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Enhancing YouTube Spam Detection
This culminating experience project investigated various methods for enhancing spam detection on YouTube, a prevalent issue impacting user experience and platform integrity. The research questions addressed were: Q1) How do different spam detection methods compare regarding robustness, efficiency, and accuracy? Q2) What role do deep learning approaches like RNNs and CNNs play in improving spam comment identification? Q3) What are the unique benefits of using deep learning models for spam comment identification on YouTube? Q4) How can machine learning models be optimized for real-time spam detection on YouTube?
The study gave adequate findings that explained each research question. In the case of (Q1), while algorithms like the NaĂŻve Bayes and Logistic Regression offered precision in identifying spam emails, the models have proven ineffectual at adapting to new forms of spam and constant enhancement in spam techniques, deep learning algorithms like the CNN and RNN offered high accuracy through their robustness due to the models\u27 abilities of feature extraction independently from the text data. The results shown in (Q2) indicate that RNNs and CNNs are critical in transforming the level of spam detection by addressing the problem of semantic meaning and temporal relationships in comments and surpassing traditional methods. Concerning (Q3), it was pointed out that deep learning models are the most accurate, scalable, and resistant to false negatives when identifying spam comments on the videos hosted on YouTube, which helps regain users\u27 trust and enhance the platform\u27s security as the traffic continues to grow. (Q4) was focused on advancing machine learning models for real-time processing, using methods such as model pruning and distribution.
The findings were as follows: (Q1) found that although conventional approaches are efficient at meeting accurate results, deep learning models are highly effective in dealing with the changes in spam strategies. (Q2) pointed out that RNNs and CNNs contribute immensely to discovering spam in SM platforms due to their raw power in NLP and pattern recognition. (Q3) established that the deep learning models\u27 accuracy, scalability, and adaptability, including CNN and RNN, are beneficial in identifying spam on YouTube due to their effectiveness in tackling the ever-evolving spam tactics. (Q4) It has emerged that the fine-tuning of machine learning models is imperative for scaling up the approaches by deploying high-end methodologies for real-time spam detection, which subserves the daunting task of training the algorithms to deal with the flood of user-generated content in the context of YouTube.
Areas of further study include analyzing other complex natural language processing methods combined with classifiers for better spam identification, improving the computational time for multi-modal learning for spam comment detection, and considering federated learning for real-time spam identification on platforms such as YouTube. These research directions are being carried out to boost the existing permutations and improve the permeate spam detection technologies in Information Systems so that they can be efficient, effective, and highly accurate systems capable of coping with the newly emerged spam technologies in flexible, transparent, and effective ways
BlogForever D2.4: Weblog spider prototype and associated methodology
The purpose of this document is to present the evaluation of different solutions for capturing blogs, established methodology and to describe the developed blog spider prototype
Machine learning-based Naive Bayes approach for divulgence of Spam Comment in Youtube station
In the 21st Century, web-based media assumes an indispensable part in the interaction and communication of civilization. As an illustration of web-based media viz. YouTube, Facebook, Twitter, etc., can increase the social regard of a person just as a gathering. Yet, every innovation has its pros as well as cons. In some YouTube channels, a machine-made spam remark is produced on that recordings, moreover, a few phony clients additionally remark a spam comment which creates an adverse effect on that YouTube channel. The spam remarks can be distinguished by using AI (artificial intelligence) which is based on different Algorithms namely Naive Bayes, SVM, Random Forest, ANN, etc. The present investigation is focussed on a machine learning-based Naive Bayes classifier ordered methodology for the identification of spam remarks on YouTub
Machine learning-based Naive Bayes approach for divulgence of Spam Comment in Youtube station
In the 21st Century, web-based media assumes an indispensable part in the interaction and communication of civilization. As an illustration of web-based media viz. YouTube, Facebook, Twitter, etc., can increase the social regard of a person just as a gathering. Yet, every innovation has its pros as well as cons. In some YouTube channels, a machine-made spam remark is produced on that recordings, moreover, a few phony clients additionally remark a spam comment which creates an adverse effect on that YouTube channel. The spam remarks can be distinguished by using AI (artificial intelligence) which is based on different Algorithms namely Naive Bayes, SVM, Random Forest, ANN, etc. The present investigation is focussed on a machine learning-based Naive Bayes classifier ordered methodology for the identification of spam remarks on YouTub
Addressing the new generation of spam (Spam 2.0) through Web usage models
New Internet collaborative media introduce new ways of communicating that are not immune to abuse. A fake eye-catching profile in social networking websites, a promotional review, a response to a thread in online forums with unsolicited content or a manipulated Wiki page, are examples of new the generation of spam on the web, referred to as Web 2.0 Spam or Spam 2.0. Spam 2.0 is defined as the propagation of unsolicited, anonymous, mass content to infiltrate legitimate Web 2.0 applications.The current literature does not address Spam 2.0 in depth and the outcome of efforts to date are inadequate. The aim of this research is to formalise a definition for Spam 2.0 and provide Spam 2.0 filtering solutions. Early-detection, extendibility, robustness and adaptability are key factors in the design of the proposed method.This dissertation provides a comprehensive survey of the state-of-the-art web spam and Spam 2.0 filtering methods to highlight the unresolved issues and open problems, while at the same time effectively capturing the knowledge in the domain of spam filtering.This dissertation proposes three solutions in the area of Spam 2.0 filtering including: (1) characterising and profiling Spam 2.0, (2) Early-Detection based Spam 2.0 Filtering (EDSF) approach, and (3) On-the-Fly Spam 2.0 Filtering (OFSF) approach. All the proposed solutions are tested against real-world datasets and their performance is compared with that of existing Spam 2.0 filtering methods.This work has coined the term âSpam 2.0â, provided insight into the nature of Spam 2.0, and proposed filtering mechanisms to address this new and rapidly evolving problem
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