Research Article Volume 4 Issue 4 - February 2023 DOI: 10.19080/ETOAJ.2023.04.555648 Eng Technol Open Acc Copyright © All rights are reserved by Elsayed Ahmed Elnashar Modern Areas of Artificial Intelligence Applications in the Textile Industries Using Mechatronics Elsayed Ahmed Elnashar 1 *, Assem Ali Mohamed Ahmed 2 and Amr Elsayed Elnashar 3 1 Professor, Textiles & Apparel, Home Economics Department, Kaferelsheikh University, Egypt 2 Lecturer in textile Department, faculty of Technology& Education, Suez University, Egypt 3 Student at Faculty of Computers and Information, Tanta University, Egypt Submission: December 08, 2022; Published: February 16, 2023 * Corresponding author: Elsayed Ahmed ElNashar, Professor, Textiles & Apparel, Home Economics Department, Kaferelsheikh University, Egypt Eng Technol Open Acc 4(4): ETOAJ.MS.ID.555648 (2023) 001 Introduction What Is Mechatronics? Mechatronics, as a discipline, has been around for a long time. The combination of mechanical rastering with electronic image production used by John Logie Baird in his early TV research was a good example of integrated design. Indeed, most early workers in that branch of physics which was to become electrical engineering were equally at home with electronic and mechanical artifacts and combined them in various experiments and products. However, as a name, Mechatronics is only about 45 years old. It was coined in the later 1970s by an employee of the Japanese Yasukawa com- pany - a major manufacturer of industrial robots. In Japan today Mechatronics is often taken to be synonymous with Robotics and many Mechatronics laboratories are devoted entirely to robot- ics research. However, the rest of the world has tended to use the word to encompass a far wider spectrum of products and systems which includes as a very important subclass that of the modem industrial robot. If we consider the definition of Mechatronics, it is easy to see why the robot is an outstanding example of the class. There are many definitions - as might be expected of a discipline in a state of evolution and self-determination. We give three: The first is the ‘EEC’ version. “The synergistic integration of mechanical engineering with electronics and intelligent computer control in the design and manufacture of products and processes.” Here the emphasis is on ‘synergy’ - a word which conveys the idea that the final product is greater than the mere sum of its parts. The design integration has led, in some sense, to a product which exceeds previous performance levels by something more than just being better - a new dimension of performance has been attained. The design and manufacture of products and systems possess- ing both a mechanical functionality and an integrated algorithmic control.” Here we attempt to differentiate between Mechatronics and other intersecting fields such as Information Technology and Electromechanical Design. The Mechatronics product has “me- chanical functionality”, i.e. parts of it move in a purposeful manner to achieve some function. By contrast, Information Technology has concentrated upon the mere processing of data. Often even the transducers and sensors which provide the data to be processed are ignored by the Information Technologists, who are concerned only with algorithms for converting the data into new forms and architectures for optimizing the conversion process (usually by speeding it up). Abstract Mechatronics in modern areas of artificial intelligence, as a discipline, has been around for a long time in textiles industries, applications mechatronics in the design of textile machinery, such as 3-D braiding; weaving and LAN systems for weaving; yarn tension compensation; texturing; spinning: measurement automation and diagnosis, knowledge-based expert systems; automated garment manufacture and assembly; and Apparel manufacture. Indeed, most early workers in which branch of textiles industries which was to become electrical engineering were equally at factures with electronic and mechanical artifacts and combined them in various experiments and products. Mechatronic design in textile Engineering contains a selection of contributions to the advanced search which took place in the introductory sections on the mechatronics concept and design methodology and the impact of advance in technology on the mechatronics concept; the importance of the mechatronic design in the textile industries is highlighted, together with many applications in the textile industries & Passementerie stripes. These include mechatronics in the design of textile machinery. In Which respect it will serve as a reference article for inventors and designers as well as for Industries of textile technology and engineering. Keywords: Mechatronics; Artificial Intelligence; Textile Industries; Passementerie