[[abstract]]A FPGA realisation structure based on CORDIC is proposed to implement inverse kinematics for a biped robot. First, the angle equations of inverse kinematics for the biped robot are described. Based on these equations represented by the inverse tangent function, a FPGA structure based on two CORDIC operators of circular vectoring and hyperbolic vectoring is proposed and implemented on a FPGA chip. Finally, comparison of the proposed FPGA realisation and the software realisation to calculate these angle equations is presented to illustrate the effectiveness of the proposed structure.[[notice]]補正完畢[[journaltype]]國外[[incitationindex]]EI[[incitationindex]]SCI[[booktype]]紙本[[countrycodes]]GB
This paper presents a very efficient approach for algorithms developed based on conformal geometric ...
In this paper, a differential robot is designed and controlled by PCI card. This card connected betw...
This paper presents a solution to solve the inverse kinematics for the legs of a humanoid robot usin...
[[abstract]]An FPGA realisation structure based on CORDIC is proposed to implement inverse kinematic...
[[abstract]]In this paper, a simple oscillator-based biped walking method is described and a CORDIC-...
Recently, much research has focused on the design of biped robots with stable and smooth walking abi...
The paper presents an application of FPGA to support the calculation of the inverse kinematics probl...
Reliability and precision are very important in space, medical, and industrial robot control applica...
When robot arm performs a motion control, it needs to calculate a complicated algorithm of forward a...
International audienceModern embedded computing platforms used within Cyber-Physical Systems (CPS) a...
Keywords: Biped, Degree of freedom, Denavit-hartenberg parameters, Inverse kinematics.A biped is a m...
We describe new architectures for the efficient computation of redundant manipulator kinematics (dir...
In this paper, we present a Field Programmable Gate Array (FPGA) based high-performance gait control...
In this paper, we present a Field Programmable Gate Array (FPGA) based high-performance gait control...
A method is presented for accurately computing the three servomechanism angles that place the leg ti...
This paper presents a very efficient approach for algorithms developed based on conformal geometric ...
In this paper, a differential robot is designed and controlled by PCI card. This card connected betw...
This paper presents a solution to solve the inverse kinematics for the legs of a humanoid robot usin...
[[abstract]]An FPGA realisation structure based on CORDIC is proposed to implement inverse kinematic...
[[abstract]]In this paper, a simple oscillator-based biped walking method is described and a CORDIC-...
Recently, much research has focused on the design of biped robots with stable and smooth walking abi...
The paper presents an application of FPGA to support the calculation of the inverse kinematics probl...
Reliability and precision are very important in space, medical, and industrial robot control applica...
When robot arm performs a motion control, it needs to calculate a complicated algorithm of forward a...
International audienceModern embedded computing platforms used within Cyber-Physical Systems (CPS) a...
Keywords: Biped, Degree of freedom, Denavit-hartenberg parameters, Inverse kinematics.A biped is a m...
We describe new architectures for the efficient computation of redundant manipulator kinematics (dir...
In this paper, we present a Field Programmable Gate Array (FPGA) based high-performance gait control...
In this paper, we present a Field Programmable Gate Array (FPGA) based high-performance gait control...
A method is presented for accurately computing the three servomechanism angles that place the leg ti...
This paper presents a very efficient approach for algorithms developed based on conformal geometric ...
In this paper, a differential robot is designed and controlled by PCI card. This card connected betw...
This paper presents a solution to solve the inverse kinematics for the legs of a humanoid robot usin...