Open AccessHaptic Interface Controller Design using Intelligent Techniques
Author(s) -
Naveen Kumar,
Jyoti Ohri
Publication year - 2020
Publication title -
majlesi journal of electrical engineering
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.156
H-Index - 7
eISSN - 2345-3796
pISSN - 2345-377X
DOI - 10.29252/mjee.14.4.67
Subject(s) - haptic technology , computer science , key (lock) , interface (matter) , fuzzy logic , control engineering , controller (irrigation) , fuzzy control system , intelligent control , feed forward , parametric statistics , artificial neural network , transparency (behavior) , human–computer interaction , simulation , engineering , artificial intelligence , computer security , biology , agronomy , statistics , mathematics , bubble , maximum bubble pressure method , parallel computing
Haptic technology has enormous applications in several fields from medical, military, and in our day-to-day life’s products including video games, smartphones, and smart cities. The Haptic Interface Controller (HIC), a key circuitry for interaction between the user and the virtual world, has two main control issues: stability and transparency. These two issues are complementary to each other i.e. emphasis on one will degrade the other and vice-versa. To address this, intelligent control techniques including Genetic Algorithm (GA), Feed-Forward Neural Network (FFNN), and Fuzzy Logic Control (FLC) have been used in design of the HIC. To ensure the performance in real-time, in system parametric uncertainty and delay have been added while designing the HIC so that a balance could be maintained between the two issues.
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