Related papers: Tutorial on the Probabilistic Unification of Estimation Theory, Machine Learning, and Generative AI

Tutorial on the Probabilistic Unification of Estimation Theory, Machine Learning, and Generative AI

URL: http://arxiv.org/abs/2508.15719v1
Date: Thu, 21 Aug 2025 16:57:33 GMT
Title: Tutorial on the Probabilistic Unification of Estimation Theory, Machine Learning, and Generative AI
Authors: Mohammed Elmusrati,
Abstract summary: This survey presents a unified mathematical framework that connects classical estimation theory, statistical inference, and modern machine learning.<n>We show how techniques such as maximum likelihood estimation, Bayesian inference, and attention mechanisms address uncertainty.<n>It serves as both a theoretical synthesis and a practical guide for students and researchers navigating the evolving landscape of machine learning.
Score: 0.0
License: http://creativecommons.org/licenses/by-nc-sa/4.0/
Abstract: Extracting meaning from uncertain, noisy data is a fundamental problem across time series analysis, pattern recognition, and language modeling. This survey presents a unified mathematical framework that connects classical estimation theory, statistical inference, and modern machine learning, including deep learning and large language models. By analyzing how techniques such as maximum likelihood estimation, Bayesian inference, and attention mechanisms address uncertainty, the paper illustrates that many AI methods are rooted in shared probabilistic principles. Through illustrative scenarios including system identification, image classification, and language generation, we show how increasingly complex models build upon these foundations to tackle practical challenges like overfitting, data sparsity, and interpretability. In other words, the work demonstrates that maximum likelihood, MAP estimation, Bayesian classification, and deep learning all represent different facets of a shared goal: inferring hidden causes from noisy and/or biased observations. It serves as both a theoretical synthesis and a practical guide for students and researchers navigating the evolving landscape of machine learning.

Related papers

A Theory of the Mechanics of Information: Generalization Through Measurement of Uncertainty (Learning is Measuring) [0.0]
We introduce a model-free framework using surprisal (information theoretic uncertainty) to analyze and perform inferences from raw data.<n>It eliminates distribution modeling, reducing bias, and enabling efficient updates including direct edits and deletion of training data.<n>It emphasizes traceability, interpretability, and data-driven decision making, offering a unified, human-understandable framework for machine learning.
arXiv Detail & Related papers (2025-10-26T19:45:25Z)
Information Science Principles of Machine Learning: A Causal Chain Meta-Framework Based on Formalized Information Mapping [1.145820303039203]
This study addresses key challenges in machine learning, namely the absence of a unified formal theoretical framework and the lack of foundational theories for model interpretability and ethical safety.<n>We first construct a formal information model, explicitly defining the ontological states and carrier mappings of typical machine learning stages.<n>By introducing learnable and processable predicates, as well as learning and processing functions, we analyze the causal chain logic and constraint laws governing machine learning processes.
arXiv Detail & Related papers (2025-05-19T14:39:41Z)
Causality can systematically address the monsters under the bench(marks) [64.36592889550431]
Benchmarks are plagued by various biases, artifacts, or leakage.<n>Models may behave unreliably due to poorly explored failure modes.<n> causality offers an ideal framework to systematically address these challenges.
arXiv Detail & Related papers (2025-02-07T17:01:37Z)
Unified Explanations in Machine Learning Models: A Perturbation Approach [0.0]
Inconsistencies between XAI and modeling techniques can have the undesirable effect of casting doubt upon the efficacy of these explainability approaches. We propose a systematic, perturbation-based analysis against a popular, model-agnostic method in XAI, SHapley Additive exPlanations (Shap) We devise algorithms to generate relative feature importance in settings of dynamic inference amongst a suite of popular machine learning and deep learning methods, and metrics that allow us to quantify how well explanations generated under the static case hold.
arXiv Detail & Related papers (2024-05-30T16:04:35Z)
Generalizing Machine Learning Evaluation through the Integration of Shannon Entropy and Rough Set Theory [0.0]
We introduce a comprehensive framework that synergizes the granularity of rough set theory with the uncertainty quantification of Shannon entropy. Our methodology is rigorously tested on various datasets, showcasing its capability to not only assess predictive performance but also to illuminate the underlying data complexity and model robustness.
arXiv Detail & Related papers (2024-04-18T21:22:42Z)
Gaussian Mixture Models for Affordance Learning using Bayesian Networks [50.18477618198277]
Affordances are fundamental descriptors of relationships between actions, objects and effects. This paper approaches the problem of an embodied agent exploring the world and learning these affordances autonomously from its sensory experiences.
arXiv Detail & Related papers (2024-02-08T22:05:45Z)
Surprisal Driven $k$-NN for Robust and Interpretable Nonparametric Learning [1.4293924404819704]
We shed new light on the traditional nearest neighbors algorithm from the perspective of information theory. We propose a robust and interpretable framework for tasks such as classification, regression, density estimation, and anomaly detection using a single model. Our work showcases the architecture's versatility by achieving state-of-the-art results in classification and anomaly detection.
arXiv Detail & Related papers (2023-11-17T00:35:38Z)
Deep networks for system identification: a Survey [56.34005280792013]
System identification learns mathematical descriptions of dynamic systems from input-output data. Main aim of the identified model is to predict new data from previous observations. We discuss architectures commonly adopted in the literature, like feedforward, convolutional, and recurrent networks.
arXiv Detail & Related papers (2023-01-30T12:38:31Z)
Causal Reasoning Meets Visual Representation Learning: A Prospective Study [117.08431221482638]
Lack of interpretability, robustness, and out-of-distribution generalization are becoming the challenges of the existing visual models. Inspired by the strong inference ability of human-level agents, recent years have witnessed great effort in developing causal reasoning paradigms. This paper aims to provide a comprehensive overview of this emerging field, attract attention, encourage discussions, bring to the forefront the urgency of developing novel causal reasoning methods.
arXiv Detail & Related papers (2022-04-26T02:22:28Z)
A Minimalist Dataset for Systematic Generalization of Perception, Syntax, and Semantics [131.93113552146195]
We present a new dataset, Handwritten arithmetic with INTegers (HINT), to examine machines' capability of learning generalizable concepts. In HINT, machines are tasked with learning how concepts are perceived from raw signals such as images. We undertake extensive experiments with various sequence-to-sequence models, including RNNs, Transformers, and GPT-3.
arXiv Detail & Related papers (2021-03-02T01:32:54Z)
Plausible Counterfactuals: Auditing Deep Learning Classifiers with Realistic Adversarial Examples [84.8370546614042]
Black-box nature of Deep Learning models has posed unanswered questions about what they learn from data. Generative Adversarial Network (GAN) and multi-objectives are used to furnish a plausible attack to the audited model. Its utility is showcased within a human face classification task, unveiling the enormous potential of the proposed framework.
arXiv Detail & Related papers (2020-03-25T11:08:56Z)

This list is automatically generated from the titles and abstracts of the papers in this site.