Emerging Technology topic ROBOTICS (1).pdf

ADVANTAGES
•Increased Efficiency: Robots can perform tasks
with speed and precision, enhancing overall
productivity.
•24/7 Operations: Robots can work around the clock
without fatigue, improving continuous production.
•Precision and Accuracy: Robots can execute tasks
with high precision, reducing errors.
•Safety: Robots can handle hazardous tasks, reducing
the risk of injury to humans.
•Consistency: Robots consistently perform tasks
without variations, ensuring product quality.
•Cost Savings: Over time, robots can lead to cost
savings in labour and operational costs.
•Exploration and Research: Robots can be used in
exploration in hazardous environments or for
research purposes where human access is limited.
DISADVANTAGES
•Initial Cost: Robotics systems often require a significant
upfront investment.
•Maintenance Costs: Regular maintenance and repairs can
be expensive.
•Job Displacement: Increased automation may lead to job
losses for certain manual laborjobs.
•Lack of Flexibility: Robots are often designed for specific
tasks and may lack adaptability.
•Safety Concerns: Collaborative robots (cobots) may pose
safety risks if not properly programmed or monitored.
•Complexity: Implementing and maintaining robotics
systems can be complex and require specialized skills.
•Dependency on Technology: Reliance on robotics
technology creates a dependency that can pose risks if
systems fail.

1.Manufacturing and Assembly:
•Industrial automation for tasks like welding, assembly, and packaging.
2.Healthcare and Medical Robotics:
•Surgical robots for minimally invasive procedures.
3.Agricultural Automation:
•Robots for planting, harvesting, and monitoring crops.
4.Space Exploration:
•Robotic missions for planetary exploration and satellite maintenance.
5.Logistics and Warehousing:
•Autonomous robots for inventory management and order fulfillment.
6.Assistive Robotics:
•Devices aiding individuals with disabilities or the elderly.

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