This work develops a method for implementing task-based mass optimization of modular, reconfigurable manipulators. Link and joint modules are selected from a library of potential parts and assembled into serial manipulator configurations. A genetic algorithm is used to search over the potential set of combinations to find mass-minimized solutions. To facilitate the automatic evaluation required by the genetic algorithm, Denavit-Hartenberg parameters are automatically generated from module combinations. Reconfigurable manipulators are shown to be lighter than fixed-topology manipulators, demonstrating the potential utility of reconfigurable robotics technology for mass reduction in space robots
Master of ScienceDepartment of Electrical and Computer EngineeringSanjoy DasStephen M. WelchMulti-ob...
thesisThis thesis investigates the problem of producing power using a single-phase induction machine...
The study of multi-agent systems (MAS) focuses on systems in which many intelligent agents interact ...
The subject of robotics is addressed by many different fields, among them computer science, electric...
We introduce a novel, intuitive user interface for continuum manipulators through the use of various...
This dissertation describes the optimization of the implementation of the Yaskawa SDA10F dual-arm ro...
Just as the growth of Personal computer, Mobile phones and Automobiles took place in last 3 decades,...
Creating organic, life like motion has historically been extremely difficult and costly for general ...
New models for the Tendril continuous backbone robot, and other similarly constructed robots, are in...
This thesis presents the concept of using a two wheeled robot on the moon and briefly explores the r...
Many older adults and individuals with disabilities have difficulty with reaching, grasping, and car...
Quadruped robotic mechanism is a legged robotic structure using four legs to move. In many legged ro...
This study proposes a self-adaptive penalty function algorithm for solving constrained optimization ...
Active inference is a normative principle underwriting perception, action, planning, decision-making...
A 3-RPR planar parallel robot is a kind of planar mechanism; three prismatic actuators connected wit...
Master of ScienceDepartment of Electrical and Computer EngineeringSanjoy DasStephen M. WelchMulti-ob...
thesisThis thesis investigates the problem of producing power using a single-phase induction machine...
The study of multi-agent systems (MAS) focuses on systems in which many intelligent agents interact ...
The subject of robotics is addressed by many different fields, among them computer science, electric...
We introduce a novel, intuitive user interface for continuum manipulators through the use of various...
This dissertation describes the optimization of the implementation of the Yaskawa SDA10F dual-arm ro...
Just as the growth of Personal computer, Mobile phones and Automobiles took place in last 3 decades,...
Creating organic, life like motion has historically been extremely difficult and costly for general ...
New models for the Tendril continuous backbone robot, and other similarly constructed robots, are in...
This thesis presents the concept of using a two wheeled robot on the moon and briefly explores the r...
Many older adults and individuals with disabilities have difficulty with reaching, grasping, and car...
Quadruped robotic mechanism is a legged robotic structure using four legs to move. In many legged ro...
This study proposes a self-adaptive penalty function algorithm for solving constrained optimization ...
Active inference is a normative principle underwriting perception, action, planning, decision-making...
A 3-RPR planar parallel robot is a kind of planar mechanism; three prismatic actuators connected wit...
Master of ScienceDepartment of Electrical and Computer EngineeringSanjoy DasStephen M. WelchMulti-ob...
thesisThis thesis investigates the problem of producing power using a single-phase induction machine...
The study of multi-agent systems (MAS) focuses on systems in which many intelligent agents interact ...