Stable and Unified Linguistic Engineering (ULE) (BASE)

Professor Dr. Mohamed E. Fayad

Natural language is appropriately considered “the system of all systems.” As such, we postulate that every known word (noun or noun phrase) is a unified and stable pattern with functional and non-functional requirements and an ultimate design.   Every word has one individual responsibility specified by its functional and non-functional requirements as the unified and stable pattern. By employing this unified approach, we postulate that any word can be defined such that the definition is complete but also sufficient for use in any field of knowledge.

Linguistics engineering is inherently interdisciplinary but most important. It can have a powerful impact on every field of human knowledge, such as all the applications of engineering, science, and academics – specifically including the areas of software engineering, computer engineering, system engineering, artificial intelligence, law, philosophy, theology, cognitive science, social science, psychology, government, and many others.

Linguistic Engineering is a rapidly developing field of research. A firm language technology and linguistic engineering background are precious in manipulating large datasets. A linguistic engineer knows language technology used in computer applications, including search engines, all uses of language technology in computer applications, and all possible forms of applied linguistics. The author(s) are captivated with natural language’s unification and stability modeling from engineering and computational perspectives and the study of appropriate engineering approaches to linguistic questions.

This approach can provide an intrinsic and complete understanding of any word and language based on knowledge.

Linguistics engineering has theoretical and applied components. Theoretical linguistics engineering focuses on issues in cognitive science, and applied linguistics engineering focuses on a practical understanding of word modeling to concisely put human language into use in any field of knowledge. The authors envision generating a common, unified, stable pattern language – a knowledge map – for suitable domain analysis.

This research introduces a new approach to linguistics engineering and illustrates Its applicability and case studies.

Where BASE means that the ULE provides an intrinsic and complete understanding of any word and language based on knowledge and considered to be an introduction to Eight key areas of language research : phonetics and phonology, morphology, syntax, semantics, pragmatics, psycholinguistics, sociolinguistics, and historical linguistics which will be produce more than 96 Volumes hopefully in the near future.