monitoring Data often now is even more important, therefore take multimodality fusion communication to combine public network (GPRS&SMS) and RDSS
Beidou satellite communication, two kinds of means of communication depth integrations, mutually standby transmission.
Monitoring terminal integrates GPRS&SMS communications and RDSS Beidou satellite communications, and user can be according to live net when mounted
Network state, select suitable communication link.Due to GPRS characteristic cause current monitoring terminal generally existing poor real,
The problems such as being easy to produce signal blind zone, this monitoring terminal can be communicated by the Big Dipper, solved remote districts and covered without GPRS network
Wireless data transmission problem.
In a kind of preferably embodiment, monitoring terminal provides a processing unit, locating unit and gives positioning list
One first power supply of member power supply, the method that processing unit control positioning unit obtains position coordinates, as shown in figure 5, specifically
Comprise the following steps:
Step D1, processing unit is by sending one first enabled instruction to the first power supply unit, so that the first power supply unit
To electric on positioning unit;
Step D2, for positioning unit after successfully position coordinates is obtained, processing unit sends one first power-off instruction extremely
Second power supply unit;
Step D3, the second power supply unit disconnects power supply after the first power-off instruction is received.
In a kind of preferably embodiment, monitoring terminal provides a processing unit, detection sensor and passed to detection
One first power supply unit of sensor power supply;
The method that processing unit control sensor collection obtains the detection data of current geology, as shown in fig. 6, specifically including
Following steps:
Step E1, processing unit is to send one second enabled instruction to the second power supply unit in the given time, so that
Second power supply unit is to electric in detection sensor;
Step E2, after successful acquisition obtains detection data, processing unit sends a second source and closed detection sensor
Instruct to the second power supply unit;
Step E3, second source unit disconnects power supply after receiving second source and closing.
In a kind of preferably embodiment, a client is also provided, is connected with monitoring service end, client passes through monitoring
After service end mandate accesses, in monitor monitoring service end transmission is obtained in service end testing number according to this and position coordinates.
In above-mentioned technical proposal, the vibration for detecting monitoring terminal in step bl is determined can be by setting displacement in monitoring terminal
Sensor or Big Dipper displacement transducer, to detect whether the vibration of detection terminal exceedes predetermined threshold value.
In above-mentioned technical proposal, detection sensor and position positioning unit that monitoring terminal includes, obtained in detection
Related detection data, and after the data that send are needed corresponding to being formed, first by being stored in a data queue, so
Post-processing unit can judge current data to whether there is in row as sky, and not be space-time, send one the 3rd control instruction
To start the 3rd power supply unit for communication module power supply, monitoring service is sent data to by the communication module after upper electricity
End;
And after coherent detection data and position coordinates is successfully transmitted, processing unit sends one the 3rd out code extremely
3rd power supply unit.
In such scheme, distributed power supply management scheme is used in global design, to each peripheral hardware (detection sensor, positioning
Unit and communication module) power supply realize modularization management, by optimal control flow, when needing the work of some peripheral hardware,
The external power is opened, is closed immediately after end-of-job, makes the power consumption of monitoring terminal lower.
Preferred embodiments of the present invention are the foregoing is only, not thereby limit embodiments of the present invention and protection model
Enclose, to those skilled in the art, should can appreciate that all with made by description of the invention and diagramatic content
Scheme obtained by equivalent substitution and obvious change, should be included in protection scope of the present invention.
Claims (10)
- A kind of 1. data reporting method of monitoring terminal, applied to ground quality detection, it is characterised in that including:Monitoring terminal, and the monitoring service end being remotely connected with the monitoring terminal;Specifically include following steps:Step S1, described monitoring terminal carries out ground quality detection to obtain a detection data with a predetermined period of time;Step S2, described monitoring terminal judges whether existing on the detection data after the detection data are obtained Data record, and the detection data currently gathered are compared with the data record when the data record be present Compared with to obtain one first comparative result;Step S3, judge whether first comparative result is more than a default activation threshold value;If so, perform step S4;If it is not, perform step S6;Step S4, described monitoring terminal deletes the data record existing for original, using the current detection data as new Data record preserve;Step S5, described monitoring terminal sends current detection data to the monitoring service end, terminates this collection behaviour Make, and return to step S1;Step S6, the monitoring terminal judge the current detection data reach one it is default report interval after, will be current The detection data are sent to the monitoring service end, terminate this acquisition operations and return to step S1.
- 2. the data reporting method of monitoring terminal according to claim 1, it is characterised in that in the step S2, institute If stating the data record that monitoring terminal does not deposit the detection data, comprise the following steps:Step A1, the detection data currently gathered first are preserved as data record;Step A2, the detection data gathered first are sent to the service end, and terminates this acquisition operations;Step A3, return to step S1.
- 3. the data reporting method of monitoring terminal according to claim 1, it is characterised in that the monitoring terminal connection Detection sensor includes:Inclinometer, the detection data of the inclinometer collection are the inclination angle value of current geology;And/orIndicator water gage, the detection data of the indicator water gage collection are the water level value of current geology;And/orWater gage is measured, the detection data of the amount water gage collection are the water depth value of current geology;And/orEarth pressure test meter, the detection data of the earth pressure test meter collection are the soil pressure force value of current geology;And/orOsmometer, the detection data of the osmometer collection are the underground water place value of current geology.
- 4. the data reporting method of monitoring terminal according to claim 1, it is characterised in that the monitoring terminal is to each The detection data of secondary collection are filtered processing first, to obtain the detection data after filtering process.
- 5. the data reporting method of monitoring terminal according to claim 1, it is characterised in that the monitoring terminal also wraps Include, the method for obtaining the positional information of the monitoring terminal, specifically include following steps:Step B1, whether described monitoring terminal detects the vibration of itself more than a predetermined threshold value;If so, perform step B2;If it is not, return to step B1;Step B2, described monitoring terminal obtains the position coordinates of current location;Step B3, described monitoring terminal judges whether existing on the position coordinates after the position coordinates is obtained Position record, and when position record be present, by the position coordinates currently obtained and position record through entering Row compares, to obtain one second comparative result;Step B4, described monitoring terminal judges whether second comparative result is more than one second predetermined threshold value;If so, perform step B5;If it is not, then return to step B1;Step B5, the position record deletion that the monitoring terminal will preserve, the position coordinates currently obtained is made Preserved for new position record;Step B6, described monitoring terminal sends the position coordinates currently obtained to the monitoring service end, and returns to step Rapid B1.
- 6. the data reporting method of monitoring terminal according to claim 5, it is characterised in that in the step B3, institute If stating monitoring terminal does not deposit the position record, comprise the following steps:Step C1, described monitor terminal records the position coordinates currently obtained first as the position, and preserves;Step C2, the position coordinates gathered first is sent to the service end, and terminates this acquisition operations;Step C3, return to step B1.
- 7. the data reporting method of monitoring terminal according to claim 1, it is characterised in that the monitoring terminal with it is described Wirelessly communicated between service end.
- 8. the data reporting method of monitoring terminal according to claim 5, it is characterised in that the monitoring terminal provides one Processing unit, locating unit and one first power supply to positioning unit power supply, the processing unit control institute The method for stating the positioning unit acquisition position coordinates comprises the following steps:Step D1, described processing unit is by sending one first enabled instruction to first power supply unit, so that described first Power supply unit is to electric on the positioning unit;Step D2, after the position coordinates is successfully obtained, the processing unit sends one first power supply and closed described positioning unit Instruction is closed to second power supply unit;Step D3, described second power supply unit disconnects power supply after first power-off instruction is received.
- 9. the data reporting method of monitoring terminal according to claim 1, it is characterised in that the monitoring terminal provides one Processing unit, detection sensor and one first power supply unit to detection sensor power supply;The processing unit controls the method for the detection data of the current geology of the sensor collection acquisition to include following step Suddenly:Step E1, described processing unit is single to the described second power supply to send one second enabled instruction within the scheduled time Member, so that second power supply unit is to electric in the detection sensor;Step E2, for described detection sensor after successful acquisition obtains the detection data, the processing unit sends one second Power-off instruction is to second power supply unit;Step E3, described second source unit disconnects power supply after receiving the second source and closing.
- 10. the data reporting method of monitoring terminal according to claim 5, it is characterised in that a client is also provided, with The monitoring service end connection, after the client is accessed by the monitoring service end mandate, in the monitoring service end Obtain the testing number that the monitoring service end is sent according to this and the position coordinates.
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CN109902599A (en) * | 2019-02-01 | 2019-06-18 | 初速度(苏州)科技有限公司 | A kind of high-precision car data quality detecting method and system |
CN109902599B (en) * | 2019-02-01 | 2021-08-10 | 初速度(苏州)科技有限公司 | High-precision vehicle data quality inspection method and system |
CN111308140A (en) * | 2020-02-28 | 2020-06-19 | 宁波三星医疗电气股份有限公司 | Difference type active reporting meter reading method |
CN113856264A (en) * | 2020-06-30 | 2021-12-31 | 美卓奥图泰芬兰有限公司 | Pressure filter |
CN113856264B (en) * | 2020-06-30 | 2024-05-14 | 美卓奥图泰芬兰有限公司 | Pressure filter |
CN112097858A (en) * | 2020-08-26 | 2020-12-18 | 天地科技股份有限公司 | Liquid level sensor and method for monitoring water level by using same |
CN112097858B (en) * | 2020-08-26 | 2023-12-08 | 天地科技股份有限公司 | Liquid level sensor and method for monitoring water level thereof |
CN114979828A (en) * | 2022-05-18 | 2022-08-30 | 成都安讯智服科技有限公司 | Internet of things communication module flow control method and system based on Modbus |
CN114979828B (en) * | 2022-05-18 | 2023-03-10 | 成都安讯智服科技有限公司 | Internet of things communication module flow control method and system based on Modbus |
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