CN103676857A - Solar ecological environment monitoring distributed-type system - Google Patents
Solar ecological environment monitoring distributed-type system Download PDFInfo
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- CN103676857A CN103676857A CN201310637438.6A CN201310637438A CN103676857A CN 103676857 A CN103676857 A CN 103676857A CN 201310637438 A CN201310637438 A CN 201310637438A CN 103676857 A CN103676857 A CN 103676857A
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Abstract
The invention relates to a solar ecological environment monitoring distributed-type system which comprises a solar monitoring subsystem, a monitoring center and an intelligent terminal in mutual communication. The solar monitoring subsystem comprises an environment monitoring sensor, a positioning module, a solar power supply device and a first transmission module, the monitoring center comprises a cloud processor used for processing environment data and geological position received by the solar monitoring subsystem to generate prewarning signals and a second transmission module used for sending the prewarning signals to the intelligent terminal, and the intelligent terminal comprises a prewarning map generating module used for generating a map displaying prewarning positions on the basis of the prewarning signals and a display module used for displaying the map. By the solar ecological environment monitoring distributed-type system, on the basis of a distributed-type Internet of Things, ecological environment can be automatically monitored effectively in a low-energy-consumption manner, and integrated analysis of collected environment monitoring data can be effectively realized.
Description
Technical field
The present invention relates to Internet of Things ECOLOGICAL ENVIRONMENTAL MONITORING field, more particularly, relate to a kind of solar-energy ecological environmental monitoring distributed system.
Background technology
Along with economic fast development, increasing people starts to be concerned about the quality of environmental quality of living in, requires the efficiency of environmental protection and management work and quality to improve.Environmental monitoring is the basis of environmental protection, the important means of environmental management.Application along with informationization technology, change traditional environmental monitoring means, use new communication network technology team pollution source and environmental quality carry out for a long time, continuously, effectively, science is monitored accurately becomes gradually environmental administration, city manager in the urgent need to.
Yet traditional environmental monitoring system, too relies on that manpower, automaticity are not high, work efficiency is too low, power consumption is too large and environmental monitoring data is not effectively integrated and analyzed conventionally, thereby cannot adapt to the requirement of information age.
Summary of the invention
The technical problem to be solved in the present invention is, environmental monitoring system for prior art, conventionally too rely on that manpower, automaticity are not high, work efficiency is too low, power consumption is too large and environmental monitoring data is not effectively integrated and analyzed, a kind of solar-energy ecological environmental monitoring distributed system is provided, it can be based on distributed Internet of Things, and effectively low energy consumption ground is automatically monitored ecologic environment and the environmental monitoring data of collecting is carried out to effective confluence analysis in real time.
The technical solution adopted for the present invention to solve the technical problems is: construct a kind of sun energy ECOLOGICAL ENVIRONMENTAL MONITORING distributed system, comprising: the sun power monitoring subsystem, monitoring center and the intelligent terminal that intercom mutually;
Wherein said sun power monitoring subsystem comprise be arranged on environmental monitoring sites the environment monitoring sensor for monitoring of environmental data, for report the geographic position of described environmental monitoring sites locating module, be used to the solar power supply apparatus of described environment monitoring sensor and described locating module power supply and for described environmental data and described geographic position being sent to the first transport module of described Surveillance center;
Described Surveillance center comprises for the treatment of receiving described environmental data and described geographic position from described sun power monitoring subsystem to generate the cloud processor of early warning signal, and the second transport module that described early warning signal is sent to described intelligent terminal;
Described intelligent terminal comprises based on described early warning signal and generates the early warning map generation module of the map that shows early warning position and for showing the display module of described map.
In solar-energy ecological environmental monitoring distributed system of the present invention, described solar-energy ecological environmental monitoring distributed system comprises a plurality of intelligent terminals, and each intelligent terminal is associated to receive the early warning signal relevant with described at least one environmental monitoring sites at least one environmental monitoring sites.
In solar-energy ecological environmental monitoring distributed system of the present invention, described environment monitoring sensor comprises water quality sensor, soil property sensor, air mass sensor, noise transducer, radiation sensor pressure transducer, seismic sensor and video sensor.
In solar-energy ecological environmental monitoring distributed system of the present invention, described the first transport module comprises: for receiving described environmental data and described geographic position and converting thereof into the signal processing unit of wireless signal transmission; And for described wireless signal transmission being transferred to the transmission unit of described Surveillance center.
In solar-energy ecological environmental monitoring distributed system of the present invention, described solar-energy ecological environmental monitoring distributed system further comprise be arranged on the relative position of described environmental monitoring sites, for administering the pollution control subsystem of pollution source.
In solar-energy ecological environmental monitoring distributed system of the present invention, described cloud processor is further based on receiving described environmental data and described geographic position to generate pollution control decision-making from described sun power monitoring subsystem, described the second transport module is further used for described pollution control decision-making to send to associated described pollution control subsystem.
In solar-energy ecological environmental monitoring distributed system of the present invention, described intelligent terminal comprises for generate the treatment decision-making generation module of pollution control decision-making based on described early warning signal; And for described pollution control decision-making being sent to the decision-making sending module of associated described pollution control subsystem.
In solar-energy ecological environmental monitoring distributed system of the present invention, described solar power supply apparatus comprise by sun power be converted to electric energy solar panels, be electrically connected to described solar panels and control the controller for solar that described solar panels discharge and recharge safely and the accumulator being electrically connected to described controller for solar.
In solar-energy ecological environmental monitoring distributed system of the present invention, described solar-energy ecological environmental monitoring distributed system comprises a plurality of sun power monitoring subsystems, a plurality of monitoring center, a plurality of intelligent terminal and a plurality of pollution control subsystem that adopts Internet of Things communication connection.
In solar-energy ecological environmental monitoring distributed system of the present invention, described intelligent terminal comprises: smart mobile phone, panel computer and PDA.
Implement solar-energy ecological environmental monitoring distributed system of the present invention, can be based on distributed Internet of Things, effectively low energy consumption ground is automatically monitored ecologic environment and the environmental monitoring data of collecting is carried out to effective confluence analysis in real time.And solar-energy ecological environmental monitoring distributed system of the present invention, can also take measures pollution source to administer in time.
Accompanying drawing explanation
Below in conjunction with drawings and Examples, the invention will be further described, in accompanying drawing:
Fig. 1 is the theory diagram of the first embodiment of solar-energy ecological environmental monitoring distributed system of the present invention;
Fig. 2 is the theory diagram of the second embodiment of solar-energy ecological environmental monitoring distributed system of the present invention;
Fig. 3 is the theory diagram of the 3rd embodiment of solar-energy ecological environmental monitoring distributed system of the present invention;
Fig. 4 is the theory diagram of the 4th embodiment of solar-energy ecological environmental monitoring distributed system of the present invention.
Embodiment
In order to make object of the present invention, technical scheme and advantage clearer, below in conjunction with drawings and Examples, the present invention is further elaborated.Should be appreciated that specific embodiment described herein, only in order to explain the present invention, is not intended to limit the present invention.
Fig. 1 is the theory diagram of the first embodiment of solar-energy ecological environmental monitoring distributed system of the present invention.As shown in Figure 1, solar-energy ecological environmental monitoring distributed system of the present invention comprises sun power monitoring subsystem 100, monitoring center 200 and the intelligent terminal 300 intercoming mutually through Internet of Things.Described sun power monitoring subsystem 100 comprises environment monitoring sensor 110, locating module 120, solar power supply apparatus 130 and the first transport module 140.
Those skilled in the art know, this environment monitoring sensor 110 be arranged at least one environmental monitoring sites for monitor this at least one environmental monitoring sites with and adjacent certain limit in environmental data.Those skilled in the art know, described environmental monitoring sites can be Anywhere, position, building or facility.For example this environmental monitoring sites can be river, grassland, the woods, the mountain ridge, bridge, building, highway, railway or any physical environment or infrastructure.Those skilled in the art know, this environment monitoring sensor can comprise the sensor device of multiple environmental monitoring, as monitor the sensor device etc. of water quality, monitoring soil property, air quality monitoring function, monitoring blowdown, monitoring noise, monitoring radiation, and can comprise video monitoring, Voice Surveillance etc., thereby can really accomplish conduct monitoring at all levels.For example, this environment monitoring sensor can comprise water quality sensor, soil property sensor, air mass sensor, noise transducer, radiation sensor pressure transducer, seismic sensor and video sensor.This locating module 120 can be for reporting the geographic position of described environmental monitoring sites.Described locating module 120 can be GPS module, Beidou satellite navigation system module or other satellite positioning module.This first transport module 140 can be arranged on this environmental monitoring sites place or around, thereby described environmental data and described geographic position are sent to described Surveillance center 200.Those skilled in the art know, described the first transport module 140 can be wire transmission module, can be also wireless transport module.In the present invention, described the first transport module 140 is communicated by letter through Internet of Things and described environment monitoring sensor 110, described locating module 120He Surveillance center 200.Described solar power supply apparatus 130 is used to the solar power supply apparatus 130 of described environment monitoring sensor 110 and 120 power supplies of described locating module.In a preferred embodiment of the invention, described solar power supply apparatus 130 is further described the first transport module 140 power supplies.In another preferred embodiment of the present invention, described solar power supply apparatus 130 comprise by sun power be converted to electric energy solar panels, be electrically connected to described solar panels and control the controller for solar that described solar panels discharge and recharge safely and the accumulator being electrically connected to described controller for solar.
Described Surveillance center 200 comprises cloud processor 210 and the second transport module 220.Wherein this cloud processor 210 is for the treatment of receiving described environmental data and described geographic position from described sun power monitoring subsystem 100 to generate early warning signal.Described the second transport module 220 sends to described intelligent terminal 300 by described early warning signal.Those skilled in the art know, described cloud processor 210 can directly or by wireless transport module be communicated by letter with intelligent terminal 300 with sun power monitoring subsystem 100.Described cloud processor 210, by every environmental data receiving and its geographic position data combination, carries out the calculating of large-scale data according to the function setting in advance or user inputs, order, thereby generates early warning signal.Described the second transport module 220 sends to described intelligent terminal 300 by short message, mail or other modes by described early warning signal.
Described intelligent terminal 300 comprises early warning map generation module 310 and display module 320.This early warning map generation module 310 generates the map that shows early warning position based on described early warning signal.This display module 320 shows described map on the display of described intelligent terminal 300.Therefore, on intelligent terminal 300, can directly demonstrate by the mode of map the position of warning.Now, directly issue an order of intelligent terminal 300, manages regulation and control to pollution source, also can, by 200 issue an orders of described Surveillance center, to pollution source, manage regulation and control.For example, the mode that intelligent terminal 300 can be by note and Surveillance center 200 carries out data interaction or directly by internet access Surveillance center 200.In one embodiment of the invention, described intelligent terminal 300 includes but not limited to smart mobile phone, panel computer, PC and PDA.
In another embodiment of the present invention, described solar-energy ecological environmental monitoring distributed system comprises a plurality of intelligent terminals 300.Each intelligent terminal 300 is associated with at least one environmental monitoring sites or at least one sun power monitoring subsystem 100.Now, Surveillance center 200 is after generating early warning signal, only send it to that intelligent terminal 300 associated with needing that environmental monitoring sites of early warning or at least one sun power monitoring subsystem 100, and without early warning signal being sent to whole intelligent terminals.Adopt in this way, the issue of early warning information is more pointed.
Implement solar-energy ecological environmental monitoring distributed system of the present invention, can be based on distributed Internet of Things, effectively low energy consumption ground is automatically monitored ecologic environment and the environmental monitoring data of collecting is carried out to effective confluence analysis in real time.
Fig. 2 is the theory diagram of the second embodiment of solar-energy ecological environmental monitoring distributed system of the present invention.As shown in Figure 2, solar-energy ecological environmental monitoring distributed system of the present invention comprises sun power monitoring subsystem 100, monitoring center 200, intelligent terminal 300 and the pollution control subsystem 400 intercoming mutually through Internet of Things.Described sun power monitoring subsystem 100 comprises environment monitoring sensor 110, locating module 120, solar power supply apparatus 130 and the first transport module 140.
Those skilled in the art know, this environment monitoring sensor 110 be arranged at least one environmental monitoring sites for monitor this at least one environmental monitoring sites with and adjacent certain limit in environmental data.Those skilled in the art know, this environment monitoring sensor can comprise the sensor device of multiple environmental monitoring, as monitor the sensor device etc. of water quality, monitoring soil property, air quality monitoring function, monitoring blowdown, monitoring noise, monitoring radiation, and can comprise video monitoring, Voice Surveillance etc., thereby can really accomplish conduct monitoring at all levels.For example, this environment monitoring sensor can comprise water quality sensor, soil property sensor, air mass sensor, noise transducer, radiation sensor pressure transducer, seismic sensor and video sensor.Therefore, as the environmental datas such as water COD value, water content of beary metal, P in soil H value, soil temperature and humidity, soil conductivity, airborne content of formaldehyde, solar irradiation all can be monitored to.This locating module 120 can be for reporting the geographic position of described environmental monitoring sites.This first transport module 140 can be arranged on this environmental monitoring sites place or around, thereby described environmental data and described geographic position are sent to described Surveillance center 200.Those skilled in the art know, described the first transport module 140 can be wire transmission module, can be also wireless transport module.In the present invention, described the first transport module 140 comprises signal processing unit 141 and transmission unit 142.This signal processing unit 141 is for receiving described environmental data and described geographic position and converting thereof into wireless signal transmission.This transmission unit 142 is for being transferred to described wireless signal transmission described Surveillance center 200.In a preferred embodiment of the invention, described solar power supply apparatus 130 is further described the first transport module 140 power supplies.In another preferred embodiment of the present invention, described solar power supply apparatus 130 comprise by sun power be converted to electric energy solar panels, be electrically connected to described solar panels and control the controller for solar that described solar panels discharge and recharge safely and the accumulator being electrically connected to described controller for solar.Described solar power supply apparatus 130 is used to the solar power supply apparatus 130 of described environment monitoring sensor 110 and 120 power supplies of described locating module.
Described Surveillance center 200 comprises cloud processor 210 and the second transport module 220.Wherein this cloud processor 210 is for the treatment of receiving described environmental data and described geographic position from described sun power monitoring subsystem 100 to generate early warning signal.Described the second transport module 220 sends to described intelligent terminal 300 by described early warning signal.Those skilled in the art know, described cloud processor 210 can directly or by wireless transport module be communicated by letter with intelligent terminal 300 with sun power monitoring subsystem 100.Described cloud processor 210, by every environmental data receiving and its geographic position data combination, carries out the calculating of large-scale data according to the function setting in advance or user inputs, order, thereby generates early warning signal.Described the second transport module 220 sends to described intelligent terminal 300 by short message, mail or other modes by described early warning signal.
Described intelligent terminal 300 comprises early warning map generation module 310, display module 320, treatment decision-making generation module 330 and decision-making sending module 340.This early warning map generation module 310 generates the map that shows early warning position based on described early warning signal.This display module 320 shows described map on the display of described intelligent terminal 300.Therefore, on intelligent terminal 300, can directly demonstrate by the mode of map the position of warning.Now, treatment decision-making generation module 330 is for generating pollution control decision-making based on described early warning signal.Described decision-making sending module 340 is for sending to described pollution control decision-making associated described pollution control subsystem 400.For example, the mode that described decision-making sending module 340 can be by note and Surveillance center 200 carries out data interaction or directly by internet access Surveillance center 200.In one embodiment of the invention, described intelligent terminal 300 includes but not limited to smart mobile phone, panel computer, PC and PDA.
Described pollution control subsystem 400 is arranged on the relative position of described environmental monitoring sites, for administering pollution source.For example described in this, pollution control subsystem 400 can comprise water valve and Water valve controller, and it is arranged on the upstream of a Water-quality Monitoring Points.When the water monitor of sun power monitoring subsystem 100 monitors in water that impurity may exceed standard, Surveillance center 100 is sent early warning signal and is sent to intelligent terminal 300 by environmental data and inner setting of monitoring.Treatment decision-making generation module 330, for generating pollution control decision-making based on described early warning signal, needs to close the control water valve of Water-quality Monitoring Points upstream, thereby blocks contaminated water flow.At this moment, described decision-making sending module 340 is for sending to described pollution control decision-making associated described pollution control subsystem 400.Described pollution control subsystem 400 receives after described pollution control decision-making, and described Water valve controller is closed control water valve, thereby realizes prevention and control of pollution source.
For example, described pollution control subsystem 400 can comprise that hindering luggage puts and hinder line control unit, and it is arranged on bridge or road.When the pressure bearing to bridge or road when the pressure sensor monitoring of sun power monitoring subsystem 100 surpasses setting threshold, Surveillance center 100 is sent early warning signal and is sent to intelligent terminal 300 by environmental data and inner setting of monitoring.Treatment decision-making generation module 330, for generating pollution control decision-making based on described early warning signal, needs to forbid that overweight vehicle enters build-up of pressure and pollutes.At this moment, described decision-making sending module 340 is for sending to described pollution control decision-making associated described pollution control subsystem 400.Described pollution control subsystem 400 receives after described pollution control decision-making, and described resistance line control unit is put startup resistance luggage, thereby blocking-up vehicle pass-through is realized prevention and control of pollution source.
In another embodiment of the present invention, described solar-energy ecological environmental monitoring distributed system comprises a plurality of intelligent terminals 300.Each intelligent terminal 300 is associated with at least one environmental monitoring sites or at least one sun power monitoring subsystem 100.Now, Surveillance center 200 is after generating early warning signal, only send it to that intelligent terminal 300 associated with needing that environmental monitoring sites of early warning or at least one sun power monitoring subsystem 100, and without early warning signal being sent to whole intelligent terminals.Adopt in this way, the issue of early warning information is more pointed.
Implement solar-energy ecological environmental monitoring distributed system of the present invention, can be based on distributed Internet of Things, effectively low energy consumption ground is automatically monitored ecologic environment and the environmental monitoring data of collecting is carried out to effective confluence analysis in real time.And solar-energy ecological environmental monitoring distributed system of the present invention, can also take measures pollution source to administer in time.
Fig. 3 is the theory diagram of the 3rd embodiment of solar-energy ecological environmental monitoring distributed system of the present invention.Embodiment illustrated in fig. 3 and embodiment illustrated in fig. 2 approximate, its difference is only, in the embodiment shown in fig. 3, and the described pollution control subsystem 400 of unintelligent terminal 300 control by Surveillance center 200.As shown in Figure 3, the cloud processor 210 of Surveillance center 200 is for based on receiving described environmental datas and described geographic position from described sun power monitoring subsystem 100 to generate pollution control decision-making.Described the second transport module 220 further sends to described pollution control decision-making associated described pollution control subsystem 400.In the present embodiment, described cloud processor 210 is by every environmental data receiving and its geographic position data combination, according to the function setting in advance or user inputs, order, carry out the calculating of large-scale data, thereby generate early warning signal and pollution control decision-making.Described the second transport module 220 sends to respectively described intelligent terminal 300 and described pollution control subsystem 400 by short message, mail or other modes by described early warning signal and pollution control decision-making.
Implement solar-energy ecological environmental monitoring distributed system of the present invention, can be based on distributed Internet of Things, effectively low energy consumption ground is automatically monitored ecologic environment and the environmental monitoring data of collecting is carried out to effective confluence analysis in real time.And solar-energy ecological environmental monitoring distributed system of the present invention, can also take measures pollution source to administer in time.
Fig. 4 is the theory diagram of the 4th embodiment of solar-energy ecological environmental monitoring distributed system of the present invention.As shown in Figure 4, described solar-energy ecological environmental monitoring distributed system comprises a plurality of sun power monitoring subsystems 100, a plurality of monitoring center 200, a plurality of intelligent terminal 300 and a plurality of pollution control subsystem 400 that adopts Internet of Things communication connection.By Internet of Things, communicate by letter, all sun power monitoring subsystems 100, monitoring center 200, intelligent terminal 300 and pollution control subsystem 400 are linked to be to network, form a distributed data network, can be for user to whole environmental area, even the ecologic environment in whole city is monitored, and can be taken effective measures in time pollution source etc. are managed.Those skilled in the art know, above-mentioned a plurality of sun power monitoring subsystems 100, a plurality of monitoring center 200, a plurality of intelligent terminal 300 and a plurality of pollution control subsystem 400 can be constructed by any embodiment based on shown in Fig. 1-3.Based on instruction of the present invention, those skilled in the art can realize above-mentioned structure, at this, have just been not repeated.
Implement solar-energy ecological environmental monitoring distributed system of the present invention, can be based on distributed Internet of Things, effectively low energy consumption ground is automatically monitored ecologic environment and the environmental monitoring data of collecting is carried out to effective confluence analysis in real time.And solar-energy ecological environmental monitoring distributed system of the present invention, can also take measures pollution source to administer in time.
Although the present invention describes by specific embodiment, it will be appreciated by those skilled in the art that, without departing from the present invention, can also carry out various conversion and be equal to alternative the present invention.Therefore, the present invention is not limited to disclosed specific embodiment, and should comprise the whole embodiments that fall within the scope of the claims in the present invention.
Claims (10)
1. a solar-energy ecological environmental monitoring distributed system, is characterized in that, comprising: the sun power monitoring subsystem, monitoring center and the intelligent terminal that intercom mutually; Wherein
Described sun power monitoring subsystem comprise be arranged on environmental monitoring sites the environment monitoring sensor for monitoring of environmental data, for report the geographic position of described environmental monitoring sites locating module, be used to the solar power supply apparatus of described environment monitoring sensor and described locating module power supply and for described environmental data and described geographic position being sent to the first transport module of described Surveillance center;
Described Surveillance center comprises for the treatment of receiving described environmental data and described geographic position from described sun power monitoring subsystem to generate the cloud processor of early warning signal, and the second transport module that described early warning signal is sent to described intelligent terminal;
Described intelligent terminal comprises based on described early warning signal and generates the early warning map generation module of the map that shows early warning position and for showing the display module of described map.
2. solar-energy ecological environmental monitoring distributed system according to claim 1, it is characterized in that, described solar-energy ecological environmental monitoring distributed system comprises a plurality of intelligent terminals, and each intelligent terminal is associated to receive the early warning signal relevant with described at least one environmental monitoring sites at least one environmental monitoring sites.
3. solar-energy ecological environmental monitoring distributed system according to claim 1, it is characterized in that, described environment monitoring sensor comprises water quality sensor, soil property sensor, air mass sensor, noise transducer, radiation sensor pressure transducer, seismic sensor and video sensor.
4. solar-energy ecological environmental monitoring distributed system according to claim 3, it is characterized in that, described the first transport module comprises: for receiving described environmental data and described geographic position and converting thereof into the signal processing unit of wireless signal transmission, and for described wireless signal transmission being transferred to the transmission unit of described Surveillance center.
5. solar-energy ecological environmental monitoring distributed system according to claim 1, it is characterized in that, described solar-energy ecological environmental monitoring distributed system further comprise be arranged on the relative position of described environmental monitoring sites, for administering the pollution control subsystem of pollution source.
6. solar-energy ecological environmental monitoring distributed system according to claim 5, it is characterized in that, described cloud processor is further based on receiving described environmental data and described geographic position to generate pollution control decision-making from described sun power monitoring subsystem, described the second transport module is further used for described pollution control decision-making to send to associated described pollution control subsystem.
7. solar-energy ecological environmental monitoring distributed system according to claim 5, is characterized in that, described intelligent terminal comprises for generate the treatment decision-making generation module of pollution control decision-making based on described early warning signal; And for described pollution control decision-making being sent to the decision-making sending module of associated described pollution control subsystem.
8. solar-energy ecological environmental monitoring distributed system according to claim 1, it is characterized in that, described solar power supply apparatus comprise by sun power be converted to electric energy solar panels, be electrically connected to described solar panels and control the controller for solar that described solar panels discharge and recharge safely and the accumulator being electrically connected to described controller for solar.
9. solar-energy ecological environmental monitoring distributed system according to claim 1, it is characterized in that, described solar-energy ecological environmental monitoring distributed system comprises a plurality of sun power monitoring subsystems, a plurality of monitoring center, a plurality of intelligent terminal and a plurality of pollution control subsystem that adopts Internet of Things communication connection.
10. solar-energy ecological environmental monitoring distributed system according to claim 1, is characterized in that, described intelligent terminal comprises: smart mobile phone, panel computer and PDA.
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| CN106324227A (en) * | 2016-11-04 | 2017-01-11 | 马春强 | Soil environment monitoring method based on DES satellite and Beidou cloud system |
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| CN107493317A (en) * | 2017-06-30 | 2017-12-19 | 重庆交通大学 | Bridge structure relative deformation monitoring system and method based on BDS |
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| CN111629049A (en) * | 2020-05-22 | 2020-09-04 | 广州地理研究所 | Ecological system observation and research data platform based on cloud computing |
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| CN114384208A (en) * | 2021-12-30 | 2022-04-22 | 四川巴斯德环境保护科技有限责任公司 | Intelligent wireless monitoring system and method for urban air quality |
| CN116608897A (en) * | 2023-04-07 | 2023-08-18 | 上海艾利维水环境技术有限公司 | Ecological environment monitoring system based on Internet of things |
| CN117391613A (en) * | 2023-10-08 | 2024-01-12 | 菏泽单州数字产业发展有限公司 | Agricultural industry garden management system based on Internet of things |
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