Research on pattern recognition of different music types in the context of AI with the help of multimedia information processing
-
Published:2023-02-13
Issue:
Volume:
Page:
-
ISSN:2375-4699
-
Container-title:ACM Transactions on Asian and Low-Resource Language Information Processing
-
language:en
-
Short-container-title:ACM Trans. Asian Low-Resour. Lang. Inf. Process.
Author:
Sun Wei1ORCID, Sundarasekar Revathi2ORCID
Affiliation:
1. College of Music and Dance, Shenzhen University, Shenzhen 518000, Guangdong, China 2. Research scholar, Information and Communication Engineering, Anna University, Chennai, India
Abstract
Music is a form of art in which the sounds are timed and organized. Music is a kind of entertainment that mixes sounds in a way that people like, find fascinating, or to which they desire to dance. Most music is created via one or more people's vocal or instrumental efforts. By the dictionary, music is defined as having at least one of the following three elements: rhythm, melody, and harmony. Music is utilized in therapy because of its apparent benefits on behavior. Various physiological circumstances have different metabolite expression patterns that can be studied using pattern recognition in multimedia information processing. Music therapy includes various activities, including singing, playing instruments, dancing, and listening to music. Music-making with artificial intelligence (AI) uses neural networks, which are massive collections of computer bits that aim to stimulate brain activity. The neural network (NN) may be bombarded with music to see if it picks up on patterns the way the human brain does when repeatedly exposed to new stimuli. It will get the hang of them eventually. Experts believed that AI would be unable to generate music unless it first mimics a human-created data collection. By providing a conceptual paradigm for multimedia information processing. The end effect will be entirely different depending on how many hours of music are placed into it. For AI to learn from patterns or features in data on its own, it needs big data (BD), fast, repeated processing, and complex algorithms. The use of technology makes the process of creating analytical models much faster. A new AI-BD tool is an opportunity, not a danger for people currently working as artists. People are beginning to ask what constitutes acceptable work as AI grows more prominent in the music and art industries to gain efficiency of 97.8%. Future music will be heavily impacted by listeners' bodies and emotions all the time. For example, wearable technology may detect a person's mood and play the music that matches it. It is the next step in personalization. The AI-BD methodology improves the efficiency, accuracy, etc., compared to other existing models by gaining 97.8%, performance analysis 97.2%, reliability ratio 95.6%, and survivability analysis 98.2%.
Publisher
Association for Computing Machinery (ACM)
Subject
General Computer Science
Reference32 articles.
1. Image deconvolution for an optical small satellite with deep learning and real-time GPU acceleration;Ngo T. D.;Journal of Real-Time Image Processing,2021 2. Task failure prediction in cloud data centers using deep learning;Gao J.;IEEE Transactions on Services Computing, USA,2020 3. Analyzing the Network Performance of Various Replica Detection Algorithms in Wireless Sensor Network 4. Echocardiography image segmentation using feed forward artificial neural network (FFANN) with fuzzy multi-scale edge detection (FMED) 5. Manogaran , G. , Lopez , D. , Thota , C. , Abbas , K. M. , Pyne , S. , & Sundarasekar , R , Big data analytics in healthcare Internet of Things , Innovative healthcare systems for the 21st century , pp. 263 - 284 , July 2019 . Manogaran, G., Lopez, D., Thota, C., Abbas, K. M., Pyne, S., &Sundarasekar, R, Big data analytics in healthcare Internet of Things, Innovative healthcare systems for the 21st century , pp. 263-284, July 2019.
Cited by
1 articles.
订阅此论文施引文献
订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献
|
|