CN103561242B - A kind of wild animal based on wireless image sensor network monitoring system - Google Patents

Abstract

The invention provides a kind of wild animal monitoring system built based on wireless image sensor network, including the wild animal monitoring round-the-clock automatic collection of image can be realized, compress and transmit Radio infrared image sensor network, the base station being connected with Radio infrared image sensor network by 3G network, the wild animal monitoring center being provided with 3D generalized information system that is connected with base station by the Internet.Described wild animal monitoring system uses the image compression algorithm based on compressive sensing theory being suitable for the most limited wireless image sensor network of disposal ability, power supply cruising time and channel transmission bandwidth.The present invention is wireless image sensor network successful Application in terms of wild animal monitoring for protection, can monitor image by round-the-clock acquisition wild animal, help research worker grasp wildlife resource present situation remotely, in real time and dynamically change.

Description

A kind of wild animal based on wireless image sensor network monitoring system

Technical field

The present invention relates to a kind of wild animal based on wireless image sensor network monitoring system, belong to wireless sensor network skill Art application.

Background technology

The survival and development of wild animal maintain the balance and stability of whole ecosystem.Wild animal kind, quantity and perch Ground situation is Ecosystem Changes and the important indicator of reflection management strategy.Wild animal monitoring can provide wild animal to provide Source category, quantity and the necessary information of habitat situation, help research worker to grasp wildlife resource present situation and wild animal The dynamic change of resource, provides foundation for effectively protection, sustainable utilization, scientific management wildlife resource.

Wild animal monitoring is for protecting dilute endangered wildlife species particularly important.Wild animal is monitored, and mainly faces environment multiple Polygamy, Animal behaviour particularity and diversity etc. are challenged.Wild animal monitoring is the hot fields of research both at home and abroad, and state at present The research that the interior long-term dynamics about wild animal is monitored the most extremely lacks.It is critical only that of wild animal monitoring obtains monitoring continuously In the range of the quantity of certain animal and relevant information.Summing up, wild animal monitoring mainly has following several ways: the most artificial Field investigation, concrete grammar has division lines method, pinpoints counting method, meets rate method, questionnaire method etc., and which monitoring range has Limit, labor intensity are big, dangerous high, and can not realize round-the-clock monitoring；2. global positioning system (GPS) necklace mode, Relative to traditional radio necklace, GPS necklace provides more preferable spatial resolution and under broader time and steric requirements Determine position, but this monitoring mode is the most friendly, animal image information can not be obtained；3. infrared camera mode, infrared camera The view data of shooting is stored in local Large Copacity SD storage card, and research worker is spaced at regular intervals, will go on-the-spot taking-up SD card, read data, this mode exist data acquisition delayed, monitoring cycle length, labor intensity high drawback big, dangerous, The view data collected, combined with 3G network, is sent to user mobile phone, which by 3G network by the infrared camera also having Rely on 3G mobile signal to cover, and the core space in some Nature Reserve does not has mobile phone signal；4. wireless camera Head, WiMAX microwave transmission image, which needs mains-supplied, and higher owing to disposing, and is easily blocked by tree crown, Being difficult to obtain movable wild animal image in woods, this equipment manufacturing cost is the highest；5. Satellite Remote Sensing, satellite remote sensing is comprehensively supervised Survey is difficult to accurately measure local microscopic information, and there is the scan period, it is impossible to monitor in real time.Visible, wild animal protects tradition Protect monitoring mode and be unfavorable for that research worker grasps wildlife resource present situation and wildlife resource comprehensively, accurately and timely Dynamically change.

Wireless sensor network technology is the core technology of emerging technology of Internet of things.Wireless sensor network has low cost, low Power consumption, facilitate the advantages such as extension, be therefore applied widely.At present, what wireless sensor network mainly gathered is data volume The simple physical message such as less illumination, temperature.In recent years, along with the progress of cmos image sensor technology, by low-power consumption, Low-cost imageing sensor introduces in wireless sensor network and has become as possibility, but, the image that imageing sensor gathers Information data amount is huge, proposes huge challenge to transmission.Therefore wireless multimedia sensor network is along with the application of himself Field and challenge, be increasingly becoming a new research field.Wherein, one of the most promising application is exactly wild animal monitoring.

Summary of the invention

It is an object of the invention to the deficiency overcoming the existing conservation of wildlife to monitor, propose a kind of based on wireless image sensor network The wild animal monitoring system of network, helps research worker to grasp wildlife resource present situation and wildlife resource remotely, in real time Dynamic change.

In order to realize foregoing invention purpose, the technical scheme that present example uses is as follows:

The wild animal monitoring system built based on wireless image sensor network, including realizing wild animal monitoring image certainly Dynamic gather, compress and transmit Radio infrared image sensor network, by 3G network and Radio infrared image sensor network company The base station connect, the wild animal monitoring center being provided with 3D generalized information system being connected with base station by the Internet.Described wild animal Monitoring system uses and is suitable for the wireless image sensor network that disposal ability, power supply cruising time and channel transmission bandwidth are the most limited Image compression algorithm based on compressive sensing theory.

In technique scheme, described Radio infrared image sensor network includes multiple Radio infrared imageing sensor node and remittance Poly-node: described Radio infrared imageing sensor node is by image capture module, image processing module, wireless communication module, GPS Module and supply module composition, described Radio infrared imageing sensor node is equipped with 3 pyroelectric infrared sensors, multiple infrared LED, light sensor and two steering wheels, the sensing angle of described pyroelectric infrared sensor is 120 °, 3 rpyroelectric infrareds Sensor is respectively facing 3 directions, and induction range non-overlapping copies.Radio infrared imageing sensor node is in dormancy usually State, once there be wild animal to enter search coverage, Radio infrared imageing sensor node starts immediately, and by controlling two Camera lens is adjusted to by the rotational angle of individual steering wheel, the direction corresponding to the pyroelectric infrared sensor of wild animal detected, carries out Picture shooting.Light sensor judges that light is the most sufficient, time bright and clear, is taken a picture as colour picture；During insufficient light Start infrared LED to be illuminated, taken a picture as black-and-white photograph.Radio infrared imageing sensor node can realize round-the-clock Gather, compress and send wild animal infrared picture data and forward the infrared image number of other Radio infrared imageing sensor nodes According to, realize GPS positioning function simultaneously；Described aggregation node module is used for connecting Radio infrared image sensor network and 3G network, Realize being reliably connected of Radio infrared image sensor network and base station, concentrate and infrared picture data is sent to base by 3G network Stand.

The Radio infrared imageing sensor node of described Radio infrared image sensor network and aggregation node are straight with solar recharging Stream power supply is as the external power supply of node, it is achieved dual power supply is powered simultaneously, extends stand-by time.

Described Radio infrared imageing sensor node is widely deployed in wild animal zone of action or near zone, with ZigBee skill Based on art, form network by Ad hoc mode.

Described image compression algorithm based on compressive sensing theory is: first piece image X is divided into several sizes is B × B's Sub-block x_i, each sub-block is carried out discrete cosine transform (DCT) conversion and obtains corresponding rarefaction representation θ_i, to each θ_iChoose phase Same observing matrix (gaussian random matrix) is observed, and obtains observation y_i, then to observation y_iCarry out quantifying and Hough Graceful coding, finally obtains the signal p of compression.Reconstruct is that p is carried out Hafman decoding, inverse quantization, obtains observation y_iThen To each observation y_iReconstructed by orthogonal matching pursuit algorithm (OMP), the figure after dct transform and image reorganization are restored As X '.

Described base station is connected with the Internet, and the infrared picture data received is passed through the Internet transmission to wild animal monitoring center.

3G network is used to connect Radio infrared image sensor network and base station.

Described wild animal monitoring center is connected with the Internet, is provided with 3D generalized information system, and is provided with wild animal image information Storehouse, the infrared picture data collected can be stored and analyze by scientific research personnel.

Traditional conservation of wildlife monitoring means is backward in technique, efficiency is low, seriously hampers the normal of conservation of wildlife work Carry out.The present invention utilizes Internet of Things framework, advanced Radio infrared image sensor network technology and mobile radio networks Technology combines, it is achieved that wild animal monitored area is completely covered；The present invention is saved by Radio infrared imageing sensor The infrared image of some automatic shooting wild animal, it is not necessary to manually participate in；The present invention proposes to be suitable for based on advanced compressive sensing theory Image in the low complex degree of the most limited wireless image sensor network of disposal ability, power supply cruising time and channel transmission bandwidth Compression algorithm；Meanwhile, the picture number that will be able to be collected by Radio infrared image sensor network and mobile radio networks According to passing back to wild animal monitoring center in time for research worker analysis.Present invention design is that wireless sensor network is wild animal Successful Application in terms of monitoring for protection, be advantageously implemented to wild animal round-the-clock, long-range, monitor in real time, for protection open country Raw Animal resources have great using value.

Accompanying drawing explanation

Fig. 1 is the system architecture schematic diagram of the present invention；

Fig. 2 is the structural representation of Radio infrared imageing sensor node；

Fig. 3 is the hardware architecture diagram of Radio infrared imageing sensor node；

Fig. 4 is the workflow diagram of Radio infrared imageing sensor node；

Fig. 5 is the hardware architecture diagram of aggregation node；

Fig. 6 is the workflow diagram of aggregation node；

Fig. 7 image compression algorithm based on compressed sensing flow chart；

Fig. 8 is the functional schematic of base station.

Detailed description of the invention

The present invention is described further below in conjunction with the accompanying drawings.

The system structure of the present invention includes Radio infrared image sensor network, three the main portions in base station and wild animal monitoring center Point, its composition structure as shown in Figure 1, is described as follows:

Radio infrared image sensor network (1) includes multiple Radio infrared imageing sensor node and aggregation node；Radio infrared Imageing sensor node (2) is by image capture module, image processing module, wireless communication module, GPS module and supply module Composition, described Radio infrared imageing sensor node is equipped with 3 pyroelectric infrared sensors, multiple infrared LED, light sensor Device and two steering wheels, the sensing angle of described pyroelectric infrared sensor is 120 °, and 3 pyroelectric infrared sensors are respectively facing 3 directions, and induction range non-overlapping copies.Radio infrared imageing sensor node the most in a dormant state, once has open country When lively thing enters search coverage, Radio infrared imageing sensor node starts immediately, and by controlling the angle of rotation of two steering wheels Camera lens is adjusted to by degree, the direction corresponding to the pyroelectric infrared sensor of wild animal detected, carries out picture shooting.Photosensitive Sensor judges that light is the most sufficient, time bright and clear, is taken a picture as colour picture；Start infrared LED during insufficient light to enter Row illumination, is taken a picture as black-and-white photograph.Radio infrared imageing sensor node can realize round-the-clock collection, compression concurrently Send wild animal infrared picture data and forward the infrared picture data of other Radio infrared imageing sensor nodes, realizing GPS simultaneously Positioning function.Multiple Radio infrared imageing sensor nodes are widely deployed in wild animal zone of action or near zone, with ZigBee Based on technology, form Radio infrared image sensor network by Ad hoc mode；The remittance of Radio infrared image sensor network Poly-node (3), is used for connecting Radio infrared image sensor network (1) and 3G network (4), makes Radio infrared image sensing Device network (1) is set up with base station (5) and is connected reliably.The view data finally quilt of Radio infrared imageing sensor node (2) It is sent on the aggregation node (3) of Radio infrared image sensor network (1), is concentrated picture number by aggregation node (3) According to being sent to base station (5) place；3G network (4) is used to connect Radio infrared image sensor network (1) and base station (5)； Base station (5) is connected with the Internet (6), is responsible for that the view data received is transferred to wild animal by the Internet (6) and supervises Measured center (7)；The Internet (6) is used to connect base station (5) and wild animal monitoring center (7)；Wild animal monitoring center (7) being connected with the Internet (6), be provided with 3D generalized information system, and be provided with wild animal Image Database, scientific research personnel is permissible The infrared picture data collected is stored and analyzes.

In order to adapt to image real time transfer complexity and take into account the problem of energy consumption, the present invention design nothing with ARM as kernel control chip Line infrared image sensor node, can complete image acquisition and compression, wireless routing and communications function.The present invention is wireless Infrared image sensor node system design composition specifically includes that image capture module, image processing center, ZigBee channel radio Letter four parts such as module and supply module.Its structural representation is as in figure 2 it is shown, Radio infrared imageing sensor node is equipped with 3 Individual pyroelectric infrared sensor (5) and multiple infrared LED (1), the sensing angle of pyroelectric infrared sensor (5) is 120 °, 3 pyroelectric infrared sensors (5) are respectively facing 3 directions, and induction range non-overlapping copies.Radio infrared image Sensor node the most in a dormant state, enters pyroelectric infrared sensor (5) search coverage, nothing once there be wild animal Line infrared image sensor node starts immediately, and is adjusted to by camera lens by controlling two steering wheels (4), wild animal detected The direction corresponding to pyroelectric infrared sensor (5), carry out picture shooting.Judge that light is by light sensor (3) No abundance, time bright and clear, is taken a picture as colour picture；Start infrared LED (1) during night deficiency to be illuminated, Taken a picture as black-and-white photograph.Additionally, other modules of Radio infrared imageing sensor node are all placed in containment vessel (6), Support (7) can adjust the height of shooting as required.

Radio infrared imageing sensor node hardware block diagram is as shown in Figure 3.Wherein, image capture module by infraluminescence LED, Pyroelectric infrared sensor, light sensor, imageing sensor and motor composition.Image processing center is with ARM microprocessor For core, interrupt control, the conversion of view data coding/decoding apparatus, view data A/D, view data storage including image information Equipment, same/peripheral expansion circuit such as Asynchronous Serial Interface and general purpose I/O Interface.ZigBee wireless communication module includes low noise The modules such as amplifier, filtering and frequency mixer, power amplifier, modulation and demodulation, A/D Yu D/A and control logic.Solar energy Battery supply module is made up of accumulator, chopper circuit, solaode, controller and measuring circuit etc..

Radio infrared imageing sensor node is equivalent to the child node of aggregation node, and self-organizing formula is networked, and is that Radio infrared image passes Basic unit's link in sensor network, is directly associated with wild animal image acquisition, transmits after Data Compression, Groundwork has: waking up nodes, wild animal image acquisition, image compression encoding, transmission data, entrance dormancy etc., specifically Workflow is as shown in Figure 4.

Radio infrared imageing sensor node is in park mode under normal circumstances, is called out when receiving infra-red heat sensing triggering signal After Xinging, send order at once and adjust camera lens by steering wheel, the direction corresponding to the pyroelectric infrared sensor of wild animal detected, Meanwhile, judging that light is the most sufficient by light sensor, if inadequate, start Infrared LED illumination, imageing sensor is carried out Wild animal image acquisition, is then sent to the view data collected image processing module and is compressed coding；GPS module Start, and obtain location data；Meanwhile, the request of transmission adds network, waits that the response of aggregation node is successfully joined network After, the view data after starting compressed encoding and location data are sent to superior node, and superior node sends response bits, determines After receiving successfully, Radio infrared imageing sensor node proceeds to again resting state, so moves in circles.

Described aggregation node module is used for connecting Radio infrared image sensor network and 3G network, it is achieved Radio infrared image sensing Device network is connected reliably with the foundation of base station, it is achieved the transmitted in both directions of data, meets wireless sensor network in actual applications Demand.The aggregation node hardware configuration built herein is as shown in Figure 5.Aggregation node includes wireless communication module, gateway Reason device module, wireless ZigBee communication module and solar cell for supplying power module.Wherein, wireless communication module by modulation and demodulation, Base band signal process and usim card composition.Gateway processor module is with arm processor as core, including memorizer, Ethernet Network interface, protocol stack, routing management, same/peripheral expansion circuit such as Asynchronous Serial Interface and general purpose I/O Interface.ZigBee without Line communication module includes low-noise amplifier, filtering and frequency mixer, power amplifier, modulation and demodulation, A/D Yu D/A and control The modules such as logic processed.Solar cell for supplying power module is by accumulator, chopper circuit, solaode, controller and measuring circuit Deng composition.

Aggregation node is mainly responsible for setting up and managing network, it is allowed to or refuse the networking of any one sensing node, and by each wireless red The data collection of outer imageing sensor node is sent to base station by 3G network.Its work process is generally divided into: waking up nodes, Set up network, add ingress, wait data message, send data, enter dormancy.The specific works flow process of gateway node such as figure Shown in 6.

Aggregation node is in park mode at ordinary times, once receives the request signal adding network, carries out rapidly system initialization, open Establish vertical network.When setting up network, aggregation node can constantly search for the channel of sky, if searching a certain channel, by separately One aggregation node takies, then re-search for, until searching out vacant channels, it does respective identification immediately, prepares to set up the network of oneself. Aggregation node decides whether to add Radio infrared imageing sensor node according to the resource requirement of oneself, if selecting to add this node, Then allocate it a network address, constitute new network.Simultaneously etc. view data to be received and location data, lead to after receiving successfully Cross 3G network and be sent to base station.

First described image compression algorithm flow chart based on compressive sensing theory as it is shown in fig. 7, be divided into some by piece image X Individual size is sub-block x of B × B_i, each sub-block is carried out conversion and obtains corresponding vector representation θ_i, to each θ_iChoose identical Observing matrix Φ_BIt is observed, obtains observation y_i=Φ_B×θ_i, then to observation y_iCarry out ADPCM and Kazakhstan Fu Man encodes, and finally obtains the signal p of compression.Reconstruct is that p carries out Hafman decoding, differential pulse decoding modulation, obtains Observation y_iThen to each observation y_iReconstructed by iterative projection (SPL) algorithm, the image after image reorganization is restored X′。

Base station, is made up of with data transmission unit computer, and its structure chart is as shown in Figure 8.Base station major function is: receive The wild animal infrared picture data that Radio infrared image sensor network is collected, then gives wild dynamic by the Internet transmission Thing monitoring center.

Wild animal monitoring center be one with SQLite data base and GUI as basic platform, use many merits of C Plus Plus exploitation Energy information management system, is provided with 3DGIS system.Data base mainly stores information and includes: wild animal kind, feature, go out Existing place, infrared image etc..Main modular includes: signal dispatcher module, information retrieval, data update and safety management.

The above, the only present invention preferably detailed description of the invention, but protection scope of the present invention is not limited thereto, and any Those familiar with the art in the technical scope that the embodiment of the present invention discloses, the change that can readily occur in or replacement, All should contain within protection scope of the present invention.Therefore protection scope of the present invention should be as the criterion with scope of the claims.

Claims (1)

1. the wild animal monitoring system built based on wireless image sensor network, by Radio infrared image sensor network, base Stand and wild animal monitoring center forms；It is characterized in that:

Described Radio infrared image sensor network realizes automatically gathering, compress and transmitting of wild animal monitoring image；

Described wild animal monitoring center is provided with 3D generalized information system；

Described wild animal monitoring system uses image compression algorithm based on compressive sensing theory, is suitable for disposal ability, power supply continuation of the journey Time and the most limited wireless image sensor network of channel transmission bandwidth；

Described power supply uses solar cell for supplying power module to carry out power supply continuation of the journey；

Described Radio infrared image sensor network includes multiple Radio infrared imageing sensor node and aggregation node: described Radio infrared Imageing sensor node is made up of image capture module, image processing module, wireless communication module, GPS module and supply module, Described Radio infrared imageing sensor node is equipped with 3 pyroelectric infrared sensors, multiple infrared LED, light sensors and two Individual steering wheel, the sensing angle of described pyroelectric infrared sensor is 120 °, and 3 pyroelectric infrared sensors are respectively facing 3 sides To, induction range non-overlapping copies；Radio infrared imageing sensor node the most in a dormant state, once has wild animal to enter During search coverage, Radio infrared imageing sensor node starts immediately, and is adjusted by camera lens by controlling the rotational angle of two steering wheels Whole to the direction detected corresponding to the pyroelectric infrared sensor of wild animal, carry out picture shooting；Described light sensor is sentenced Disconnected light is the most sufficient, time bright and clear, is taken a picture as colour picture；Start infrared LED during insufficient light to be illuminated, Taken a picture as black-and-white photograph；Described Radio infrared imageing sensor node realizes round-the-clock collection, compresses and sends wild dynamic Thing infrared picture data and forward the infrared picture data of other Radio infrared imageing sensor nodes, realizes GPS simultaneously and positions merit Energy；

Described aggregation node is used for connecting Radio infrared image sensor network and 3G network, it is achieved Radio infrared image sensor network With being reliably connected of base station, concentrate and infrared picture data is sent to base station by 3G network；

First piece image X is divided into sub-block x that several sizes are B × B by described image compression algorithm based on compressive sensing theory_i, Each sub-block is carried out conversion and obtains corresponding vector representation θ_i, to each θ_iChoose identical observing matrix Φ_BIt is observed, Obtain observation y_i=Φ_B×θ_i, then to observation y_iCarry out ADPCM and Huffman encoding, finally obtain pressure The signal p of contracting；Reconstruct is that p carries out Hafman decoding, differential pulse decoding modulation, obtains observation y_i, then to each Observation y_iReconstructed by smooth Projection Iteration SPL algorithm, the image X ' after image reorganization is restored.