Research Progress
-
07/18 -2018-A time/space separation based 3D fuzzy modeling approach for nonlinear spatially distributed systems
-
07/18 -2018-A restructured artificial bee colony optimizer combining life-cycle, local search and crossover operations for droplet property prediction in printable electronics fabrication
-
07/18 -2018-A multi-mode real-time terrain parameter estimation method for wheeled motion control of mobile robots
-
07/18 -2018-Robust orientation estimate via inertial guided visual sample consensus
-
07/18 -2018-Synthesis of barbituric acid doped carbon nitride for efficient solar-driven photocatalytic degradation of aniline
-
07/18 -2018-Synthesis of visible-light-driven BiOBrxI1-xsolid solution nanoplates by ultrasound-assisted hydrolysis method with tunable bandgap and superior photocatalytic activity
-
07/18 -2018-Data-driven process decomposition and robust online distributed modelling for large-scale processes
-
07/18 -2018-Modified Si nanowire/graphite-like carbon nitride core-shell photoanodes for solar water splitting
-
07/18 -2018-Energy Efficiency Optimization For Wireless Powered Sensor Networks With Nonorthogonal Multiple Access
-
01/16 -2018-Researcher Propose Novel Model to Better Understand the Control Mechanism of Bio-syncretic RoboticsThe research team developed a linear dynamic model of a single cardiomyocyte cell at the subcellular scale to characterize the contractile behaviors of heart cells.The mechanical dynamics model of a single cardiomyocyte is completed by modeling the subcellular structures by the corresponding mechanical and electronic components, such as springs, dampers and motors.
