Tabular Classification Available

Abalone

Donated Nov 30, 1995 Biology Creative Commons Attribution 4.0 International

Abstract

Predict the age of abalone from physical measurements

Instances

4,177

Features

Data Type

Tabular

Missing Values

Purpose

Additional Information Predicting the age of abalone from physical measurements. The age of abalone is determined by cutting the shell through the cone, staining it, and counting the number of rings through a microscope -- a boring and time-consuming task. Other measurements, which are easier to obtain, are used to predict the age. Further information, such as weather patterns and location (hence food availability) may be required to solve the problem. From the original data examples with missing values were removed (the majority having the predicted value missing), and the ranges of the continuous values have been scaled for use with an ANN (by dividing by 200).

Name	Role	Type	Description	Missing
Sex	Feature	Categorical	M, F, and I (infant)	No
Length	Feature	Real	Longest shell measurement	No
Diameter	Feature	Real	perpendicular to length	No
Height	Feature	Real	with meat in shell	No
Whole Weight	Feature	Real	whole abalone	No
Shucked Weight	Feature	Real	weight of meat	No
Viscera Weight	Feature	Real	gut weight (after bleeding)	No
Shell Weight	Feature	Real	after being dried	No
Rings	Target	Integer	+1.5 gives the age in years	No

Abalone.data

CSV 187.40 KB • Data

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abalone.names

MD 4.20 KB • Documentation

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Index

INDEX 0.11 KB • Documentation

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Papers Citing this Dataset

56 papers found

LightNN: Filling the Gap between Conventional Deep Neural Networks and Binarized Networks

By Ruizhou Ding, Zeye Liu, Rongye Shi, Diana Marculescu, R. Blanton

ArXiv 2017 84

A highly efficient semismooth Newton augmented Lagrangian method for solving Lasso problems

By Xudong Li, Defeng Sun, Kim-Chuan Toh

SIAM Journal on Optimization 2016 84

Reliable Evaluation of Neural Network for Multiclass Classification of Real-world Data

By Siddharth Dinesh, Tirtharaj Dash

ArXiv 2016 84

Strongly agree or strongly disagree?: Rating features in Support Vector Machines

By Emilio Carrizosa, Amaya Nogales-Gómez, Dolores Morales

Inf. Sci. 2016 84

Partial identification in the statistical matching problem

By Daniel Ahfock, Saumyadipta Pyne, Sharon Lee, Geoffrey McLachlan

Computational statistics & data analysis 2016 84

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Citations 57

Downloads 0

Keywords

Categorical Integer Real ecology

Contributors

Warwick Nash, Tracy Sellers, Simon Talbot, Andrew Cawthorn, Wes Ford

Donor

DOI

10.24432/C55C7W

Details

UCI ID abalone-b91

Added May 19, 2026

Updated Jun 15, 2026

Approved May 19, 2026

View Original Source

Cite this Dataset

BibTeX

@dataset1,
  title = { Abalone },
  year = { 2026 },
  doi = { 10.24432/C55C7W
 },
  url = { https://datasphere.metanoia.my.id/datasets/1 }
}

APA Style

Abalone. (2026). Abalone. https://doi.org/10.24432/C55C7W

Abalone

Abstract

Dataset Information

Purpose

Variables

Dataset Files

Papers Citing this Dataset

LightNN: Filling the Gap between Conventional Deep Neural Networks and Binarized Networks

A highly efficient semismooth Newton augmented Lagrangian method for solving Lasso problems

Reliable Evaluation of Neural Network for Multiclass Classification of Real-world Data

Strongly agree or strongly disagree?: Rating features in Support Vector Machines

Partial identification in the statistical matching problem

Cite this Dataset

BibTeX

APA Style