This paper proposes a novel generalized switched synchronization scheme among n fractional-order chaotic systems with various operatingmodes
Tactile sensing biohybrid soft E-skin based on bioimpedance using aloe vera pulp tissues
Soft and flexible E-skin advances are a subset of soft robotics field where the soft morphology of human skin is mimicked
Design and analysis of 2T2M hybrid CMOS-Memristor based RRAM
In this paper, a Static Noise Margin (SNM) analysis for 2T2M RRAM cell is investigated
Design and implementation of variable inclined air pillow soft pneumatic actuator suitable for bioimpedance applications
The technological revolution has caused the modernization of human–machine relationship changing our approach in problem solving our society issues and deviated the science of robotic all together
Theoretical and experimental investigation study of data driven work envelope modelling for 3D printed soft pneumatic actuators
In the last decade, soft robotics is considered one of the most widely researched fields in robotics, as it has many advantages and more versatile use than rigid robotics
Neuron model with simplified memristive ionic channels
A simplified neuron model is introduced to mimic the action potential generated by the famous Hodgkin-Huxley equations by using the genetic optimization algorithm
Partial fraction expansion–based realizations of fractional-order differentiators and integrators using active filters
Approximations of the fractional-order differentiator and integrator operators s±r are proposed in this work
Control and synchronization of fractional-order chaotic systems
The chaotic dynamics of fractional-order systems and their applications in secure communication have gained the attention of many recent researches
Memristor based N-bits redundant binary adder
This paper introduces a memristor based N-bits redundant binary adder architecture for canonic signed digit code CSDC as a step towards memristor based multilevel ALU
Trajectory control and image encryption using affine transformation of lorenz system
This paper presents a generalization of chaotic systems using two-dimensional affine transformations with six introduced parameters to achieve scaling, reflection, rotation, translation and/or shearing