Journal of Computer Engineering & Information TechnologyISSN : 2324-9307

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Perspective, J Comput Eng Inf Technol Vol: 13 Issue: 2

Robotics' Application Development: From Industrial Automation to Daily Life

Lin Wen*

1Department of Artificial Intelligence, Sun Yat-sen University, Guangzhou, China

*Corresponding Author: Lin Wen,
Department of Artificial Intelligence, Sun Yatsen University, Guangzhou, China
E-mail: lin.wen@gdufe.edu.cn

Received date: 23 February, 2024, Manuscript No. JCEIT-24-131804;

Editor assigned date: 26 February, 2024, Pre QC No. JCEIT-24-131804 (PQ);

Reviewed date: 12 March, 2024, QC No. JCEIT-24-131804;

Revised date: 20 March, 2024, Manuscript No. JCEIT-24-131804 (R);

Published date: 28 March, 2024, DOI: 10.4172/2324-9307.1000292

Citation: Chakraborty S (2024) Robotics' Application Development: From Industrial Automation to Daily Life. J Comput Eng Inf Technol 13:2.

Description

Robotics, once confined to the controlled environments of industrial settings, has now transcended boundaries, permeating into various facets of daily life. Its evolution from industrial automation to a ubiquitous presence in society underscores a transformative journey driven by advancements in technology, expanding applications, and innovative development paradigms. At its core, robotics application development revolves around harnessing technological capabilities to automate tasks, enhance efficiency, and augment human capabilities across diverse domains. In the realm of industrial automation, robotics has long been synonymous with precision, speed, and reliability. From assembly lines in manufacturing plants to warehouses and logistics centers, robots have revolutionized production processes, streamlining operations and bolstering productivity.

Automated robotic arms execute repetitive tasks with unparalleled accuracy, while autonomous guided vehicles navigate through facilities, optimizing material handling and distribution. However, the scope of robotics application development extends far beyond the confines of industrial settings, permeating into various aspects of daily life. In the realm of healthcare, robotic technologies have emerged as invaluable assets, aiding in surgical procedures, rehabilitation therapies, and patient care. Surgical robots, equipped with advanced imaging and precision tools, enable minimally invasive procedures, reducing patient trauma and accelerating recovery times. Robotic exoskeletons offer mobility assistance to individuals with mobility impairments, enhancing their quality of life and fostering independence.

The integration of robotics into consumer electronics has transformed how individuals interact with technology on a daily basis. From robotic vacuum cleaners autonomously navigating through homes to personal assistant robots facilitating household chores and providing entertainment, these devices have become integral parts of modern households. Moreover, the proliferation of social robots equipped with Artificial Intelligence (AI) capabilities has redefined human-machine interaction, offering companionship, assistance, and entertainment to users. In the agricultural sector, robotics application development is reshaping traditional farming practices, driving efficiency, sustainability, and crop yields. Autonomous agricultural robots equipped with sensors, cameras, and AI algorithms monitor crop health, optimize irrigation, and autonomously harvest crops, reducing labor costs and minimizing environmental impact.

Drones equipped with imaging technology provide aerial surveillance of fields, enabling farmers to detect pest infestations, assess crop health, and optimize resource allocation. The advent of robotics application development in transportation has paved the way for transformative innovations in mobility and logistics. Autonomous vehicles, leveraging robotics and AI technologies, promise safer, more efficient transportation solutions, reshaping urban mobility and revolutionizing supply chain logistics. From self-driving cars navigating city streets to unmanned aerial vehicles delivering packages, robotics is poised to redefine the future of transportation, offering safer, greener, and more efficient alternatives to traditional modes of mobility.

The democratization of robotics application development has been facilitated by advancements in hardware, software, and open-source platforms, empowering enthusiasts, researchers, and developers to innovate and experiment across diverse domains. Platforms such as Robot Operating System (ROS) provide a modular and extensible framework for building and deploying robotic systems, fostering collaboration and accelerating development cycles. Robotics application development has evolved from its roots in industrial automation to permeate every aspect of daily life, offering transformative solutions across diverse domains. From manufacturing and healthcare to consumer electronics, agriculture, transportation, and beyond, robotics is reshaping industries, enhancing efficiency, and augmenting human capabilities. With continued advancements in technology and collaborative innovation, the future promises even greater integration of robotics into daily life, ushering in an era of unprecedented possibilities and opportunities for societal advancement.

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