AgroDroneHub
The AI Powered solution that revolutionizes precision agriculture
AgroDroneHub is a research and development project aimed at delivering a revolutionary solution in the field of precision agriculture. Autonomy based on artificial intelligence and robotics characterize AgroDroneHub as the future of efficiency and profitability for the agro-business ecosystem.
Much more than merely another UAV, AgroDroneHub constitutes a comprehensive solution resulting in a fully automated class of work. The AgroDroneHub solution consolidates the latest achievements in the fields of artificial intelligence, robotics and agro-aviation. The sum vector of these developments results in AgroDroneHub as a farmer’s one stop solution for autonomy as well as a game-changing component for service companies specializing in serving the agricultural industry.
Cutting-Edge Technologies And Modern Design:
AgrodroneHub uses the latest technologies in the field of artificial intelligence, robotics and agro-aviation, offering a unique structure and modern approach.
Artificial Intelligence Plant Detection
AgrodroneHub enables comprehensive crop monitoring while recognizing the type of sowing, providing unique data supporting the decision-making process. It allows farmers to track the health, growth and quality of their crops and generates tips and suggestions on work that needs to be done.
High Resolution Terrain Mapping
Our advanced AI algorithms mean that AgrodroneHub, by analyzing the state of crops, enables farmers to identify problems early and take proactive actions, increasing the efficiency and quality of work.
Real-Time Data Analysis
Thanks to AgrodroneHub, the acquired data is analyzed in real time and the resulting reports enable the optimization of agricultural strategies.
Advanced Functionality:
AgroDroneHub has a number of features and functionalities that add value and make it a unique solution available on the market. The most important feature being that it is fully autonomous, having independence in making decisions and performing actions, thanks to which it is able to function without constant operator interaction. Equipped with a comprehensive suite of functions such as: crop monitoring, management and monitoring of field tasks, measurement and identification of fields and crops, irrigation management system, estimation of crop damage, spraying of pesticides and fertilizers, sowing of seeds, assessment of soil moisture and irrigation, pest diagnostics and plant diseases monitoring, remote sensing.
The mobile platform, an integral element of the solution, fulfills many extremely important and useful functions from the point vis-a-vis AgroDroneHub’s unparalleled autonomy: energy production from sustainably renewable sources, transport, data collection and analysis, automatic pesticide refueling, automatic battery replacement, protection from the elements, and automated UAV docking protocol. Advanced artificial intelligence algorithms provide decision-support coordination for everyday tasks, ensuring an increase in the efficiency and profitability of agricultural production.
Precision Crop Monitoring:
AgrodroneHub provides real-time, high-resolution imagery of fields, allowing farmers to monitor crop health, growth patterns, and potential issues with unparalleled precision.
Pest And Disease Detection:
The advanced AI algorithms in AgrodroneHub can identify early signs of pest infestations and disease outbreaks, enabling timely intervention to protect crops and reduce yield losses.
Yield Optimization:
By analyzing plant health, soil conditions, and other vital factors, AgrodroneHub empowers farmers to implement targeted interventions for improved crop quality, resulting in higher overall yields.
Resource Management:
AgrodroneHub offers detailed insights into resource utilization, allowing for precise allocation of water, fertilizers, and pesticides. This helps reduce waste and minimize environmental impact.
Field Planning and Design:
With its high-resolution mapping capabilities, AgrodroneHub assists in efficient field planning, ensuring optimal land usage and allowing for strategic placement of different crop varieties.
Environmental Sustainability:
AgrodroneHub supports sustainable farming practices by minimizing the use of chemicals and resources through precise, data-driven decision-making. This contributes to a more environmentally-friendly approach to agriculture.
Livestock management and Crop monitoring:
As part of this functionality, AgroDroneHub will be able to obtain accurate, individualized and up-to-date data on the condition of Livestock, crops and acreage. Thanks to its large range and the ability to access hard-to-reach places, it is able to perform a comprehensive analysis of the area regardless of geographical conditions and field location. Data is acquired and analyzed in real time and compared with historical records. Based on current information about the livestock and condition of the area, the built-in AI module analyzes needs and adapts individual solutions supporting the decision-making process in planning tasks and work to be performed. Thanks to this functionality, farmers can respond faster and more effectively to problems, which contributes to increasing yields and reducing losses, as well as increasing profitability from the area. AgroDroneHub will use technologies such as thermal cameras, humidity sensors, LIDAR sensors, and GPS and RTK systems. The acquired data is characterized not only by comprehensiveness but also by the quality of workmanship.
Management and monitoring of field work:
By using this functionality, farmers will receive very detailed and precise data about their crops, which allows them to better manage crops and increase efficiency and profitability. The area is analyzed in terms of information about the surface, field conditions, height and condition of plants, soil moisture, plant temperatures, plant features such as humidity, chlorophyll content and other diseases important for further interpretation, which are condensed by the built-in AI module. Identification analyzes performed by artificial intelligence help to identify the characteristics of particular types of crops and plants, determine the degree of maturity of plants, detect diseases and pests, and the condition of the area. The use of the functionality during everyday field work allows you to better understand the specificity of your crops, which translates into improving their quality, efficiency and profitability, as well as reducing costs related to agrotechnics. It also allows you to measure the degree of plant vegetation and create 3D maps of fields and crops. The AI module processes the acquired data and generates a result that allows determining what actions should be taken to improve crop productivity.
Measurement and identification of fields and crops:
By using AgroDroneHub’s functionality, farmers will receive more detailed and accurate information about their crops, which allows them to better manage crops and increase efficiency. AgroDroneHub will collect data on fields and crops, such as information about the area, field conditions, plant height and condition, soil moisture, plant temperatures, plant characteristics such as humidity, chlorophyll content and other diseases important for further interpretation, which will be analyzed by artificial intelligence module. Identification analyzes made by artificial intelligence help identify the characteristics of different types of plants, determine the degree of plant maturity, detect diseases and pests and the condition of the area. The use of AgroDroneHub will help farmers better understand their crops, which leads to improvement of their quality and efficiency, as well as reducing costs related to agrotechnology. AgroDroneHub can also be used to measure the degree of plant vegetation and to create 3D maps of fields and crops. The information obtained in this way will be used by the artificial intelligence module to determine what actions should be taken to improve crop productivity.
Irrigation system management:
Thanks to the decisions generated by the AI module, AgroDroneHub is able to precisely and effectively manage the irrigation system. Thanks to data obtained from sensors, based on the applied knowledge base, it makes decisions regarding the demand and irrigation of precisely defined areas of the field, and then manages the automatic irrigation system, which allows for sustainable water distribution. These activities are carried out autonomously, without the farmer’s participation, which will save time and labor costs.
Estimation of damage in agriculture:
The occurrence of damage to crops caused by external factors is related to the plant production cycle and the occurrence of atmospheric phenomena or interference by wild animals. As part of this functionality, the area is scanned and crop damage identified in a fully autonomous manner. The AI module analyses the collected material and, after making calculations based on applicable prices and the scale of actual damage, calculates the amount of financial damage. The obtained report together with the prepared photogrammetric documentation constitutes important evidence and is extremely important and helpful in the process of claiming damages from insurers.
Spraying of pesticides and fertilizers:
Customized tanks with pesticides or fertilizers and spraying systems enable precise and effective spraying of fields. One of the main benefits is the ability to precisely determine the area of application of pesticides or fertilizers. Precision in determining the work area minimizes the amount of chemicals used, which has a positive impact on the natural environment and also results in financial savings. Spraying can be carried out difficulty accessible places, inaccessible to traditional agricultural machines, which will allow for more effective and efficient pesticide management. Thanks to advanced analytical tools, a precise dose of pesticides is determined, which will ensure compliance with standards and regulations as well as the actual needs of crops.
Sowing seeds:
The sowing functionality enables precise and effective sowing of cereal grains and granulated fertilizers. With sowing, you can reach hard-to-reach places that are inaccessible to traditional agricultural machines. Precise seeding frequency settings ensure that seeds are distributed evenly and efficiently, which will lead to a more even increase in yield and productivity, while also reducing labour costs.
Irrigation:
A secondary function of the spraying system is precise irrigation of the area in hard-to-reach places and when spot irrigation and irrigation of bushy plants are necessary. This method can be used due to the effectiveness of point irrigation, water savings and the ability to irrigate hard-to-reach places. In the irrigation process, we control the amount of water needed at a given point in the area, which allows us to optimize the plant cultivation process and minimize losses. Thanks to this functionality, the farmer will not have to water each plant manually, which saves a significant amount of time and reduces costs. Additionally, sensors measuring soil moisture and air temperature enable precise determination of the amount of water needed to irrigate a given point in the field area.
Soil moisture assessment:
The precise sensors in the equipment, combined with the analyses carried out by the AI module, are able to very precisely determine and present the level of soil moisture in individual areas. Determining the hydration level of individual areas allows for precise water management, adapting soil conditions to the needs of individual types of cereals resulting from the individual characteristics. The area of operation may cover a large area. Soil moisture management allows you to optimize its use while contributing to minimizing operating costs.
Pest diagnosis:
The RedGreenBlue system combined with thermal imaging and multispectral cameras enabling color recognition. The intensity level of plant colors provides valuable information about the condition of plants and helps detect potential threats in advance. The ability to monitor the temperature of the plant is helpful in detecting diseases and pests. Multispectral cameras detect subtle differences in the light spectrum and can detect the early stages of disease or other plant problems. Thanks to the operational range, it is possible to diagnose large areas of crops.
Transport:
Thanks to the integration with the driving platform, a mobility function will be implemented, thanks to which it will be possible to reach remote places, while helping to cover the area in an effective manner. The possibility of transport contributes to increasing the territorial range in which services can be provided and also reduces the time necessary to achieve operational readiness.
Automatic pesticide refueling:
An innovative automated solution supporting plant protection treatments in agriculture is a vivid example of the full autonomy of AgroDroneHub. The technological process of crop spraying becomes much easier, faster and more precise. Automatic pesticide filling eliminates the need for manual and manual operations. Pesticide losses during the refueling process are also limited. Automation in pesticide replenishment enables precise dosing, adjusting the concentration and amount of pesticides taking into account the characteristics of growing areas. Thanks to the automatic refueling system, the plant protection process takes place in a shorter time and is more accurate. Autonomy ensures cost reduction and contributes to increased profitability.
Automatic replacement of the energy source:
The autonomous module for automatic energy source replacement increases the self-sufficiency of the device. An individually designed module allows you to generate continuity of work and no downtime for service activities, thus contributing to increased work efficiency. Full autonomy disqualifies the need for human work, which translates into significant savings in working time and, consequently, costs generated by traditional service.
Automation of the UAV docking process:
Docking is a process during which the UAV, after landing on the helipad, connects to the slot to exchange the energy source and load pesticides or to exchange and archive data. The system uses a system of sensors and levers in the docking process, thanks to which AgroDroneHub is able to independently place the UAV in a given place, ensuring the stability of the processes.
Generation of energy from renewable sources:
AgroDroneHub is capable of producing energyelectricity thanks to the installed photovoltaic panel system. Thanks to this functionality, it becomes partially sufficient in providing energy to power the battery. Thanks to the solution used, greenhouse gas emissions are reduced and air pollution is reduced due to the reduction of the amount of fuel necessary for conversion into electricity. This feature will meet the requirements of sustainable development and limiting the negative impact on the natural environment.
Data collection and analysis:
Thankshigh-performance components and the artificial intelligence module collects large amounts of data, both in the form of records and photogrammetric documentation made during work. Historical information is also collected, which allows for full analysis and making more accurate decisions regarding a given crop area. AI data analysis is the process of using machine learning algorithms to discover patterns, relationships and information hidden in large data sets. The AI module in AgroDroneHub automatically processes, analyses, interprets and visualizes data to support the user in the decision-making process regarding the area. AgroDroneHub creates predictive models that will predict future events based on historical data, which will allow you to make more rational decisions in planning agricultural production. As part of work on servicing a given area, artificial intelligence will also be used to automatically classify and sort data, detect anomalies and detect deviations, which will contribute to improving data quality and increasing the efficiency of agricultural production. The created collective personalized reports allow for the improvement of the agricultural production process and eliminate errors resulting in losses.
Remote sensing:
Thankshigh-performance components and the artificial intelligence module collects large amounts of data, both in the form of records and photogrammetric documentation made during work. Historical information is also collected, which allows for full analysis and making more accurate decisions regarding a given crop area. AI data analysis is the process of using machine learning algorithms to discover patterns, relationships and information hidden in large data sets. The AI module in AgroDroneHub automatically processes, analyses, interprets and visualizes data to support the user in the decision-making process regarding the area. AgroDroneHub creates predictive models that will predict future events based on historical data, which will allow you to make more rational decisions in planning agricultural production. As part of work on servicing a given area, artificial intelligence will also be used to automatically classify and sort data, detect anomalies and detect deviations, which will contribute to improving data quality and increasing the efficiency of agricultural production. The created collective personalized reports allow for the improvement of the agricultural production process and eliminate errors resulting in losses.
Protection:
Thanks to the durable and uniform structure, all system elements, internal devices and peripheral equipment can be safely and properly operated and are resistant to weather conditions and unfavordable conditions during field work.
Benefits of AgroDroneHub
Increased efficiency
Save time and resources thanks to precise data analysis results.
Sustainable practices
Minimizing environmental impact through targeted resource allocation.
Higher yields
Increased yields through precision in decision-making.
Full Autonomy
the work is performed autonomously and automatically and you are only involved in the process of managing decisions
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