CN106404059A - Indoor environment monitoring system - Google Patents

Abstract

The invention provides an indoor environment monitoring system. The monitoring system comprises a monitoring terminal which is arranged in the indoor environment and used for acquiring indoor environment monitoring data; a monitoring host which is connected with the monitoring terminal and used for receiving the environment monitoring data and triggering alarm when the judgment result indicates that the environment monitoring data exceed the preset range; and a display device which is connected with the monitoring host and used for displaying the environment monitoring data. The beneficial effects of the indoor environment monitoring system are that the indoor environment monitoring system has complete monitoring functions and can guarantee great indoor environment.

Description

A kind of indoor environment monitoring system

Technical field

The present invention relates to indoor environment field is and in particular to a kind of indoor environment monitoring system.

Background technology

The high speed development of China's urbanization makes resident's living conditions have huge lifting, and people are to house domestic environment Require also improving constantly, wherein, indoor environment index of concern, from simple indoor temperature originally, thin by now Change to multiple aggregative indicatores such as indoor temperature, humidity, resh air requirement, nuisance contents.Indoor Residential Ecological keeps good environmental quality, The environmental condition kept fit, contributes to people's physical and mental health, has good animation.

Quantum communications are important branch of quantum information science, and its theory is based on quantum mechanics and classical communication, that is, Quantum communications are the products that quantum mechanics and classical communication combine.Quantum channel transmission information is passed through in quantum communications, and can Guarantee being perfectly safe of transmitted information.Technique on Quantum Communication is applied in environmental monitoring, production environment prison will be greatly improved Survey the safety of data transfer.

Content of the invention

For solving the above problems, the present invention is intended to provide a kind of indoor environment monitoring system.

The purpose of the present invention employs the following technical solutions to realize：

A kind of indoor environment monitoring system, monitoring system includes：

It is arranged at interior, the monitoring terminal for obtaining indoor air chemical pollution data；

Being connected with described monitoring terminal, be used for receiving described environmental monitoring data and when judging described environmental monitoring data The monitoring main frame reported to the police beyond triggering during preset range；

Be connected with the described monitoring main frame, display device for showing described environmental monitoring data.

Beneficial effects of the present invention are：Its monitoring function is complete, can ensure good indoor environment.

Brief description

Using accompanying drawing, the invention will be further described, but the embodiment in accompanying drawing does not constitute any limit to the present invention System, for those of ordinary skill in the art, on the premise of not paying creative work, can also obtain according to the following drawings Other accompanying drawings.

Fig. 1 present configuration schematic diagram；

Fig. 2 is the schematic flow sheet of monitoring method of the present invention.

Specific embodiment

In conjunction with following application scenarios, the invention will be further described.

Application scenarios 1

Referring to Fig. 1, Fig. 2, a kind of indoor environment monitoring system of an embodiment of this application scene, monitoring system bag Include：

It is arranged at interior, the monitoring terminal for obtaining indoor air chemical pollution data；

Being connected with described monitoring terminal, be used for receiving described environmental monitoring data and when judging described environmental monitoring data The monitoring main frame reported to the police beyond triggering during preset range；

Be connected with the described monitoring main frame, display device for showing described environmental monitoring data.

Preferably, described monitoring terminal includes：For obtaining the temperature sensor of indoor temperature data.

This preferred embodiment can monitor indoor temperature.

Preferably, described monitoring terminal includes：For obtaining the humidity sensor of indoor humidity data.

This preferred embodiment can monitor indoor humidity.

A kind of monitoring method of indoor environment monitoring system of one embodiment of this application scene, comprises the following steps：

S1 builds the wireless sensor monitoring network for monitoring, and the quantum communications net for Monitoring Data transmission Network；

S2 is monitored using wireless sensor monitoring network and gathers Monitoring Data, and Monitoring Data is passed through quantum communication network Network transmits to pretreatment node；

S3 pretreatment node carries out data calibration according to the type of Monitoring Data and merges pretreatment, pretreated monitoring The sub- communication network transmission of data throughput is to cloud service center；

S4 cloud service center by the Monitoring Data receiving and pre-set and the setting threshold corresponding to this Monitoring Data Value is compared, if described Monitoring Data exceeds corresponding setting threshold value, by described Monitoring Data and result of the comparison Send to default mobile management terminal.

The above embodiment of the present invention constructs the module architectures of monitoring system and the monitoring flow process of environment it is achieved that environment Monitoring.

Preferably, the structure of described wireless sensor monitoring network includes the deployment of sensor node and sensor node Positioning, the method for the deployment of described sensor node includes：

(1) carry out network to dispose for the first time, if the monitoring radius of sensor node and communication radius are r, by monitoring section Domain divides as emphasis monitored area and general monitored area, and emphasis monitored area is divided into square net, sensor node portion It is deployed on square net center, the square net length of sideGeneral monitored area is divided into regular hexagonal cell, sensing Device node deployment is in regular hexagon center, the regular hexagon length of side

(2) carry out network to dispose for second, sensor network is disposed the strong functional node of a part of communication capacity, if The communication radius of functional node be 4r, emphasis monitored area and in general monitored area respectively according to the method in (1) to work( Can be disposed node.

This preferred embodiment is to the deployment of sensor network it is achieved that the seamless coverage of monitored area is it is ensured that comprehensive supervise Survey, adopt square net to dispose in key area, adopt regular hexagonal cell to dispose in general detection zone, both saved biography Sensor quantity, in turn ensure that monitoring effect；Increase functional node, extend whole sensor network life, it is to avoid sensor Node premature depletion.

Preferably, the method for the positioning of described sensor node includes：

1) the intensity instruction of the receipt signal of each reference mode receiving and reference mode are sat by unknown sensor node Mark is sent to host computer；

2) host computer carries out pretreatment to the strength indicator value of the receipt signal receiving, including：By self-defining choosing Take rule to choose the strength indicator value of the receipt signal of high probability generating region, ask for the strength indicator value of receipt signal of selection Meansigma methodss are as the strength indicator value of final receipt signal；Described self-defining selection rule is：

When the strength indicator value of the receipt signal of the reference mode that unknown sensor node receives meets following condition, really This strength indicator value fixed is the strength indicator value of the receipt signal of high probability generating region：

Wherein

In formula, RSSI_iReceive the intensity instruction of the receipt signal of each reference mode i ＆ lt for unknown sensor node Value, i ∈ [1, N], T_LFor the marginal value setting, T_LSpan be [0.4,0.6]；

3) calculate the distance of unknown sensor node distance reference node；

4) calculate the coordinate of unknown sensor node, if the coordinate of k reference mode is respectively (x₁,y₁),(x₂, y₂),…,(x_k,y_k), the distance of unknown sensor node to reference mode is respectively d₁,d₂,…,d_k, unknown sensor node X Coordinate computing formula be：

X=(α^Tα)^-1α^Tβ

Wherein

The method that this preferred embodiment devises the positioning of sensor node, improves the positioning precision of sensor node, Thus relatively improve the precision of monitoring.

Preferably, the structure of described quantum communication network includes setting up quantum channel, determines quantum key distribution scheme；Institute State and set up quantum channel, comprise the following steps：

(1) set up the statement model of quantum channel, definition input quantum bit finite aggregate be I=| i₁>,|i₂>,…,| i_N>, output quantum bit finite aggregate be O=| o₁>,|o>,…,|o_N>Quantum channel C be：Will | i>∈ I sends into letter Road, the output of channel be by density operator ρ (| i>) the quantum information source of decision completely output；

(2) quantum state, in the transmitting procedure of quantum channel, is associated with channel, and completely or partially sends out in receiving terminal Raw change, becomes new state, associate with quantum state in channel has non-ideal equipment and noise, channel need to be carried out excellent Change, including：

Signaling channel matrix is X, and noise is Z, then accept state J_kFor：

J_k=(X+Z) T_k, (k=1,2 ..., n)

In formula, T_kRepresent the state matrix under same measurement base, one transmission state of each column element representation；

Use coefficient R₁、R₂Represent the correlation circumstance of non-ideal equipment and noise and quantum state respectively, by wave equation Theoretical and Thermodynamics Formulas model, and draw the concrete channel model meeting different channels situation；

The agreement based on BB84 for the described quantum key distribution scheme determines, comprises the following steps：

(1) through laser instrument, optical mixer, attenuator and phase-modulator, transmitting terminal generates single photon pulses, with quantum Polarization state polarization angle takes 0 as the address code of information transfer, transmitting terminal polarization state angle random,Each monochromatic light Before subpulse sends, transmitting terminal is to receiving terminal tranmitting data register signal.Transmitting terminal enters to the polarization state phase place of each single photon pulses Row coding, transmitting terminal phase placeTake 0 and π one group of orthogonal normalizing base of composition, receiving terminal phase placeTake 0 matched, transmitting terminal phase Position takesWithForm another group of orthogonal normalizing base, receiving terminal phase place takesMatched；

(2) receiving terminal is through phase-modulator, Polarization Controller, beam splitter, half-wave plate, polarization beam apparatus and single photon Detector receives light list pulse, according to clock pulse signal, measures to receiving quantum state, first passes through two groups of differences Detector readings under base draw address code value, then release phase information, enter line phase by classical channel with transmitting terminal afterwards And polarization base compares；

(3) receiving terminal screening metrical information, abandons the information that wrong polarization measurement base draws and wrong phase measurement base obtains The information going out, draws initial key respectively.

(4) receiving terminal carries out umber of pulse comparison to counting to the measurement base after screening, if the survey of the correct result obtaining Amount main pulse number is less than safe umber of pulse threshold value, then show there is eavesdropping, now, abandon this key agreement, re-start Step (1) arrives (4), if the measurement base umber of pulse of correct result that receiving terminal obtains is more than or equal to threshold value, transmitting terminal and connecing Receiving end carries out data harmonization by classical channel and close property is amplified, thus obtaining final key；

Wherein, safe pulse threshold value adopts following method to determine,

When no eavesdropping, receiving terminal obtains the accuracy of quantum bit

In formula, P_rRepresent correct and select accurately to receive quantum probability of state, P during measurement base_wWhen representing wrong choice measurement base Accurately receive quantum probability of state；

When there is eavesdropping, secure communication thresholdingSafety door is determined according to channel situation Limit, is less than P when receiving terminal obtains correct quantum bit probabilities_mWhen, there is eavesdropping.

This preferred embodiment is due to the imperfection of communication equipment, and there is noise in channel, and quantum information is in transmission During can change, by setting up actual channel so that receiving terminal differentiates that the standard of communication process whether safety is more defined Really；Polarizing quantum state has metastable inherent character and ga s safety degree, effectively can enter in multi-user quantum communication The differentiation of row user；Secure Threshold in channel model is analyzed, is pushed away the peace differentiating eavesdropping in actual quantum communications Air cock limits formula.

Preferably, described wireless sensor monitoring network includes gateway, high energy leader cluster node, terminal node, described high energy Leader cluster node is responsible for effective collection of Monitoring Data, and described gateway will collect information Store in embedded database, is needing When wanting, Monitoring Data is passed through quantum communication network transmission to cloud service center；Described high energy leader cluster node is by leader cluster node, too Sun energy cell panel, accumulator, power amplifier and multiple monitoring sensor composition, the energy of described leader cluster node is by solar-electricity Pond plate and accumulator combine and provide.

The energy of the leader cluster node of this preferred embodiment setting is combined by solar panel and accumulator and provides, Neng Goubao The energy of card leader cluster node provides, and saving electric consumption reduces monitoring cost.

Preferably, the described type according to Monitoring Data carries out data calibration and merges pretreatment, including：

(1) Monitoring Data of each sensor is calibrated by BP neural network, reject the data of mistake simultaneously, obtain Obtain more accurate data；Described calibrated by BP neural network, including：

1) build BP neural network, using the monitor value of sensor as the input layer of BP neural network, with reference instrument Measured value is as the output layer of BP neural network；

2) carry out BP neural network training, specially：Will be hidden through BP neural network from input layer for the monitor value of sensor Being transmitted to output layer containing layer, if not obtaining desired output valve in output layer, along former path, error being returned, and according to by mistake Difference function, using weights and the threshold value of gradient descent method correction each layer neuron, so that error is minimum, is finally reached expectation effect Really, described error function is defined as：

In formula, w_ijFor the connection weight of previous output layer to hidden layer, x_iFor the output valve of previous output layer, T_iIt is implicit The threshold value of layer, w_mjFor the connection weight of hidden layer to a rear output layer, T_mThreshold value for a rear output layer；

(2) by adaptive weight fusion estimated algorithm, the Monitoring Data of multiple sensors is merged, specially：According to each The monitor value of sensor, finds the corresponding optimal weighted factor of each sensor in an adaptive way, is meeting total mean square error So that the result after merging reaches optimum in the case of difference minimum.

The pretreatment node of this preferred embodiment carries out data calibration according to the type of Monitoring Data and merges pretreatment, solution The nonlinearity erron that general sensor of having determined measures, makes Monitoring Data more accurately and reliable.

In this application scenarios, set T_LValue be 0.4, the precision of sensor node localization improves 8%, monitoring accuracy Improve 10%.

Application scenarios 2

Referring to Fig. 1, Fig. 2, a kind of indoor environment monitoring system of an embodiment of this application scene, monitoring system bag Include：

It is arranged at interior, the monitoring terminal for obtaining indoor air chemical pollution data；

Being connected with described monitoring terminal, be used for receiving described environmental monitoring data and when judging described environmental monitoring data The monitoring main frame reported to the police beyond triggering during preset range；

Be connected with the described monitoring main frame, display device for showing described environmental monitoring data.

Preferably, described monitoring terminal includes：For obtaining the temperature sensor of indoor temperature data.

This preferred embodiment can monitor indoor temperature.

Preferably, described monitoring terminal includes：For obtaining the humidity sensor of indoor humidity data.

This preferred embodiment can monitor indoor humidity.

A kind of monitoring method of indoor environment monitoring system of one embodiment of this application scene, comprises the following steps：

S1 builds the wireless sensor monitoring network for monitoring, and the quantum communications net for Monitoring Data transmission Network；

S2 is monitored using wireless sensor monitoring network and gathers Monitoring Data, and Monitoring Data is passed through quantum communication network Network transmits to pretreatment node；

S3 pretreatment node carries out data calibration according to the type of Monitoring Data and merges pretreatment, pretreated monitoring The sub- communication network transmission of data throughput is to cloud service center；

S4 cloud service center by the Monitoring Data receiving and pre-set and the setting threshold corresponding to this Monitoring Data Value is compared, if described Monitoring Data exceeds corresponding setting threshold value, by described Monitoring Data and result of the comparison Send to default mobile management terminal.

The above embodiment of the present invention constructs the module architectures of monitoring system and the monitoring flow process of environment it is achieved that environment Monitoring.

Preferably, the structure of described wireless sensor monitoring network includes the deployment of sensor node and sensor node Positioning, the method for the deployment of described sensor node includes：

(1) carry out network to dispose for the first time, if the monitoring radius of sensor node and communication radius are r, by monitoring section Domain divides as emphasis monitored area and general monitored area, and emphasis monitored area is divided into square net, sensor node portion It is deployed on square net center, the square net length of sideGeneral monitored area is divided into regular hexagonal cell, sensing Device node deployment is in regular hexagon center, the regular hexagon length of side

(2) carry out network to dispose for second, sensor network is disposed the strong functional node of a part of communication capacity, if The communication radius of functional node be 4r, emphasis monitored area and in general monitored area respectively according to the method in (1) to work( Can be disposed node.

This preferred embodiment is to the deployment of sensor network it is achieved that the seamless coverage of monitored area is it is ensured that comprehensive supervise Survey, adopt square net to dispose in key area, adopt regular hexagonal cell to dispose in general detection zone, both saved biography Sensor quantity, in turn ensure that monitoring effect；Increase functional node, extend whole sensor network life, it is to avoid sensor Node premature depletion.

Preferably, the method for the positioning of described sensor node includes：

1) the intensity instruction of the receipt signal of each reference mode receiving and reference mode are sat by unknown sensor node Mark is sent to host computer；

2) host computer carries out pretreatment to the strength indicator value of the receipt signal receiving, including：By self-defining choosing Take rule to choose the strength indicator value of the receipt signal of high probability generating region, ask for the strength indicator value of receipt signal of selection Meansigma methodss are as the strength indicator value of final receipt signal；Described self-defining selection rule is：

When the strength indicator value of the receipt signal of the reference mode that unknown sensor node receives meets following condition, really This strength indicator value fixed is the strength indicator value of the receipt signal of high probability generating region：

Wherein

In formula, RSSI_iReceive the intensity instruction of the receipt signal of each reference mode i ＆ lt for unknown sensor node Value, i ∈ [1, N], T_LFor the marginal value setting, T_LSpan be [0.4,0.6]；

3) calculate the distance of unknown sensor node distance reference node；

4) calculate the coordinate of unknown sensor node, if the coordinate of k reference mode is respectively (x₁,y₁),(x₂, y₂),…,(x_k,y_k), the distance of unknown sensor node to reference mode is respectively d₁,d₂,…,d_k, unknown sensor node X Coordinate computing formula be：

X=(α^Tα)^-1α^Tβ

Wherein

The method that this preferred embodiment devises the positioning of sensor node, improves the positioning precision of sensor node, Thus relatively improve the precision of monitoring.

Preferably, the structure of described quantum communication network includes setting up quantum channel, determines quantum key distribution scheme；Institute State and set up quantum channel, comprise the following steps：

(1) set up the statement model of quantum channel, definition input quantum bit finite aggregate be I=| i₁>,|i₂>,…,| i_N>, output quantum bit finite aggregate be O=| o₁>,|o>,…,|o_N>Quantum channel C be：Will | i>∈ I sends into letter Road, the output of channel be by density operator ρ (| i>) the quantum information source of decision completely output；

(2) quantum state, in the transmitting procedure of quantum channel, is associated with channel, and completely or partially sends out in receiving terminal Raw change, becomes new state, associate with quantum state in channel has non-ideal equipment and noise, channel need to be carried out excellent Change, including：

Signaling channel matrix is X, and noise is Z, then accept state J_kFor：

J_k=(X+Z) T_k, (k=1,2 ..., n)

In formula, T_kRepresent the state matrix under same measurement base, one transmission state of each column element representation；

Use coefficient R₁、R₂Represent the correlation circumstance of non-ideal equipment and noise and quantum state respectively, by wave equation Theoretical and Thermodynamics Formulas model, and draw the concrete channel model meeting different channels situation；

The agreement based on BB84 for the described quantum key distribution scheme determines, comprises the following steps：

(1) through laser instrument, optical mixer, attenuator and phase-modulator, transmitting terminal generates single photon pulses, with quantum Polarization state polarization angle takes 0 as the address code of information transfer, transmitting terminal polarization state angle random,Each monochromatic light Before subpulse sends, transmitting terminal is to receiving terminal tranmitting data register signal.Transmitting terminal enters to the polarization state phase place of each single photon pulses Row coding, transmitting terminal phase placeTake 0 and π one group of orthogonal normalizing base of composition, receiving terminal phase placeTake 0 matched, transmitting terminal phase Position takesWithForm another group of orthogonal normalizing base, receiving terminal phase place takesMatched；

(2) receiving terminal is through phase-modulator, Polarization Controller, beam splitter, half-wave plate, polarization beam apparatus and single photon Detector receives light list pulse, according to clock pulse signal, measures to receiving quantum state, first passes through two groups of differences Detector readings under base draw address code value, then release phase information, enter line phase by classical channel with transmitting terminal afterwards And polarization base compares；

(3) receiving terminal screening metrical information, abandons the information that wrong polarization measurement base draws and wrong phase measurement base obtains The information going out, draws initial key respectively.

(4) receiving terminal carries out umber of pulse comparison to counting to the measurement base after screening, if the survey of the correct result obtaining Amount main pulse number is less than safe umber of pulse threshold value, then show there is eavesdropping, now, abandon this key agreement, re-start Step (1) arrives (4), if the measurement base umber of pulse of correct result that receiving terminal obtains is more than or equal to threshold value, transmitting terminal and connecing Receiving end carries out data harmonization by classical channel and close property is amplified, thus obtaining final key；

Wherein, safe pulse threshold value adopts following method to determine,

When no eavesdropping, receiving terminal obtains the accuracy of quantum bit

In formula, P_rRepresent correct and select accurately to receive quantum probability of state, P during measurement base_wWhen representing wrong choice measurement base Accurately receive quantum probability of state；

When there is eavesdropping, secure communication thresholdingSafety door is determined according to channel situation Limit, is less than P when receiving terminal obtains correct quantum bit probabilities_mWhen, there is eavesdropping.

This preferred embodiment is due to the imperfection of communication equipment, and there is noise in channel, and quantum information is in transmission During can change, by setting up actual channel so that receiving terminal differentiates that the standard of communication process whether safety is more defined Really；Polarizing quantum state has metastable inherent character and ga s safety degree, effectively can enter in multi-user quantum communication The differentiation of row user；Secure Threshold in channel model is analyzed, is pushed away the peace differentiating eavesdropping in actual quantum communications Air cock limits formula.

Preferably, described wireless sensor monitoring network includes gateway, high energy leader cluster node, terminal node, described high energy Leader cluster node is responsible for effective collection of Monitoring Data, and described gateway will collect information Store in embedded database, is needing When wanting, Monitoring Data is passed through quantum communication network transmission to cloud service center；Described high energy leader cluster node is by leader cluster node, too Sun energy cell panel, accumulator, power amplifier and multiple monitoring sensor composition, the energy of described leader cluster node is by solar-electricity Pond plate and accumulator combine and provide.

The energy of the leader cluster node of this preferred embodiment setting is combined by solar panel and accumulator and provides, Neng Goubao The energy of card leader cluster node provides, and saving electric consumption reduces monitoring cost.

Preferably, the described type according to Monitoring Data carries out data calibration and merges pretreatment, including：

(1) Monitoring Data of each sensor is calibrated by BP neural network, reject the data of mistake simultaneously, obtain Obtain more accurate data；Described calibrated by BP neural network, including：

1) build BP neural network, using the monitor value of sensor as the input layer of BP neural network, with reference instrument Measured value is as the output layer of BP neural network；

2) carry out BP neural network training, specially：Will be hidden through BP neural network from input layer for the monitor value of sensor Being transmitted to output layer containing layer, if not obtaining desired output valve in output layer, along former path, error being returned, and according to by mistake Difference function, using weights and the threshold value of gradient descent method correction each layer neuron, so that error is minimum, is finally reached expectation effect Really, described error function is defined as：

In formula, w_ijFor the connection weight of previous output layer to hidden layer, x_iFor the output valve of previous output layer, T_iIt is implicit The threshold value of layer, w_mjFor the connection weight of hidden layer to a rear output layer, T_mThreshold value for a rear output layer；

(2) by adaptive weight fusion estimated algorithm, the Monitoring Data of multiple sensors is merged, specially：According to each The monitor value of sensor, finds the corresponding optimal weighted factor of each sensor in an adaptive way, is meeting total mean square error So that the result after merging reaches optimum in the case of difference minimum.

The pretreatment node of this preferred embodiment carries out data calibration according to the type of Monitoring Data and merges pretreatment, solution The nonlinearity erron that general sensor of having determined measures, makes Monitoring Data more accurately and reliable.

In this application scenarios, set T_LValue be 0.45, the precision of sensor node localization improves 9%, monitoring essence Degree improves 11%.

Application scenarios 3

Referring to Fig. 1, Fig. 2, a kind of indoor environment monitoring system of an embodiment of this application scene, monitoring system bag Include：

It is arranged at interior, the monitoring terminal for obtaining indoor air chemical pollution data；

Being connected with described monitoring terminal, be used for receiving described environmental monitoring data and when judging described environmental monitoring data The monitoring main frame reported to the police beyond triggering during preset range；

Be connected with the described monitoring main frame, display device for showing described environmental monitoring data.

Preferably, described monitoring terminal includes：For obtaining the temperature sensor of indoor temperature data.

This preferred embodiment can monitor indoor temperature.

Preferably, described monitoring terminal includes：For obtaining the humidity sensor of indoor humidity data.

This preferred embodiment can monitor indoor humidity.

A kind of monitoring method of indoor environment monitoring system of one embodiment of this application scene, comprises the following steps：

S1 builds the wireless sensor monitoring network for monitoring, and the quantum communications net for Monitoring Data transmission Network；

S2 is monitored using wireless sensor monitoring network and gathers Monitoring Data, and Monitoring Data is passed through quantum communication network Network transmits to pretreatment node；

S3 pretreatment node carries out data calibration according to the type of Monitoring Data and merges pretreatment, pretreated monitoring The sub- communication network transmission of data throughput is to cloud service center；

S4 cloud service center by the Monitoring Data receiving and pre-set and the setting threshold corresponding to this Monitoring Data Value is compared, if described Monitoring Data exceeds corresponding setting threshold value, by described Monitoring Data and result of the comparison Send to default mobile management terminal.

The above embodiment of the present invention constructs the module architectures of monitoring system and the monitoring flow process of environment it is achieved that environment Monitoring.

Preferably, the structure of described wireless sensor monitoring network includes the deployment of sensor node and sensor node Positioning, the method for the deployment of described sensor node includes：

(1) carry out network to dispose for the first time, if the monitoring radius of sensor node and communication radius are r, by monitoring section Domain divides as emphasis monitored area and general monitored area, and emphasis monitored area is divided into square net, sensor node portion It is deployed on square net center, the square net length of sideGeneral monitored area is divided into regular hexagonal cell, sensing Device node deployment is in regular hexagon center, the regular hexagon length of side

(2) carry out network to dispose for second, sensor network is disposed the strong functional node of a part of communication capacity, if The communication radius of functional node be 4r, emphasis monitored area and in general monitored area respectively according to the method in (1) to work( Can be disposed node.

This preferred embodiment is to the deployment of sensor network it is achieved that the seamless coverage of monitored area is it is ensured that comprehensive supervise Survey, adopt square net to dispose in key area, adopt regular hexagonal cell to dispose in general detection zone, both saved biography Sensor quantity, in turn ensure that monitoring effect；Increase functional node, extend whole sensor network life, it is to avoid sensor Node premature depletion.

Preferably, the method for the positioning of described sensor node includes：

1) the intensity instruction of the receipt signal of each reference mode receiving and reference mode are sat by unknown sensor node Mark is sent to host computer；

2) host computer carries out pretreatment to the strength indicator value of the receipt signal receiving, including：By self-defining choosing Take rule to choose the strength indicator value of the receipt signal of high probability generating region, ask for the strength indicator value of receipt signal of selection Meansigma methodss are as the strength indicator value of final receipt signal；Described self-defining selection rule is：

When the strength indicator value of the receipt signal of the reference mode that unknown sensor node receives meets following condition, really This strength indicator value fixed is the strength indicator value of the receipt signal of high probability generating region：

Wherein

In formula, RSSI_iReceive the intensity instruction of the receipt signal of each reference mode i ＆ lt for unknown sensor node Value, i ∈ [1, N], T_LFor the marginal value setting, T_LSpan be [0.4,0.6]；

3) calculate the distance of unknown sensor node distance reference node；

4) calculate the coordinate of unknown sensor node, if the coordinate of k reference mode is respectively (x₁,y₁),(x₂, y₂),…,(x_k,y_k), the distance of unknown sensor node to reference mode is respectively d₁,d₂,…,d_k, unknown sensor node X Coordinate computing formula be：

X=(α^Tα)^-1α^Tβ

Wherein

The method that this preferred embodiment devises the positioning of sensor node, improves the positioning precision of sensor node, Thus relatively improve the precision of monitoring.

Preferably, the structure of described quantum communication network includes setting up quantum channel, determines quantum key distribution scheme；Institute State and set up quantum channel, comprise the following steps：

(1) set up the statement model of quantum channel, definition input quantum bit finite aggregate be I=| i₁>,|i₂>,…,| i_N>, output quantum bit finite aggregate be O=| o₁>,|o>,…,|o_N>Quantum channel C be：Will | i>∈ I sends into letter Road, the output of channel be by density operator ρ (| i>) the quantum information source of decision completely output；

(2) quantum state, in the transmitting procedure of quantum channel, is associated with channel, and completely or partially sends out in receiving terminal Raw change, becomes new state, associate with quantum state in channel has non-ideal equipment and noise, channel need to be carried out excellent Change, including：

Signaling channel matrix is X, and noise is Z, then accept state J_kFor：

J_k=(X+Z) T_k, (k=1,2 ..., n)

In formula, T_kRepresent the state matrix under same measurement base, one transmission state of each column element representation；

Use coefficient R₁、R₂Represent the correlation circumstance of non-ideal equipment and noise and quantum state respectively, by wave equation Theoretical and Thermodynamics Formulas model, and draw the concrete channel model meeting different channels situation；

The agreement based on BB84 for the described quantum key distribution scheme determines, comprises the following steps：

(1) through laser instrument, optical mixer, attenuator and phase-modulator, transmitting terminal generates single photon pulses, with quantum Polarization state polarization angle takes 0 as the address code of information transfer, transmitting terminal polarization state angle random,Each monochromatic light Before subpulse sends, transmitting terminal is to receiving terminal tranmitting data register signal.Transmitting terminal enters to the polarization state phase place of each single photon pulses Row coding, transmitting terminal phase placeTake 0 and π one group of orthogonal normalizing base of composition, receiving terminal phase placeTake 0 matched, transmitting terminal phase Position takesWithForm another group of orthogonal normalizing base, receiving terminal phase place takesMatched；

(2) receiving terminal is through phase-modulator, Polarization Controller, beam splitter, half-wave plate, polarization beam apparatus and single photon Detector receives light list pulse, according to clock pulse signal, measures to receiving quantum state, first passes through two groups of differences Detector readings under base draw address code value, then release phase information, enter line phase by classical channel with transmitting terminal afterwards And polarization base compares；

(3) receiving terminal screening metrical information, abandons the information that wrong polarization measurement base draws and wrong phase measurement base obtains The information going out, draws initial key respectively.

(4) receiving terminal carries out umber of pulse comparison to counting to the measurement base after screening, if the survey of the correct result obtaining Amount main pulse number is less than safe umber of pulse threshold value, then show there is eavesdropping, now, abandon this key agreement, re-start Step (1) arrives (4), if the measurement base umber of pulse of correct result that receiving terminal obtains is more than or equal to threshold value, transmitting terminal and connecing Receiving end carries out data harmonization by classical channel and close property is amplified, thus obtaining final key；

Wherein, safe pulse threshold value adopts following method to determine,

When no eavesdropping, receiving terminal obtains the accuracy of quantum bit

In formula, P_rRepresent correct and select accurately to receive quantum probability of state, P during measurement base_wWhen representing wrong choice measurement base Accurately receive quantum probability of state；

When there is eavesdropping, secure communication thresholdingSafety door is determined according to channel situation Limit, is less than P when receiving terminal obtains correct quantum bit probabilities_mWhen, there is eavesdropping.

This preferred embodiment is due to the imperfection of communication equipment, and there is noise in channel, and quantum information is in transmission During can change, by setting up actual channel so that receiving terminal differentiates that the standard of communication process whether safety is more defined Really；Polarizing quantum state has metastable inherent character and ga s safety degree, effectively can enter in multi-user quantum communication The differentiation of row user；Secure Threshold in channel model is analyzed, is pushed away the peace differentiating eavesdropping in actual quantum communications Air cock limits formula.

Preferably, described wireless sensor monitoring network includes gateway, high energy leader cluster node, terminal node, described high energy Leader cluster node is responsible for effective collection of Monitoring Data, and described gateway will collect information Store in embedded database, is needing When wanting, Monitoring Data is passed through quantum communication network transmission to cloud service center；Described high energy leader cluster node is by leader cluster node, too Sun energy cell panel, accumulator, power amplifier and multiple monitoring sensor composition, the energy of described leader cluster node is by solar-electricity Pond plate and accumulator combine and provide.

The energy of the leader cluster node of this preferred embodiment setting is combined by solar panel and accumulator and provides, Neng Goubao The energy of card leader cluster node provides, and saving electric consumption reduces monitoring cost.

Preferably, the described type according to Monitoring Data carries out data calibration and merges pretreatment, including：

(1) Monitoring Data of each sensor is calibrated by BP neural network, reject the data of mistake simultaneously, obtain Obtain more accurate data；Described calibrated by BP neural network, including：

1) build BP neural network, using the monitor value of sensor as the input layer of BP neural network, with reference instrument Measured value is as the output layer of BP neural network；

2) carry out BP neural network training, specially：Will be hidden through BP neural network from input layer for the monitor value of sensor Being transmitted to output layer containing layer, if not obtaining desired output valve in output layer, along former path, error being returned, and according to by mistake Difference function, using weights and the threshold value of gradient descent method correction each layer neuron, so that error is minimum, is finally reached expectation effect Really, described error function is defined as：

In formula, w_ijFor the connection weight of previous output layer to hidden layer, x_iFor the output valve of previous output layer, T_iIt is implicit The threshold value of layer, w_mjFor the connection weight of hidden layer to a rear output layer, T_mThreshold value for a rear output layer；

(2) by adaptive weight fusion estimated algorithm, the Monitoring Data of multiple sensors is merged, specially：According to each The monitor value of sensor, finds the corresponding optimal weighted factor of each sensor in an adaptive way, is meeting total mean square error So that the result after merging reaches optimum in the case of difference minimum.

The pretreatment node of this preferred embodiment carries out data calibration according to the type of Monitoring Data and merges pretreatment, solution The nonlinearity erron that general sensor of having determined measures, makes Monitoring Data more accurately and reliable.

In this application scenarios, set T_LValue be 0.5, the precision of sensor node localization improves 10%, monitoring essence Degree improves 12%.

Application scenarios 4

Referring to Fig. 1, Fig. 2, a kind of indoor environment monitoring system of an embodiment of this application scene, monitoring system bag Include：

It is arranged at interior, the monitoring terminal for obtaining indoor air chemical pollution data；

Being connected with described monitoring terminal, be used for receiving described environmental monitoring data and when judging described environmental monitoring data The monitoring main frame reported to the police beyond triggering during preset range；

Be connected with the described monitoring main frame, display device for showing described environmental monitoring data.

Preferably, described monitoring terminal includes：For obtaining the temperature sensor of indoor temperature data.

This preferred embodiment can monitor indoor temperature.

Preferably, described monitoring terminal includes：For obtaining the humidity sensor of indoor humidity data.

This preferred embodiment can monitor indoor humidity.

A kind of monitoring method of indoor environment monitoring system of one embodiment of this application scene, comprises the following steps：

S1 builds the wireless sensor monitoring network for monitoring, and the quantum communications net for Monitoring Data transmission Network；

S2 is monitored using wireless sensor monitoring network and gathers Monitoring Data, and Monitoring Data is passed through quantum communication network Network transmits to pretreatment node；

S3 pretreatment node carries out data calibration according to the type of Monitoring Data and merges pretreatment, pretreated monitoring The sub- communication network transmission of data throughput is to cloud service center；

S4 cloud service center by the Monitoring Data receiving and pre-set and the setting threshold corresponding to this Monitoring Data Value is compared, if described Monitoring Data exceeds corresponding setting threshold value, by described Monitoring Data and result of the comparison Send to default mobile management terminal.

The above embodiment of the present invention constructs the module architectures of monitoring system and the monitoring flow process of environment it is achieved that environment Monitoring.

Preferably, the structure of described wireless sensor monitoring network includes the deployment of sensor node and sensor node Positioning, the method for the deployment of described sensor node includes：

(1) carry out network to dispose for the first time, if the monitoring radius of sensor node and communication radius are r, by monitoring section Domain divides as emphasis monitored area and general monitored area, and emphasis monitored area is divided into square net, sensor node portion It is deployed on square net center, the square net length of sideGeneral monitored area is divided into regular hexagonal cell, sensing Device node deployment is in regular hexagon center, the regular hexagon length of side

(2) carry out network to dispose for second, sensor network is disposed the strong functional node of a part of communication capacity, if The communication radius of functional node be 4r, emphasis monitored area and in general monitored area respectively according to the method in (1) to work( Can be disposed node.

This preferred embodiment is to the deployment of sensor network it is achieved that the seamless coverage of monitored area is it is ensured that comprehensive supervise Survey, adopt square net to dispose in key area, adopt regular hexagonal cell to dispose in general detection zone, both saved biography Sensor quantity, in turn ensure that monitoring effect；Increase functional node, extend whole sensor network life, it is to avoid sensor Node premature depletion.

Preferably, the method for the positioning of described sensor node includes：

1) the intensity instruction of the receipt signal of each reference mode receiving and reference mode are sat by unknown sensor node Mark is sent to host computer；

2) host computer carries out pretreatment to the strength indicator value of the receipt signal receiving, including：By self-defining choosing Take rule to choose the strength indicator value of the receipt signal of high probability generating region, ask for the strength indicator value of receipt signal of selection Meansigma methodss are as the strength indicator value of final receipt signal；Described self-defining selection rule is：

When the strength indicator value of the receipt signal of the reference mode that unknown sensor node receives meets following condition, really This strength indicator value fixed is the strength indicator value of the receipt signal of high probability generating region：

Wherein

In formula, RSSI_iReceive the intensity instruction of the receipt signal of each reference mode i ＆ lt for unknown sensor node Value, i ∈ [1, N], T_LFor the marginal value setting, T_LSpan be [0.4,0.6]；

3) calculate the distance of unknown sensor node distance reference node；

4) calculate the coordinate of unknown sensor node, if the coordinate of k reference mode is respectively (x₁,y₁),(x₂, y₂),…,(x_k,y_k), the distance of unknown sensor node to reference mode is respectively d₁,d₂,…,d_k, unknown sensor node X Coordinate computing formula be：

X=(α^Tα)^-1α^Tβ

Wherein

The method that this preferred embodiment devises the positioning of sensor node, improves the positioning precision of sensor node, Thus relatively improve the precision of monitoring.

Preferably, the structure of described quantum communication network includes setting up quantum channel, determines quantum key distribution scheme；Institute State and set up quantum channel, comprise the following steps：

(1) set up the statement model of quantum channel, definition input quantum bit finite aggregate be I=| i₁>,|i₂>,…,| i_N>, output quantum bit finite aggregate be O=| o₁>,|o>,…,|o_N>Quantum channel C be：Will | i>∈ I sends into letter Road, the output of channel be by density operator ρ (| i>) the quantum information source of decision completely output；

(2) quantum state, in the transmitting procedure of quantum channel, is associated with channel, and completely or partially sends out in receiving terminal Raw change, becomes new state, associate with quantum state in channel has non-ideal equipment and noise, channel need to be carried out excellent Change, including：

Signaling channel matrix is X, and noise is Z, then accept state J_kFor：

J_k=(X+Z) T_k, (k=1,2 ..., n)

In formula, T_kRepresent the state matrix under same measurement base, one transmission state of each column element representation；

Use coefficient R₁、R₂Represent the correlation circumstance of non-ideal equipment and noise and quantum state respectively, by wave equation Theoretical and Thermodynamics Formulas model, and draw the concrete channel model meeting different channels situation；

The agreement based on BB84 for the described quantum key distribution scheme determines, comprises the following steps：

(1) through laser instrument, optical mixer, attenuator and phase-modulator, transmitting terminal generates single photon pulses, with quantum Polarization state polarization angle takes 0 as the address code of information transfer, transmitting terminal polarization state angle random,Each monochromatic light Before subpulse sends, transmitting terminal is to receiving terminal tranmitting data register signal.Transmitting terminal enters to the polarization state phase place of each single photon pulses Row coding, transmitting terminal phase placeTake 0 and π one group of orthogonal normalizing base of composition, receiving terminal phase placeTake 0 matched, transmitting terminal phase Position takesWithForm another group of orthogonal normalizing base, receiving terminal phase place takesMatched；

(2) receiving terminal is through phase-modulator, Polarization Controller, beam splitter, half-wave plate, polarization beam apparatus and single photon Detector receives light list pulse, according to clock pulse signal, measures to receiving quantum state, first passes through two groups of differences Detector readings under base draw address code value, then release phase information, enter line phase by classical channel with transmitting terminal afterwards And polarization base compares；

(3) receiving terminal screening metrical information, abandons the information that wrong polarization measurement base draws and wrong phase measurement base obtains The information going out, draws initial key respectively.

(4) receiving terminal carries out umber of pulse comparison to counting to the measurement base after screening, if the survey of the correct result obtaining Amount main pulse number is less than safe umber of pulse threshold value, then show there is eavesdropping, now, abandon this key agreement, re-start Step (1) arrives (4), if the measurement base umber of pulse of correct result that receiving terminal obtains is more than or equal to threshold value, transmitting terminal and connecing Receiving end carries out data harmonization by classical channel and close property is amplified, thus obtaining final key；

Wherein, safe pulse threshold value adopts following method to determine,

When no eavesdropping, receiving terminal obtains the accuracy of quantum bit

In formula, P_rRepresent correct and select accurately to receive quantum probability of state, P during measurement base_wWhen representing wrong choice measurement base Accurately receive quantum probability of state；

When there is eavesdropping, secure communication thresholdingSafety door is determined according to channel situation Limit, is less than P when receiving terminal obtains correct quantum bit probabilities_mWhen, there is eavesdropping.

This preferred embodiment is due to the imperfection of communication equipment, and there is noise in channel, and quantum information is in transmission During can change, by setting up actual channel so that receiving terminal differentiates that the standard of communication process whether safety is more defined Really；Polarizing quantum state has metastable inherent character and ga s safety degree, effectively can enter in multi-user quantum communication The differentiation of row user；Secure Threshold in channel model is analyzed, is pushed away the peace differentiating eavesdropping in actual quantum communications Air cock limits formula.

Preferably, described wireless sensor monitoring network includes gateway, high energy leader cluster node, terminal node, described high energy Leader cluster node is responsible for effective collection of Monitoring Data, and described gateway will collect information Store in embedded database, is needing When wanting, Monitoring Data is passed through quantum communication network transmission to cloud service center；Described high energy leader cluster node is by leader cluster node, too Sun energy cell panel, accumulator, power amplifier and multiple monitoring sensor composition, the energy of described leader cluster node is by solar-electricity Pond plate and accumulator combine and provide.

The energy of the leader cluster node of this preferred embodiment setting is combined by solar panel and accumulator and provides, Neng Goubao The energy of card leader cluster node provides, and saving electric consumption reduces monitoring cost.

Preferably, the described type according to Monitoring Data carries out data calibration and merges pretreatment, including：

(1) Monitoring Data of each sensor is calibrated by BP neural network, reject the data of mistake simultaneously, obtain Obtain more accurate data；Described calibrated by BP neural network, including：

1) build BP neural network, using the monitor value of sensor as the input layer of BP neural network, with reference instrument Measured value is as the output layer of BP neural network；

2) carry out BP neural network training, specially：Will be hidden through BP neural network from input layer for the monitor value of sensor Being transmitted to output layer containing layer, if not obtaining desired output valve in output layer, along former path, error being returned, and according to by mistake Difference function, using weights and the threshold value of gradient descent method correction each layer neuron, so that error is minimum, is finally reached expectation effect Really, described error function is defined as：

In formula, w_ijFor the connection weight of previous output layer to hidden layer, x_iFor the output valve of previous output layer, T_iIt is implicit The threshold value of layer, w_mjFor the connection weight of hidden layer to a rear output layer, T_mThreshold value for a rear output layer；

(2) by adaptive weight fusion estimated algorithm, the Monitoring Data of multiple sensors is merged, specially：According to each The monitor value of sensor, finds the corresponding optimal weighted factor of each sensor in an adaptive way, is meeting total mean square error So that the result after merging reaches optimum in the case of difference minimum.

The pretreatment node of this preferred embodiment carries out data calibration according to the type of Monitoring Data and merges pretreatment, solution The nonlinearity erron that general sensor of having determined measures, makes Monitoring Data more accurately and reliable.

In this application scenarios, set T_LValue be 0.55, the precision of sensor node localization improves 8.5%, monitoring Precision improves 8%.

Application scenarios 5

Referring to Fig. 1, Fig. 2, a kind of indoor environment monitoring system of an embodiment of this application scene, monitoring system bag Include：

It is arranged at interior, the monitoring terminal for obtaining indoor air chemical pollution data；

Being connected with described monitoring terminal, be used for receiving described environmental monitoring data and when judging described environmental monitoring data The monitoring main frame reported to the police beyond triggering during preset range；

Be connected with the described monitoring main frame, display device for showing described environmental monitoring data.

Preferably, described monitoring terminal includes：For obtaining the temperature sensor of indoor temperature data.

This preferred embodiment can monitor indoor temperature.

Preferably, described monitoring terminal includes：For obtaining the humidity sensor of indoor humidity data.

This preferred embodiment can monitor indoor humidity.

A kind of monitoring method of indoor environment monitoring system of one embodiment of this application scene, comprises the following steps：

S1 builds the wireless sensor monitoring network for monitoring, and the quantum communications net for Monitoring Data transmission Network；

S2 is monitored using wireless sensor monitoring network and gathers Monitoring Data, and Monitoring Data is passed through quantum communication network Network transmits to pretreatment node；

S3 pretreatment node carries out data calibration according to the type of Monitoring Data and merges pretreatment, pretreated monitoring The sub- communication network transmission of data throughput is to cloud service center；

S4 cloud service center by the Monitoring Data receiving and pre-set and the setting threshold corresponding to this Monitoring Data Value is compared, if described Monitoring Data exceeds corresponding setting threshold value, by described Monitoring Data and result of the comparison Send to default mobile management terminal.

The above embodiment of the present invention constructs the module architectures of monitoring system and the monitoring flow process of environment it is achieved that environment Monitoring.

Preferably, the structure of described wireless sensor monitoring network includes the deployment of sensor node and sensor node Positioning, the method for the deployment of described sensor node includes：

(1) carry out network to dispose for the first time, if the monitoring radius of sensor node and communication radius are r, by monitoring section Domain divides as emphasis monitored area and general monitored area, and emphasis monitored area is divided into square net, sensor node portion It is deployed on square net center, the square net length of sideGeneral monitored area is divided into regular hexagonal cell, sensing Device node deployment is in regular hexagon center, the regular hexagon length of side

(2) carry out network to dispose for second, sensor network is disposed the strong functional node of a part of communication capacity, if The communication radius of functional node be 4r, emphasis monitored area and in general monitored area respectively according to the method in (1) to work( Can be disposed node.

This preferred embodiment is to the deployment of sensor network it is achieved that the seamless coverage of monitored area is it is ensured that comprehensive supervise Survey, adopt square net to dispose in key area, adopt regular hexagonal cell to dispose in general detection zone, both saved biography Sensor quantity, in turn ensure that monitoring effect；Increase functional node, extend whole sensor network life, it is to avoid sensor Node premature depletion.

Preferably, the method for the positioning of described sensor node includes：

1) the intensity instruction of the receipt signal of each reference mode receiving and reference mode are sat by unknown sensor node Mark is sent to host computer；

2) host computer carries out pretreatment to the strength indicator value of the receipt signal receiving, including：By self-defining choosing Take rule to choose the strength indicator value of the receipt signal of high probability generating region, ask for the strength indicator value of receipt signal of selection Meansigma methodss are as the strength indicator value of final receipt signal；Described self-defining selection rule is：

When the strength indicator value of the receipt signal of the reference mode that unknown sensor node receives meets following condition, really This strength indicator value fixed is the strength indicator value of the receipt signal of high probability generating region：

Wherein

In formula, RSSI_iReceive the intensity instruction of the receipt signal of each reference mode i ＆ lt for unknown sensor node Value, i ∈ [1, N], T_LFor the marginal value setting, T_LSpan be [0.4,0.6]；

3) calculate the distance of unknown sensor node distance reference node；

4) calculate the coordinate of unknown sensor node, if the coordinate of k reference mode is respectively (x₁,y₁),(x₂, y₂),…,(x_k,y_k), the distance of unknown sensor node to reference mode is respectively d₁,d₂,…,d_k, unknown sensor node X Coordinate computing formula be：

X=(α^Tα)^-1α^Tβ

Wherein

The method that this preferred embodiment devises the positioning of sensor node, improves the positioning precision of sensor node, Thus relatively improve the precision of monitoring.

Preferably, the structure of described quantum communication network includes setting up quantum channel, determines quantum key distribution scheme；Institute State and set up quantum channel, comprise the following steps：

(1) set up the statement model of quantum channel, definition input quantum bit finite aggregate be I=| i₁>,|i₂>,…,| i_N>, output quantum bit finite aggregate be O=| o₁>,|o>,…,|o_N>Quantum channel C be：Will | i>∈ I sends into letter Road, the output of channel be by density operator ρ (| i>) the quantum information source of decision completely output；

(2) quantum state, in the transmitting procedure of quantum channel, is associated with channel, and completely or partially sends out in receiving terminal Raw change, becomes new state, associate with quantum state in channel has non-ideal equipment and noise, channel need to be carried out excellent Change, including：

Signaling channel matrix is X, and noise is Z, then accept state J_kFor：

J_k=(X+Z) T_k, (k=1,2 ..., n)

In formula, T_kRepresent the state matrix under same measurement base, one transmission state of each column element representation；

Use coefficient R₁、R₂Represent the correlation circumstance of non-ideal equipment and noise and quantum state respectively, by wave equation Theoretical and Thermodynamics Formulas model, and draw the concrete channel model meeting different channels situation；

The agreement based on BB84 for the described quantum key distribution scheme determines, comprises the following steps：

(1) through laser instrument, optical mixer, attenuator and phase-modulator, transmitting terminal generates single photon pulses, with quantum Polarization state polarization angle takes 0 as the address code of information transfer, transmitting terminal polarization state angle random,Each monochromatic light Before subpulse sends, transmitting terminal is to receiving terminal tranmitting data register signal.Transmitting terminal enters to the polarization state phase place of each single photon pulses Row coding, transmitting terminal phase placeTake 0 and π one group of orthogonal normalizing base of composition, receiving terminal phase placeTake 0 matched, transmitting terminal phase Position takesWithForm another group of orthogonal normalizing base, receiving terminal phase place takesMatched；

(2) receiving terminal is through phase-modulator, Polarization Controller, beam splitter, half-wave plate, polarization beam apparatus and single photon Detector receives light list pulse, according to clock pulse signal, measures to receiving quantum state, first passes through two groups of differences Detector readings under base draw address code value, then release phase information, enter line phase by classical channel with transmitting terminal afterwards And polarization base compares；

(3) receiving terminal screening metrical information, abandons the information that wrong polarization measurement base draws and wrong phase measurement base obtains The information going out, draws initial key respectively.

(4) receiving terminal carries out umber of pulse comparison to counting to the measurement base after screening, if the survey of the correct result obtaining Amount main pulse number is less than safe umber of pulse threshold value, then show there is eavesdropping, now, abandon this key agreement, re-start Step (1) arrives (4), if the measurement base umber of pulse of correct result that receiving terminal obtains is more than or equal to threshold value, transmitting terminal and connecing Receiving end carries out data harmonization by classical channel and close property is amplified, thus obtaining final key；

Wherein, safe pulse threshold value adopts following method to determine,

When no eavesdropping, receiving terminal obtains the accuracy of quantum bit

In formula, P_rRepresent correct and select accurately to receive quantum probability of state, P during measurement base_wWhen representing wrong choice measurement base Accurately receive quantum probability of state；

When there is eavesdropping, secure communication thresholdingSafety door is determined according to channel situation Limit, is less than P when receiving terminal obtains correct quantum bit probabilities_mWhen, there is eavesdropping.

This preferred embodiment is due to the imperfection of communication equipment, and there is noise in channel, and quantum information is in transmission During can change, by setting up actual channel so that receiving terminal differentiates that the standard of communication process whether safety is more defined Really；Polarizing quantum state has metastable inherent character and ga s safety degree, effectively can enter in multi-user quantum communication The differentiation of row user；Secure Threshold in channel model is analyzed, is pushed away the peace differentiating eavesdropping in actual quantum communications Air cock limits formula.

Preferably, described wireless sensor monitoring network includes gateway, high energy leader cluster node, terminal node, described high energy Leader cluster node is responsible for effective collection of Monitoring Data, and described gateway will collect information Store in embedded database, is needing When wanting, Monitoring Data is passed through quantum communication network transmission to cloud service center；Described high energy leader cluster node is by leader cluster node, too Sun energy cell panel, accumulator, power amplifier and multiple monitoring sensor composition, the energy of described leader cluster node is by solar-electricity Pond plate and accumulator combine and provide.

The energy of the leader cluster node of this preferred embodiment setting is combined by solar panel and accumulator and provides, Neng Goubao The energy of card leader cluster node provides, and saving electric consumption reduces monitoring cost.

Preferably, the described type according to Monitoring Data carries out data calibration and merges pretreatment, including：

(1) Monitoring Data of each sensor is calibrated by BP neural network, reject the data of mistake simultaneously, obtain Obtain more accurate data；Described calibrated by BP neural network, including：

1) build BP neural network, using the monitor value of sensor as the input layer of BP neural network, with reference instrument Measured value is as the output layer of BP neural network；

2) carry out BP neural network training, specially：Will be hidden through BP neural network from input layer for the monitor value of sensor Being transmitted to output layer containing layer, if not obtaining desired output valve in output layer, along former path, error being returned, and according to by mistake Difference function, using weights and the threshold value of gradient descent method correction each layer neuron, so that error is minimum, is finally reached expectation effect Really, described error function is defined as：

In formula, w_ijFor the connection weight of previous output layer to hidden layer, x_iFor the output valve of previous output layer, T_iIt is implicit The threshold value of layer, w_mjFor the connection weight of hidden layer to a rear output layer, T_mThreshold value for a rear output layer；

(2) by adaptive weight fusion estimated algorithm, the Monitoring Data of multiple sensors is merged, specially：According to each The monitor value of sensor, finds the corresponding optimal weighted factor of each sensor in an adaptive way, is meeting total mean square error So that the result after merging reaches optimum in the case of difference minimum.

The pretreatment node of this preferred embodiment carries out data calibration according to the type of Monitoring Data and merges pretreatment, solution The nonlinearity erron that general sensor of having determined measures, makes Monitoring Data more accurately and reliable.

In this application scenarios, set T_LValue be 0.6, the precision of sensor node localization improves 9.5%, monitoring essence Degree improves 10.5%.

Finally it should be noted that above example is only in order to illustrating technical scheme, rather than the present invention is protected The restriction of shield scope, although having made to explain to the present invention with reference to preferred embodiment, those of ordinary skill in the art should Work as understanding, technical scheme can be modified or equivalent, without deviating from the reality of technical solution of the present invention Matter and scope.

Claims (3)

1. a kind of indoor environment monitoring system, is characterized in that, monitoring system includes：

It is arranged at interior, the monitoring terminal for obtaining indoor air chemical pollution data；

Being connected with described monitoring terminal, be used for receiving described environmental monitoring data and when judging that described environmental monitoring data exceeds The monitoring main frame that during preset range, triggering is reported to the police；

Be connected with the described monitoring main frame, display device for showing described environmental monitoring data.

2. a kind of indoor environment monitoring system according to claim 1, is characterized in that, described monitoring terminal includes：For Obtain the temperature sensor of indoor temperature data.

3. a kind of indoor environment monitoring system according to claim 1, is characterized in that, described monitoring terminal includes：For Obtain the humidity sensor of indoor humidity data.