CN110365757A - A kind of geotechnical engineering data acquisition and processing (DAP) integral system and its workflow - Google Patents

Abstract

The invention discloses a kind of geotechnical engineering data acquisition and processing (DAP) integral system and its workflow, it is to solve and how applies intellectualized technology the geotechnical engineering investigation field the problem of.This product includes data acquisition unit, base station and Cloud Server, the data acquisition unit is connected by the first communication unit with base station, base station includes information transmit-receive unit, database, 3-D effect generation unit and processing unit, base station is connected by the second communication unit with Cloud Server, and Cloud Server includes data transmit-receive module, auditing module and correction module.This product design is reasonable, by acquiring data using data acquisition unit and sending the data to base station, reduce the memory space of paper material, base station handles data, processing result Cloud Server is sent to again to be audited and corrected, the accuracy and data-handling efficiency of data are improved, intelligence degree is high, has broad application prospects.

Description

A kind of geotechnical engineering data acquisition and processing (DAP) integral system and its workflow

Technical field

The present invention relates to geotechnical engineering field, specifically a kind of geotechnical engineering data acquisition and processing (DAP) integral system.

Background technique

Geotechnical engineering is a kind of new skill that American-European countries sets up in civil engineering practice the 1960s Art system.Geotechnical engineering is to solve rock mass and soil body engineering problem, including ground and basis, side slope and underground engineering etc. are asked Topic, as the research object of oneself, action can be divided into: geotechnical engineering investigation, geotechnical engineering design, geotechnical engineering are controlled Reason, geotechnical engineering monitoring, rock and soil engineering detection.

Geotechnical engineering investigation is exactly wherein common action, and geotechnical engineering investigation field data is all using paper at present Take down notes the operating mode of record, i.e. field data is recorded on the record of papery with pen after obtaining by description person at the scene, then by Technical staff combines interior industry data to summarize, arrange, count, analyze, evaluate, and eventually forms exploration report, last papery note Record is single to file preservation according to related request together with technological achievement data.

Although this working method can satisfy the use demand of people, but data storage volume is big, and technical staff converges Total time is long, obtains the low efficiency of information.With the quickening of intelligent Process, how people are also in research by intellectualized technology Field applied to geotechnical engineering investigation.

Summary of the invention

The embodiment of the present invention is designed to provide a kind of geotechnical engineering data acquisition and processing (DAP) integral system, to solve The problems mentioned above in the background art.

To achieve the above object, the embodiment of the present invention provides the following technical solutions:

A kind of geotechnical engineering data acquisition and processing (DAP) integral system, including data acquisition unit, base station and Cloud Server, it is described Data acquisition unit is connected by the first communication unit with base station, and base station includes information transmit-receive unit, database, 3-D effect life At unit and processing unit, base station is connected by the second communication unit with Cloud Server, Cloud Server include data transmit-receive module, Auditing module and correction module, data acquisition unit are used to acquire the various parameters data of geotechnical engineering, the first communication unit and Second communication unit is used to transmission data, and information transmit-receive unit is used to store information for sending and receiving information, database, 3-D effect generation unit is used to establish threedimensional model according to the supplemental characteristic of acquisition, and processing unit is for analyzing information Processing removes the information of mistake, data transmit-receive module for being received and transmitted to data, auditing module be used for data and Threedimensional model is audited, discern whether it is wrong, correction module be used for mistake data and threedimensional model be modified.

As further embodiment of the embodiment of the present invention: data acquisition unit passes through encryption unit and the first communication unit phase Even, base station includes decryption unit, and for encrypting to data, decryption unit mentions encryption unit for data to be decrypted The safety of high data.

As further embodiment of the embodiment of the present invention: data acquisition unit includes soil parameters unit, pressure intensity parameter list Member, water level acquisition unit and landforms acquisition unit, soil parameters unit is for acquiring the number such as each composition of layer of soil, each layer depth According to pressure intensity parameter unit is used to acquire the pressure data of rock and soil layer, and water level acquisition unit is used to acquire the water level of underground water Situation, landforms acquisition unit is for acquiring landforms situation.

As further embodiment of the embodiment of the present invention: base station further includes identification generation unit, and Cloud Server further includes mark Know confirmation module, identification generation unit is used to generate the unique identification number of the base station, and identity validation module is used for base station Unique identification number confirmed, if it is confirmed that the unique identification number be it is correct, the information of base station transmission is received, if really Recognize the unique identification number be it is wrong, do not receive the base station transmission information.

As further embodiment of the embodiment of the present invention: the first communication unit and the second communication unit are all made of WIFI mould Any one in block, 4G module, bluetooth module, infrared radio frequency module and Zigbee module, suitable for different working conditions.

As further embodiment of the embodiment of the present invention: base station also passes through the second communication unit and is connected with mobile terminal, makes The supplemental characteristic that user can be acquired by mobile terminal enquiry, is not limited by away from discrete time.

As further embodiment of the embodiment of the present invention: mobile terminal includes smart phone, laptop and desktop Any one in brain, user select according to the actual working environment of oneself.

The workflow of the geotechnical engineering data acquisition and processing (DAP) integral system, the specific steps are as follows:

Step 1, data acquisition unit acquire the various parameters data of geotechnical engineering and the supplemental characteristic of acquisition are passed through first Communication unit is sent to base station；

Step 2, information transmit-receive unit receive the supplemental characteristic of acquisition, the supplemental characteristic of database purchase acquisition, processing unit pair The supplemental characteristic of acquisition is analyzed and processed, and removes the supplemental characteristic of mistake, the supplemental characteristic after being filtered out, 3-D effect life Supplemental characteristic after filtering out at unit generates threedimensional model, the database purchase threedimensional model；

Step 3, supplemental characteristic of the information transmit-receive unit by threedimensional model and after filtering out are sent to cloud clothes by the second communication unit It is engaged in device, data transmit-receive module receives threedimensional model and the supplemental characteristic after filtering out, and auditing module is to threedimensional model and after filtering out Supplemental characteristic is audited, and discerns whether wrong, if no discovery mistake, correction module does not work, if it find that mistake, amendment Module is modified the threedimensional model of mistake and the supplemental characteristic after filtering out, and data transmit-receive module is by revised threedimensional model Base station is sent to supplemental characteristic；

Step 4, information transmit-receive unit receive revised threedimensional model and supplemental characteristic and in database updates.

Compared with prior art, the beneficial effect of the embodiment of the present invention is:

This product design rationally, by acquiring data using data acquisition unit and sending the data to base station, reduces paper The memory space of material, base station handle data, then processing result is sent to Cloud Server and is audited and is repaired Just, the accuracy and data-handling efficiency of data are improved, intelligence degree is high, has broad application prospects；

Also the data of acquisition are encrypted in this product, unique identification number are generated to base station, it is ensured that data safety subtracts The data processing amount of partly cloudy server, using effect are good.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of geotechnical engineering data acquisition and processing (DAP) integral system.

Fig. 2 is the structural schematic diagram of data acquisition unit in geotechnical engineering data acquisition and processing (DAP) integral system.

Fig. 3 is the structural schematic diagram of Cloud Server in geotechnical engineering data acquisition and processing (DAP) integral system.

Wherein: 1- data acquisition unit, 2- encryption unit, the first communication unit of 3-, the base station 4-, 5- database, 6- information Transmit-Receive Unit, 7- decryption unit, 8- processing unit, 9- 3-D effect generation unit, the second communication unit of 10-, 11- cloud service Device, 12- data transmit-receive module, 13- auditing module, 14- identity validation module, 15- correction module, 16- identification generation unit, 17- mobile terminal, 18- soil parameters acquisition unit, 19- pressure acquisition unit, 20- water level acquisition unit, the acquisition of 21- landforms are single Member.

Specific embodiment

The technical solution of the patent is explained in further detail With reference to embodiment.

Embodiment 1

A kind of geotechnical engineering data acquisition and processing (DAP) integral system, including data acquisition unit 1, base station 4 and Cloud Server 11, The data acquisition unit 1 is connected by the first communication unit 3 with base station 4, base station 4 including information transmit-receive unit 6, database 5, 3-D effect generation unit 9 and processing unit 8, base station 4 are connected by the second communication unit 10 with Cloud Server 11, Cloud Server 11 include data transmit-receive module 12, auditing module 13 and correction module 15, and data acquisition unit 1 is for acquiring each of geotechnical engineering Kind supplemental characteristic, the first communication unit 3 and the second communication unit 10 are used to transmission data, and information transmit-receive unit 6 is for receiving With transmission information, database 5 is used to establish three according to the supplemental characteristic of acquisition for storing information, 3-D effect generation unit 9 Dimension module, processing unit 8 remove the information of mistake, data transmit-receive module 12 is used for logarithm for being analyzed and processed to information According to being received and transmitted, auditing module 13 discerns whether wrong, correction module for auditing to data and threedimensional model 15 for being modified wrong data and threedimensional model.

In order to improve the safety of data, data acquisition unit 1 is connected by encryption unit 2 with the first communication unit 3, base Standing 4 includes decryption unit 7, and encryption unit 2 is for encrypting data, and decryption unit 7 is for being decrypted data, the two It is used cooperatively, so that data can only be transmitted to base station 4 and could decrypt, information will not be revealed being trapped.

In order to acquire the various parameters of geotechnical engineering, data acquisition unit 1 includes soil parameters unit 18, pressure intensity parameter list Member 19, water level acquisition unit 20 and landforms acquisition unit 21, soil parameters unit 18 is for acquiring each composition of layer of soil, each layer depth The data such as degree, pressure intensity parameter unit 19 are used to acquire the pressure data of rock and soil layer, and water level acquisition unit 20 is for locality The water level situation being lauched, landforms acquisition unit 21 is for acquiring landforms situation, available comprehensive parameter.

In order to reduce the interference of other information, base station 4 further includes identification generation unit 16, and Cloud Server 11 further includes mark Confirmation module 14, identification generation unit 16 are used to generate the unique identification number of the base station 4, and identity validation module 14 is used for base 4 unique identification number of standing confirmed, if it is confirmed that the unique identification number be it is correct, receive the information of the base station 4 transmission, If it is confirmed that the unique identification number be it is wrong, do not receive the base station 4 transmission information so that Cloud Server need to only handle symbol The data that the base station 4 of conjunction condition is sent, reduce treating capacity, improve processing speed.

The workflow of the geotechnical engineering data acquisition and processing (DAP) integral system, the specific steps are as follows:

Step 1, soil parameters unit 18 acquire the data such as each composition of layer of soil, each layer depth, and pressure intensity parameter unit 19 acquires rock The pressure data of stone and soil layer, water level acquisition unit 20 acquire the water level situation of underground water, and landforms acquisition unit 21 acquires landforms The supplemental characteristic of acquisition is sent to encryption unit 2 by situation, data acquisition unit 1, the supplemental characteristics of 2 pairs of encryption unit acquisitions into Encrypted supplemental characteristic is sent to base station 4 by the first communication unit 3 by row encryption, encryption unit 2；

Step 2, information transmit-receive unit 6 receive encrypted supplemental characteristic, and decryption unit 7 carries out encrypted supplemental characteristic Decryption, identification generation unit 16 generate the unique identification number of the base station 4, and database 5 stores the supplemental characteristic after decryption, processing 8 pairs of unit decryption after supplemental characteristic be analyzed and processed, remove mistake supplemental characteristic, the supplemental characteristic after being filtered out, Supplemental characteristic after 3-D effect generation unit 9 will filter out generates threedimensional model, and database 5 stores the threedimensional model；

Step 3, information transmit-receive unit 6 pass through threedimensional model, the unique identification number of base station 4 and the supplemental characteristic after filtering out Second communication unit 10 is sent to Cloud Server 11, and data transmit-receive module 12 receives the unique identification number of threedimensional model, base station 4 With filter out after supplemental characteristic, identity validation module 14 confirms the unique identification number of base station 4, if it is confirmed that this is unique Identifier number be it is correct, receive the base station 4 transmission information, if it is confirmed that the unique identification number be it is wrong, do not receive this The information that base station 4 is sent, supplemental characteristic of the auditing module 13 to threedimensional model and after filtering out are audited, discern whether it is wrong, If no discovery mistake, correction module 15 does not work, if it find that mistake, 15 pairs of wrong threedimensional models of correction module and filters out Supplemental characteristic afterwards is modified, and revised threedimensional model and supplemental characteristic are sent to base station 4 by data transmit-receive module 12；

Step 4, information transmit-receive unit 6 receive revised threedimensional model and supplemental characteristic and update in database 5.

Embodiment 2

A kind of geotechnical engineering data acquisition and processing (DAP) integral system, including data acquisition unit 1, base station 4 and Cloud Server 11, The data acquisition unit 1 is connected by the first communication unit 3 with base station 4, base station 4 including information transmit-receive unit 6, database 5, 3-D effect generation unit 9 and processing unit 8, base station 4 are connected by the second communication unit 10 with Cloud Server 11, Cloud Server 11 include data transmit-receive module 12, auditing module 13 and correction module 15, and data acquisition unit 1 is for acquiring each of geotechnical engineering Kind supplemental characteristic, the first communication unit 3 and the second communication unit 10 are used to transmission data, and information transmit-receive unit 6 is for receiving With transmission information, database 5 is used to establish three according to the supplemental characteristic of acquisition for storing information, 3-D effect generation unit 9 Dimension module, processing unit 8 remove the information of mistake, data transmit-receive module 12 is used for logarithm for being analyzed and processed to information According to being received and transmitted, auditing module 13 discerns whether wrong, correction module for auditing to data and threedimensional model 15 for being modified wrong data and threedimensional model.

Different working condition for convenience, the first communication unit 3 and the second communication unit 10 are all made of WIFI module, 4G Any one in module, bluetooth module, infrared radio frequency module and Zigbee module, can select according to actual working environment.

In order to facilitate the supplemental characteristic of inquiry geotechnical engineering, base station 4 also passes through the second communication unit 10 and mobile terminal 17 It is connected, user can inquire the supplemental characteristic of acquisition by mobile terminal 17, not limited by away from discrete time.

In order to adapt to different working environments, mobile terminal 17 includes in smart phone, laptop and desktop computer Any one, user according to the actual conditions of oneself be suitable for oneself.

The workflow of the geotechnical engineering data acquisition and processing (DAP) integral system, the specific steps are as follows:

Step 1, data acquisition unit 1 acquire the various parameters data of geotechnical engineering and by the supplemental characteristic of acquisition by the One communication unit 3 is sent to base station 4；

Step 2, information transmit-receive unit 6 receive the supplemental characteristic of acquisition, and database 5 stores the supplemental characteristic of acquisition, processing unit The supplemental characteristic of 8 pairs of acquisitions is analyzed and processed, and removes the supplemental characteristic of mistake, the supplemental characteristic after being filtered out, three-dimensional effect Supplemental characteristic after fruit generation unit 9 will filter out generates threedimensional model, and database 5 stores the threedimensional model；

Step 3, supplemental characteristic of the information transmit-receive unit 6 by threedimensional model and after filtering out are sent to by the second communication unit 10 Cloud Server 11, data transmit-receive module 12 receive threedimensional model and the supplemental characteristic after filtering out, and auditing module 13 is to threedimensional model It is audited with the supplemental characteristic after filtering out, discerns whether wrong, if no discovery mistake, correction module 15 do not work, if It was found that mistake, 15 pairs of wrong threedimensional models of correction module are modified with the supplemental characteristic after filtering out, data transmit-receive module 12 Revised threedimensional model and supplemental characteristic are sent to base station 4；

Step 4, information transmit-receive unit 6 receive revised threedimensional model and supplemental characteristic and update in database 5；

Step 5, people will inquire item by the second communication unit 10 in 17 input inquiry condition of mobile terminal, mobile terminal 17 Part is sent to base station 4, and information transmit-receive unit 6 receives the querying condition, and it is corresponding that base station 4 recalls querying condition from database 5 Data and be sent to mobile terminal 17, corresponding data are shown on mobile terminal 17.

The foregoing is merely illustrative of the preferred embodiments of the present invention, is not intended to limit the invention, all in essence of the invention Within mind and principle, any modification, equivalent replacement, improvement and so on be should all be included in the protection scope of the present invention.No It should treat any reference in the claims as limiting the claims involved.

In addition, it should be understood that although this specification is described in terms of embodiments, but not each embodiment is only wrapped Containing an independent technical solution, this description of the specification is merely for the sake of clarity, and those skilled in the art should It considers the specification as a whole, the technical solutions in the various embodiments may also be suitably combined, forms those skilled in the art The other embodiments being understood that.

Claims (8)

1. a kind of geotechnical engineering data acquisition and processing (DAP) integral system, including data acquisition unit (1), base station (4) and cloud clothes It is engaged in device (11), which is characterized in that the data acquisition unit (1) is connected by the first communication unit (3) with base station (4), base station It (4) include information transmit-receive unit (6), database (5), 3-D effect generation unit (9) and processing unit (8), base station (4) pass through Second communication unit (10) is connected with Cloud Server (11), and Cloud Server (11) includes data transmit-receive module (12), auditing module (13) and correction module (15).

2. geotechnical engineering data acquisition and processing (DAP) integral system according to claim 1, which is characterized in that the data Acquisition unit (1) is connected by encryption unit (2) with the first communication unit (3), and base station (4) include decryption unit (7).

3. geotechnical engineering data acquisition and processing (DAP) integral system according to claim 1, which is characterized in that the data Acquisition unit (1) includes that soil parameters unit (18), pressure intensity parameter unit (19), water level acquisition unit (20) and landforms acquisition are single First (21).

4. geotechnical engineering data acquisition and processing (DAP) integral system according to claim 1 or 2, which is characterized in that described Base station (4) further includes identification generation unit (16), and Cloud Server (11) further includes identity validation module (14).

5. geotechnical engineering data acquisition and processing (DAP) integral system according to claim 1, which is characterized in that described first Communication unit (3) and the second communication unit (10) be all made of WIFI module, 4G module, bluetooth module, infrared radio frequency module and Any one in Zigbee module.

6. geotechnical engineering data acquisition and processing (DAP) integral system according to claim 1, which is characterized in that the base station (4) also it is connected by the second communication unit (10) with mobile terminal (17).

7. geotechnical engineering data acquisition and processing (DAP) integral system according to claim 6, which is characterized in that the movement Terminal (17) includes any one in smart phone, laptop and desktop computer.

8. a kind of workflow of geotechnical engineering data acquisition and processing (DAP) integral system as claimed in claim 1, It is characterized in that, specific step is as follows:

Step 1, data acquisition unit (1) acquire the various parameters data of geotechnical engineering and pass through the supplemental characteristic of acquisition First communication unit (3) is sent to base station (4)；

Step 2, information transmit-receive unit (6) receive the supplemental characteristic of acquisition, the supplemental characteristic of database (5) storage acquisition, processing Unit (8) is analyzed and processed the supplemental characteristic of acquisition, remove mistake supplemental characteristic, the supplemental characteristic after being filtered out, Supplemental characteristic after 3-D effect generation unit (9) will filter out generates threedimensional model, and database (5) stores the threedimensional model；

Step 3, supplemental characteristic of the information transmit-receive unit (6) by threedimensional model and after filtering out are sent out by the second communication unit (10) It gives Cloud Server (11), data transmit-receive module (12) receives threedimensional model and the supplemental characteristic after filtering out, auditing module (13) Supplemental characteristic to threedimensional model and after filtering out is audited, discern whether it is wrong, if no discovery mistake, correction module (15) It does not work, if it find that mistake, correction module (15) is modified the threedimensional model of mistake with the supplemental characteristic after filtering out, number Revised threedimensional model and supplemental characteristic are sent to base station (4) according to transceiver module (12)；

Step 4, information transmit-receive unit (6) receive revised threedimensional model and supplemental characteristic and update in database (5).