Claims:WE CLAIM:
1)An automatic cultivated strawberry system that can automatically rotate based on Internet of things (IOT) comprising of;
a. a database having user registration facility in the website;
b. sensors for monitoring of the parameters like temperature management and water supply;
c. checking the strawberries status on the mobile phone and receive alerts when sensitive threshold are reached;
d. collecting Solar radiation information across the greenhouse/farm to determine the exact amount of light reaching the strawberries;
e. transmitting control messages, such as actuator control and data collection commands, to a certain terminal through the server;
2) The automatic cultivated strawberry system that can automatically rotate based on Internet of things (IOT) as claimed in claim 1, wherein the said system is with continuous data control and for a wireless system able to connect sensors with the website.
3) The automatic cultivated strawberry system that can automatically rotate based on Internet of things (IOT) as claimed in claim 1, wherein the said sensors such as Soil Humidity, temperature, oxygen content and nutrient content is tracked in real time via sensors.
4) The automatic cultivated strawberry system that can automatically rotate based on Internet of things (IOT) as claimed in claim 1, wherein the said Smart Farm Monitor Service monitors the environmental and driving data of the sensors and actuators and searches through the stored data.
5) The automatic cultivated strawberry system that can automatically rotate based on Internet of things (IOT) as claimed in claim 1, wherein the said service continuously measures the farm environment status, so that the results can be collected and analyzed.
6) The automatic cultivated strawberry system that can automatically rotate based on Internet of things (IOT) as claimed in claim 1, wherein the said system stores all the data in a database and provides the required functions for the user and monitoring the data stored in database through the interface or communicate with the database directly.
, Description:FIELD OF THE INVENTION:
The present invention relates to a cultivation system. The present invention more particularly relates to a kind of automatic strawberry cultivation system that can automatically rotate based on Internet of things (IOT).
BACKGROUND OF THE INVENTION:
Strawberries are widely appreciated for their characteristic aroma, bright red colour, juicy texture, and sweetness. But this fruit must also be eaten as soon as possible because it does not keep well.
Strawberry farm yields are extremely sensitive to environmental conditions such as temperature, solar radiation, humidity, air quality etc. Even minor changes in these parameters could severely impact the quality and yield of the farm. However, controlling these parameters in the green house manually is a labor intensive process, often prone to errors resulting in huge labor costs and unpredictable output quality.
In terms of strawberry production, the common goals of the growers are to shorten the time between pick and sell and to increase the quality of the berries (especially appearance and flavor). The recent trends are a rising number of farmers that sell their products on their own and more interest in using smart solutions for a continuous control of the factors affecting quality. In fact, strawberries growing in greenhouses are very susceptible to two main factors: air temperature (significant from the coverage of the greenhouse up to harvest) and water irrigation amount (very important both during the first months after planting and before harvest).
Strawberries are extremely sensitive to temperature and solar radiation fluctuations. Swings in either value cause low-quality, small strawberries to be grown. Controlling the heating, lighting, and nutrients getting to the strawberries can be a labor intensive process. If automated without real-time data collection, strawberries can stop growing or die due to fluctuations. The modifications in lighting and temperature are very expensive and time consuming and requires a expert in most cases.
For strawberry multi-layer solid cultivation, daylighting and utility rate of luminous energy are most important. Particularly cultivate under the natural daylight conditions such as greenhouse by solar heat, because sun altitude and azimuth constantly changed among one day, adopt fixed multi-layer solid cultivation frame, more or less all can there is Problem of Shading. Although forefathers have done a lot of trial and exploration, the stereo cultivation technology of strawberry is made to start application aborning gradually, but there is no the Problem of Shading solved existing for solid cultivation system, cause vertically cultivating space condition inequality, the quality and yield of cultivation product is also subject to corresponding impact.
So there is a need of an automatic cultivated strawberry system that can automatically rotate based on Internet of things (IOT). The present invention is an automatic cultivated strawberry system that can automatically rotate based on Internet of things (IOT). So a smart solution is needed for capturing and monitoring these parameters in real time and provide actionable insights back to labor and administrators.
OBJECTS OF THE INVENTION:
The main object of the present invention is to provide an automatic cultivated strawberry system that can automatically rotate based on Internet of things (IOT).
Another object of the present invention is to provide a smart solution for capturing and monitoring the parameters in real time and provide actionable insights back to labor and administrators.
Yet another object of the present invention is to help farmers to take decisions about temperature management and water supply.
SUMMARY OF THE INVENTION:
Accordingly, an automatic cultivated strawberry system that can automatically rotate based on Internet of things (IOT) is disclosed. An automatic cultivated strawberry system that can automatically rotate based on Internet of things (IOT) comprising of; a database having user registration facility in the website; sensors for monitoring of the parameters like temperature management and water supply; checking the strawberries status on the mobile phone and receive alerts when sensitive threshold are reached; collecting Solar radiation information across the greenhouse/farm to determine the exact amount of light reaching the strawberries; and transmitting control messages, such as actuator control and data collection commands, to a certain terminal through the server.
DESCRIPTION OF THE DRAWINGS:
Fig 1 is the flowchart for an automatic cultivated strawberry system that can automatically rotate based on Internet of things (IOT).
DETAILED DESCRIPTION OF THE INVENTION WITH RESPECT TO DRAWINGS:
The present invention helps to provide an automatic cultivated strawberry system that can automatically rotate based on Internet of things (IOT). The present invention provides a smart solution for capturing and monitoring the parameters in real time and provide actionable insights back to labor and administrators. The present invention helps in maintaining both the parameters within optimum ranges to avoid loss of product and to improve yield. The present invention helps farmer to take decisions about temperature management and water supply.
In one embodiment, the present invention is with a database having user registration facility in the website. The present invention receives and aggregates data coming both from wireless system. The purpose is to allow instantly check of environmental, physiological and productive parameters and to receive notifications as alert when urgent corrections are needed. It makes users benefit from the opportunities of precision, in the most critical moments and structuring with more confidence long-term plans. The present invention use agriculture in the greenhouse field sensors (for parameters monitoring) with database of the website (for continuous data control and for a wireless system able to connect sensors with the website).
Air temperature and soil water content sensors are placed near the plants, allow a continuous monitoring of the crop. The farmer can instantly check the strawberries status on the mobile phone and receive alerts when sensitive threshold are reached. The present invention is beneficial for farmers in terms of time saving. They save time because they do not need to spend many minutes a day into the field to control the crop status.
The present invention is based on real data, which is constantly collected and elaborated from the system. The present invention saves money and energy reducing water daily supply up to the 30% after planting and around the 15% during harvest. The present invention decrease product losses due to plant collapsed and small fruit and rot, keeping a constant production. They maintain high and constant quality standards that increase the loyalty of the consumer and allow selling with a constant price all along the harvesting period.
In another embodiment, Soil Humidity, temperature, oxygen content and nutrient content is tracked in real time via sensors placed into the hydroponics system at key intervals. Solar radiation information is collected across the greenhouse/farm to determine the exact amount of light reaching the strawberries. Using this real-time data, automatable components of the system (different on a case by case basis) such as the nutrient feed in a hydroponics setup, and irrigation system in a more traditional farm are automated.
A user can directly transmit control messages, such as actuator control and data collection commands, to a certain terminal through the server (database of the website). In addition, the sleep-mode time is synchronized between a given terminal and gateway. Thus, the terminal can receive data from the gateway at a predetermined time without transmission and reception of additional control messages. As a result, the energy efficiency is enhanced.
The data is stored in a database and provides the required functions for the user. Users can monitor the data stored in database via user devices .devices can either access IoT-Hub through the interface or communicate with the database directly. The Equipment Management Service (EMS) supports the installation, modification, removal, and automated connection of the IoT devices, actuators, hybrid controllers, and IoT-Hub installed in a greenhouse, and collects equipment condition and operation information. The detailed functions of the EMS are as follows: Registration, modification, removal, and connection of cloud-based equipment installed at the farm; Management of driving cycles and errors of cloud-based equipment, such as IoT devices and actuators; and Storage, maintenance, and management of information for maintenance of corresponding services.
Data Management Service (DMS) The Data Management Service (DMS) collects the required external data from public data services and records them in a database. The detailed functions of the DMS are as follows: Collection of required data from public data services; Management of public-data meta information, such as public data name, provider, registration date, and renewal date information; Registration, connection, modification, and deletion of collected data from database; and Storage, maintenance, and management of information for maintenance of the corresponding service.
The Smart Farm Monitor Service monitors the environmental and driving data of the sensors and actuators and searches through the stored data. This service continuously measures the farm environment status, so that the results can be collected and analyzed. The detailed functions of the this service are as follows: Monitoring and searching of environmental data inside and outside the farm; Collection of environmental data at predetermined times by designating the data collection cycle and zone; Provision of notification functions to users and administrators if data are not collected at a predetermined time; and Storage and maintenance of information for maintenance of the corresponding service.
In another embodiment, an automatic cultivated strawberry system that can automatically rotate based on Internet of things (IOT) comprising of;
a. a database having user registration facility in the website;
b. sensors for monitoring of the parameters like temperature management and water supply;
c. checking the strawberries status on the mobile phone and receive alerts when sensitive threshold are reached;
d. collecting Solar radiation information across the greenhouse/farm to determine the exact amount of light reaching the strawberries;
e. transmitting control messages, such as actuator control and data collection commands, to a certain terminal through the server;
f. storing all the data in a database and provides the required functions for the user and monitoring the data stored in database through the interface or communicate with the database directly.