CN106888249A - The method for laying the sensory package for land resources monitoring - Google Patents

Abstract

The disclosure is directed to a kind of method for laying the sensory package for land resources monitoring, methods described includes：One first sensory package and the second sensory package are provided；First sensory package is laid on communication iron tower, second sensory package is laid in communication iron tower lower section ground；First sensory package and the second sensory package are configured so that first sensory package and the second sensory package wireless communication link.The disclosure can be laid in the sensory package at communication iron tower to realize the monitoring to land resources based on the method, greatly save construction cost.

Description

The method for laying the sensory package for land resources monitoring

Technical field

This disclosure relates to information monitoring technical field, more particularly to a kind of sensory package laid for land resources monitoring Method.

Background technology

With the fast development of China's economy, soil imbalance between supply and demand becomes increasingly conspicuous, and Illegal Construction occupies cultivated land phenomenon and ore deposit Stealing for resource is produced to adopt illegal mining phenomenon and occur repeatedly.It is main using technologies such as Satellite Remote Sensings in terms of land resources monitoring at present Means monitor land use change survey situation, and the illegal use in each place is verified by different annual surrounding time soil Remote Sensing Imagery Changes Ground situation.But satellite monitoring is more to carry out macroscopic supervision from State-level, it is related to certain regional monitoring resource, then more Many is supervised using by building video monitoring system.

The video monitoring system of land resources generally comprised head end video information gathering, Video coding network transmission and after The operational administrative at client information center.But due to the particularity of land resources monitoring field, monitor area is located at field mostly, greatly Scope addressing field construction is built, and the construction cost of system is too high.

Therefore, it is necessary to providing a kind of new technical scheme improves one or more problem present in such scheme.

It should be noted that information is only used for strengthening the reason of background of this disclosure disclosed in above-mentioned background section Solution, therefore can include not constituting the information to prior art known to persons of ordinary skill in the art.

The content of the invention

The purpose of the disclosure is to provide a kind of method for laying the sensory package for land resources monitoring, and then at least Overcome to a certain extent due to one or more problem caused by the limitation of correlation technique and defect.

Other characteristics and advantage of the disclosure will be apparent from by following detailed description, or partially by the disclosure Practice and acquistion.

According to the first aspect of the embodiment of the present disclosure, there is provided a kind of laying is used for the side of the sensory package of land resources monitoring Method, methods described includes：

One first sensory package and the second sensory package are provided；

First sensory package is laid on communication iron tower, second sensory package is laid in the communication iron Tower lower section ground；

First sensory package and the second sensory package are configured so that first sensory package and the second sensory package Wireless communication link.

In a kind of exemplary embodiment of the disclosure, described first sensory package is laid on communication iron tower is wrapped Include：

First sensory package is laid on the communication iron tower apart from ground predetermined height.

In a kind of exemplary embodiment of the disclosure, first sensory package includes intelligent opto-electrical sensor, multispectral Imager, optoelectronic monitoring instrument, rainfall gauge and radar；

Described first sensory package is laid on communication iron tower includes：

By the intelligent opto-electrical sensor, multi-spectral imager, optoelectronic monitoring instrument, rainfall gauge and radar with same intervals away from From or incomplete same spacing distance be laid on the communication iron tower.

It is described that second sensory package is laid under the communication iron tower in a kind of exemplary embodiment of the disclosure Square ground includes：

Second sensory package is laid in surrounding of the communication iron tower lower section ground centered on the communication iron tower In preset range.

In a kind of exemplary embodiment of the disclosure, second sensory package includes acoustic shock sensor, cracking instrument, microbit Displacement sensor, soil moisture tester, ultrasonic wave mud position instrument and underground level gauge.

In a kind of exemplary embodiment of the disclosure, first sensory package includes being used for and remote back-office service centre The wireless communication module of compunication, second sensory package includes wireless self-networking module；

Configuration first sensory package and the second sensory package are so that first sensory package and the second sensing Component wireless communication link includes：

The wireless self-networking module on second sensory package is configured, makes the wireless self-networking module with described The wireless communication module wireless communication link on one sensory package.

In a kind of exemplary embodiment of the disclosure, the wireless communication module include GPRS wireless data transfer modules, Any one in 3G wireless data transfer modules and 4G wireless data transfer modules.

In a kind of exemplary embodiment of the disclosure, the wireless self-networking module includes wireless based on ZigBee technology Self-organized network communication module or based on two layers of wireless self-networking communication module of self-organization network technology.

In a kind of exemplary embodiment of the disclosure, methods described also includes：

Second sensory package gathers the presupposed information around the communication iron tower, and by the wireless self-networking mould The presupposed information for gathering is sent the wireless communication module to first sensory package by block.

In a kind of exemplary embodiment of the disclosure, methods described also includes：

The presupposed information and described first that the wireless communication module on first sensory package will be received The information of sensory package collection sends to the remote back-office service center computer together.

The technical scheme provided by this disclosed embodiment can include the following benefits：

In a kind of embodiment of the disclosure, the method for the sensory package that land resources are monitored to be used for by above-mentioned laying, Sensory package is laid at communication iron tower to realize the monitoring to land resources, on the one hand, communication can be laid in based on the method Sensory package at steel tower realizes the monitoring to land resources, due to relying on existing communication steel tower capital construction resource, so can exempt from The problems such as building expropriation of land, construction, power supply, the communication involved by sensor laying platform is gone, existing communication steel tower is taken full advantage of The advantages such as wide, platform is high, powered communication is convenient are distributed, construction cost is cost savings；On the other hand, by being laid in communication First sensory package and the second component of steel tower various location gather different information respectively, it is possible to achieve to land resources compared with It is comprehensively monitoring.

It should be appreciated that the general description of the above and detailed description hereinafter are only exemplary and explanatory, not The disclosure can be limited.

Brief description of the drawings

Accompanying drawing herein is merged in specification and constitutes the part of this specification, shows the implementation for meeting the disclosure Example, and it is used to explain the principle of the disclosure together with specification.It should be evident that drawings in the following description are only the disclosure Some embodiments, for those of ordinary skill in the art, on the premise of not paying creative work, can also basis These accompanying drawings obtain other accompanying drawings.

Fig. 1 schematically shows the method that the sensory package for land resources monitoring is laid in disclosure exemplary embodiment Flow chart；

Fig. 2 schematically shows the sensory package installation position schematic diagram in disclosure exemplary embodiment；

Fig. 3 schematically shows the sensory package block diagram in disclosure exemplary embodiment；

Fig. 4 schematically shows the monitoring system block diagram of the use sensory package in disclosure exemplary embodiment；

Fig. 5 schematically shows the first sensory package schematic diagram in disclosure exemplary embodiment；

Fig. 6 schematically shows the second sensory package schematic diagram in disclosure exemplary embodiment.

Fig. 7 schematically shows another sensory package laid for land resources monitoring in disclosure exemplary embodiment Method flow diagram.

Specific embodiment

Example embodiment is described more fully with referring now to accompanying drawing.However, example embodiment can be with various shapes Formula is implemented, and is not understood as limited to example set forth herein；Conversely, thesing embodiments are provided so that the disclosure will more Fully and completely, and by the design of example embodiment those skilled in the art is comprehensively conveyed to.Described feature, knot Structure or characteristic can be combined in one or more implementation methods in any suitable manner.

Additionally, accompanying drawing is only the schematic illustrations of the disclosure, it is not necessarily drawn to scale.Identical accompanying drawing mark in figure Note represents same or similar part, thus will omit repetition thereof.

A kind of method for laying the sensory package for land resources monitoring is provided in this example embodiment.With reference to figure Shown in 1, methods described may comprise steps of：

Step S101：One first sensory package and the second sensory package are provided.

Step S102：First sensory package is laid on communication iron tower, second sensory package is laid in Communication iron tower lower section ground.

Step S103：First sensory package and the second sensory package are configured so that first sensory package and second Sensory package wireless communication link.

It is used for the method for the sensory package that land resources are monitored by above-mentioned laying, on the one hand, the method cloth can be based on The sensory package at communication iron tower is located to realize the monitoring to land resources, due to relying on existing communication steel tower capital construction resource, So the problems such as building expropriation of land, construction, power supply, the communication involved by sensor laying platform can be removed from, take full advantage of existing Communication iron tower is distributed the advantages such as wide, platform is high, powered communication is convenient, cost savings construction cost；On the other hand, by cloth The first sensory package and the second component for being located at communication iron tower various location gather different information respectively, it is possible to achieve to state Soil resource is more comprehensively monitored.

Below, each step of the above method in this example embodiment will be carried out in more detail referring to figs. 2 to Fig. 6 Explanation.

In step S101, there is provided one first sensory package and the second sensory package.

In an illustrative embodiments, with reference to shown in Fig. 5~6, first sensory package 101 can include intelligent light Electric transducer, multi-spectral imager, optoelectronic monitoring instrument, rainfall gauge and radar, naturally it is also possible to including other sensors part.It is described Second sensory package 102 can include acoustic shock sensor, cracking instrument, micro-displacement sensor, soil moisture tester, ultrasonic wave mud Position instrument and underground level gauge, naturally it is also possible to needed to increase or decrease senser element according to monitoring.In this illustrative embodiments, The sensory package 102 of first sensory package 101 and second gathers different data respectively.For example, the first sensory package 101 is adopted The data of collection can be ground spectral characteristic data, view data, video data, rainfall data and the geographical position of monitor area Data；And the data of the collection of the second sensory package 102 can be underground vibrations voice data, the ground fractures number of monitor area According to, the altitude information of ground displacement data, soil moisture data and sludge blanket, naturally it is also possible to be other data, this is not made It is specifically limited.

In step s 102, first sensory package is laid on communication iron tower, by the second sensory package cloth It is located at communication iron tower lower section ground.

In this example embodiment, with reference to shown in Fig. 2, the communication iron tower 103 can existing be deposited extensively in the wild Communication iron tower, such as communication base station iron tower.This example embodiment relies on communication iron tower capital construction resource, removes construction sensing from Device lay platform involved by expropriation of land, construction, power supply, communication the problems such as, make full use of communication iron tower be distributed extensively, platform it is high, confession The advantages such as telecommunication convenience.

In an illustrative embodiments, described first sensory package 101 is laid on communication iron tower 103 can be with Including：First sensory package 101 is laid on the communication iron tower 103 apart from ground predetermined height.For example, distance At the height of 40~60 meters of ground, naturally it is also possible to other height numbers are set as the case may be to facilitate monitoring, this is exemplary Implementation method is not particularly limited to this.

For example, can be by the intelligent opto-electrical sensor, multi-spectral imager, optoelectronic monitoring instrument, rainfall gauge and thunder It is laid on the communication iron tower up to same intervals distance or incomplete same spacing distance, those skilled in the art can Set with as the case may be, I will not elaborate.For convenience of engineering construction, above-mentioned various types of first sensory package peaces Any change is not made to communication iron tower 103 during dress, it is possible to use existing pole in communication iron tower 103, using the installation of lifting Mode lays sensory package on communication iron tower.It should be noted that Fig. 2 is only the installation position schematic diagram of sensory package, and Not shown real scheme of installation, is not used in and this illustrative embodiments is defined.

It is described that second sensory package 102 is laid under the communication iron tower 103 in an illustrative embodiments Square ground can include：Second sensory package 102 is laid in the lower section ground of the communication iron tower 103 with the communication iron tower In surrounding preset range centered on 103.For example, by the acoustic shock sensor arrangement in second sensory package 102 in monitoring Prohibit under the border land of exploiting field in the mining area in region.Ground fractures instrument and micro-displacement sensor are arranged in the ground of monitor area, by soil Earth moisture tester is arranged in the underground of monitor area.Ultrasonic wave mud position instrument is arranged in ground, and by level of ground water Meter is arranged in the underground of monitor area.Those skilled in the art can be multiple around a communication iron tower arrangement as the case may be The sensory package on ground, specific scope can be adjusted according to actual needs, for example can be according to the difference or signal of monitor area The requirement of transmission stability carrys out adjusting range size or apart from size.Wherein, centered on a communication iron tower 103, belong to The terrestrial data transmission that second sensory package 102 on the lower section ground of the communication iron tower 103 will be gathered is to the communication iron tower.

In step s 103, the sensory package 102 of the first sensory package 101 and second is configured so that first sensing The wireless communication link of 101 and second sensory package of component 102.

In this example embodiment, with reference to shown in Fig. 3~4, first sensory package 101 can include be used for it is long-range The wireless communication module 110 of the communication of background service center computer 104, second sensory package 102 can be included wirelessly certainly Networking module 120.The remote back-office service center computer 104 can be provided in the remote management center on backstage, realize To the reception processing of monitoring information to realize the functions such as the alarm to illegal land, this is existing mature technology, this area Technical staff can implement according to concrete application situation, repeat no more.

The intelligent opto-electrical sensor in first sensory package 101, multi-spectral imager, optoelectronic monitoring instrument, rain Gauge and radar can be connected to the same wireless communication module 110 by signal respectively, be led to the data of respective collection with facilitating The wireless communication module 110 is crossed to transmit to remote back-office service center computer 104, and it is cost-effective.Certain intelligence Photoelectric sensor, multi-spectral imager, optoelectronic monitoring instrument, rainfall gauge and radar each can also connect wireless described in one by equal signal Communication module 110.

In an illustrative embodiments, the wireless communication module includes GPRS wireless data transfer modules, 3G is wireless Any one in data transmission module and 4G wireless data transfer modules, naturally it is also possible to be other wireless communication modules, this Example embodiment is not particularly limited to this.The wireless self-networking module 120 can include the nothing based on ZigBee technology Line self-organized network communication module or based on two layers of wireless self-networking communication module of self-organization network technology, naturally it is also possible to be it His self-organized network communication module, this example embodiment is not particularly limited to this.

Exemplary, the acoustic shock sensor in second sensory package 101, cracking instrument, micro-displacement sensor, soil Earth moisture tester, ultrasonic wave mud position instrument and underground level gauge can each include wireless self-networking module 120 described in, and (figure is not Show), and each described wireless self-networking module 120 from each other self-organized network communication link (for example based on ZigBee technology constitute ZigBee-network or two layers of self-organizing network etc.), one of wireless self-networking module 120 is configured and the described first sensing The communication linkage of wireless communication module 110 on component 101.In this illustrative embodiments, positioned at communication iron tower lower section ground MANET between each sensory package, it is possible to achieve by ground acquisition data message transmitting to communication iron tower 103.

The sensory package 102 of first sensory package 101 and second is configured described in step S103 so that described first passes The wireless communication link of 101 and second sensory package of sense component 102 can include：Configure the institute on second sensory package 102 Wireless self-networking module 120 is stated, makes the channel radio on the wireless self-networking module 120 and first sensory package 101 The letter wireless communication link of module 110.For example, can be configured to the wireless self-networking module 120 by parameter setting, make The wireless self-networking module 120 is obtained to be linked with the pairing of the wireless communication module 110.The wireless self-networking module 120 can With by the wireless communication module 110 on the data message transmitting of ground acquisition to communication iron tower 103, by the radio communication mold Block 110 is transmitted to backstage.

With reference to shown in Fig. 7, on the basis of above-mentioned each implementation method, the sensing laid for land resources monitoring The method of component can also be comprised the following steps：

Step S201：Second sensory package gathers the presupposed information around the communication iron tower, and by the nothing The presupposed information for gathering is sent the wireless communication module to first sensory package by line MANET module.

For example, the acoustic shock sensor, cracking instrument, micro-displacement sensor, the soil water in second sensory package 102 Tester, ultrasonic wave mud position instrument and underground level gauge is divided to gather the information data of the surrounding monitor area of communication iron tower 103, example The altitude information of voice data, ground fractures data, ground displacement data, soil moisture data and sludge blanket is shaken such as underground, The data of each sensory package collection can be by transmitting to another biography from the network of group by a jump or double bounce from each other Sense component, is sent to first sensory package 101 by the wireless self-networking module 120 on final sensory package The wireless communication module 110.

Step S202：The presupposed information that the wireless communication module on first sensory package will be received with The information of the first sensory package collection sends to the remote back-office service center computer together.

For example, the above-mentioned data that will receive of the wireless communication module 110 on first sensory package 101 and institute State information data (the ground spectral characteristic data of such as monitor area, view data, the video of the collection of the first sensory package 101 Data, rainfall data and geographic position data etc.) send together to the remote back-office service center computer 104, to realize Reception processing to monitoring data.

The method that the disclosure is used for the sensory package that land resources are monitored by above-mentioned laying, lays at communication iron tower and passes Feel component to realize the monitoring to land resources, on the one hand, the sensory package at communication iron tower can be laid in based on the method To realize the monitoring to land resources, due to relying on existing communication steel tower capital construction resource, so construction sensor can be removed from laying The problems such as expropriation of land, construction, power supply involved by platform, communication, take full advantage of that the distribution of existing communication steel tower is wide, platform is high, supply The advantages such as telecommunication convenience, cost savings construction cost；On the other hand, by being laid in communication iron tower various location First sensory package and the second component gather different information respectively, it is possible to achieve land resources are more comprehensively monitored, side Continue administrative staff after an action of the bowels and relatively accurately analyze and process the various illegal exploitations to land resources or geological disaster situation.

It should be noted that although each step of method in the disclosure is described with particular order in the accompanying drawings, This does not require that or implies must perform these steps according to the particular order, or have to carry out the step shown in whole Desired result could be realized.It is additional or alternative, it is convenient to omit some steps, multiple steps are merged into a step and is held OK, and/or by a step execution of multiple steps etc. are decomposed into.

Those skilled in the art will readily occur to its of the disclosure after considering specification and putting into practice invention disclosed herein Its embodiment.The application is intended to any modification, purposes or the adaptations of the disclosure, these modifications, purposes or Person's adaptations follow the general principle of the disclosure and including the undocumented common knowledge in the art of the disclosure Or conventional techniques.Description and embodiments are considered only as exemplary, and the true scope of the disclosure and spirit are by appended Claim is pointed out.

Claims (10)

1. it is a kind of lay for land resources monitoring sensory package method, it is characterised in that methods described includes：

One first sensory package and the second sensory package are provided；

First sensory package is laid on communication iron tower, second sensory package is laid under the communication iron tower Square ground；

First sensory package and the second sensory package are configured so that first sensory package and the second sensory package are wireless Communication linkage.

2. method according to claim 1, it is characterised in that described that first sensory package is laid on communication iron tower Including：

First sensory package is laid on the communication iron tower apart from ground predetermined height.

3. method according to claim 2, it is characterised in that first sensory package includes intelligent opto-electrical sensor, many Optical spectrum imagers, optoelectronic monitoring instrument, rainfall gauge and radar；

Described first sensory package is laid on communication iron tower includes：

By the intelligent opto-electrical sensor, multi-spectral imager, optoelectronic monitoring instrument, rainfall gauge and radar with same intervals distance or The incomplete same spacing distance of person is laid on the communication iron tower.

4. method according to claim 1, it is characterised in that described that second sensory package is laid in the communication iron Tower lower section ground includes：

Second sensory package is laid in into surrounding of the communication iron tower lower section ground centered on the communication iron tower to preset In the range of.

5. method according to claim 4, it is characterised in that second sensory package include acoustic shock sensor, cracking instrument, Micro-displacement sensor, soil moisture tester, ultrasonic wave mud position instrument and underground level gauge.

6. according to Claims 1 to 5 any one methods described, it is characterised in that first sensory package include be used for it is remote The wireless communication module of journey background service center compunication, second sensory package includes wireless self-networking module；

Configuration first sensory package and the second sensory package are so that first sensory package and the second sensory package Wireless communication link includes：

The wireless self-networking module on second sensory package is configured, the wireless self-networking module is passed with described first The wireless communication module wireless communication link on sense component.

7. method according to claim 6, it is characterised in that the wireless communication module includes GPRS Wireless Data Transmission moulds Any one in block, 3G wireless data transfer modules and 4G wireless data transfer modules.

8. method according to claim 6, it is characterised in that the wireless self-networking module is included based on ZigBee technology Wireless self-networking communication module or based on two layers of wireless self-networking communication module of self-organization network technology.

9. method according to claim 6, it is characterised in that methods described also includes：

Second sensory package gathers the presupposed information around the communication iron tower, and will by the wireless self-networking module The presupposed information of collection sends the wireless communication module to first sensory package.

10. method according to claim 9, it is characterised in that methods described also includes：

The presupposed information that the wireless communication module on first sensory package will be received and the described first sensing The information of component collection sends to the remote back-office service center computer together.