CN109240392A - Smart home temperature and humidity environment adjustment system - Google Patents
Smart home temperature and humidity environment adjustment system Download PDFInfo
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- CN109240392A CN109240392A CN201811327068.5A CN201811327068A CN109240392A CN 109240392 A CN109240392 A CN 109240392A CN 201811327068 A CN201811327068 A CN 201811327068A CN 109240392 A CN109240392 A CN 109240392A
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- G—PHYSICS
- G05—CONTROLLING; REGULATING
- G05D—SYSTEMS FOR CONTROLLING OR REGULATING NON-ELECTRIC VARIABLES
- G05D27/00—Simultaneous control of variables covered by two or more of main groups G05D1/00 - G05D25/00
- G05D27/02—Simultaneous control of variables covered by two or more of main groups G05D1/00 - G05D25/00 characterised by the use of electric means
Abstract
The present invention provides smart home temperature and humidity environment adjustment systems, including temperature and humidity wireless monitor subsystem, temperature equipment, dehumidification equipment, remote monitoring center, wherein temperature and humidity wireless monitor subsystem, temperature equipment, dehumidification equipment are all connect with remote monitoring center;The temperature and humidity wireless monitor subsystem is configured as carrying out real-time monitoring to indoor temperature and humidity, data of the Temperature and Humidity module and is sent to remote monitoring center in collection room;The remote monitoring center is configured as being analyzed and processed received indoor temperature and humidity data, generates corresponding control instruction, and the operation of temperature equipment and dehumidification equipment is controlled according to control instruction.
Description
Technical field
The present invention relates to smart home fields, and in particular to smart home temperature and humidity environment adjustment system.
Background technique
Raising with people to home comfort health requirements, the concept of smart home are gradually suggested and receive, intelligence
Household is usually to merge individual character using advanced computer network communication technology, comprehensive wiring technology and base of principle of human engineering
Subsystems related with home life are organically combined together by demand, are controlled and are managed by comprehensive intelligent, are realized
Completely new home life experience, refrigeration and heating is a major issue in family life at present, is had to people's lives comfort great
It influences, however refrigeration and heating needs to be adjusted according to the impression real-time perfoming of human body, common collective has for warm air conditioner refrigerating
Significant limitation cannot carry out temperature and humidity adjusting in time.
Summary of the invention
In view of the above-mentioned problems, the present invention provides smart home temperature and humidity environment adjustment system.
The purpose of the present invention is realized using following technical scheme:
It provides smart home temperature and humidity environment adjustment system, including temperature and humidity wireless monitor subsystem, temperature equipment, removes
Wet equipment, remote monitoring center, wherein temperature and humidity wireless monitor subsystem, temperature equipment, dehumidification equipment are all and in long-range monitoring
Heart connection;The temperature and humidity wireless monitor subsystem is configured as carrying out indoor temperature and humidity real-time monitoring, warm and humid in collection room
Degree Data Concurrent is sent to remote monitoring center;The remote monitoring center be configured as to received indoor temperature and humidity data into
Row analysis processing generates corresponding control instruction, and the operation of temperature equipment and dehumidification equipment is controlled according to control instruction.
In a kind of mode that can be realized, the remote monitoring center includes processing module, temperature adjustment control module, removes
Wet control module, wherein temperature adjustment control module, Dehumidification controlling module input terminal all connect with processing module, temperature adjustment control module
Output end connect with temperature equipment, the output end of Dehumidification controlling module is connect with dehumidification equipment.
The invention has the benefit that carrying out the acquisition of indoor temperature and humidity data using wireless sensor network technology, avoid
The trouble of wiring, intelligent quick;By being analyzed and processed to collected indoor temperature and humidity data, according to indoor temperature and humidity
Data control the operation of temperature equipment and dehumidification equipment, realize the real-time adjusting of household temperature and humidity, allow people when going back home
Comfortable environment, of simple structure and strong practicability can be enjoyed.
Detailed description of the invention
The present invention will be further described with reference to the accompanying drawings, but the embodiment in attached drawing is not constituted to any limit of the invention
System, for those of ordinary skill in the art, without creative efforts, can also obtain according to the following drawings
Other attached drawings.
Fig. 1 is the smart home temperature and humidity environment adjustment system structural schematic block diagram of an illustrative embodiment of the invention;
Fig. 2 is the structural schematic block diagram of the remote monitoring center of an illustrative embodiment of the invention.
Appended drawing reference:
Temperature and humidity wireless monitor subsystem 1, dehumidification equipment 3, remote monitoring center 4, processing module 10, is adjusted temperature equipment 2
Warm control module 20, Dehumidification controlling module 30.
Specific embodiment
The invention will be further described with the following Examples.
Fig. 1 is the smart home temperature and humidity environment adjustment system structural schematic block diagram of one embodiment of the invention.Referring to figure
1, smart home temperature and humidity environment adjustment system provided in this embodiment includes temperature and humidity wireless monitor subsystem 1, temperature equipment
2, dehumidification equipment 3, remote monitoring center 4, wherein temperature and humidity wireless monitor subsystem 1, temperature equipment 2, dehumidification equipment 3 be all and far
Range monitoring center 4 connects.
Wherein, temperature and humidity wireless monitor subsystem 1 is configured as carrying out real-time monitoring to indoor temperature and humidity, acquires Indoor Temperature
Humidity data is simultaneously sent to remote monitoring center 4.
The temperature and humidity wireless monitor subsystem 1 includes the single aggregation node being deployed in monitoring region, multiple sensings
Indoor temperature and humidity data data of the Temperature and Humidity module and are sent to aggregation node in sensor node collection room by device node, and then by converging
Indoor temperature and humidity data are sent to remote monitoring center 4 by poly- node.
The present embodiment carries out the acquisition of indoor temperature and humidity data using wireless sensor network technology, avoids wiring, implements
Simply.
Wherein, sensor node includes acquisition unit, analysis and processing unit and communication unit;Acquisition unit is by sensor
It is completed with analog-digital converter, analysis and processing unit is completed by microprocessor and memory, and communication unit is completed by wireless transceiver.
Wherein, sensor is temperature sensor and/or humidity sensor.
Remote monitoring center 4 is configured as being analyzed and processed received indoor temperature and humidity data, generates corresponding control
System instruction, and according to the operation of control instruction control temperature equipment 2 and dehumidification equipment 3.
In the mode that one kind can be implemented, as shown in Fig. 2, remote monitoring center 4 includes processing module 10, temperature adjustment control
Module 20, Dehumidification controlling module 30, wherein temperature adjustment control module 20, Dehumidification controlling module 30 input terminal all with processing module 10
Connection, the output end of temperature adjustment control module 20 are connect with temperature equipment 2, the output end and dehumidification equipment 3 of Dehumidification controlling module 30
Connection.
Processing module 10 is analyzed and processed received indoor temperature and humidity data, by received indoor temperature and humidity data with
Preset index is compared, and generates control instruction according to the result of the comparison, and control instruction is sent to temperature adjustment control module
20, Dehumidification controlling module 30, and then temperature equipment 2 and dehumidification equipment 3 are controlled by temperature adjustment control module 20, Dehumidification controlling module 30
Operation.
Optionally, control instruction is generated according to the result of the comparison, for example, acquired when temperature and humidity wireless monitor subsystem 1
When room temperature is more than the preset data threshold upper limit, processing module 10 sends the control for turning down temperature to temperature adjustment control module 20
Instruction, and then temperature adjustment control module 20 controls temperature equipment 2 according to control instruction and carries out cold source offer, thus by room temperature control
System is within the appropriate range.And when the room temperature that temperature and humidity wireless monitor subsystem 1 acquires is lower than under preset data threshold
In limited time, processing module 10 sends the control instruction that temperature is turned up, and then 20 basis of temperature adjustment control module to temperature adjustment control module 20
Control instruction controls temperature equipment 2 and carries out heat source offer.
Optionally, temperature equipment 2 connects earth source heat pump, and earth source heat pump provides heat source and cold source, and temperature adjustment control module 20 can
Temperature equipment 2 is controlled according to control instruction, earth source heat pump offer heat source or cold source are provided, thus by room temperature control suitable
In suitable range.In another optional mode, temperature equipment 2 is air-conditioning, and temperature adjustment control module 20 can be according to control instruction
It controls temperature equipment 2 and conveys cold source or heat source.
Similarly, Dehumidification controlling module 30 realizes dehumidifying by controlling the opening and closing of dehumidification equipment 3 or does not dehumidify.
The above embodiment of the present invention carries out the acquisition of indoor temperature and humidity data using wireless sensor network technology, avoids cloth
The trouble of line, intelligent quick;By being analyzed and processed to collected indoor temperature and humidity data, according to indoor temperature and humidity data
The operation of temperature equipment and dehumidification equipment is controlled, the adjusting of household temperature and humidity is realized, people can enjoy when going back home
By comfortable environment, of simple structure and strong practicability.
In one embodiment, sensor node can be in [Smin,Smax] in the range of adjust itself communication distance, initially
When, the communication distance that each sensor node adjusts itself is Smax, wherein SminFor the adjustable minimal communications of sensor node away from
From SmaxFor the adjustable maximum communication distance of sensor node;Sensor node is determined at the beginning by indoor temperature and humidity data
It is transmitted to the transmission mode of aggregation node, and indoor temperature and humidity data are transmitted to by aggregation node according to the transmission mode, is had
Body are as follows:
(1) when netinit, sensor node receives the broadcast message of aggregation node, carries out network by broadcast message
It floods, sensor node adds all neighbor nodes to the neighbor table of itself, and wherein neighbor node is logical positioned at sensor node
Other sensors node within the scope of communication distance;
(2) sensor node judges itself whether to meet directly transmission data qualification, if satisfied, sensor node directly will
The indoor temperature and humidity data of acquisition are sent to aggregation node, if being unsatisfactory for directly transmitting data qualification, select from its neighbor table
A neighbor node is selected as next-hop node, the indoor temperature and humidity data of acquisition are sent to next-hop node;Wherein, described
Direct transmission data qualification are as follows:
In formula, C (i, sink) is distance of the sensor node i to aggregation node,For with sensor node i apart from nearest neighbour
Node is occupied,For the neighbor node time close with sensor node i distance,For the nearest neighbor node to convergence
The distance of node,For the distance of time close neighbor node to aggregation node, To judge value function, whenWhen,WhenWhen,
In the present embodiment, sensor node determines neighbor table based on communication distance, and determining at the beginning will be indoor warm and humid
Degree is according to the transmission mode for being transmitted to aggregation node, indoor temperature and humidity data are transmitted to convergence section according to the transmission mode
Point.When determining transmission mode, the present embodiment creatively sets directly transmission data qualification, according to the direct transmission data
Condition is it is found that when the communication distance of sensor node is less than its distance for arriving aggregation node, and relative to its neighbor node distance
When aggregation node is closer, with aggregation node direct communication, the form directly transmitted is selected directly to transmit indoor temperature and humidity data
Indoor temperature and humidity data are forwarded according to the form of multi-hop transmission otherwise with aggregation node indirect communication to aggregation node.
The present embodiment determines routing mode according to the physical location situation of sensor node, has ensured the flexibility of routing,
Be conducive to improve the reliability that indoor temperature and humidity data are sent to aggregation node, reduce packet loss, and can be reduced as far as
The energy consumption of data of the Temperature and Humidity module in sensor node dispatcher's office.
In a kind of mode that can be realized, sensor node selects a neighbor node as next from its neighbor table
Hop node specifically includes:
(1) sensor node using with its apart from nearest sensor node, the sensor node time close with its distance as
The alternate node of next-hop node;
(2) sensor node sends election contest message to two alternate node, two alternate nodes receive it is described
The waiting time is calculated after election contest message:
In formula, YikIndicate the waiting time that k-th of alternate node of sensor node i calculates, WikIt is standby for described k-th
Select the current remaining of node, WikoFor the primary power of k-th of alternate node, C (k, sink) is standby described k-th
Select node to the distance of aggregation node, C (i, sink) is distance of the sensor node i to aggregation node, and C (i, 4) is sensor
Node i is at a distance from the 4th alternate node, SiFor the communication distance of sensor node i, Y1For it is preset based on energy etc.
To time, Y2For the preset waiting time based on distance;p1、p2For the weight coefficient of setting;
(3) alternate node starts timer according to the waiting time, and timing sends feedback to sensor node i after terminating and disappears
Breath;
(4) sensor node i is using alternate node corresponding to receive first feedback message as next-hop node.
The present embodiment proposes the selection mechanism of next-hop node, is based on the mechanism, sensor node is from its neighbor table
When selecting a neighbor node as next-hop node, by the biography close apart from nearest sensor node and its distance time with it
Alternate node of the sensor node as next-hop node sends election contest message to each alternate node, and to receive alternate node
The time sequencing of feedback message determines next-hop node.
Wherein by the design of waiting time, the waiting time of alternate node can be controlled in a reasonable range
It is interior, and enable to that dump energy is more and the better alternate node of position advantage has the shorter waiting time, to make
The next-hop node that there is the alternate node bigger probability to serve as sensor node is obtained, to improve indoor temperature and humidity data multi-hop
The reliability of forwarding.
In a kind of mode that can be realized, when initial, aggregation node collects the primary power information of each sensor node,
And according to primary power information calculating network average energy;Each sensor node, which is determined, is transmitted to convergence for indoor temperature and humidity data
After the transmission mode of node, its routed path for arriving aggregation node is established according to determining transmission mode, it is direct with aggregation node
The sensor node of communication receives the network average energy information sent by aggregation node;With the sensing of aggregation node direct communication
Device node according to setting cycle regularly updated according to the current remaining and network average energy information of itself
The communication distance of oneself, and the neighbor table of oneself is updated according to updated communication distance, and redefining will be indoor warm and humid
Degree is according to the transmission mode for being transmitted to aggregation node.
The update mode of the communication distance are as follows:
In formula, SjIt (t) is the communication distance updated with the sensor node j of aggregation node direct communication t-th of period,
Wj0For the primary power with the sensor node j, Wj(t) communication distance is updated t-th of period for the sensor node j
When current remaining, WavgFor the network average energy, SminFor the adjustable minimal communications distance of sensor node,
SmaxFor the adjustable maximum communication distance of sensor node, g is the communication distance impact factor based on energy consumption, the value range of g
For [0.8,0.9].
In the present embodiment, with the sensor node of aggregation node direct communication according to setting cycle according to from
The current remaining of body regularly updates the communication distance of oneself.
The present embodiment correspondingly proposes the more new formula of communication distance.By the more new formula it is found that and aggregation node
The sensor node of direct communication is gradually reduced the communication distance of oneself with the increase of energy consumption.By periodically adjusting communication
The mode of distance, the present embodiment enable to timely update with the sensor node of aggregation node direct communication by indoor temperature and humidity
Data are transmitted to the transmission mode of aggregation node, improve the flexibility of routing, advantageously reduce in sensor node transfer chamber
The energy consumption rate of data of the Temperature and Humidity module avoids sensor node from causing energy consumption to quickly increase because maintaining fixed transmission mode, from
And further ensure the stability of wireless sensor network, improve the reliability that indoor temperature and humidity data are transmitted to aggregation node.
Through the above description of the embodiments, those skilled in the art can be understood that it should be appreciated that can
To realize the embodiments described herein with hardware, software, firmware, middleware, code or its any appropriate combination.For hardware
It realizes, processor can be realized in one or more the following units: specific integrated circuit, digital signal processor, number letter
Number processing equipment, field programmable gate array, processor, controller, microcontroller, microprocessor, is set programmable logic device
Count other electronic units or combinations thereof for realizing functions described herein.For software implementations, the part of embodiment or complete
Portion's process can instruct relevant hardware to complete by computer program.When realization, above procedure can be stored in meter
It instructs in calculation machine readable medium or as the one or more on computer-readable medium or code is transmitted.It is computer-readable
Medium includes computer storage media and communication media, and wherein communication media includes convenient for passing from a place to another place
Send any medium of computer program.Storage medium can be any usable medium that computer can access.It is computer-readable
Medium can include but is not limited to random access memory, read-only memory mirror image, band Electrically Erasable Programmable Read-Only Memory or its
His optical disc storage, magnetic disk storage medium or other magnetic storage apparatus or it can be used in carrying or storing that there is instruction or number
According to structure type desired program code and can be by any other medium of computer access.
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 (6)
1. smart home temperature and humidity environment adjustment system, characterized in that including temperature and humidity wireless monitor subsystem, temperature equipment,
Dehumidification equipment, remote monitoring center, wherein temperature and humidity wireless monitor subsystem, temperature equipment, dehumidification equipment are all monitored with long-range
Center connection;The temperature and humidity wireless monitor subsystem is configured as carrying out real-time monitoring to indoor temperature and humidity, acquires Indoor Temperature
Humidity data is simultaneously sent to remote monitoring center;The remote monitoring center is configured as to received indoor temperature and humidity data
It is analyzed and processed, generates corresponding control instruction, and control the operation of temperature equipment and dehumidification equipment according to control instruction;Institute
Stating temperature and humidity wireless monitor subsystem includes the single aggregation node being deployed in monitoring region, multiple sensor nodes, sensing
Data of the Temperature and Humidity module and indoor temperature and humidity data are sent to aggregation node in device node collection room, and then will be indoor by aggregation node
Data of the Temperature and Humidity module is sent to remote monitoring center.
2. smart home temperature and humidity environment adjustment system according to claim 1, characterized in that in the long-range monitoring
Pericardium includes processing module, temperature adjustment control module, Dehumidification controlling module, wherein the input of temperature adjustment control module, Dehumidification controlling module
End all connect with processing module, the output end of temperature adjustment control module is connect with temperature equipment, the output end of Dehumidification controlling module and
Dehumidification equipment connection.
3. smart home temperature and humidity environment adjustment system according to claim 1 or 2, characterized in that sensor node packet
Include acquisition unit, analysis and processing unit and communication unit;Acquisition unit is completed by sensor and analog-digital converter, analysis processing
Unit is completed by microprocessor and memory, and communication unit is completed by wireless transceiver.
4. smart home temperature and humidity environment adjustment system according to claim 1, characterized in that sensor node can be
[Smin,Smax] in the range of adjust itself communication distance, when initial, the communication distance that each sensor node adjusts itself is
Smax, wherein SminFor the adjustable minimal communications distance of sensor node, SmaxFor the adjustable maximum communication of sensor node away from
From;Sensor node determines the transmission mode that indoor temperature and humidity data are transmitted to aggregation node at the beginning, and according to described
Indoor temperature and humidity data are transmitted to aggregation node by transmission mode, specifically:
(1) when netinit, sensor node receives the broadcast message of aggregation node, and it is general to carry out network by broadcast message
Flood, sensor node add all neighbor nodes to the neighbor table of itself, and wherein neighbor node is to communicate positioned at sensor node
Other sensors node in distance range;
(2) sensor node judges itself whether to meet directly transmission data qualification, if satisfied, sensor node directly will acquisition
Indoor temperature and humidity data be sent to aggregation node, if being unsatisfactory for directly transmitting data qualification, select one from its neighbor table
A neighbor node is sent to next-hop node as next-hop node, by the indoor temperature and humidity data of acquisition.
5. smart home temperature and humidity environment adjustment system according to claim 4, characterized in that the direct transmission number
According to condition are as follows:
In formula, C (i, sink) is distance of the sensor node i to aggregation node,For with sensor node i apart from nearest neighbour
Node is occupied,For the neighbor node time close with sensor node i distance,It is arrived for the nearest neighbor node
The distance of aggregation node,For the distance of time close neighbor node to aggregation node, To judge value function, whenWhen,WhenWhen,
6. smart home temperature and humidity environment adjustment system according to claim 4, characterized in that sensor node is adjacent from it
It occupies and selects a neighbor node as next-hop node in table, specifically include:
(1) sensor node using with its apart from nearest sensor node, the sensor node time close with its distance as next
The alternate node of hop node;
(2) sensor node sends election contest message to two alternate node, which is receiving the election contest
The waiting time is calculated after message:
In formula, YikIndicate the waiting time that k-th of alternate node of sensor node i calculates, WikFor the 4th alternate node
Current remaining, WikoFor the primary power of the 4th alternate node, C (4, sink) is the 4th alternate node
To the distance of aggregation node, C (i, sink) is the distance that sensor node i arrives aggregation node, C (i, k) be sensor node i and
The distance of k-th of alternate node, SiFor the communication distance of sensor node i, Y1For the preset waiting time based on energy,
Y2For the preset waiting time based on distance;p1、p2For the weight coefficient of setting;
(3) feedback message is sent to sensor node i after alternate node terminates according to waiting time starting timer, timing;
(4) sensor node i is using alternate node corresponding to receive first feedback message as next-hop node.
The present embodiment proposes the selection mechanism of next-hop node, is based on the mechanism, and sensor node is selected from its neighbor table
When one neighbor node is as next-hop node, by the sensor close apart from nearest sensor node and its distance time with it
Alternate node of the node as next-hop node sends election contest message to each alternate node, and to receive the feedback of alternate node
The time sequencing of message determines next-hop node.
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109714435A (en) * | 2019-01-22 | 2019-05-03 | 苏州宏裕千智能设备科技有限公司 | A kind of cloud platform video collect and processing system and its method |
Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20090154395A1 (en) * | 2007-12-17 | 2009-06-18 | Electronics And Telecommunications Research Institute | Wireless sensor network having hierarchical structure and routing method thereof |
CN101594287A (en) * | 2008-05-26 | 2009-12-02 | 华为技术有限公司 | A kind of method and system of transfer of data, node |
CN107395471A (en) * | 2017-07-18 | 2017-11-24 | 梧州井儿铺贸易有限公司 | A kind of smart home energy-saving control system |
CN108037670A (en) * | 2017-12-07 | 2018-05-15 | 何旭连 | A kind of smart home based on cloud computing |
CN108107748A (en) * | 2018-01-19 | 2018-06-01 | 赵然 | A kind of smart home environment control system |
-
2018
- 2018-11-08 CN CN201811327068.5A patent/CN109240392B/en active Active
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20090154395A1 (en) * | 2007-12-17 | 2009-06-18 | Electronics And Telecommunications Research Institute | Wireless sensor network having hierarchical structure and routing method thereof |
CN101594287A (en) * | 2008-05-26 | 2009-12-02 | 华为技术有限公司 | A kind of method and system of transfer of data, node |
CN107395471A (en) * | 2017-07-18 | 2017-11-24 | 梧州井儿铺贸易有限公司 | A kind of smart home energy-saving control system |
CN108037670A (en) * | 2017-12-07 | 2018-05-15 | 何旭连 | A kind of smart home based on cloud computing |
CN108107748A (en) * | 2018-01-19 | 2018-06-01 | 赵然 | A kind of smart home environment control system |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109714435A (en) * | 2019-01-22 | 2019-05-03 | 苏州宏裕千智能设备科技有限公司 | A kind of cloud platform video collect and processing system and its method |
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