Deep Learning based Handwritten Arithmetic Equation Solver

2022 Fourth International Conference on Emerging Research in Electronics, Computer Science and Technology (ICERECT) Pub Date : 2022-12-26 DOI:10.1109/ICERECT56837.2022.10060732

A. Karegowda, A. Leenarani, D. Poornima, R. Pooja, Shreetha Bhatt, P. Bharathi

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Abstract

Manual recognition of different styles of handwritten characters, digits, symbols, and operators is quite intricate. This paper attempts to automate the process of recognition of digits (0 to 9), decimal point, opening and closing parenthesis (‘(’ and ‘)’) brackets, and five binary arithmetic operators: sum (+), difference (-), product (×), exponent (A) and division in input handwritten equation followed by evaluation of expression. Firstly the segmentation based on binary threshold and contouring is applied to segregate the components of input handwritten equation. The individual segregated components are further input to Convolution Neural Networks(CNN) for recognition as part of second step, followed by evaluation of valid expression as the final step. The publicly available MNIST dataset handwritten digits (0–9) are considered and rest of the images for parenthesis, decimal point and five arithmetic operators are manually generated. The CNN model identified the handwritten expression with a high accuracy of 99% followed by a correct evaluation of the valid expression.

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基于深度学习的手写算术方程求解器

手工识别不同风格的手写字符、数字、符号和操作符是相当复杂的。本文试图自动识别输入手写方程中的数字(0 ~ 9)、小数点、开闭括号('('和')')以及和(+)、差(-)、积(x)、指数(A)和除法五种二进制算术运算符，然后对表达式进行求值。首先采用基于二值阈值和轮廓的分割方法对输入手写方程的分量进行分离;作为第二步的一部分，将单个分离的分量进一步输入卷积神经网络(CNN)进行识别，然后对有效表达式进行评估作为最后一步。考虑公开可用的MNIST数据集手写数字(0-9)，并手动生成括号、小数点和五个算术运算符的其余图像。CNN模型识别手写表达式的准确率高达99%，随后对有效表达式进行了正确的评价。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2022 Fourth International Conference on Emerging Research in Electronics, Computer Science and Technology (ICERECT)

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