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FUTURE OF ROBOTICS

INTRODUCTION

Apart from being an electro-mechanical device that follows a set of instructions to carry out some work, but literally robot means slave. The first thing when we think about the robot is their automation. Robot performs their tasks automatically without humans except at the time of operating. In factories, the machine which creates a whole product is a robot in one way. This machine can be a simple example of a very basic robot. It performs the specified sequence of operations repeatedly with the same accuracy. It was programmed and provided with the required material and then started.

We want robots to make our lives easier and safer, yet we can’t quite bring ourselves to trust them. We’re crafting them in our own image, yet we are terrified they’ll supplant us. But that hesitation is no obstacle to the booming field of robotics. Robots have finally grown smart enough and physically capable enough to make their way out of factories and labs to walk and roll and even leap among us. The machines have arrived.

THE HISTORY OF ROBOTS

The definition of “robot” has been confusing from the very beginning. The word first appeared in 1921, in Karel Capek’s play R.U.R., or Rossum's Universal Robots. “Robot” comes from the Czech for “forced labor.” These robots were robots more in spirit than form, though. They looked like humans, and instead of being made of metal, they were made of chemical batter. The robots were far more efficient than their human counterparts, and also way more murder-y—they ended up going on a killing spree.

R.U.R. would establish the trope of the Not-to-Be-Trusted Machine (e.g., Terminator, The Stepford Wives, Blade Runner, etc.) that continues to this day—which is not to say pop culture hasn’t embraced friendlier robots. Think Rosie from The Jetsons. (Ornery, sure, but certainly not homicidal.) And it doesn’t get much family-friendlier than Robin Williams as Bicentennial Man. The real-world definition of “robot” is just as slippery as those fictional depictions. Ask 10 roboticists and you’ll get 10 answers. But they do agree on some general guidelines: A robot is an intelligent, physically embodied machine. A robot can perform tasks autonomously. And a robot can sense and manipulate its environment.

HUMAN ROBAT INTERACTION

A field of robotics that studies the relationship between people and machines. For example, a self-driving car could see a stop sign and hit the brakes at the last minute, but that would terrify pedestrians and passengers alike. By studying human-robot interaction, roboticists can shape a world in which people and machines get along without breaking each other.

ADVANCEMENT IN ROBOTICS per the requirement. One such cause of a developed robot is a sewing machine that can study the various components of dress size on the individual card of an individual and after that cut the ideal dress material and fasten it to the size fitting to the individual. Engineers make machines which are capable of performing tasks which human can do and also the tasks which humans are not able to complete. The advancements in the field robotics are made possible by the use of microprocessors and microcontrollers with an intelligent combination of them with servo motors, sensors and actuators. The robots which are being developed these days can sense their surroundings and behave according to what they sense and make judgments on their own to how to respond. Far are not the days when robots would even sense and respond to feelings and could even express how they feel. Robots like machines can perform different tough jobs easily but the advancement is that they can do it on their own. Once programmed robots can perform the required tasks repeatedly in exactly the same way.

Rescue Robots

Imagine yourself lost deep in the forest on a cold autumn night and nightfall is rapidly approaching. Too windy for search aircraft and too dark for ground teams, this could be a life-threatening situation. Fortunately for you, it is ten years into the future and hundreds of tiny intelligent robots will be combing the woods for you throughout the night. All-terrain robots (ATRs), will truly function as a team by sharing their locations, discoveries, search patterns and more. Large ATRs could carry many smaller robots and provide them with localized control and power. These smaller more specialized robots will have cameras, sonar, heat sensors, motion detectors and can be sent out by the large ATRs as needed. Smaller robots might work together to perform tasks such as moving a large obstacle.

ROBOTIC INSECTS

Insects have come up with many interesting solutions for the problems that future robots will have to deal with like cooperation, specialized movement and adapting to changing environments. Robotic engineers are incorporating examples found in nature into their designs.

EXOSKELETONS

Wearable bionic suits are being developed for the military to allow soldiers to carry heavier loads and to conserve energy. Other uses for exoskeletons are assisting rescue workers to move heavy objects and bionics for motor-impaired patients.

The further developed variations of robots seen nowadays can perform activities adaptively, that is, changing the measurements and different settings as

https://www.futureforall.org/robotics/robotics.htm

https://www-geospatialworld-net.cdn.ampproject.org/v/s/www.geospatialworld.net/blogs/future-of-robotics-artificial-intelligence/amp/?amp_js_v=a2&amp_gsa=1&usqp=mq331AQEKAFwAQ%3D%3D#referrer=https%3A%2F%2Fwww.google.com&amp_tf=From%20%251%24s&ampshare=https%3A%2F%2Fwww.geospatialworld.net%2Fblogs%2Ffuture-of-robotics-artificial-intelligence%2F

https://www-wired-com.cdn.ampproject.org/v/s/www.wired.com/story/wired-guide-to-robots/amp?amp_js_v=a2&amp_gsa=1&usqp=mq331AQEKAFwAQ%3D%3D#aoh=15664424552907&referrer=https%3A%2F%2Fwww.google.com&amp_tf=From%20%251%24s&ampshare=https%3A%2F%2Fwww.wired.com%2Fstory%2Fwired-guide-to-robots%2F