Content area
This study delves into Human-Computer Interaction (HCI), a multidisciplinary arena exploring the interface between humans and technology in designing computing systems. Drawing from interactional communication theories that posit communication as a reciprocal process involving message exchanges in specific sociocultural contexts, recent advancements in Artificial Intelligence (AI) have significantly advanced these interactions. However, inefficient interfaces remain a prominent challenge within HCI. To address this, the research introduces the Augmented Scalar Computation Algorithm (ASCA), aimed at enhancing HCI efficiency. The methodology encompasses collecting and preprocessing a dataset, employing Principal Component Analysis (PCA) for feature extraction, and utilizing a Genetic Algorithm (GA) in feature selection to refine ASCA. The efficacy of the proposed ASCA is rigorously assessed, demonstrating its superiority over conventional algorithms through comparative analysis.
Details
Collaboration;
Algorithms;
Human technology relationship;
Sociocultural factors;
Optimization techniques;
Communication theory;
Human-computer interaction;
Efficacy;
Intelligence gathering;
Efficiency;
Scalarity (Semantics);
Artificial intelligence;
Principal components analysis;
Human-computer interface;
Computer mediated communication;
Comparative analysis;
Cultural factors;
Genetic algorithms;
Computation;
Interpersonal communication;
Interfaces;
Software;
Accuracy;
Extraction;
Machine translation;
Genetics;
Design analysis;
Computers;
Information technology;
Interdisciplinary aspects;
Social factors;
Information communication
1 Jingdezhen Ceramic University, China
2 Sanming Medical and Polytechnic Vocational College, China