Add to ORKGAbstract: This paper describes the walking pattern of our humanoid robot namely Adhvik. The robot possesses the characteristic of cheapest bipedal motion and is primarily used for object detection and path finding. For this purpose we are using four servo motors operating on the principle of servomechanism which are controlled by an Arduino development board comprising of Atemga8 microcontroller of Atmel series. The supplementary MATLAB software is used for image processing of the red coloured object dividing it into frames using a camera mounted on its head. The humanoid is controlled by a computer through wireless module CC2500. The software controls the real time walking of the robot
This paper presents an experimental study on motion control of a small biped humanoid robot. The hu...
ABSTRACT Research on humanoid robotics in Mechatronics and Automation Laboratory, Electrical and Co...
A behavioral strategy designed for a humanoid intelligent robot for the purpose of obstacle avoidanc...
The desire to one day see a robot assistant cleaning our houses or walking our dogs has led to an in...
A biped is a two legged walking robot which imitates human gait. It is used in places where wheels c...
AbstractThis project presents a new approach of humanoid-operated 4-wheeled mobile platform. The rob...
This thesis describes the design and implementation of a Walking Algorithm for the humanoid robot. T...
Humanoid Robot is controlled to move in a path and obstacle avoidance is proposed. The robot avoids ...
The purpose of this thesis was to create a robot following human movement with Arduino UNO. The goal...
This paper describes the development of the humanoid robot AAU-BOT1. The purpose of the robot is to ...
SURALP is a 29 degrees-of-freedom full-body walking humanoid robot designed and constructed at Saban...
The major contribution in this research paper is concerned with the development of a humanoid robot ...
This paper describes the development of the humanoid robot AAU-BOT1. The purpose of the robot is to ...
AbstractA bipedal walking robot is a type of humanoid robot which mimics like human being and can be...
Humanoid robots introduce instabilities during biped march that complicate the process of estimating...
This paper presents an experimental study on motion control of a small biped humanoid robot. The hu...
ABSTRACT Research on humanoid robotics in Mechatronics and Automation Laboratory, Electrical and Co...
A behavioral strategy designed for a humanoid intelligent robot for the purpose of obstacle avoidanc...
The desire to one day see a robot assistant cleaning our houses or walking our dogs has led to an in...
A biped is a two legged walking robot which imitates human gait. It is used in places where wheels c...
AbstractThis project presents a new approach of humanoid-operated 4-wheeled mobile platform. The rob...
This thesis describes the design and implementation of a Walking Algorithm for the humanoid robot. T...
Humanoid Robot is controlled to move in a path and obstacle avoidance is proposed. The robot avoids ...
The purpose of this thesis was to create a robot following human movement with Arduino UNO. The goal...
This paper describes the development of the humanoid robot AAU-BOT1. The purpose of the robot is to ...
SURALP is a 29 degrees-of-freedom full-body walking humanoid robot designed and constructed at Saban...
The major contribution in this research paper is concerned with the development of a humanoid robot ...
This paper describes the development of the humanoid robot AAU-BOT1. The purpose of the robot is to ...
AbstractA bipedal walking robot is a type of humanoid robot which mimics like human being and can be...
Humanoid robots introduce instabilities during biped march that complicate the process of estimating...
This paper presents an experimental study on motion control of a small biped humanoid robot. The hu...
ABSTRACT Research on humanoid robotics in Mechatronics and Automation Laboratory, Electrical and Co...
A behavioral strategy designed for a humanoid intelligent robot for the purpose of obstacle avoidanc...