CN106503449A - A kind of urban ecology health monitoring and managing system - Google Patents

Abstract

The present invention discloses a kind of urban ecology health monitoring and managing system, including：In order to the acquisition module are acquired by data, in order to carry out the monitoring module that sorts out, chart, show, analyzing, storing to data, in order to be configured the regulation and control module with regulation and control to system.The urban ecology health monitoring and managing system carries out Real-time Collection, monitoring, analysis to each index, enters Mobile state management to the index for changing, continuouslys optimize system with being optimal control.The urban ecology health monitoring and managing system both can apply to spatially compare the ecosystem relative health between different cities, can be used for analyzing the ecosystem health situation in same city trend over time on the time.

Description

A kind of urban ecology health monitoring and managing system

Technical field

The present invention relates to urban ecology evaluation and management domain, and in particular to a kind of urban ecology health monitoring management system System.

Background technology

Since the industrial revolution, city of the world's process is constantly accelerated, city become undoubtedly human being's production with The center of life, its environmental health situation are very significant considering that to the sustainable development of whole human society.Urbanization is entered Journey makes city become the region that various ecological environment problems concentrate outburst while material progress and economic development is brought, also, Urban ecological system is experienced by the puzzlement of the problems such as energy shortage, shortage of water resources, atmospheric pollution, ecological disruption, and city is given birth to State system health is seriously threatened.Facing to alleviation urban ecological environment pressure, ensure the urgent existing of urban sustainable development Real demand, sets up suitable controlling and management, carries out urban environmental management and seems particularly important with the work of ecological planning And necessity.

In existing research, it is the certain health standards of subjective customization mostly, evaluates urban ecological system on this basis Health status, however, with regard to urban ecological system for this complicated open and huge, do not exist generally acknowledged, unique, solid Fixed health standards.Accordingly, it would be desirable to one kind can carry out Real-time Collection, monitoring to each index in urban ecological system, to change Index enters Mobile state management, the system for continuousling optimize.

In view of drawbacks described above, creator of the present invention passes through prolonged research and practice obtains the present invention finally.

Content of the invention

For solving above-mentioned technological deficiency, the technical solution used in the present invention is, there is provided a kind of urban ecology health monitoring Management system, including：

Acquisition module, to be acquired to data；

Monitoring module, to carry out sorting out, chart, show, analyze and storing to data；

Regulation and control module, to be configured to system and regulation and control；

The urban ecology health monitoring and managing system carries out Real-time Collection, monitoring, analysis to each index, to the finger for changing Mark and manage into Mobile state, continuously optimize system.

Preferably, the acquisition module includes gas content detector, for measuring the chemical composition in air, element contains Amount and proportion.

Preferably, when the quantity of the gas content detector wants the quantity of detection elements to there is following relation with which, inspection The data for measuring are the most authentic and valid, can minimize cost again：

In formula, y represents that the quantity of the gas content detector, x represent the quantity of the detection elements.

Preferably, the acquisition module includes weather detector, for detecting the climate process such as temperature, precipitation, wind-force.

Preferably, the acquisition module includes PH detectors, Turbidity measurement instrument, dissolving oxygen detection, for water resource Index carry out data acquisition.

Preferably, the monitoring module includes display screen.

Preferably, the monitoring module includes memorizer.

Preferably, the acquisition module includes the equipment such as bio-diversity detector, permanganate index analyser.

Preferably, the relative property based on urban ecosystem health substantially, introduces Method of Set Pair Analysis, by model meter The relative health for obtaining urban ecological system is calculated,

If Appraisal of Urban Ecosystem Health problem Q={ S, M, H }, wherein S={ s_k(k=1,2 ..., it is p) evaluation city Fair, s_kFor k-th city；M={ m_r(r=1,2 ..., it is n) index set, remembers M₁For positive type index, M₂Refer to for negative sense type Mark, m_rFor r-th index；Then decision matrix H=(h with regard to problem Q based on Set Pair Analysis_kr)_p×n, h_krFor city s_kWith regard to Index m_rProperty value,

Optimal evaluate collection is constituted for U={ u by optimum evaluation index in each evaluation index₁,u₂,…,u_n, each evaluation index In most bad evaluation index to constitute most bad evaluate collection be V={ v₁,v₂,…,v_n, wherein, u_r、v_rRespectively index m_rOptimal value and Most bad value, for m_r∈M₁, compare interval for [v_r,u_r], then in domain X_r={ h_kr,u_r,v_r, (k=1,2 ..., p) upper definition Set pair { h_kr,u_rSame degree of membership a_krWith opposition degree of membership c_kr：

a_krAnd c_krH is represented respectively_krWith u_r、v_rDegree of closeness, in the same manner, for m_r∈M₂In more interval [u_r,v_r] obtain Same degree of membership a of set pair_krWith opposition degree of membership c_kr：

In s_kComparison space [U, V] in, in conjunction with the weight of indices, calculate averagely same degree of membership a_k, average oppose Degree of membership c_k：

Due to a_k、c_kIt is relative determination, is represented to s respectively_kThe affirmation and negation degree of optimum evaluation system U is close to, that Definable s under the conditions of relative determination_kRelative similarity degree with U is：

r_kSize determine and be evaluated city s_kSequence under evaluation problem Q, r_kThe bigger person of value represents that situation is better, That is urban ecological system is bigger with the approach degree of optimum evaluate collection, and urban ecosystem health situation is better.

Compared with the prior art the beneficial effects of the present invention is：1, the urban ecology health monitoring and managing system can Monitor in real time is carried out to each index in urban ecological system, to there is abnormal index to enter Mobile state management, and is carried out constantly excellent Change；2, the urban ecology health monitoring and managing system is provided with acquisition module, and which includes various types of detectors, and city is given birth to The classifications such as air, weather, water source, biology in state system, carry out data collection as detailed as possible, are monitoring and the pipe of system Reason is provided convenience；3, the urban ecology health monitoring and managing system is provided with display screen, can show the information such as data, chart Show on screen, short and sweet, it is easy to user intuitively to see data, variation tendency and analysis result；4, the city life State health monitoring and managing system is provided with control unit, and the various pieces of whole system can be configured and regulation and control, to realize Optimized control to system, meanwhile, when there is index to occur abnormal, notify relevant departments to enhance your vigilance, it is to avoid to cause bigger Harm；5, the urban ecology health monitoring and managing system both can apply to spatially compare the ecosystem between different cities Relative health, can be used for analyzing the ecosystem health situation in same city trend over time on the time.

Description of the drawings

For the technical scheme being illustrated more clearly that in various embodiments of the present invention, below will be to wanting needed for embodiment description The accompanying drawing for using is briefly described.

Fig. 1 is the structure diagram of the present invention；

In figure, numeral is represented：

1. 2. monitoring module of acquisition module 3. regulates and controls module

11. gas content detector, 12. 14. Turbidity measurement instrument of weather detector 13.PH detectors, 15. dissolved oxygen is examined Survey 16. bio-diversity detector of instrument

21. processing unit, 22. display screen, 23. memorizer

31. control units

Specific embodiment

Below in conjunction with accompanying drawing, above-mentioned He other technical characteristic of the invention and advantage are described in more detail.

Embodiment 1

As shown in figure 1, which is the structure diagram of urban ecology health monitoring and managing system of the present invention, the city life State health monitoring and managing system includes：Acquisition module 1, monitoring module 2 regulate and control module 3.

It has been investigated that, urban ecosystem health situation is closely related with many factors, only will be as detailed as possible Data collection gets up, and classifies and unified analysis and summary, the urban ecosystem health situation could be made as far as possible Comprehensively assess, and then regulated and controled.The acquisition module 1 includes：Gas content detector 11, weather detector 12, PH are examined Instrument 13 is surveyed, Turbidity measurement instrument 14 dissolves oxygen detection 15, and bio-diversity detector 16 can also increase height according to actual needs The equipment such as manganate index analysis instrument.

The gas content detector 11 is used for measuring the elements such as the chemical composition in air, such as C, N, O, P, and measures Constituent content and shared ratio, carry out the degree of preliminary analyses atmospheric pollution with this；The weather detector 12, for detecting City temperature interior for a period of time, precipitation, wind-force etc. other there is the climate process of adjustment effect, city is tentatively understood with this Climatic condition；The PH detectors 13, the Turbidity measurement instrument 14, the dissolving oxygen detection 15 are for water resource A little indexs carry out data acquisition, and water resource is related to the classifications such as natural water, drinking water, the surface water, industrial wastewater, river, with this Various water resources are carried out with detail and comprehensively data acquisition；The urban ecosystem health situation is directly influenced in city Bio-diversity, the bio-diversity detector 16 be used for the bio-diversity data collection, by several time periods The bio-diversity data be analyzed and compare, just can tentatively judge urban ecosystem health situation, convenient fast Victory, will not expend excessive manpower and materials again.

The monitoring module 2 includes：Processing unit 21, display screen 22, memorizer 23.

The various data that the acquisition module 1 is collected are sorted out by the processing unit 21, and can be according to reality Need to be depicted as the charts such as bar diagram, cake chart, broken line graph, then shown on the display screen 22, be easy to user The data for collecting, variation tendency, and analysis result is intuitive to see, the function of monitor in real time is realized.The memorizer 23 It is used for preserving various information records, for example：The contents such as the next data of collection, analytical data, various charts, systematic parameter.Institute It can be read only memory (ROM) or random access memory (RAM) to state memorizer 23, can be selected according to actual needs.

The regulation and control module 3 is a control unit 31, and described control unit 31 can enter to the various pieces of whole system Row is arranged and regulation and control, to realize the optimized control to system, such as to wanting the type of gathered data to enter in the acquisition module 1 Row sets, and is controlled to opening which detector, the setting to detection data frequency, to the time of gathered data, space etc. The constraint of aspect.In addition, see thering is which index has exception on the display screen 22 when user, to the urban ecology System health causes a certain degree of impact, relevant departments will be notified to enhance your vigilance, and taken measures on customs clearance in time, kept away Exempt to cause bigger harm, finally realize preferable adjusting function.

Embodiment 2

On the basis of above-mentioned embodiment, the quantity of the gas content detector 11 wants the quantity of detection elements with which When there is following relation, detect that the data for obtaining are the most authentic and valid, can minimize cost again：

In formula, y represents that the quantity of the gas content detector, x represent the quantity of the detection elements.

In the case that the number of element to be detected is more, if only arranging a gas content detector, measure The constituent content for coming and the data of proportion have error unavoidably, need the several gas content detectors of many settings allow Data are more true but to arrange how much the gas content detector is most suitable is but difficult to carry out intuitive judgment comprehensively, if Data go to attempt one by one.Can take a substantial amount of time unavoidably and manpower.

By above-mentioned formula, in the case of the number of the known detection elements, it is possible to be quickly calculated result, The quantity that needs the gas content detector be set more clearly is learnt, then again will be more reasonable for the gas content detector Be distributed in region to be measured so that the data gathered by the gas content detector can reflect test zone each element content And the verity of proportion Value Data.

Finally, multiple data measurements can be obtained in each test zone, by be calculated each test zone each The meansigma methodss of element proportion are used as final data.

Embodiment 3

On the basis of above-mentioned embodiment, based on urban ecosystem health relative property substantially, set pair point is introduced Analysis method, analyzes the Pair Analysis between multiple urban ecological systems, constructs more rational health standards to evaluate the city life State system health.On the basis of determining urban ecological system object and setting up corresponding assessment indicator system, construct by The optimum evaluate collection of multiple index optimal value compositions, this optimum collection are calculated respectively by model equivalent to health standards Urban ecological system and the relative similarity degree of optimum evaluate collection, with the relative healths of this clear reaction urban ecological system Situation.

If Appraisal of Urban Ecosystem Health problem Q={ S, M, H }, wherein S={ s_k(k=1,2 ..., it is p) evaluation city Fair (can also be evaluation period collection), s_kFor k-th city；M={ m_r(r=1,2 ..., it is n) index set, remembers M₁For forward direction Type index (desired value is the bigger the better), M₂For negative sense type index (desired value is the smaller the better), m_rFor r-th index；Set pair is then based on Decision matrix H=(the h with regard to problem Q of analysis_kr)_p×n, h_krFor city s_kWith regard to index m_rProperty value.

Optimal evaluate collection is constituted for U={ u by optimum evaluation index in each evaluation index₁,u₂,…,u_n, each evaluation index In most bad evaluation index to constitute most bad evaluate collection be V={ v₁,v₂,…,v_n, wherein, u_r、v_rRespectively index m_rOptimal value and Most bad value.For m_r∈M₁, compare interval for [v_r,u_r], then in domain X_r={ h_kr,u_r,v_r, (k=1,2 ..., p) upper definition Set pair { h_kr,u_rSame degree of membership a_krWith opposition degree of membership c_kr：

a_krAnd c_krH is represented respectively_krWith u_r、v_rDegree of closeness.In the same manner, for m_r∈M₂In more interval [u_r,v_r] obtain Same degree of membership a of set pair_krWith opposition degree of membership c_kr：

In s_kComparison space [U, V] in, in conjunction with the weight of indices, calculate averagely same degree of membership a_k, average oppose Degree of membership c_k：

Due to a_k、c_kIt is relative determination, is represented to s respectively_kThe affirmation and negation degree of optimum evaluation system U is close to, that Definable s under the conditions of relative determination_kRelative similarity degree with U is：

r_kSize determine and be evaluated city s_kSequence under evaluation problem Q, r_kThe bigger person of value represents that situation is better, That is urban ecological system is bigger with the approach degree of optimum evaluate collection, and urban ecosystem health situation is better.

Embodiment 4

On the basis of above-mentioned embodiment, 16 cities such as Beijing, Shanghai, Wuhan, Guangzhou are compared from Spatial Dimension City's ecosystem health situation (table 1) in 2005.

1 2005 years each urban ecological system relative healths of table

As a result show, Xiamen, Qingdao, Hangzhou, Shanghai, Beijing are in higher level, and Urumchi, Chengdu, Harbin It is in reduced levels.

Embodiment 5

On the basis of above-mentioned embodiment, on time dimension, by taking Beijing as an example, compare between its 1986-2005 Situation of change (table 2).

The each year urban ecological system relative health in 2 Beijing of table

As a result show, between 1986-2005, Beijing's ecosystem health situation changes slow fluctuation over time, does not have Having.

Presently preferred embodiments of the present invention is the foregoing is only, is merely illustrative for the purpose of the present invention, and non-limiting 's.Those skilled in the art understanding, can carry out many changes to which in the spirit and scope limited by the claims in the present invention, Modification, in addition equivalent, but fall within protection scope of the present invention.

Claims (9)

1. a kind of urban ecology health monitoring and managing system, it is characterised in that include：

Acquisition module, to be acquired to data；

Monitoring module, to carry out sorting out, chart, show, analyze and storing to data；

Regulation and control module, to be configured to system and regulation and control；

The urban ecology health monitoring and managing system carries out Real-time Collection, monitoring, analysis to each index, and the index for changing is entered Mobile state is managed, and continuouslys optimize system.

2. urban ecology health monitoring and managing system as claimed in claim 1, it is characterised in that the acquisition module includes gas Body content detection instrument, for measuring the chemical composition in air, constituent content and proportion.

3. urban ecology health monitoring and managing system as claimed in claim 2, it is characterised in that the gas content detector Quantity when want the quantity of detection elements to there is following relation with which, the data that obtain of detection are the most authentic and valid, can use up again Amount reduces cost：

In formula, y represents that the quantity of the gas content detector, x represent the quantity of the detection elements.

4. urban ecology health monitoring and managing system as claimed in claim 2, it is characterised in that the acquisition module also includes Weather detector, for detecting the climate process such as temperature, precipitation, wind-force.

5. urban ecology health monitoring and managing system as claimed in claim 4, it is characterised in that the acquisition module also includes PH detectors, Turbidity measurement instrument, dissolving oxygen detection, carry out data acquisition for the index to water resource.

6. urban ecology health monitoring and managing system as claimed in claim 1, it is characterised in that the monitoring module includes showing Display screen.

7. urban ecology health monitoring and managing system as claimed in claim 6, it is characterised in that the monitoring module includes depositing Reservoir.

8. urban ecology health monitoring and managing system as claimed in claim 5, it is characterised in that the acquisition module also includes The equipment such as bio-diversity detector, permanganate index analyser.

9. the urban ecology health monitoring and managing system as described in any one of claim 1-8, it is characterised in that given birth to based on city State system health relative property substantially, introduces Method of Set Pair Analysis, is calculated the relative of urban ecological system by model Health status,

If Appraisal of Urban Ecosystem Health problem Q={ S, M, H }, wherein S={ s_k(k=1,2 ..., p) for evaluating city collection, s_kFor k-th city；M={ m_r(r=1,2 ..., it is n) index set, remembers M₁For positive type index, M₂For negative sense type index, m_rFor R-th index；Then decision matrix H=(h with regard to problem Q based on Set Pair Analysis_kr)_p×n, h_krFor city s_kWith regard to index m_r's Property value,

Optimal evaluate collection is constituted for U={ u by optimum evaluation index in each evaluation index₁,u₂,…,u_n, in each evaluation index most It is V={ v that bad evaluation index constitutes most bad evaluate collection₁,v₂,…,v_n, wherein, u_r、v_rRespectively index m_rOptimal value and most bad Value, for m_r∈M₁, compare interval for [v_r,u_r], then in domain X_r={ h_kr,u_r,v_r, (k=1,2 ..., p) upper definition set pair {h_kr,u_rSame degree of membership a_krWith opposition degree of membership c_kr：

$a_{kr}=\frac{h_{kr}}{u_r+v_r}---\left(1\right)$

$c_{kr}=\frac{{h_{kr}}^{-1}}{{u_r}^{-1}+{v_r}^{-1}}=\frac{u_r{v}_r}{(u_r+v_r)h_{kr}}---\left(2\right)$

a_krAnd c_krH is represented respectively_krWith u_r、v_rDegree of closeness, in the same manner, for m_r∈M₂In more interval [u_r,v_r] obtain set pair Same degree of membership a_krWith opposition degree of membership c_kr：

$a_{kr}=\frac{{h_{kr}}^{-1}}{{u_r}^{-1}+{v_r}^{-1}}=\frac{u_r{v}_r}{(u_r+v_r)h_{kr}}---\left(3\right)$

$c_{kr}=\frac{h_{kr}}{u_r+v_r}---\left(4\right)$

In s_kComparison space [U, V] in, in conjunction with the weight of indices, calculate averagely same degree of membership a_k, average opposition is subordinate to Degree c_k：

$a_k=\underset{r=1}{\overset{n}{\Σ}}{w}_r{a}_{kr}---\left(5\right)$

$c_k=\underset{r=1}{\overset{n}{\Σ}}{w}_r{c}_{kr}---\left(6\right)$

Due to a_k、c_kIt is relative determination, is represented to s respectively_kIt is close to the affirmation and negation degree of optimum evaluation system U, then Definable s under the conditions of relative determination_kRelative similarity degree with U is：

$r_k=\frac{a_k}{a_k+c_k}---\left(7\right)$

r_kSize determine and be evaluated city s_kSequence under evaluation problem Q, r_kThe bigger person of value represents that situation is better, i.e. city City's ecosystem is bigger with the approach degree of optimum evaluate collection, and urban ecosystem health situation is better.