4. Efficient fertilization
Deep turning of paddy fields
No-tillage sowing
Deeply cultivated land
water-saving irrigation
Straw return
Agricultural Machinery Monitoring System
Residual film recovery
5. Agricultural Machinery Monitoring System
The agricultural machinery operation monitoring system consists of an IoT
device installed on the locomotive and an agricultural machinery operation
monitoring platform deployed on the cloud, which accurately supervises
the status and depth of operations and accurately calculates the operating
area. According to user needs, the system provides two access methods: pc
computer terminal and mobile phone APP.
6. 01
03
Combination of multiple application technologies
The system uses the Internet of Things, satellite
positioning, RFID technology, spatial imagery
remote sensing monitoring and control
technology, and deep loose equipment
condition monitoring and sensing technology to
achieve accurate monitoring of work area and
depth.
Unique area algorithm
In the deep loose work process, the work travel
distance is acquired in real time, and a locus
pattern is formed according to the locomotive
running trajectory. Combined with the tool
property data such as the width of the
implement, the work area is calculated by the
relevant algorithm, and the overlapping work
area and the leak can be effectively identified.
02
04
Product Features
Agricultural Machinery Monitoring System
Equipment composition
Installation & Use
& Maintenance
Application
Techniques and
Algorithms
Easy to install
The hardware module uses a low coupling
between the post-installation mode and the
agricultural machinery. After the hardware
module is installed, the user only needs to
perform operations in the conventional manner
without changing the operation mode.
Easy to use
The power supply design of the tractor
operation means that the user only needs to
confirm the system operation mode according to
the system host's prompts, and no complicated
operation is required. For other sensors, the
system supports the hot plugging of the
replacement plows.
Supports multiple job scene extensions
At present, the main application scenarios of the
system are four types of operation modes: deep
loosening, straw returning, no-tillage sowing,
and paddy field preparation. The system can
also be applied to the monitoring of agricultural
machinery operation processes such as sowing,
harvesting, plant protection, and rice
transplanting.
Multiple data sensors
Different from other manufacturers in the market,
using multiple angle sensors to measure
together, the industry's first installation of two
cameras before and after to ensure the
accuracy of data collection, while ensuring the
adequate data sources for the use of other
functions.
Voice prompts
The host will send a voice alarm when the
device is abnormal.
Data
acquisition
sensor
Host device
Camera
7. Platform
features
The management platform carries out unified storage and management of four modes of operation data for deep soil
preparation, straw return, no-tillage sowing, and paddy field preparation, and provides different user-visible interaction
interfaces according to the user's identity, with simplicity, ease of use, and intuitiveness. The design style is designed
to meet the requirements of different users.
Agricultural Machinery Monitoring System
8. Platform
features
Real time monitoring:
The system uses GPS positioning to try to monitor the locomotive location and display the locomotive action trajectory
on the map.
The system can take pictures of the locomotive work site through the camera to assist in confirming the locomotive
work status;
Agricultural Machinery Monitoring System
9. Platform
features
Smart Analysis & Track Playback:
At the platform side, you can view the historical track of the locomotive operation. The system analyzes each
operation to obtain the main statistical values such as area, tillage depth and pass rate of each operation.
Agricultural Machinery Monitoring System
10. Platform
features
Data verification:
The agricultural machinery management department or the cooperative can review the detailed statistics of the
locomotive operation information according to the actual tasks, and identify the effective area of the actual subsidies
in the operation area.
Agricultural Machinery Monitoring System
11. Platform
features
Statistical report:
After each quarter of the season, the platform will automatically collect all the locomotive's operation information, and
produce settlement reports for different levels of users according to the user's level for calculation of job subsidies..
Agricultural Machinery Monitoring System
12. APP
features
According to the actual needs of farmers, provide mobile phone app client, the client includes the job statistics list, job
details and job track viewing and other main functions, to facilitate the operator to master their own job situation in
real time, easy to adjust the locomotive and machinery according to the actual operation conditions.
Agricultural Machinery Monitoring System
14. In recent years, greenhouse cultivation has
brought great convenience to people's living
standards and has been rapidly promoted and
applied. Environmental factors such as
temperature, humidity, light intensity, and CO2
concentration in the planting environment have a
great influence on the production of crops. The
traditional manual control method is difficult to
achieve the scientific and rational planting
requirements. According to the special
characteristics of greenhouse intelligent
monitoring, it is necessary to transmit the on-site
parameters of the greenhouses to the managers,
and send the managers' orders to the on-site
execution equipment. At the same time, the
upper-level department can make use of the
Internet or mobile phone information to
understand the real-time conditions of the
regional greenhouses.
Smart greenhouse system
15. Smart greenhouse system
Increase production, improve varieties, adjust automatically,
save time and effort
Maintain optimal humidity for
plant growth
Optimum environment for
keeping plants in photosynthesis
Optimum moisture for
maintaining plant growth
Keeping the best nutrients
for plant growth
Temperature control Humidity control Lighting control
Controlling CO2
generator
Watering control Fertilization control
Temperature
range
Humidity
range
Light
intensity
range
CO2
content
Nutrient
control
strategy
Watering
control
strategy
Temperature Humidity Light intensity CO2 Soil nutrient Soil pH
16. The application of Internet of Things technology improves automated production and
picking, reduces labor costs, and increases production efficiency.
Reduce costs:
Optimize the growth environment of crops, obtain the best conditions for crop growth, and improve
the quality of crops. Improve the utilization rate and production rate of agricultural inputs such as
water resources and chemical fertilizers, and realize the quality monitoring during the whole growth
process of agricultural products in the quality control of green agricultural product bases.
Guarantee quality:
Analyze and apply big data, build standard planting models, multi-dimensional
analysis environment, plant and personnel operations, calculate the environmental
parameter curve that is most suitable for the growth of farming, and refer to the
scientific optimal growth parameter curve for operations. Set the greenhouse
environmental monitoring system threshold to achieve the purpose of automatic
control increase production.
Data Analysis Increase Production and Income
Smart greenhouse system
17. The use of IoT sensors, such as air temperature and humidity sensors, soil
temperature and humidity sensors, light sensors, carbon dioxide sensors,
etc., to obtain various types of information in the greenhouse production
environment.
01
Through ZigBee technology, 4G network and other transmission methods,
the transmission and interaction of on-site sensing information and server
information are realized.
02
Integrate the collected data with the actual needs of the industry to achieve
applications such as environmental monitoring, intelligent decision making,
and production management.
03
The greenhouse environmental monitoring system consists of the Internet of Things (IoT)
devices installed in the greenhouse and the greenhouse environmental monitoring platform
deployed in the cloud to accurately monitor the environmental information in the greenhouse
and realize real-time management of production. According to user needs, the system
provides two access methods: pc computer terminal and mobile phone APP.
Smart greenhouse system
Perception layer
Transport layer
Application layer
19. Wireless power supply
Data acquisition sensors are powered by solar panels,
plug and play, no need to deploy power lines.
Wireless transmission
433MHz is used between the system's IoT device and
the gateway, and 4G is connected between the
gateway and the platform. No wiring is required.
Easy to use
Support computer access, support for mobile or tablet
access.
Reliable data
The IoT device used by the system integrates
industrial-grade environmental monitoring sensors
with high accuracy and stable operation
Equipment
Internet of Things Terminal Equipment
Intelligent control
The system adopts a combination of automatic
adjustment control and remote control, which can be
adjusted according to preset thresholds or artificially
complete the control of related equipment according
to actual conditions.
Fusion of video surveillance systems
A video surveillance system was introduced to
integrate with the management platform to intuitively
reflect the real-time status of crop production.
Feature design
Smart greenhouse system
Environmental
data acquisition
equipment
Greenhouse real
scene
Acquisition host and
network controller
Production
equipment controller
20. Data monitoring
View environmental data
collected by sensors in the
area in real time.
Alarm management
For environment parameters
that exceed the set threshold,
the user is prompted with a red
marker on the host for viewing.
Acquisition host and network controller
Smart greenhouse system
Equipment control
Automatic control and
manual control are provided
on the host panel. The
automatic control can
automatically adjust the
device to exceed the
threshold. The user can also
adjust the environmental
parameters through manual
control as required.
Threshold setting
For the environment data
acquisition equipment in the
greenhouse, thresholds can
be set as required, and when
the parameters in the tent
exceed the threshold, an
alarm is given.
21. Data monitoring
The platform can be used to view
environmental parameters in the
greenhouse in real time, such as
air temperature and humidity,
soil temperature and humidity,
light intensity, and carbon
dioxide concentration.
Remote control
On the platform side, the working
status of the production
equipment in the greenhouse can
be viewed, and the equipment
can be remotely controlled on
the platform side as needed.
Acquisition host and network controller
Smart greenhouse system
Alarm management
For situations where the
environmental parameters
exceed a predetermined
threshold, alarm messages are
sent through the front-end
device, and details are
displayed in a list on the
platform side.
Video Surveillance
The integrated video
surveillance system allows
you to view the site's
production operating
environment on the platform
side and focus on production
trends in real time.
22. Mobile APP function
Smart greenhouse system
The user can view the crop growth environment parameters in the greenhouse in real time
through the mobile phone client, and can remotely operate the production equipment in the
booth through the mobile client as needed.
Through the mobile phone client, the user can view the monitoring screen in
the greenhouse anywhere, anytime, monitor the growth environment of the
crop in the greenhouse, and confirm the operation status of the production
equipment in the greenhouse.
24. 04030201
Special agricultural products Special sales
1,online trading, mobile phones, pc.
2,agricultural products remote visualization
booking service.
3,buy 36 hours of agricultural products from
picking to home delivery.
4.The price of specialty agricultural products is
lower and higher.
The platform software mainly achieves the following main functions:
Display and sales of agricultural products. Including web end, mobile end, WeChat public number.
Consumers' remote video real-time transmission of agricultural production sites.
The consumer's consumption records of the purchased agricultural products as well as the real-time video query of the production status and the query of the post-
shipment logistics situation.
Farmers manage and view the sales of their own agricultural products.
Farmers' real-time transmission of remote video to their own agricultural production place.
Farmers' management of the state of their own agricultural insurance.
Agricultural product safety production security
service.
5,mobile phone, computer remote real-time
video security supervision.
6,provide agricultural insurance in line with the
needs of farmers.
Point-to-point mode
7. Farmers directly face the consumers, so that
the sale of agricultural products can be done
from the plant to the consumer terminal to the
terminal direct sales model.
Agricultural product visualization business platform
26. Agricultural product visualization business platform
In the management system, administrator can complete the
maintenance of information on commodities, including
adding/editing/deleting, etc. The sales status of agricultural
products can be formulated as above or pre-sale; and the
management of agricultural products can be completed
according to the requirements of users.
Choose the type of the product
Choose sale now or pre-sale
Choose sale now or pre-sale
Choose the type of the product
Choose sale now or pre-sale
27. Agricultural product visualization business platform
The order form formed by the consumer through the mobile
phone client can form a statistics list in the background. The
manager or the farmer can view the order details according to
the order, and thus can perform operations such as stocking
and delivery. For problematic orders, Contact consumers in
time to solve.