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Статья опубликована в рамках: Научного журнала «Студенческий» № 19(273)

Рубрика журнала: Технические науки

Секция: Технологии

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Библиографическое описание:
Mukhamedov T. NEURAL NETWORKS: A COMPREHENSIVE ANALYSIS OF MODERN APPLICATIONS AND DEVELOPMENTS // Студенческий: электрон. научн. журн. 2024. № 19(273). URL: https://sibac.info/journal/student/273/332743 (дата обращения: 09.11.2024).

NEURAL NETWORKS: A COMPREHENSIVE ANALYSIS OF MODERN APPLICATIONS AND DEVELOPMENTS

Mukhamedov Timur

student, Department of Information Systems and Technologies, Ulyanovsk State Technical University,

Russia, Ulyanovsk

Korukhova Lyudmila

научный руководитель,

scientific supervisor, candidate of Sciences in Philological, associate professor, Ulyanovsk State Technical University,

Russia, Ulyanovsk

ABSTRACT

This article focuses on the complex field of neural networks, a key component of artificial intelligence and machine learning. It examines the historical evolution, structural architecture, and various types of neural networks, as well as their applications in various fields such as image recognition, natural language processing, and autonomous systems.

 

Keywords: Neural networks, deep learning, artificial intelligence, machine learning, image recognition, natural language processing.

 

Introduction

Neural networks based on the complex work of the human brain form the basis of many machine learning algorithms. These systems have become an integral part of the field of artificial intelligence, allowing machines to perform complex tasks that were once considered the only area of human cognition. Neural networks - from voice assistants like Siri and Alexa to advanced image recognition systems in healthcare - are catalyzing a technological revolution, transforming industries and improving everyday life.

Architecture of neural networks

Neural networks consist of layers of interconnected nodes, or neurons, that process data hierarchically. The fundamental architecture includes:

Input level: This level accepts the initial data, which is then processed by

subsequent levels.

Hidden layers: These layers perform complex calculations and extract functions from the data. The number and complexity of these layers vary, which leads to the creation of different types of neural networks.

Output layer: This layer provides the final result or forecast based on the processed data.

Various types of neural networks have been developed to solve specific problems:

Direct-acting neural networks: The simplest type of neural network in which connections do not form cycles. Information moves in one direction, from the input level to the output level.

Future prospects and challenges

The future of neural networks is promising, but it also comes with a number of challenges that need to be addressed.:

Scalability: Developing neural networks that can scale efficiently to handle increasingly large datasets and solve complex problems is crucial. Hardware innovations such as quantum computing and neuromorphic chips can offer solutions.

Ethical considerations: Ensuring the responsible use of neural networks involves addressing issues such as bias, fairness, and accountability. The development of ethical principles and a sound regulatory framework is essential for their safe use.

Energy efficiency: Reducing the energy consumption of neural networks, especially for large-scale models such as those used in deep learning, is an important task. Advances in energy-efficient algorithms and hardware are needed to increase AI resilience.

Fields of application of neural networks

Neural networks can be used to solve problems from any industry, but there are subtleties. Neural networks will do well only in cases where the task has already been solved in other ways and there is an accumulated amount of relevant data. The new task is an area of knowledge that the neural network is unlikely to be able to approach. If the context is also important in addition to the data, it is better to solve the problem without the help of neural networks.

For example, a logistics company needs to build the fastest routes. If information about the routes that the drivers themselves built is used as the source data, it makes no sense to connect a neural network. When choosing, they will rely on other factors.

If the use of neural networks is still appropriate, then not one neural network can be used to solve the main task, but several at once. In this case, a large task is divided into many small ones.

For example, to teach a neural network to control an unmanned vehicle, it is necessary to simulate the behavior of a human driver who, while driving, must recognize road signs and markings, respond to traffic lights, predict the behavior of other drivers and notice people who find themselves on the road. To solve each of these tasks, a separate neural network operates in an unmanned vehicle.

Conclusion

Neural networks are an innovative technology with a wide range of applications that has a significant impact on various fields. Continuous research and development is necessary to overcome existing problems and unlock the full potential. As neural networks evolve, they will continue to define the future of artificial intelligence and drive innovation in many areas. Their ability to learn, adapt and make decisions will play a key role in the development of technology and society.

 

References:

  1. Goodfellow, I., Bengio, Y., & Courville, A. (2016). Deep Learning. MIT Press.
  2. LeCun, Y., Bengio, Y., & Hinton, G. (2015). Deep learning. Nature, 521(7553), 436-444
  3. Schmidhuber, J. (2015). Deep learning in neural networks: An overview. Neural Networks, 61, 85-117.
  4. Chollet, F. (2017). Deep Learning with Python. Manning Publications.
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