Add to ORKGThesis: S.B., Massachusetts Institute of Technology, Department of Mechanical Engineering, 2014.Cataloged from PDF version of thesis.Includes bibliographical references (page 43).This thesis encompasses the development of a mobile robotic platform using three singularity drive modules. The process begins with a review of other omnidirectional platforms, comparing and contrasting their strengths and weaknesses. It continues with a discussion of the mechanical and electrical design of a robot prototype, then into kinematic modeling of the system. Both the inverse and forward kinematics are derived and validated through a path following experiment using an open loop controller. For this experiment, the robot was given a 1 meter square path as ...
Thesis (M.S.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer S...
A need was outlined for a robust, cost effective, and consistent differential drive mobile robot pla...
This paper presents a novel design for a mobile robot based on the kinematics of parallel mechanisms...
The basis of any mobile robot is the chassis of a structure. The chassis is a set of parts that prov...
The basis of any mobile robot is the chassis of a structure. The chassis is a set of parts that prov...
The basis of any mobile robot is the chassis of a structure. The chassis is a set of parts that prov...
This Final Year Project explores on the workings of a drive system using mecanum wheels such as the ...
This article deals with the design and testing of mobile robots equipped with drive systems based on...
In this paper, kinematic modeling and singularity analysis are performed for an omnidirectional mobi...
Technology in robotics has improved significantly in recent years. While the majority of research ha...
Mobile robotics is a growing trend in recent years as mobile robots are being used in service as wel...
Mobile robotic systems are increasingly prevalent in several fields of academia, industry, and every...
Most mobile robots use differential-drive concept, where they are equipped with two actuators that p...
Traditional two wheels differential drive normally used on mobile robots have manoeuvrability limita...
This design report is to document the design process of a robotic platform as well as fabricating ...
Thesis (M.S.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer S...
A need was outlined for a robust, cost effective, and consistent differential drive mobile robot pla...
This paper presents a novel design for a mobile robot based on the kinematics of parallel mechanisms...
The basis of any mobile robot is the chassis of a structure. The chassis is a set of parts that prov...
The basis of any mobile robot is the chassis of a structure. The chassis is a set of parts that prov...
The basis of any mobile robot is the chassis of a structure. The chassis is a set of parts that prov...
This Final Year Project explores on the workings of a drive system using mecanum wheels such as the ...
This article deals with the design and testing of mobile robots equipped with drive systems based on...
In this paper, kinematic modeling and singularity analysis are performed for an omnidirectional mobi...
Technology in robotics has improved significantly in recent years. While the majority of research ha...
Mobile robotics is a growing trend in recent years as mobile robots are being used in service as wel...
Mobile robotic systems are increasingly prevalent in several fields of academia, industry, and every...
Most mobile robots use differential-drive concept, where they are equipped with two actuators that p...
Traditional two wheels differential drive normally used on mobile robots have manoeuvrability limita...
This design report is to document the design process of a robotic platform as well as fabricating ...
Thesis (M.S.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer S...
A need was outlined for a robust, cost effective, and consistent differential drive mobile robot pla...
This paper presents a novel design for a mobile robot based on the kinematics of parallel mechanisms...