@article{flores2021synergy,
  title = {Synergy, Logic-language for the Modeling of Software Requirements in Students of Systems Engineering and Informatics},
  author = {Erick G. FLORES and Yvett N. GONZALES and Esmelin N. ALAYO and Alex PACHECO and Edwin ROQUE},
  year = 2021,
  url = {https://ibimapublishing.com/articles/JSSD/2021/291658/},
  journal = {Journal of Software and Systems Development},
  volume = 2021,
  pages = 7,
  doi = 10.5171/2021.291658,
  abstract = {In the manufacture of software, specifically in the activity of system analysis, the student of Systems Engineering and Informatics must know and systematically develop capacities for their performance in the treatment of system requirements, since the capacities executed in their mental spaces are developed in their natural language at a common level without a guideline and theoretical basis of applied grammatical structure. Which leads to a subjective perception, identification and description of software requirements. Given these empirical facts, a guiding and guiding concept is proposed for the development of capacities that help the student in the sensitive identification, description, relationship and diagramming; based on the synergy between; a structure - intermediaries (based on the logic and logic of use cases) linked to language (semantic expression of meanings) to arrive at a conscious reason (thought) that helps and accompanies the modeling of software requirements. This research is of a quantitative approach, experimental type, explanatory level, pre-experimental design and deductive method, carried out to students of the Systems Engineering and Computer Science career of the university, to whom the Instrument "Components of the modeling of software requirements”. In addition, a favorable student performance of 36% was obtained and the research hypothesis was corroborated. Ha = The logic-language synergy improves the modeling of software requirements in Peruvian students of Systems Engineering and Informatics},
  keywords = {software requirements, logic-language, use case modeling},
  note = Article ID: 291658
}