AGRICULTURE ROBOT ( INNOVATION FOR AGRICULTURE)

INTRODUCTION:
Agriculture has been the backbone of human civilization, evolving continuously to meet
the changing demands and challenges of population growth, environmental
sustainability, and economic pressures. These robots represent a leap forward from
traditional mechanization, such as tractors and harvesters, to more sophisticated,
autonomous systems capable of performing a variety of farm operations.
Today, agricultural robots are employed across various phases of farming operations. For
instance, seeding robots automate the planting process, ensuring optimal seed
placement and depth, which enhances germination rates and overall crop health.
Weeding robots, equipped with advanced visual recognition technologies, can
distinguish between crops and weeds, allowing for targeted weed control without
harming the primary crops. Harvesting robots are designed to identify ripe produce and
collect it with precision, minimizing damage and waste.
By enhancing productivity, efficiency, and sustainability, agricultural robots are not just
modernizing traditional practices but are also helping to tackle some of the most
pressing issues facing global agriculture today. While there are challenges to their
adoption, the benefits they offer suggest a promising future. It is imperative for
stakeholders across the board to support and foster continued innovation in this field,
ensuring that the advancements in agricultural technologies continue to benefit global
food systems in an ethical and sustainable manner.

PROBLEM STATEMENT
24-HOUR OPERATION
Humans have limited energy that needs to
take much time to fully revive to continue
to work back. When tired, our cognitive
functions may slow down, and physical
tasks can feel more challenging. Recharging
might involve rest, hydration, and cooling
down to restore energy levels.
THE EXPOSURE RISK OF
CHEMICAL AND POISON
Farmers are constantly exposed to various
chemicals and poisons during their work, posing
significant health risks. These substances,
including pesticides, fertilizers, and herbicides,
can lead to acute and chronic health issues,
ranging from skin irritation to respiratory
problems and even long-term conditions like
cancer.
ENERGY EFFICIENCY
The robot need to use the battery to make
sure it runs smoothly. It will cost the
electricity of farmer to recharge the battery
all the time. The big capacity of battery will
use a lot of electricity. farmer to recharge
the battery all the time. The big capacity of
battery will use a lot of electricity.

CREATIVE PROBLEM SOLVING
Implement a 24-hour operation where
robots autonomously work around the
clock, maximizing productivity. Designing
robots with renewable energy resources.
Lastly, using robotic technology to handle
hazardous substances will reduce the
exposure risk of chemicals and poisons
-Lack of precise metrics to monitor robot
efficiency and identify downtime causes
affects the ability to maintain continuous
operations.
-Without optimal scheduling algorithms and
task management systems, robots may not
be utilized to their full potential, leading to
inefficiencies in 24-hour operations.
- Inconsistent tracking of robot performance
and uptime.
- Inefficient scheduling.
- Software malfunctions
-Wear and tear of components.
Insufficient human oversight and intervention
protocols.
-Environmental factors affecting robot
performance.
-Implement a comprehensive monitoring system.
-Optimize scheduling and maintenance routines.
-Enhance machine design and robustness.
-Use high-durability materials.
-Train maintenance staff and operators.
-Adapt the working environment for robot
operations.
-Train maintenance staff and operators.
Having a training every 6 months.
-Implement a comprehensive monitoring
system.
-Enhance machine design and robustness.
-Use high-durability materials.
-Optimize scheduling and maintenance
routines.
-Adapt the working environment for robot
operations.
OBJECTIVE FACT FINDING PROBLEM
SOLUTIONIDEA
ACTION
-To maximize productivity and make the most of
limited time windows. By utilizing advanced
robotics technology.
-To minimize energy consumption and enhance
sustainability. By integrating solar panels and
other renewable energy sources.
-To reduce the risk of exposure and improve
safety. By deploying robotic technology for
these tasks.

CREATIVE IDEACREATIVE IDEA
DESCRITIONDESCRITION
The biggest benefit of using solar energy is that it
trims down operational costs because it relies less
on non-renewable energy sources. It enables
robots to work independently off-grid, improving
their usability in remote farming areas. Robots
powered by solar energy could be used in
monitoring crop health, planting, and irrigation.
The hybrid system keeps them running when
sunlight is inadequate, thus offering uniform
performance all day long.
It will provide more maneuverability and
precision in treading the land types and various
obstacles with which the farming robot has to go
through. This increases the effectiveness of the
farming robot so that farmings are done
effectively. Rotation is useful for applications
such as targeted spraying, accurate sowing, and
passing through an intensive set of crops without
damaging them.
With automation in spraying, not an inch goes to
waste on pesticides, herbicides, or fertilizers. This
preciseness reduces the total amount of
chemicals used, thereby saving on the cost and
creating healthier crops. Broad-acre farming
applications mostly require uniformity; hence,
automated spraying is perfectly suited for these.
It can be utilized for insecticide applications and
weed control, the application of fertilizers
ensures each plant receives the right amount of
treatment.
High battery capacity ensures extended operation
periods without frequent recharging, hence higher
productivity and reduced downtime. This long-
lasting feature improves the general efficiency and
reliability of the robot. Robots that have high
battery capacity work well in expansive agricultural
fields that require long operational hours. They can
do constant activities like monitoring, planting, and
harvesting, offering constant support to farmers.
Use solar energy(hybrid)
360-Degree rotation
Automated Spraying Robot
Long lasting (high battery capacity)

PRODUCT DEVELOPEMENT PROCESS
FIRST PROTOTYPE SECOND PROTOTYPE FINAL PROTOTYPE
This product came with a
simple moving mechanical
system.
This product came with a full
top cover, it makes the
owner hardly refill the
container.
Complete product that
suffice the requirement of
the product’s objective and
function

BUSINESS, FINANCE AND MARKETING PLAN
-Research and Development: RM500,000
-Prototyping: RM200,000
-Marketing and Sales: RM150,000
-Initial Production: RM300,000
-Operational Costs (first year): RM350,000
-Total Initial Investment: RM1,500,000
Year 1: RM1,000,000 (sales of 100
units)
Year 2: RM2,500,000 (sales of 250
units)
Year 3: RM5,000,000 (sales of 500
units)
Hybrid Solar Energy: Reduces operational costs and
reliance on non-renewable energy sources.
360-Degree Rotation: Ensures high manoeuvrability
and precision in various terrains.
Automated Spraying: Enhances the accuracy and
efficiency of pesticide, herbicide, and fertilizer
application.
Long Battery Life: Ensures prolonged operational
periods, reducing downtime and increasing
productivity.
-Large-Scale Farms: Focus on efficiency and cost
reduction.
-Agricultural Businesses: Highlight innovation
and sustainability.
-Government Agencies: Emphasize the
environmental benefits and support for
modernization programs.
-Product Demonstrations: Conduct demonstrations at
agricultural trade shows and exhibitions to showcase the
robots' capabilities.
-Partnerships: Collaborate with agricultural organizations
and government programs to promote the adoption of our
robots.
-Digital Marketing: Utilize online platforms, including social
media and industry websites, to reach a broader audience.
-Customer Testimonials: Leverage positive feedback from
early adopters to build credibility and trust.
Cost Structure Revenue ProjectionsProduct Differentiation
Marketing Strategies
Market Segmentation

BUSINESS, FINANCE AND MARKETING PLAN
-Product Demonstrations: RM50,000
-Partnerships and Collaborations:
RM30,000
-Digital Marketing: RM40,000
-Customer Testimonials: RM20,000
-Total Cost: 140,000
• Sales Growth: Monitor the increase in unit sales and
revenue.
• Market Penetration: Track the adoption rate of the
robots within the target market segments.
• Customer Satisfaction: Collect and analyse customer
feedback to ensure continuous improvement of the
product and services.
• ROI on Marketing Spend: Measure the return on
investment for each marketing activity to optimize
future spending.
Marketing Budget Performance Metrics

Completing the agriculture robot project has been a rewarding journey that addressed a critical
problem, employed creative problem-solving techniques, and resulted in a viable product ready for the
market. Our project aimed to solve these issues by developing advanced agriculture robots that leverage
solar energy, provide high maneuverability, offer automated spraying, and feature long-lasting battery
life.
This project has been a significant learning experience for our team. We learned the importance of
effective communication and collaboration, as each team member brought unique skills and
perspectives that were crucial to our success. Balancing innovation with practicality was a recurring
theme; we had to ensure our creative ideas could be feasibly implemented and meet the real needs of
farmers.
In conclusion, the agriculture robot project has not only provided a cutting-edge solution to modern
farming challenges but has also enriched our team with valuable skills and experiences. By addressing
critical issues with innovative technology, we have contributed to the future of sustainable agriculture.
This project stands as a testament to what can be achieved through creative problem solving,
collaborative teamwork, and a commitment to making a positive impact on the world.
CONCLUSSION

THANKTHANK
YOU VERYYOU VERY
MUCH!MUCH!