Neural Networks of Power: AI Unravels Knots and Tangles in Relationships between Humans, Elves and Hobbits
One of the most popular writers of the last century, John Ronald Reuel Tolkien, was born on January 3rd. Researchers from HSE University, AIRI and MISSIS have used machine learning to explore the social connections between the characters of his Middle-earth universe. The algorithm managed to create an accurate picture of the social structures and dynamics of the characters' relationships, providing a unique map of interactions in the epic world. The researchers believe that this approach can be applied in many areas beyond literature. The results of the work were published in IEEE Xplore.
The analysis of literary works is a complex and time-consuming process. When reading any text, the researcher needs to capture numerous nuances and features — from the author's style and word choice to the relationships between characters and their role in the plot. Most often, this work is done manually by literary critics. Ilya Makarov, Senior Research Fellow at the School of Data Analysis and Artificial Intelligence at the HSE Faculty of Computer Science, head of the ‘AI in Industry’ group at the Artificial Intelligence Research Institute (AIRI), and Anastasia Yaschenko, HSE University graduate, applied computational linguistics and machine learning tools to a series of books by John Ronald Reuel Tolkien about Middle-earth. The AI ‘read’ the books, isolating the key elements: the characters, their belonging to a particular race and their social ties. It demonstrated the results in the form of a graph, which allows us to not only trace the relationship between the characters, but also to see more clearly the structure of their social network.
Senior Research Fellow at the School of Data Analysis and Artificial Intelligence
‘We chose the world of Middle-earth as the basis for our analysis for a number of key reasons. Firstly, J. R. R. Tolkien's texts are widely known and loved by readers around the world, which makes the study universal and global. Secondly, the system of characters in Tolkien's books is very rich and diverse, which creates optimal conditions for such an analysis. Finally, thanks to the long history of studying Tolkien's world, a large set of metadata is available, including detailed descriptions of characters and their race, which facilitates the process of automatic clustering and verification of results.’
The main goal was to create a program that could ‘understand’ human language, analyse literary texts, identify the characters of the book and determine their relationship. This work is based on the concept of social networks. This is an approach widely used in sociology, psychology and more recently in the field of computer science. In the context of literature analysis, each character is considered as a node, and the interactions between them are the edges connecting these nodes. When two characters interact with each other in the text, a connection, or edge, is established between their nodes. The more interactions occur between the characters, the stronger this edge is.
The use of machine learning algorithms has made it possible to automatically analyse texts and identify such interactions between characters, turning literary works into simulated social networks. Named Entity Recognition (NER), a natural language processing technology was used to automatically identify and classify entities in the text, such as names, places and organisations.
This technology helped scientists to create a list of each unique character mentioned in the books. Further semantic analysis allowed them to determine the race of each character. It was conducted by analysing the context and linking each character to a specific race based on the words and phrases that accompany his mention. For example, if a character is often referred to in context with the words ‘elf’ or ‘elvish; the algorithm classifies them as an elf. Due to the large amount of metadata of J. R. R. Tolkien's characters (races, related relationships, belonging to a certain kingdom, etc.) the researchers chose racial characteristic to interpret communities, as every character in the universe belongs to a certain race.
In addition, the use of named entities and semantic analysis of the text allowed researchers to determine not only the connection between the characters, but also the nature of these relationships — friendship, enmity or neutral relations. Artificial intelligence managed to identify complex social relationships between the characters and divide the characters into groups.
It is especially important that this approach is not limited only to The Lord of the Rings, but can be applied to any text, opening up new opportunities for automated research in literature.
‘Our study contains a sequence of steps that can be used to extract named entities and their relationships based on other texts. For example, to identify the relationship between the motives of works by different authors or to analyse complex legal documents,’ said Ilya Makarov.
See also:
A New Tool Designed to Assess AI Ethics in Medicine Developed at HSE University
A team of researchers at the HSE AI Research Centre has created an index to evaluate the ethical standards of artificial intelligence (AI) systems used in medicine. This tool is designed to minimise potential risks and promote safer development and implementation of AI technologies in medical practice.
HSE Researchers Develop Novel Approach to Evaluating AI Applications in Education
Researchers at HSE University have proposed a novel approach to assessing AI's competency in educational settings. The approach is grounded in psychometric principles and has been empirically tested using the GPT-4 model. This marks the first step in evaluating the true readiness of generative models to serve as assistants for teachers or students. The results have been published in arXiv.
‘Philosophy Is Thinking Outside the Box’
In October 2024, Louis Vervoort, Associate Professor at the School of Philosophy and Cultural Studies of the Faculty of Humanities presented his report ‘Gettier's Problem and Quine's Epistemic Holism: A Unified Account’ at the Formal Philosophy seminar, which covered one of the basic problems of contemporary epistemology. What are the limitations of physics as a science? What are the dangers of AI? How to survive the Russian cold? Louis Vervoort discussed these and many other questions in his interview with the HSE News Service.
HSE Scientists Propose AI-Driven Solutions for Medical Applications
Artificial intelligence will not replace medical professionals but can serve as an excellent assistant to them. Healthcare requires advanced technologies capable of rapidly analysing and monitoring patients' conditions. HSE scientists have integrated AI in preoperative planning and postoperative outcome evaluation for spinal surgery and developed an automated intelligent system to assess the biomechanics of the arms and legs.
HSE University and Sber Researchers to Make AI More Empathetic
Researchers at the HSE AI Research Centre and Sber AI Lab have developed a special system that, using large language models, will make artificial intelligence (AI) more emotional when communicating with a person. Multi-agent models, which are gaining popularity, will be engaged in the synthesis of AI emotions. The article on this conducted research was published as part of the International Joint Conference on Artificial Intelligence (IJCAI) 2024.
Beauty in Details: HSE University and AIRI Scientists Develop a Method for High-Quality Image Editing
Researchers from theHSE AI Research Centre, AIRI, and the University of Bremen have developed a new image editing method based on deep learning—StyleFeatureEditor. This tool allows for precise reproduction of even the smallest details in an image while preserving them during the editing process. With its help, users can easily change hair colour or facial expressions without sacrificing image quality. The results of this three-party collaboration were published at the highly-cited computer vision conference CVPR 2024.
Neural Network for Assessing English Language Proficiency Developed at HSE University
The AI Lingua Neural Network has been collaboratively developed by the HSE University’s AI Research Centre, School of Foreign Languages, and online campus. The model has been trained on thousands of expert assessments of both oral and written texts. The system evaluates an individual's ability to communicate in English verbally and in writing.
HSE University and Yandex to Host International AI Olympiad for Students
The HSE Faculty of Computer Science and Yandex Education are launching their first joint AI competition, Artificial Intelligence and Data Analysis Olympiad (AIDAO), for students from around the world. Participants will tackle challenging tasks in science and industry and interact with experts from HSE and Yandex. The winners will receive cash prizes.
Winners of the International Olympiad in Artificial Intelligence Admitted to HSE University
In mid-August, Bulgaria hosted the finals of the first International Olympiad in Artificial Intelligence (IOAI) among high school students. The Russian team demonstrated excellent results, winning gold medals in the scientific round, silver medals in the practical round, and coming first in both rounds overall. This year two members of the Russian team were accepted into the programmes of the HSE Faculty of Computer Science.
Artificial and Augmented Intelligence: Connecting Business, Education and Science
The history of AI research in Nizhny Novgorod dates back to the 1960s and 1970s. Today, AI technologies, from voice assistants and smart home systems to digital twin creation and genome sequencing, are revolutionising our life. Natalia Aseeva, Dean of the Faculty of Informatics, Mathematics and Computer Science at HSE Campus in Nizhny Novgorod, discusses how the advancement of AI connects science, business, and education.