Could Robots Get Smarter than Humans

The rapid improvement of technology is worrying humans that robots are on their way to becoming smarter than them. In addition, the latest news and trends on websites, such as robots.net are doubling their efforts to ensure that humans become knowledgeable about robotics.

The only way to create the next generation of robots capable of being broad-minded, compassionate, and more rational is to have a decentralized artificial general intelligence. Consequently, big tech companies want to create robots capable of doing complex tasks that humans have a hard time doing, such as regulating society.

Creating advanced robotic automation to complete repetitive human tasks is one way to boost the productivity of consumers. However, there will always be particular issues that will arise in the minds of human beings, such as losing jobs or robots becoming in control of everything.

The efforts of tech companies to create machines that are broad-minded, compassionate, and more rational gives humans the mindset that robots will soon own the world. The only way to ease the minds of the readers is to read on to know whether or not robots could get smarter than humans.

What Makes A Robot Smart?

Everyone in the world knows that a robot is capable of completing repetitive tasks to assist humans with tasks that can either be difficult or dangerous. However, with all the repetitive tasks that robots are capable of, no one has reached a general agreement as to whether or not a robot is intelligent.

Moreover, consumers should keep in mind that the creation of the ultimate artificial intelligence in robots is for machines to have the intellectual abilities of a human being. But, tech companies or roboticists have not gotten far with discovering how they can make robots have the level of intellectual skills similar to humans.

On the other hand, the only ways that make a robot smart are from the limited artificial intelligence that allows them to solve problems in limited ways. Further, robots today only have the basic problem-solving algorithm that integrates sensors to gather and store information. All of the future actions of the robot will depend on the collected data.

One example to help consumers illustrate the capabilities of the current generation of smart robots are chess computers. Chess computers simulate different possible actions and predict which actions can provide the best outcome. Thus, becoming challenging opponents due to their ability to predict which move can benefit them the most.

The Limitations of a Smart Robot

The major limitation of a smart robot that makes it incapable of surpassing the intelligence of a human being is natural intelligence. Given that a human brain consists of an unimaginable amount of neurons, scientists can’t duplicate the electrical connections of each neuron.

Since a human brain’s neurons also vary in terms of the level of electrical connections, scientists have no idea how these electrical connections resulted in higher reasoning. Apart from higher reasoning, it’s also impossible to duplicate the brain’s capabilities to perform low-level operations.

However, since artificial intelligence comprises mostly of theories, roboticists can make robots perform calculated actions such as problem solving or social interactions. The essential tools that robots rely on to utilize their smart functions are their cameras and sensors.

The result of combining cameras and sensors with the algorithms of a robot allows them to perform actions similar to a human being, but precise. The reason why their actions are precise is that they only respond to actions based on the information or data they’ve collected.

For instance, robots in Japan can learn how to dance depending on which moves you demonstrate to it that’ll allow the robot to mimic the dance moves. Another example of a smart robot is Kismet, from M.I.T’s Computer Science and Artificial Intelligence Laboratory, capable of social interactions.

The social interaction capability of Kismet uses natural language processing and machine learning to recognize the voice and body language of a human. After identifying these factors, Kismet will respond according to the tone of voice and visual cues of the persons it’s having a conversation with.

Humans vs. Robots

The smartness of a robot will always depend on the instructions set by the scientists or tech companies that made the robot. Consumers should take note that robots are incapable of learning activities or actions, but they only do so due to the instructions they’ve been given.

Further, the smartness of the robot is also a compilation of different ideas of several smart scientists. For instance, the Deep Blue chess robot that won against Garry Kasparov, the world chess champion. Kasparov honed his skills ever since he was a child and even went to a chess school.

What robots aren’t capable of is to learn independently that’ll allow them to become smarter. Further, some smart robots, also known as supercomputers, can learn to play a game without the help of roboticists. However, those types of robots can only do focus on that particular field due to their programming.

Takeaway

Robots can only get smarter depending on the different hypotheses roboticists can come up with as a tool to enhance the robots’ artificial intelligence. Since humans are responsible for programming the algorithms, setting up the cameras and sensors, and making sure everything is working well.

Apart from the latest trends in technology, consumers have to keep in mind that the only way for robots to get smarter is for humans to discover more about artificial intelligence.