This is a PPT of Robotics, the topic is Robot Perception for agriculture.
I am glad to share this PPT .The purpose behind to share this PPT was to help help students who want the idea about this topic or agriculture realated...
3. OUTLINES
Introduction
Needs of robotic agriculture
How Robots works in agriculture
Future farm
Advantages of Robots in agriculture
Disadvantage of Robots in agriculture
Challenges in Adopting Robotics
Applications of Agriculture’s Robots
Conclusion
Reference
4. Introduction
The word robot was derived from the Czech word robota.
A robot is a mechanical, artificial agent and is usually an
electromechanical system.
The robot is able to autonomously, according to the program, or
under the control of a man running, most dangerous,difficult
and laborious, and persevering and precise tasks.
5. Agricultural Robotics is the logical proliferation of
automation technology into biosystems such as agriculture,
forestry, green house, horticulture etc.
In agriculture, the opportunities for robot-enhanced
productivity are immense - and the robots are appearing on
farms in various guises and in increasing numbers.
7. As the global demand for food continues to rise,
innovative solutions are emerging to help optimize
operations in agriculture.
These versatile machines can handle a wide range of
tasks, from planting and irrigation to pest control
and soil analysis.
These versatile machines can handle a wide range of
tasks, from planting and irrigation to pest control
and soil analysis.
8. How Robots works in agriculture
Autonomous Tractors and Equipment.
Harvesting Robots
Weeding Robots
Drones and UAVs (Unmanned Aerial
Vehicles)
Precision Agriculture
14. Disadvantages of Robots in Agriculture
High Initial Costs
Technical Complexity
Dependency on Technology
Limited Adaptability to Diverse
Environments
Job Displacement
15. Energy Requirements
Complexity of Integration
Limited Affordability for Small Farmers
Ethical Considerations
Vulnerability to Cybersecurity Threats
16. Challenges in Adopting Robotics
High Initial Costs
Technical Complexity
Job Displacement
Limited Adaptability
Energy Requirements
17. Applications of Agricultural Robots
Precision Farming
Crop Monitoring and Management
Harvesting and Sorting
Livestock Management
Pest Control
Data-Driven Decision Making
18. Conclusion
Many regions face challenges in securing an
adequate labor force for agricultural tasks.
Many regions face challenges in securing an
adequate labor force for agricultural tasks.
Robotics enables precision agriculture through the
use of advanced sensors and technology.
Robots reduce the reliance on manual labor, leading
to decreased labor costs, and can optimize resource
use, reducing expenses on inputs.
19. The increased efficiency and precision provided by
robots in tasks like planting, harvesting, and
resource management contribute to higher
productivity and reduced operational costs.
Precision agriculture, enabled by advanced sensors
and robotics, allows for targeted application of
resources, minimizing waste and environmental
impact. This not only benefits individual farmers
but also plays a crucial role in addressing global
challenges such as food security.