Thursday, April 13, 2023

Robotic Science

India's first humanoid robot was named "MANAV" and was developed by a team of scientists at the Indian Space Research Organisation (ISRO) and the Department of Science and Technology (DST) in 2008. MANAV was designed to resemble a human and was capable of mimicking human actions such as walking, talking, and even dancing. It was developed to assist astronauts in space missions and was seen as a major step forward for Indian robotics. Since then, India has continued to make significant advancements in the field of robotics and is home to several world-class research institutions and companies that are developing cutting-edge robotics technology.

Robotic science is the interdisciplinary field of study that focuses on the design, development, and application of robots. It includes various subfields such as mechanical engineering, electrical engineering, computer science, artificial intelligence, and control engineering.

Robotics scientists work to create robots that can perform a variety of tasks, such as manufacturing, assembly, exploration, transportation, and even social interactions. They also study the behavior and cognition of robots, including their ability to learn, reason, and adapt to changing environments.

One of the main goals of robotic science is to create intelligent and autonomous robots that can operate independently without human intervention. This involves developing sophisticated algorithms, sensors, and actuators that enable robots to perceive their environment and make decisions based on that information.

The applications of robotics are diverse and constantly expanding. Robots are used in industries such as manufacturing, healthcare, transportation, and agriculture. They are also used in space exploration, military operations, and disaster response. In addition, robotics is increasingly being applied to assistive technologies and social robotics, which involves designing robots to interact with humans in various social and emotional contexts.

Robotic Technology Definition

Robotic technology is a field of engineering that involves the design, development, and application of robots. A robot is a machine that is capable of carrying out tasks autonomously or with human assistance. Robotic technology encompasses a range of disciplines, including mechanical engineering, electrical engineering, computer science, and artificial intelligence.

Robots are typically equipped with sensors, processors, and actuators that allow them to perceive their environment, process information, and take actions. They can be programmed to perform tasks that are repetitive, hazardous, or require high precision. Robots are used in various industries, such as manufacturing, healthcare, transportation, and agriculture, to increase productivity, efficiency, and safety.

Robotic technology has also expanded to include social robotics, which focuses on designing robots to interact with humans in various social and emotional contexts. This includes applications such as education, entertainment, and healthcare.

As robotic technology continues to advance, there is increasing interest in the development of autonomous robots that can operate without human intervention. However, there are also ethical and social implications associated with the use of such advanced robotic technology.

                                           History Of Robotics Technology

The history of robotics technology can be traced back to ancient times, where inventors and engineers designed machines to automate tasks such as weaving and milling. However, the modern development of robotics technology began in the 20th century with the invention of the first programmable robot.

Here are some key milestones in the history of robotics technology:

1921: Czech writer Karel Capek introduced the term "robot" in his play "Rossum's Universal Robots".

1937: The first robot was invented by British scientist Alan Turing. It was designed to play chess and was called the "Turbo-Champion Chess Machine".

1954: George Devol and Joseph Engelberger invented the first programmable robot, the Unimate, which was used in the manufacturing industry.

1961: The first industrial robot, the Unimate, was installed in a General Motors factory in New Jersey.

1970s: The development of microprocessors and computer-controlled systems led to the creation of smaller and more affordable robots.

1980s: Robots were used in various industries, such as automotive, aerospace, and electronics.

1990s: The development of advanced sensors, artificial intelligence, and robotics technology led to the creation of more sophisticated robots, such as autonomous vehicles and humanoid robots.

2000s: Robotics technology continued to evolve, with the development of drones, social robots, and robots for medical applications.

Today, robotics technology is used in a wide range of industries and applications, from manufacturing and healthcare to agriculture and transportation. As technology continues to advance, we can expect to see even more innovative and beneficial uses of robotics in the future

These top 10 amazing and technological robots are proven to be effective at simple tasks and jobs

Robots are fast transforming the days of our lives with smart functionalities and protection capabilities. Tech-driven countries are focused on manufacturing different kinds of robots for industrial use, personal use, household use, business use, and many more. The global robotics market size is expected to hit US$189.36 billion in 2027 with a CAGR of 13.5%. This article features the top 10 most amazing technological robots in 2023.


Robotics has contributed immensely to the field of healthcare. One such innovation is Robear, a high-tech teddy bear that aims to help raise an elderly person from a bed to a wheelchair. No wonder why this robot is all set to make a mark in the healthcare industry.


Meet AIBO – an adorable robot dog that was brought into existence by Sony. This robot was discontinued almost a decade ago. However, it has now come back with even more abilities for human operations. This mechanical pup reacts to words of praise or scratches on the head, can learn tricks, and will seek out owners. One point that cannot go unnoticed is that it has an application that owners can use to adjust system settings or add new tricks, and can store memories by connecting to the internet cloud.

RP Vita

What can get better than a feature wherein multiple medical specialists and caregivers collaborate in real-time? This is exactly what RP Vita has in store for you. With this robot, there is now access to holistic care that is difficult to find in most medical facilities. This robot is already being used in a significant number of hospitals and in no time will mark its presence everywhere.

Hadrian X

Hadrian X is a building robot that is in charge of all brick loading, chopping, routing, and installation. The robot, created by Fastbrick Robotics in Australia, employs FBR’s dynamic stabilization tech, which adjusts to ambient variables in real time, allowing precision robots in large-scale outdoor tasks. 

Ocean Robot

The ocean is a vital aspect of our existence, and we have no idea what lurks under its surface. The introduction of high-tech ocean robots, on the other hand, has made it feasible to explore ocean depths. Eelume, a Norwegian firm has created the Eelume EELY500, a high-tech marine robot. It’s made for underwater inspection and repair in industrial environments. 

Saul Robot

Saul Robot is a robot that shoots strong pulses of very energetic UV rays at the Ebola virus, melting it into worthless bits of genetic material. When effective therapies for this illness were in short supply, the Air Force utilized this robotic equipment to eradicate the infection in rooms where relief workers were quarantined. 


Dr. Takanori Shibata created the therapeutic robot. Paro is controlled by artificial intelligence (AI) and alters its behavior in response to a variety of sensors for monitoring light, sound, temperature, and touch. This robot is designed to help caregivers and patients communicate more efficiently and reduce stress. 


Pepper is a semi-humanoid robot that adjusts its behavior based on the moods of the people around it. The robot, created by SoftBank Robotics, detects and responds to emotional states such as grief, surprise, excitement, and rage naturally and appropriately. Pepper detects noises with multi-directional sensors. 

Robotic Vacuum Cleaner

Robotic vacuum cleaners are floor-cleaning devices with sophisticated programming. They are easier to use since they are self-cleaning. Robotic vacuum cleaners may be stored beneath beds, tables, and closets, but a normal vacuum cleaner takes more room. For example, iRobot’s Roomba is the smartest and most efficient robot vacuum. 

Asus Zenbo

The Asus Zenbo is a low-cost robot that can roll around on its own and accepts voice directions. It’s made to assist people to remember things like exercise and medication routines, as well as doctor’s visits. This robot can also monitor its surroundings and link to smart home elements such as surveillance cameras, lighting, and door locks to identify any emergencies.

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