CN203299614U - Aquaculture remote monitoring system based on Internet of things Android platform - Google Patents

Abstract

The utility model discloses an aquaculture remote monitoring system based on an Internet of things Android platform. The system comprises a bottom layer control module, a server module, local site monitoring, remote monitoring and an Android mobile client. The bottom layer control module is composed of a solar power supply control module and a number of parameter real-time monitoring modules. A server wireless transmitting and receiving module is arranged in the server module. A water quality parameter signal which is acquired by a water quality parameter monitoring module and is processed by a conditioning circuit is transmitted by the bottom layer control module to an MCU, is transmitted to the server module through the wireless transmitting and receiving module, and is transmitted by the server module to the Android mobile client. The Android mobile client transmits a wireless control command to the server module. The server module transmits the command to a water quality environment control module of the bottom layer control module through the server wireless module. According to the utility model, pond wireless communication management is remotely realized through a wireless network; and the system has the advantages of low cost and easy maintenance.

Description

Aquaculture remote monitoring system based on Internet of Things Android platform

Technical field

The utility model relates to water quality detection and the communications field, is a kind of aquaculture long-distance monitorng device and implementation method based on Internet of Things Android platform, is mainly used in the fields such as monitoring water environment, aquaculture, biological fermentation engineering.

Background technology

Along with the high speed development of science and technology, technology of Internet of things has been deep into rapidly the every field of people's daily life.External at present, in the monitoring agricultural environment field, the U.S., France and the main integrated use high-tech means of some developed countries such as Japanese build advanced monitoring agricultural environment network, sensor senses technology, data fusion transmission technology and Internet technology by the advanced person are set up the IT application to agriculture platform that covers the whole nation, realize the automatic monitoring to agroecological environment, guaranteed the sustainable development of agroecological environment.For example, the U.S. has formed the layered architecture of ecologic environment information acquisition-information transmission processing-information issue.France utilizes communication satellite technology to forecast diastrous weather, and disease and pest is observed and predicted.And aspect the water quality environment measurement, aquaculture has very high requirement to environment, this feedback of real-time information to monitoring water quality has proposed very high requirement, external automatic monitoring equipment measuring accuracy is higher, but aspect communication greatly mainly with wired mode, and cost is higher, based on the aquaculture remote control technology of Internet of Things Android platform, has no report; And at home, the monitoring of water quality environment is in artificial sample, chemico-analytic personal monitoring's stage substantially, the operation time and effort consuming, degree of accuracy is not high, real-time is bad, the minority portable apparatus also exists the problems such as working service difficulty.Relevant research has been done by Agricultural University Of Nanjing and China Agricultural University, has obtained some achievements.This supervisory system adopts technology of Internet of things, based on the Android platform, system real time is strong, adopts the mode of mobile phone wireless communication to carry out Real Time Monitoring, tracking to water quality environment, is not subjected to the condition restriction such as environment and place, system is simple to operate, data output is fast and accurate, can realize the continuous or timing monitoring of aquaculture overall process, the real-time instruction culture fishery is avoided risk, for fish production brings juice, application prospect is very wide, has stronger practical value.

The utility model content

The purpose of this utility model is the deficiency for current aquaculture monitoring wire communication, a kind of aquaculture remote monitoring system based on Internet of Things Android platform is provided, can be by the long-range radio management of realizing fish pond of wireless network on the Android mobile phone, the unfavorable factor such as the track laying cost of having avoided cable network to bring is high, wiring is complicated, difficult in maintenance.

The technical scheme that realizes the utility model purpose is: based on the aquaculture remote monitoring system of Internet of Things Android platform, comprise bottom control module, server module, local scene monitoring, remote monitoring and Android mobile client, described bottom control module is comprised of solar powered control module and some parameter real-time monitoring module, in the parameter real-time monitoring module, be provided with water quality environment control module, water quality parameter monitoring modular, signal conditioning circuit, MCU and radio receiving transmitting module, in described server module, be provided with the server radio receiving transmitting module; Described bottom control module is given described MCU by the water quality parameter signal of described water quality parameter monitoring modular collection after modulate circuit is processed, by described radio receiving transmitting module, be sent to described server module again, by described server module, be sent to the Android mobile client, described Android mobile client sends the controlled in wireless order to server module, by server module, by the server wireless module, is sent to the water quality environment control module of bottom control module.

In technique scheme, Android mobile terminal connection server module, with server module, communicate, receive the water quality parameter data of different fish ponds bottom control module and duty and the error message of motor (oxygen increasing pump, unwatering pump, small pump), can manually to the bottom control module, send Electric Machine Control (start, stop) order simultaneously.The user can deposit data message in the database of mobile terminal in real time, can also the TXT text mode export in the SD card.

The utility model has the advantages that:

1, overcome the deficiency of wired sensor, realize the mobile phone wireless save data transmission of water quality parameter and control command.

2, the general 2.4GHz whole world of wireless sensor network usage comparison discloses free frequency range, can reduce the interference of radio communication to miscellaneous equipment, effectively reduces simultaneously transmitted power.

The accompanying drawing explanation

Below in conjunction with the drawings and specific embodiments, the utility model is described in further detail.

Fig. 1 is the utility model overall system Organization Chart;

Fig. 2 is the utility model structured flowchart.

Embodiment:

As can be seen from Figure 1 the aquaculture remote monitoring system based on Internet of Things Android platform mainly comprises several large modules such as bottom control module, server, local scene monitoring, remote monitoring and Android cell-phone customer terminal, and the specific design theory diagram as shown in Figure 2.In Fig. 2, the bottom control module is comprised of solar powered control module and some parameter real-time monitoring module, in the parameter real-time monitoring module, be provided with water quality environment control module, water quality parameter monitoring modular, signal conditioning circuit, MCU and radio receiving transmitting module, the water quality parameter monitoring modular comprises temperature, PH, water level, oxygen dissolved sensor.The water quality environment control module is for controlling the startup of aerator, unwatering pump, feed pump and closing.In server module, be provided with the server radio receiving transmitting module.

The bottom control module adopts solar powered, with the radio communication between server, adopt ZigBee communication protocol, the signal of sensor node collection is given MCU after modulate circuit is processed, by radio receiving transmitting module, be sent to server end, by server, adopt the SOCKET communication mode to send client computer and cell phone platform.Mobile phone can adopt the SOCKET communication mode to send the controlled in wireless order to server, by server, by wireless module, sends to bottom topworks, namely controls node.

Claims (1)

1. based on the aquaculture remote monitoring system of Internet of Things Android platform, it is characterized in that, this system comprises bottom control module, server module, local scene monitoring, remote monitoring and Android mobile client, described bottom control module is comprised of solar powered control module and some parameter real-time monitoring module, in the parameter real-time monitoring module, be provided with water quality environment control module, water quality parameter monitoring modular, signal conditioning circuit, MCU and radio receiving transmitting module, in described server module, be provided with the server radio receiving transmitting module; Described bottom control module is given described MCU by the water quality parameter signal of described water quality parameter monitoring modular collection after modulate circuit is processed, by described radio receiving transmitting module, be sent to described server module again, by described server module, be sent to the Android mobile client, described Android mobile client send the controlled in wireless order to server module, by server module, by the server wireless module, is sent to the water quality environment control module of bottom control module.

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