CN110470696A - Probe node and in-situ measurement network - Google Patents

Abstract

The embodiment of the present invention provides a kind of probe node and in-situ measurement network, and wherein probe node includes communication unit, and communication unit is for receiving and broadcast communication information；It further include environment detection unit and control unit, control unit is connect with communication unit and environment detection unit respectively；For detecting surrounding enviroment information, control unit controls communication unit and receives and broadcast surrounding enviroment information environment detection unit for parsing surrounding enviroment information；Environment detection unit includes at least one of temperature sensor, air quality sensor, baroceptor.Probe node and in-situ measurement network provided in an embodiment of the present invention, environment detection unit is set and detects surrounding enviroment information, and surrounding enviroment information is transmitted to server-side by communication unit, while guaranteeing the transmission of the communication information, the surrounding enviroment information of each probe node can be provided for server-side, server-side is enabled to obtain the environmental change in personnel's travelling route, to guarantee personnel safety.

Description

Probe node and in-situ measurement network

Technical field

The present invention relates to wireless communication technology field more particularly to a kind of probe nodes and in-situ measurement network.

Background technique

Under the application scenarios such as subsurface investigation, ground observation, disaster assistance, it may be necessary to which personnel are directly entered above-mentioned scene Inside, which is detected accordingly, reconnoitred, rescued etc., to be operated.

Wireless self-networking is the provisional multi-hop autonomous system being made of one group of communication node, independent of preset basis Facility, having the characteristics that can interim networking, rapid deployment, strong without control centre, survivability.Wireless self-networking is laid in advance Personnel need in the scene that enters, or complete the laying of wireless self-networking in personnel's traveling process, enable wireless self-networking Enough as the relay node between personnel's communication terminal carried and server-side, realize that the interconnection between terminal and server-side is mutual It is logical.

On this basis, the environmental change in personnel's travelling route how is obtained, to preferably instruct personnel's traveling road Line is still those skilled in the art's urgent problem to be solved.

Summary of the invention

The embodiment of the present invention provides a kind of probe node and in-situ measurement network, to solve existing wireless self-networking without Method obtains the problem of environmental change in personnel's travelling route.

In a first aspect, the embodiment of the present invention provides a kind of probe node, including communication unit, the communication unit is for connecing Receive and broadcast communication information, further include environment detection unit and control unit, described control unit respectively with the communication unit It is connected with the environment detection unit；For detecting surrounding enviroment information, described control unit is used for the environment detection unit The surrounding enviroment information is parsed, and controls the communication unit and receives and broadcast the surrounding enviroment information；

The environment detection unit includes at least one of temperature sensor, air quality sensor, baroceptor.

Second aspect, the embodiment of the present invention provide a kind of in-situ measurement network, the detection section provided including such as first aspect Point and wearable detection device；The wearable detection device includes terminal communication unit, the wearable detection device It is communicated by the terminal communication unit with the probe node；

The wearable detection device further includes terminal environments probe unit and terminal processing units, wherein the terminal Processing unit is connect with the terminal communication unit and the terminal environments probe unit respectively；

For the terminal environments probe unit for detecting surrounding enviroment information, the Terminal Control Element is described for parsing Surrounding enviroment information, and control the terminal communication unit and receive and broadcast the surrounding enviroment information；

The terminal environments probe unit include temperature sensor, air quality sensor, in baroceptor at least It is a kind of.

Probe node and in-situ measurement network provided in an embodiment of the present invention, setting environment detection unit detect surrounding enviroment Information, and surrounding enviroment information is transmitted to server-side by communication unit, while guaranteeing the transmission of the communication information, Neng Gouwei Server-side provides the surrounding enviroment information of each probe node, enables server-side to obtain the environment in personnel's travelling route and becomes Change, to preferably instruct personnel's travelling route, guarantees personnel safety.

Detailed description of the invention

In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, to embodiment or will show below There is attached drawing needed in technical description to be briefly described, it should be apparent that, the accompanying drawings in the following description is this hair Bright some embodiments for those of ordinary skill in the art without creative efforts, can be with root Other attached drawings are obtained according to these attached drawings.

Fig. 1 is the structural schematic diagram of probe node provided in an embodiment of the present invention；

Fig. 2 be another embodiment of the present invention provides probe node cross-sectional view；

Fig. 3 is the structural schematic diagram of in-situ measurement network provided in an embodiment of the present invention；

Detailed description of the invention:

1- communication unit；2- environment detection unit；3- control unit；

4- shell；5- organic silica gel；21- temperature sensor；

22- air quality sensor；23- baroceptor；24- infrared sensor；

25- water sensor；6- probe node；The wearable detection device of 7-.

Specific embodiment

In order to make the object, technical scheme and advantages of the embodiment of the invention clearer, below in conjunction with the embodiment of the present invention In attached drawing, technical scheme in the embodiment of the invention is clearly and completely described, it is clear that described embodiment is A part of the embodiment of the present invention, instead of all the embodiments.Based on the embodiments of the present invention, those of ordinary skill in the art Every other embodiment obtained without creative efforts, shall fall within the protection scope of the present invention.

Fig. 1 is the structural schematic diagram of probe node provided in an embodiment of the present invention, as shown in Figure 1, probe node includes logical Believe that unit 1, communication unit 1 further include environment detection unit 2 and control unit 3 for reception and broadcast communication information, control is single Member 3 is connect with communication unit 1 and environment detection unit 2 respectively, and environment detection unit 2 is controlled for detecting surrounding enviroment information Unit 3 controls communication unit 1 and receives and broadcast surrounding enviroment information for parsing surrounding enviroment information；Environment detection unit 2 Including at least one of temperature sensor, air quality sensor, baroceptor.

Specifically, in probe node, communication unit 1 is for realizing the function of communication node in wireless self-networking, i.e. conduct Relay node, which is realized, to be entered between communication terminal entrained by the personnel in wireless self-networking and the server-side outside wireless self-networking Interconnect.Herein, communication unit 1 receives and the communication information of broadcast, i.e., the communication unit 1 of multiple probe nodes carry out nothing After line ad hoc network constitutes data link, the information for communicate with server-side generation by communication terminal of transfer.

On this basis, probe node further includes environment detection unit 2.Environment detection unit 2 is for detecting surrounding enviroment Information, and surrounding enviroment information is sent to communication unit 1 by control unit 3, remaining probe node is received by communication unit 1 The surrounding enviroment information of broadcast, and the surrounding enviroment information of itself is broadcasted, it is achieved in adopting for probe node surrounding enviroment information Collection, and on the basis of realizing that communication terminal and server-side interconnect, it is based on existing data link, realizes each detection section The transmission of the surrounding enviroment information of point, so that each probe node and communication terminal and server-side can also know each detection The surrounding enviroment information of node.

Herein, environment detection unit 2 includes at least one in temperature sensor, air quality sensor, baroceptor Kind.Wherein, temperature sensor is used to detect the temperature in region locating for probe node, and air quality sensor is for detecting detection section The air quality in the locating region of point, such as smokescope, pollutant concentrations such as ammonia, sulfide etc., baroceptor is for examining Survey the air pressure in region locating for probe node.Accordingly, surrounding enviroment information includes temperature, the air matter in region locating for probe node At least one of amount and air pressure.

Herein, control unit, that is, controller, control unit are connect with communication unit, can be to the received communication of communication unit Information and the surrounding enviroment information of remaining probe node are parsed, or based on remaining received probe node of communication unit Location information calibrates self-position, additionally it is possible to the surrounding enviroment information etc. of communication unit fixed time broadcast itself is controlled, this Inventive embodiments are not especially limited this.

In addition, control unit is connect with environment detection unit, it can control the opening and closing of environment detection unit, avoid Kwh loss caused by environment detection unit is in running order for a long time, can also be to the week that environment detection unit collects Surrounding environment information is parsed, and the present invention is not especially limit this.

Probe node provided in an embodiment of the present invention, setting environment detection unit detect surrounding enviroment information, and by communicating Surrounding enviroment information is transmitted to server-side by unit, while guaranteeing the transmission of the communication information, can be provided for server-side respectively The surrounding enviroment information of a probe node, enables server-side to obtain the environmental change in personnel's travelling route, thus more preferably Ground instructs personnel's travelling route, guarantees personnel safety.

Based on any of the above-described embodiment, in the probe node, environment detection unit further includes infrared sensor, infrared sensing Device exports personnel's detecting state for detecting whether have personnel in region locating for probe node；Control unit is for working as personnel Detecting state is to be sent to using the location information in the locating region of probe node as the location information of personnel logical there are when personnel Letter unit is broadcasted.

Specifically, infrared sensor is a kind of infrared ray for capableing of induction targets radiation, and infrared sensor setting is being visited It surveys on node, infrared sensor can be by the infrared ray of each object radiation in region locating for induction probe node, and then sentences It whether there is personnel in region locating for disconnected probe node, and export personnel's detecting state.Herein, personnel's detecting state is that there are people Personnel are not present in member.

Personnel's detecting state that infrared sensor will test is transmitted to control unit.Control unit is receiving personnel After detecting state, if personnel's detecting state is that there are personnel, using the location information in the locating region of probe node as personnel Location information, and broadcasted communication unit is sent to by the location information of personnel, so that the communication that personnel carry is whole End and server-side can know the location information of personnel.

Based on any of the above-described embodiment, in the probe node, environment detection unit further includes water sensor, water logging sensing Device is for detecting whether probe node is dipped into water, and output node Riddled Condition.

Specifically, water sensor be based on liquid conduction principle, with electrode detected whether water existing for sensor.This Water sensor is arranged on probe node inventive embodiments, to detect whether region locating for probe node has water, that is, detects Whether node is dipped into water, and output node Riddled Condition.Herein, node Riddled Condition be used to indicate probe node whether by It is immersed in the water, node Riddled Condition is yes/no.

Based on any of the above-described embodiment, in the probe node, if node Riddled Condition be it is yes, control unit is for closing ring Sensor in the probe unit of border in addition to water sensor；Otherwise, control unit removes water in environment detection unit for opening Soak the sensor other than sensor.

Specifically, the node Riddled Condition that water sensor will test is sent to control unit.

When node Riddled Condition, which is, is, and the sensor in environment detection unit in addition to water sensor, such as temperature It is in the open state to spend sensor, air quality sensor, baroceptor etc., in order to avoid the sensor is dipped into water Lead to detection information mistake, control unit closes the sensor.

When node Riddled Condition is no, and the sensor in environment detection unit in addition to water sensor, such as temperature Degree sensor, air quality sensor, baroceptor etc. are in close state, and cause detection to be believed being not present to be dipped into water In the case where breath mistake, control unit opens the sensor, even if in order to acquire surrounding enviroment information.

It further include shell, communication unit and control unit are installed in shell in the probe node based on any of the above-described embodiment Internal portion, environment detection unit are mounted on housing outer surface, in order to acquire surrounding enviroment information.

Further, shell is vacuum double structure, and enclosure interior encapsulating has organic silica gel.Herein, shell is arranged There is double-layer structure, be potted by vacuum pumping between double-layer structure, and inside housings using organic silica gel, is playing waterproof Probe node can be slowed down while effect to be influenced by external high temperature, widens the application of probe node.

Based on any of the above-described embodiment, which further includes power supply unit；Power supply unit includes power supply, Charge Management Circuit and electric power management circuit, wherein power supply is connect with charge management circuit and electric power management circuit respectively, communication unit, environment Probe unit and control unit are connect with electric power management circuit respectively.

Specifically, in power supply unit, power supply is used to provide electricity for communication unit, environment detection unit and control unit etc. Can, power supply herein can be the battery of lithium battery, battery or remaining type.Charge management circuit connects to power supply, and uses It charges in the case where probe node is in off working state to power supply.Electric power management circuit is for controlling power supply to communication unit The units such as member, environment detection unit and control unit provide electric energy.

Based on any of the above-described embodiment, in the probe node, communication unit includes the first communication unit and the second communication unit Member；The work of first communication unit is in the first frequency range, for receiving and broadcast communication information and surrounding enviroment information；Second communication unit Member work is used for broadcast node deployment information in the second frequency range.

Specifically, in order to avoid the information of different type and function is transmitted the problem of interfering with each other, will lead in probe node Letter unit is divided into the first communication unit and the second communication unit, and two communication units are respectively in the different enterprising row informations of frequency range It receives and broadcasts.

Wherein, the work of the first communication unit is used for reception and broadcast communication information and surrounding enviroment information in the first frequency range, Realize the information transmission of the data link between probe node.

The work of second communication unit is used for broadcast node deployment information in the second frequency range.Herein, node deployment information is used for During traveling edge in personnel side affixes one's name to probe node, the node deployment device worn with personnel is communicated, so that node Administration's device can judge distance of the personnel apart from the probe node, sentence according to the signal strength or weakness of the node deployment information received It is disconnected whether to carry out probe node deployment.

Herein, the first communication unit and the second communication unit have different working frequency range and transmission power, the first frequency range Lower compared to the second frequency range, the transmission power of the first communication unit is higher compared to the transmission power of the second communication unit.

In the embodiment of the present invention, by distinguishing the first frequency range and the second frequency range, so that the information transmission of data link and section The broadcast of point deployment information is realized by different frequency ranges, avoids interfering with each other for the two, is conducive to improve wireless self-networking Stability and wireless self-networking communication quality.

Based on any of the above-described embodiment, Fig. 2 be another embodiment of the present invention provides probe node cross-sectional view, such as Fig. 2 Shown, probe node includes communication unit 1, environment detection unit, control unit 3, wherein communication unit 1 and control unit 3 dress It is located inside shell 4, environment detection unit is mounted on 4 outer surface of shell.Shell 4 is vacuum double structure, and is filled inside shell 4 Envelope has organic silica gel 5, to play the role of waterproof and heat-insulating, allows to work at 200 degrees celsius for a long time.Control unit 3 is STM32F0 single-chip microcontroller.

Environment detection unit includes temperature sensor 21, air quality sensor 22, baroceptor 23, infrared sensor 24 and water sensor 25.Wherein, temperature sensor 21 is high-precision platinum resistor sensor, and the temperature of housing outer surface is arranged in In test chamber, and it is close to shell assembly, for detecting the temperature in region locating for probe node；Air quality sensor 22 is MP-2 air quality sensor, the sensor are directly contacted with air, the sensor in the presence of having smog, propane in surrounding air Conductivity changes, and the concentration of such gas is higher, and the conductivity of sensor is higher, can be used for detecting locating for probe node The air quality in region；Baroceptor 23 is BMP180 sensor, which directly contacts with air, real-time output environment Atmospheric pressure value, for detecting the air pressure in region locating for probe node.The sensor will test result after completing detection respectively It is transmitted to communication unit 1 as surrounding enviroment information, by communication unit 1 in the above-mentioned surrounding enviroment information of the first multi-band broadcast, is made The data link that the surrounding enviroment information of the probe node can be constructed by each probe node is obtained, is transferred into scene and visits The communication terminal that personnel in survey grid network wear, and it is located at the server-side other than detection network at the scene, so that communication terminal The surrounding enviroment information of each probe node can be also known with server-side.

In addition, infrared sensor 24 is PM-7 sensor, for passing through each object in region locating for induction probe node The infrared ray of radiation, and then judge with the presence or absence of personnel in region locating for probe node, and export personnel's detecting state.Infrared biography Personnel's detecting state that sensor 24 will test is transmitted to control unit 3.Control unit 3 is receiving personnel's detecting state Afterwards, if personnel's detecting state is to believe there are personnel using the location information in the locating region of probe node as the positioning of personnel Breath, and broadcasted communication unit 1 is sent to by the location information of personnel, so that the communication terminal of personnel's carrying and service End can know the location information of personnel.

For water sensor 25 for detecting whether region locating for probe node has water, i.e. whether probe node is dipped into water In, and output node Riddled Condition, the node Riddled Condition that will test are sent to control unit 3.When node Riddled Condition When to be, and the sensor in environment detection unit in addition to water sensor 25 is in the open state, in order to avoid above-mentioned biography Sensor, which is dipped into water, leads to detection information mistake, and control unit 3 closes the sensor.When node Riddled Condition is no, And the sensor in environment detection unit in addition to water sensor 25 is in close state, and is caused being not present to be dipped into water In the case where detection information mistake, control unit 3 opens the sensor, even if in order to acquire surrounding enviroment information.

In addition, being additionally provided with signal lamp on probe node, signal lamp can serve to indicate that electricity, can also use In indication signal power.Different electricity or different signal strength or weakness can be distinguished by the flicker frequency of signal lamp, It can be distinguished by the color of signal lamp.

Based on any of the above-described embodiment, in the building process of in-situ measurement network, deployed probe node timing exists Second multi-band broadcast node deployment information.The node deployment device of personnel's body-worn monitors the node deployment of the second frequency range in real time Information.

If the signal strength for the node deployment information that node deployment device listens to is lower than preset signal strength threshold It is worth, then the new probe node of node deployment device automatic deployment.New probe node is during falling in the first frequency range and its The probe node automatic network-building of remaining part administration becomes a node in in-situ measurement network, and is visited by the environment of itself installing It surveys unit and detects surrounding enviroment information, the location information of surrounding enviroment information and the probe node is passed through into the first band transmissions To server-side.Meanwhile new probe node carries the communication of personnel's body-worn as a node in in-situ measurement network Interconnecting between terminal and server-side.

Based on any of the above-described embodiment, Fig. 3 is the structural schematic diagram of in-situ measurement network provided in an embodiment of the present invention, such as Shown in Fig. 3, in-situ measurement network includes probe node 6 and wearable detection device；Wearable detection device 7 includes terminal Communication unit, wearable detection device 7 are communicated by terminal communication unit with probe node 6；Wearable detection device is also wrapped Include terminal environments probe unit and terminal processing units, wherein terminal processing units respectively with terminal communication unit and terminal environments Probe unit connection；Terminal environments probe unit is for detecting surrounding enviroment information, and Terminal Control Element is for parsing peripheral ring Border information, and controlling terminal communication unit receives and broadcast surrounding enviroment information；Terminal environments probe unit includes temperature sensing At least one of device, air quality sensor, baroceptor.

Specifically, in-situ measurement network can be made of multiple probe nodes 6, by respective between multiple probe nodes 6 The communication unit of inside setting realizes the reception and broadcast of the communication information and surrounding enviroment information, thus composition data link.

While accepting the communication information transfer between communication terminal and server-side, each probe node 6 is acquired To surrounding enviroment information be transferred to the wearable detection device 7 worn into the personnel in in-situ measurement network, and be located at Server-side other than detection network at the scene, so that wearable detection device 7 and server-side can also know each probe node 6 Surrounding enviroment information, in order to which server-side can obtain the environmental change in personnel's travelling route, thus preferably instructor Member's travelling route, guarantees personnel safety.

Herein, wearable detection device 7 is that one kind can be worn on personnel, is provided simultaneously with communication function and environment is visited The device of brake.Wearable detection device 7 can be laid in the clothes of personnel, cap etc., and wearable detection device 7 includes eventually Communication unit, terminal environments probe unit and terminal processing units are held, wherein Terminal Control Element is connect with terminal communication unit, The surrounding enviroment information of the received communication information of terminal communication unit and probe node 6 can be parsed, or based on eventually The location information of the end received probe node 6 of communication unit calibrates personnel's self-position, additionally it is possible to controlling terminal communication The surrounding enviroment information etc. of unit fixed time broadcast itself, the present invention is not especially limit this.

In addition, Terminal Control Element is connect with terminal environments probe unit, opening for terminal environments probe unit can control It opens and closes, kwh loss caused by avoiding terminal environments probe unit in running order for a long time can also be to end ring The peripheral ring that the surrounding enviroment information that border probe unit collects is parsed, and terminal environments probe unit is collected Border information is sent to terminal communication unit, is broadcasted by terminal communication unit, the present invention is not especially limit this.

Method provided in an embodiment of the present invention, by the communication between probe node and wearable detection device, so that people Member can obtain surrounding enviroment information in time, while the surrounding enviroment information of each probe node can be provided for server-side, make The environmental change in personnel's travelling route can be obtained by obtaining server-side, to preferably instruct personnel's travelling route, guarantee personnel Safety.

Based on any of the above-described embodiment, in in-situ measurement network, terminal communication unit include first terminal communication unit and Second terminal communication unit；The work of first terminal communication unit is in the first frequency range, for receiving and broadcast communication information and periphery Environmental information；The work of second terminal communication unit is used for receiving node deployment information in the second frequency range.

Herein, communication unit is set in the corresponding each probe node of the setting of terminal communication unit in wearable detection device It sets, by distinguishing the first frequency range and the second frequency range, so that the information transmission of data link and the broadcast of node deployment information pass through Different frequency ranges is realized, interfering with each other for the two is avoided, and is conducive to the stability and wireless self-networking that improve wireless self-networking Communication quality.

Finally, it should be noted that the above embodiments are merely illustrative of the technical solutions of the present invention, rather than its limitations；Although Present invention has been described in detail with reference to the aforementioned embodiments, those skilled in the art should understand that: it still may be used To modify the technical solutions described in the foregoing embodiments or equivalent replacement of some of the technical features； And these are modified or replaceed, technical solution of various embodiments of the present invention that it does not separate the essence of the corresponding technical solution spirit and Range.

Claims (10)

1. a kind of probe node, including communication unit, the communication unit exists for receiving with broadcast communication information, feature In, further include environment detection unit and control unit, described control unit respectively with the communication unit and the environment detection Unit connection；The environment detection unit is for detecting surrounding enviroment information, and described control unit is for parsing the peripheral ring Border information, and control the communication unit and receive and broadcast the surrounding enviroment information；

The environment detection unit includes at least one of temperature sensor, air quality sensor, baroceptor.

2. probe node according to claim 1, which is characterized in that the environment detection unit further includes infrared sensing Device, the infrared sensor export personnel's detecting state for detecting whether have personnel in region locating for the probe node；

Described control unit is used to when personnel's detecting state be there are when personnel, by the locating region of the probe node Location information is sent to the communication unit as the location information of the personnel and broadcasts.

3. probe node according to claim 1, which is characterized in that the environment detection unit further includes water logging sensing Device, the water sensor is for detecting whether the probe node is dipped into water, and output node Riddled Condition.

4. probe node according to claim 3, which is characterized in that if the node Riddled Condition is yes, the control Unit is used to close the sensor in the environment detection unit in addition to the water sensor；Otherwise, described control unit For opening the sensor in the environment detection unit in addition to the water sensor.

5. probe node according to claim 1, which is characterized in that it further include shell, the communication unit and the control Unit processed is installed in the enclosure interior, and the environment detection unit is mounted on the housing outer surface.

6. probe node according to claim 5, which is characterized in that the shell is vacuum double structure, and the shell Internal portion's encapsulating has organic silica gel.

7. probe node according to claim 1, which is characterized in that further include power supply unit；The power supply unit includes Power supply, charge management circuit and electric power management circuit, wherein the power supply respectively with the charge management circuit and the power supply Circuit connection is managed, the communication unit, the environment detection unit and described control unit are electric with the power management respectively Road connection.

8. probe node according to any one of claim 1 to 7, which is characterized in that the communication unit includes first Communication unit and the second communication unit；

The first communication unit work is in the first frequency range, for receiving and broadcasting the communication information and surrounding enviroment letter Breath；

The second communication unit work is used for broadcast node deployment information in the second frequency range.

9. a kind of in-situ measurement network, which is characterized in that including probe node such as described in any item of the claim 1 to 8 with And wearable detection device；The wearable detection device includes terminal communication unit, and the wearable detection device passes through The terminal communication unit is communicated with the probe node；

The wearable detection device further includes terminal environments probe unit and terminal processing units, wherein the terminal processes Unit is connect with the terminal communication unit and the terminal environments probe unit respectively；

The terminal environments probe unit is for detecting surrounding enviroment information, and the Terminal Control Element is for parsing the periphery Environmental information, and control the terminal communication unit and receive and broadcast the surrounding enviroment information；

The terminal environments probe unit includes at least one of temperature sensor, air quality sensor, baroceptor.

10. in-situ measurement network according to claim 9, which is characterized in that the terminal communication unit includes first whole Hold communication unit and second terminal communication unit；

The first terminal communication unit work is in the first frequency range, for receiving and broadcasting the communication information and the peripheral ring Border information；

The second terminal communication unit work is used for receiving node deployment information in the second frequency range.