Extraction of Scores and Average From Algerian High-School Degree Transcripts

A system for extracting scores and average from Algerian High School Degree Transcripts is proposed. The system extracts the scores and the average based on the localization of the tables gathering this information and it consists of several stages. After preprocessing, the system locates the tables using ruling-lines information as well as other text information. Therefore, the adopted localization approach can work even in the absence of certain ruling-lines or the erasure and discontinuity of lines. After that, the localized tables are segmented into columns and the columns into information cells. Finally, cells labeling is done based on the prior knowledge of the tables structure allowing to identify the scores and the average. Experiments have been conducted on a local dataset in order to evaluate the performances of our system and compare it with three public systems at three levels, and the obtained results show the effectiveness of our system

A Deep Understanding of Structural and Functional Behavior of Tabular and Graphical Modules in Technical Documents

The rapid increase of published research papers in recent years has escalated the need for automated ways to process and understand them. The successful recognition of the information that is contained in technical documents, depends on the understanding of the document’s individual modalities. These modalities include tables, graphics, diagrams and etc. as defined in Bourbakis’ pioneering work. However, the depth of understanding is correlated to the efficiency of detection and recognition. In this work, a novel methodology is proposed for automatic processing of and understanding of tables and graphics images in technical document. Previous attempts on tables and graphics understanding retrieve only superficial knowledge such as table contents and axis values. However, the focus on capturing the internal associations and relations between the extracted data from each figure is studied here. The proposed methodology is divided into the following steps: 1) figure detection, 2) figure recognition, 3) figure understanding, by figures we mean tables, graphics and diagrams. More specifically, we evaluate different heuristic and learning methods for classifying table and graphics images as part of the detection module. Table recognition and deep understanding includes the extraction of the knowledge that is illustrated in a table image along with the deeper associations between the table variables. The graphics recognition module follows a clustering based approach in order to recognize middle points. Middle points are 2D points where the direction of the curves changes. They delimit the straight line segments that construct the graphics curves. We use these detected middle points in order to understand various features of each line segment and the associations between them. Additionally, we convert the extracted internal tabular associations and the captured curves’ structural and functional behavior into a common and at the same time unique form of representation, which is the Stochastic Petri-net (SPN) graphs. The use of SPN graphs allow for the merging of different document modalities through the functions that describe them, without any prior knowledge about what these functions are. Finally, we achieve a higher level of document understanding through the synergistic merging of the aforementioned SPN graphs that we extract from the table and graphics modalities. We provide results from every step of the document modalities understanding methodologies and the synergistic merging as proof of concept for this research

Model-based Analysis of Printed Tables

this paper we describe a system that can analyze a wide variety of printed table formats. The adaptability of this system is realized by a model of the table's organization. Printed representations of relational data rely on several kinds of visual clues for imparting the table's logical structure to the reader. For example, ruling lines of various widths might indicate a grouping of consecutive items or attributes. A system reading a table must make deductions based on these visual devices before it is able to specify the relational organization of the table. Some of the visual clues used to logically organize the physically structured information in the table are