Article
Details
Citation
Poria S, Cambria E, Gelbukh A, Bisio F & Hussain A (2015) Sentiment Big Data Flow Analysis by Means of Dynamic Linguistic Patterns. IEEE Computational Intelligence Magazine, 10 (4), pp. 26-36. https://doi.org/10.1109/MCI.2015.2471215
Abstract
Emulating the human brain is one of the core challenges of computational intelligence, which entails many key problems of artificial intelligence, including understanding human language, reasoning, and emotions. In this work, computational intelligence techniques are combined with common-sense computing and linguistics to analyze sentiment data flows, i.e., to automatically decode how humans express emotions and opinions via natural language. The increasing availability of social data is extremely beneficial for tasks such as branding, product positioning, corporate reputation management, and social media marketing. The elicitation of useful information from this huge amount of unstructured data, however, remains an open challenge. Although such data are easily accessible to humans, they are not suitable for automatic processing: machines are still unable to effectively and dynamically interpret the meaning associated with natural language text in very large, heterogeneous, noisy, and ambiguous environments such as the Web. We present a novel methodology that goes beyond mere word-level analysis of text and enables a more efficient transformation of unstructured social data into structured information, readily interpretable by machines. In particular, we describe a novel paradigm for real-time concept-level sentiment analysis that blends computational intelligence, linguistics, and common-sense computing in order to improve the accuracy of computationally expensive tasks such as polarity detection from big social data. The main novelty of the paper consists in an algorithm that assigns contextual polarity to concepts in text and flows this polarity through the dependency arcs in order to assign a final polarity label to each sentence. Analyzing how sentiment flows from concept to concept through dependency relations allows for a better understanding of the contextual role of each concept in text, to achieve a dynamic polarity inference that outperforms state-of-the- art statistical methods in terms of both accuracy and training time.
Keywords
Big Data; Internet; computational linguistics; data flow analysis; data structures; natural languages; social networking (online); text analysis; Behavioral science; Biological system modeling; Electronic circuits; Knowledge based systems; Learning systems; Linguistics; Pragmatics; Semantics; Sentiment analysis; artificial intelligence; big social data; common-sense computing; computational intelligence technique; dynamic linguistic pattern; dynamic polarity inference; human brain; natural language text; sentiment data flow analysis; social media marketing; statistical methods; unstructured data; word-level text analysis
Journal
IEEE Computational Intelligence Magazine: Volume 10, Issue 4
Status | Published |
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Funders | Scottish Funding Council and The Royal Society of Edinburgh |
Publication date | 30/11/2015 |
Publication date online | 12/10/2015 |
Date accepted by journal | 12/10/2015 |
URL | http://hdl.handle.net/1893/23766 |
Publisher | IEEE |
ISSN | 1556-603X |
eISSN | 1556-6048 |