Difference between revisions of "Probabilistic Latent Semantic Analysis (PLSA)"
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* [[Large Language Model (LLM)]] ... [[Natural Language Processing (NLP)]] ...[[Natural Language Generation (NLG)|Generation]] ... [[Natural Language Classification (NLC)|Classification]] ... [[Natural Language Processing (NLP)#Natural Language Understanding (NLU)|Understanding]] ... [[Language Translation|Translation]] ... [[Natural Language Tools & Services|Tools & Services]] | * [[Large Language Model (LLM)]] ... [[Natural Language Processing (NLP)]] ...[[Natural Language Generation (NLG)|Generation]] ... [[Natural Language Classification (NLC)|Classification]] ... [[Natural Language Processing (NLP)#Natural Language Understanding (NLU)|Understanding]] ... [[Language Translation|Translation]] ... [[Natural Language Tools & Services|Tools & Services]] | ||
* [[Topic Model/Mapping]] | * [[Topic Model/Mapping]] | ||
| + | * [[Latent]] | ||
* [http://www.crummy.com/software/BeautifulSoup/ Beautiful Soup] a Python library designed for quick turnaround projects like screen-scraping | * [http://www.crummy.com/software/BeautifulSoup/ Beautiful Soup] a Python library designed for quick turnaround projects like screen-scraping | ||
* [[Term Frequency–Inverse Document Frequency (TF-IDF)]] | * [[Term Frequency–Inverse Document Frequency (TF-IDF)]] | ||
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PLSA is a probabilistic generative model used for topic modeling in text data. It is an extension of [[Latent]] Semantic Analysis that introduces a probabilistic framework to the topic modeling problem. | PLSA is a probabilistic generative model used for topic modeling in text data. It is an extension of [[Latent]] Semantic Analysis that introduces a probabilistic framework to the topic modeling problem. | ||
Latest revision as of 10:07, 16 September 2023
Youtube search... ...Google search
- Large Language Model (LLM) ... Natural Language Processing (NLP) ...Generation ... Classification ... Understanding ... Translation ... Tools & Services
- Topic Model/Mapping
- Latent
- Beautiful Soup a Python library designed for quick turnaround projects like screen-scraping
- Term Frequency–Inverse Document Frequency (TF-IDF)
PLSA is a probabilistic generative model used for topic modeling in text data. It is an extension of Latent Semantic Analysis that introduces a probabilistic framework to the topic modeling problem.
- How PLSA Works: In PLSA, it is assumed that documents are generated through a probabilistic process. Specifically, it assumes that there are latent topics, and each document is a mixture of these topics. Each word in a document is generated from one of these topics with a certain probability.
- Applications: PLSA is mainly used for discovering topics in large document collections. By analyzing the word-topic and topic-document distributions learned by PLSA, you can identify the prevalent themes or topics within the corpus.
Latent Semantic Analysis (LSA)
LSA is a technique used for dimensionality reduction and discovering the underlying structure in a collection of documents. It's primarily used for tasks like document clustering, information retrieval, and document summarization.
- How LSA Works: LSA operates by performing Singular Value Decomposition (SVD) on a term-document matrix. This matrix represents the frequency of terms (words) in documents. SVD reduces the dimensionality of this matrix and extracts latent semantic patterns. The resulting lower-dimensional representations can help identify relationships between words and documents.
- Applications: LSA can be used for clustering similar documents, finding related documents in information retrieval, and generating document summaries by identifying key terms and phrases.
Key Differences: LSA & PLSA
- LSA is primarily focused on dimensionality reduction and finding semantic patterns in documents, whereas PLSA is a generative probabilistic model designed specifically for topic modeling.
- LSA does not involve a probabilistic generative process, while PLSA explicitly models the probability of word generation from topics.
- In PLSA, the number of topics is typically a parameter to be determined, whereas LSA does not inherently model topics.
