Artificial general intelligence (AGI) is not yet a reality. However, research is a type of artificial intelligence in which machines think and learn while humans work in different parts of the world. The idea behind AGI is that machines develop self-awareness and consciousness. These advances are already starting to show up in innovations like self-driving cars. When fully developed, AGI has the potential to overcome the intellectual differences that currently exist between machines and humans.
Although it is too early to tell whether machines can fully imitate human intelligence, the concept of AGI is very interesting. In this article, we’ll take a closer look at AGI to help you understand how it differs from artificial intelligence (AI) and the technologies behind it.
What is Artificial General Intelligence?
Artificial general intelligence is a theoretic form of AI that can learn, understand, and apply knowledge to perform cognitive tasks like humans. Although AGI is not a reality, its design includes adaptability, flexibility, and problem-solving skills. These skills allow him to perform any intellectual task a person is capable of, and in some cases, beyond human capabilities.
AGI is designed to address gaps in existing artificial intelligence systems. Currently, artificial intelligence systems have a limited scope of application. They cannot learn independently or perform tasks they have not been taught. AGI promises full-fledged artificial intelligence systems that use general human cognitive abilities to perform complex tasks in various fields. Examples of artificial intelligence already exist in self-driving cars.
Artificial General Intelligence vs Artificial Intelligence: What’s the Difference?
Over the past decades, computer scientists have developed machine intelligence, which allows machines to perform specific tasks. For example, AI tools for text-to-speech use deep learning models to create connections between language elements and their phonetic features. These machine learning models are trained on large amounts of audio and text data and then generate AI speech and voice patterns.
Today, artificial intelligence systems are designed to perform specific tasks. They cannot be returned to work elsewhere. Computing algorithms and their specifications are limited and rely on real-time data to make decisions. This type of machine intelligence is considered narrow or weak AI.
AGI strives to improve existing AI capabilities. He wants to diversify the tasks that machines can perform so that they can solve problems in many areas, not just one. This makes AGI a hypothetical representation of powerful, full-fledged AI. Such AI will have general cognitive abilities that will allow it to solve complex problems, just like humans.
How Does General Artificial Intelligence Work?
The concept of AGI is based on the theory of mind that underlies the AI model. This theory focuses on teaching machines to understand consciousness and learning as fundamental aspects of human behavior. In addition to applying algorithms, AGI will incorporate machine learning and artificial intelligence processes to reflect human learning and development.
With a strong AI foundation, AGI is expected to develop cognitive abilities, make judgments, integrate learned knowledge into decision-making, manage uncertain situations, and plan. Artificial general intelligence will also help machines perform creative and artistic tasks.
Technologies that Drive Artificial General Intelligence
The concept of AGI is still in the theoretical stage. Research into the feasibility and efforts to create AGI systems continues in different parts of the world. The following are new technologies that can be called AGI:
1. Robotics
It is an engineering discipline involving mechanical systems to automate physical activities. In AGI, robotics facilitates the physical manifestation of machine intelligence. Robotics supports artificial intelligence systems’ body manipulation and sensory capabilities.
2. Natural Language Processing
This part of AI allows machines to reproduce and understand human language. NLP systems transform linguistic data into representations called symbols using machine learning and computational languages.
3. Deep Learning
It is a discipline of AI that involves training multiple layers of neural networks to understand and extract complex relationships from raw data. Deep learning can generate systems that understand data types like audio, text, video, and images.
4. Computer Vision
Technologies that support the extraction, analysis, and understanding of spatial data from visual data. For example, self-driving cars rely on computer vision models that analyze real-time camera images to ensure safe navigation. Computer vision relies on deep learning technology to automate classification, recognition, and other object image processing tasks.
5. Generative AI
As part of deep learning, this technology allows artificial intelligence systems to generate unique content based on the acquired knowledge. AI models use massive data sets to train, allowing them to answer human questions in text, video, and audio formats that resemble natural human creations.
The Challenge Ahead
If this becomes a reality, there is no doubt that artificial general intelligence will change how we work and live. But the path to dismissal is not easy. In developing this new technology, computer scientists must find ways to create AGI models that connect components like humans. Another issue that needs to be addressed is emotional intelligence.
Neural networks cannot reproduce the emotional thinking necessary to develop creativity and imagination. People react to situations and conversations based on how they feel. Given the intelligence inherent in current AI models, replicating this ability and improving emotional intelligence so that machines can respond and understand the world the way humans do remains challenging.
