CN110191432A - Intelligent monitor system based on Internet of Things - Google Patents

Abstract

Intelligent monitor system based on Internet of Things, including the controller unit inside intelligent electric appliance is arranged in, environmental monitoring unit indoors for being monitored to indoor environment is set, for acquiring the data acquisition unit for the environmental monitoring data that the environmental monitoring unit obtains, the data acquisition unit and environmental monitoring unit are communicated using wireless sensor network, data acquisition unit is connected with Internet of Things intellectual monitoring platform, the environmental monitoring data that the Internet of Things intellectual monitoring platform is obtained according to data acquisition unit is analyzed and is assessed to indoor environment, the control instruction to intelligent electric appliance is formulated according to assessment result, and the control instruction is sent to controller unit, the operation of intelligent electric appliance is controlled according to the control instruction by controller unit.The invention has the following beneficial effects: the domestic environment data to acquisition are analyzed and assessed, the real-time grasp to domestic environment and the long-range control to smart home are realized.

Description

Intelligent monitor system based on Internet of Things

Technical field

The invention is related to smart home field, and in particular to a kind of intelligent monitor system based on Internet of Things.

Background technique

Household is important a part of content of entire society's people's lives, currently with economic continuous development, state's people's livelihood Mode and idea living increasingly generate biggish variation, and requirement of the people to home intelligence living environment is continuously improved.Internet The development of technology brings the revolution of technology of Internet of things, its appearance brings earth-shaking variation to people's lives, leads to Cross internet remotely control intelligent appliance and acquire smart home various information, thus realize the networking of household electrical appliance, Intelligent management.

Summary of the invention

In view of the above-mentioned problems, the present invention is intended to provide a kind of intelligent monitor system based on Internet of Things.

The purpose of the invention is achieved through the following technical solutions:

Intelligent monitor system based on Internet of Things, including controller unit inside intelligent electric appliance is arranged in, is arranged in room The interior environmental monitoring unit for being monitored to indoor environment, the environmental monitoring obtained for acquiring the environmental monitoring unit The data acquisition unit of data, the data acquisition unit and environmental monitoring unit use cluster structured wireless sensor network It is communicated, data acquisition unit is connected with Internet of Things intellectual monitoring platform, and the Internet of Things intellectual monitoring platform is according to data The environmental monitoring data that acquisition unit obtains is analyzed and is assessed to indoor environment, is formulated according to assessment result to intelligent electric appliance Control instruction, and the control instruction is sent to controller unit, is controlled by controller unit according to the control instruction The operation of intelligent electric appliance.

The invention the utility model has the advantages that by sensor node real-time perception indoor environment data, and by wirelessly passing Sensor network carries out the real-time Transmission of environmental data, realizes the real-time acquisition and effectively transmission of domestic environment data；To described Domestic environment data are analyzed and are assessed, and the real-time grasp to domestic environment and the long-range control to smart home are realized.

Detailed description of the invention

Innovation and creation are described further using attached drawing, but the embodiment in attached drawing does not constitute and appoints to the invention What is limited, for those of ordinary skill in the art, without creative efforts, can also be according to the following drawings Obtain other attached drawings.

Fig. 1 is schematic structural view of the invention；

Appended drawing reference:

Controller unit 1；Environmental monitoring unit 2；Data acquisition unit 3；Internet of Things intellectual monitoring platform 4；Local data Library 5.

Specific embodiment

The invention will be further described with the following Examples.

Referring to Fig. 1, the intelligent monitor system based on Internet of Things of the present embodiment, including the control inside intelligent electric appliance is arranged in Device unit 1 processed, setting indoors the environmental monitoring unit 2 for being monitored to indoor environment, supervise for acquiring the environment The data acquisition unit 3 for the environmental monitoring data that unit 2 obtains is surveyed, the data acquisition unit 3 and environmental monitoring unit 2 use Cluster structured wireless sensor network is communicated, and data acquisition unit 3 is connected with Internet of Things intellectual monitoring platform 4, described Internet of Things intellectual monitoring platform 4 is analyzed and is commented to indoor environment according to the environmental monitoring data that data acquisition unit 3 obtains Estimate, the control instruction to intelligent electric appliance is formulated according to assessment result, and the control instruction is sent to controller unit 1, by Controller unit 1 controls the operation of intelligent electric appliance according to the control instruction.

It preferably, further include local data base 5, the local data base 5 is connected with data acquisition unit 3, for that will count It is saved according to the environmental monitoring data that acquisition unit 3 obtains.

Preferably, control instruction is sent to control using the communication mode of 4G or WiFi by Internet of Things intellectual monitoring platform 4 Device unit 1 processed.

This preferred embodiment by sensor node real-time perception indoor environment data, and by wireless sensor network into The real-time Transmission of row environmental data realizes the real-time acquisition and effectively transmission of domestic environment data；To the domestic environment number According to being analyzed and being assessed, the real-time grasp to domestic environment and the long-range control to smart home are realized

Preferably, in wireless sensor network, when sensor node i meets { rand (i) < f_i, i ∈ G } when, then it senses Device node i is leader cluster node, wherein rand () is the random number generated in [0,1] range, f_iIt is corresponding for sensor node i Threshold value, andIn formula, N_iFor the residual energy magnitude of sensor node i, N_iIt (0) is biography The primary power value of sensor node i, t be when front-wheel number, P be expection leader cluster node percentage, i.e., each sensor node at For the probability of leader cluster node, G is nearest 1/ (P × β_i) the interior sensor node set for not being elected to leader cluster node of wheel, β_iFor expected cluster The adjustment parameter of head node percentage, β_iExpression formula are as follows:

In formula, r_iFor the communication radius of sensor node i, S_iTo monitor region area, L where sensor node i_iIt indicates Sensor node number in the communication radius of sensor node i, A and B are weight coefficient, and A+B=1.

This preferred embodiment introduces adjustment parameter β during the selection of leader cluster node_iTo the hundred of expected leader cluster node Divide ratio to be adjusted, makes it possible to choose less leader cluster node number in the case where meeting maximum monitoring region overlay, thus It economizes on resources.

Preferably, after the completion of leader cluster node is chosen, it is elected as the sensor node broadcasts notice message of cluster head, it is common to sense Selection leader cluster node is added after device node receives the notice message that leader cluster node is broadcasted, and defines member's acceptance of leader cluster node For H, if the leader cluster node collection in the communication radius of sensor node j is combined into { CH_x, x=1,2 ..., K_j, wherein K_jFor sensing Leader cluster node sum in the communication radius of device node j, sensor node j is in leader cluster node set { CH_xIn selection member connect The maximum leader cluster node of degree of receiving H value is added, if leader cluster node CH_iFor set { CH_xIn leader cluster node, then leader cluster node CH_iIt is right The member acceptance H (CH answered_i) calculation formula are as follows:

In formula,For leader cluster node CH_iResidual energy magnitude, r_jIndicate the communication radius of sensor node j,Table Show leader cluster node CH_iCommunication radius,The leader cluster node CH monitored in its communication radius for sensor node j_iIn The quantity of the sensor node of addition, E_RxIndicate that leader cluster node receives the energy that the data of each sensor node need to expend, E_TxIndicate that leader cluster node sends the energy that data need to consume to aggregation node.

This preferred embodiment introduces the general of member's acceptance H of leader cluster node during the cluster of sensor node It reading, the member of the leader cluster node receives angle value effectively to react the admissible cluster inner sensor interstitial content of leader cluster node, It chooses the biggish leader cluster node of member's acceptance to be added, can be avoided individual leader cluster nodes because of number of members in depleted of energy or cluster Premature death caused by more influences the service performance of network to cause network paralysis；It is counted to member's acceptance When calculation, the sensor node number being added in leader cluster node in its communication radius is monitored using sensor node and is estimated, so that Member's acceptance during cluster as the sensor node number being actually added into leader cluster node is adjusted, compared to tradition Cluster interior nodes control put method, using this preferred embodiment member's acceptance to cluster internal segment points control, have it is higher Accuracy.

Preferably, it in the cluster structured wireless sensor network, is calculated in leader cluster node using fuzzy C-means clustering Method clusters the environmental monitoring data collected in cluster, and cluster result is transmitted to aggregation node, by aggregation node Data acquisition unit is sent to be handled.

Preferably, the subordinating degree function in Fuzzy C-Means Cluster Algorithm used to leader cluster node improves, if u_ilTable Show that first of data belongs to the degree of membership of the i-th class, u_ilExpression formula are as follows:

In formula, s_lIndicate first of data, v_iIndicate the center of the i-th class, v_kIndicating the center of kth class, V indicates classification number, s_l(x, y) indicates data s_lCorresponding position, v_i(x, y) indicates class center v_iCorresponding position, m are fuzzy factors, and β is Adjustment parameter；

This preferred embodiment is when being defined the subordinating degree function in Fuzzy C-Means Cluster Algorithm, according to sensor Node acquires the characteristic of data, introduces the location information of sensor node as adjustment parameter, compared to traditional degree of membership Function had both considered the similitude of sensor node perception data in the subordinating degree function of this preferred embodiment, it is contemplated that passing Influence of the location information of sensor node to cluster result, therefore compared to traditional subordinating degree function, using this preferred implementation The data that the subordinating degree function of example acquires sensor node cluster, and have preferable Clustering Effect.

Finally it should be noted that the above embodiments are merely illustrative of the technical solutions of the present invention, rather than the present invention is protected The limitation of range is protected, although explaining in detail referring to preferred embodiment to the present invention, those skilled in the art are answered Work as understanding, it can be with modification or equivalent replacement of the technical solution of the present invention are made, without departing from the reality of technical solution of the present invention Matter and range.

Claims (5)

1. the intelligent monitor system based on Internet of Things, characterized in that including controller unit inside intelligent electric appliance is arranged in, sets Set the environmental monitoring unit for being monitored to indoor environment, the ring obtained for acquiring the environmental monitoring unit indoors The data acquisition unit of border monitoring data, the data acquisition unit and environmental monitoring unit use cluster structured wireless sensing Device network is communicated, and data acquisition unit is connected with Internet of Things intellectual monitoring platform, the Internet of Things intellectual monitoring platform root Indoor environment is analyzed and assessed according to the environmental monitoring data that data acquisition unit obtains, is formulated according to assessment result to intelligence The control instruction of energy electric appliance, and the control instruction is sent to controller unit, referred to by controller unit according to the control Enable the operation of control intelligent electric appliance.

2. the intelligent monitor system according to claim 1 based on Internet of Things, characterized in that it further include local data base, The local data base is connected with data acquisition unit, and the environmental monitoring data for obtaining data acquisition unit is protected It deposits.

3. the intelligent monitor system according to claim 2 based on Physical Network, characterized in that Internet of Things intellectual monitoring platform Control instruction is sent to by controller unit using the communication mode of 4G or WiFi.

4. the intelligent monitor system according to claim 3 based on Internet of Things, characterized in that in wireless sensor network In, when sensor node i meets { rand (i) < f_i, i ∈ G } when, then sensor node i is leader cluster node, wherein rand () For the random number in generation [0,1] range, f_iFor the corresponding threshold value of sensor node i, andIn formula, N_iFor the residual energy magnitude of sensor node i, N_iIt (0) is sensor node i Primary power value, t is when front-wheel number, and P be the percentage of expected leader cluster node, i.e., each sensor node is as leader cluster node Probability, G is nearest 1/ (P × β_i) the interior sensor node set for not being elected to leader cluster node of wheel, β_iFor expected leader cluster node percentage The adjustment parameter of ratio, β_iExpression formula are as follows:

In formula, r_iFor the communication radius of sensor node i, S_iTo monitor region area, L where sensor node i_iFor sensor Sensor node number in the communication radius of node i, A and B are weight coefficient, and A+B=1.

5. the intelligent monitor system according to claim 4 based on Internet of Things, characterized in that leader cluster node, which is chosen, to be completed Afterwards, it is elected as the sensor node broadcasts notice message of cluster head, general sensor nodes receive the notice of leader cluster node broadcast Leader cluster node is selected to be added after message, the member's acceptance for defining leader cluster node is H, if in the communication radius of sensor node j Leader cluster node collection be combined into { CH_x, x=1,2 ..., K_j, wherein K_jFor the leader cluster node in the communication radius of sensor node j Sum, sensor node j is in leader cluster node set { CH_xIn the maximum leader cluster node addition of selection member's acceptance H value, if cluster Head node CH_iFor { CH_xLeader cluster node in set, then leader cluster node CH_iCorresponding member's acceptance H (CH_i) calculation formula Are as follows:

In formula,For leader cluster node CH_iResidual energy magnitude, r_jIndicate the communication radius of sensor node j,Indicate cluster head Node CH_iCommunication radius,The leader cluster node CH monitored in its communication radius for sensor node j_iThe biography of middle addition The quantity of sensor node, E_RxIndicate that leader cluster node receives the energy that the data of each sensor node need to expend, E_TxIndicate cluster Head node sends the energy that data need to consume to aggregation node.