Add to ORKGThesis: S.B., Massachusetts Institute of Technology, Department of Mechanical Engineering, 2015.Cataloged from PDF version of thesis.Includes bibliographical references (page 49).This thesis presents the mechanical design and fabrication of the Super Mini Cheetah (SMC) robot, a small ( 9kg) quadruped that is capable of jumping, bounding and trotting. The robot is designed using commercially available components and rapid prototyping methods, resulting in a low-cost, replicable and modifiable platform capable of force, position, or impedance control of each limb. The mechanical system consists of an aluminum torso frame and 3D printed legs. The design of the legs is based on kinematic calculations which determined the lengths of the linkages...
A major bottleneck in building autonomous robots is the lack of suitable power supplies. Consequentl...
In the field of robotics, quadrupedal robotics is a rapidly growing segment. Despite the large numbe...
In this work, the concept and mechanical design of a novel compact, lightweight, omnidirectional thr...
Advancements and research in technology takes influence from several different sources, some of whic...
Considerable amount of research efforts are spent on the field of legged robotics in the past 60 yea...
Robots equipped with legs have significant potential for real-world applications. Many industries, i...
Although wheeled robots are commonly used, it has limited ability to move to any terrains at ease. T...
This thesis shows the development of a quadruped platform inspired by existing quadrupled robot desi...
This paper introduces a new robust, dynamic quadruped, the MIT Cheetah 3. Like its predecessor, the ...
The goal of our senior project was to fabricate an eight degree of freedom (DOF) prototypical quadru...
Mobile robots are taking an important role in society. They are being used in many industries from e...
Although wheeled robots are commonly used, it has limited ability to move to any terrains at ease....
The rough terrain mobility of legged robots is expected to exceed the perfor- mance of their wheeled...
Legged robots have demonstrated how versatile all-terrain robot locomotion can be. Coupling this wit...
The field of educational and research robotics is alight with development platforms that fall short ...
A major bottleneck in building autonomous robots is the lack of suitable power supplies. Consequentl...
In the field of robotics, quadrupedal robotics is a rapidly growing segment. Despite the large numbe...
In this work, the concept and mechanical design of a novel compact, lightweight, omnidirectional thr...
Advancements and research in technology takes influence from several different sources, some of whic...
Considerable amount of research efforts are spent on the field of legged robotics in the past 60 yea...
Robots equipped with legs have significant potential for real-world applications. Many industries, i...
Although wheeled robots are commonly used, it has limited ability to move to any terrains at ease. T...
This thesis shows the development of a quadruped platform inspired by existing quadrupled robot desi...
This paper introduces a new robust, dynamic quadruped, the MIT Cheetah 3. Like its predecessor, the ...
The goal of our senior project was to fabricate an eight degree of freedom (DOF) prototypical quadru...
Mobile robots are taking an important role in society. They are being used in many industries from e...
Although wheeled robots are commonly used, it has limited ability to move to any terrains at ease....
The rough terrain mobility of legged robots is expected to exceed the perfor- mance of their wheeled...
Legged robots have demonstrated how versatile all-terrain robot locomotion can be. Coupling this wit...
The field of educational and research robotics is alight with development platforms that fall short ...
A major bottleneck in building autonomous robots is the lack of suitable power supplies. Consequentl...
In the field of robotics, quadrupedal robotics is a rapidly growing segment. Despite the large numbe...
In this work, the concept and mechanical design of a novel compact, lightweight, omnidirectional thr...