This paper presents a novel three-axis force sensor based on optical photo interrupters and integrated with the robot arm STIFF-FLOP (STIFFness controllable Flexible and Learnable Manipulator for Surgical Operations) to measure external interacting forces and torques. The ring-shape bio-compatible sensor presented here embeds the distributed actuation and sensing system of the STIFF-FLOP manipulator and is applicable to the geometry of its structure as well to the structure of any other similar soft robotic manipulator. Design and calibration procedures of the device are introduced: experimental results allow defining a stiffness sensor matrix for real-time estimation of force and torque components and confirm the usefulness of ...
Soft and Stiffness-controllable Robotics Solutions for Minimally Invasive Surgery presents the resul...
The development of miniaturized continuum robots has a wide range of applications in minimally invas...
Using pliable materials for the construction of robot bodies presents new and interesting challenges...
This paper proposes a force/torque sensor structure that can be easily integrated into a flexible ma...
Robot-assisted Minimally Invasive Surgery (RMIS) typically uses a master–slave surgical configuratio...
Robot assisted surgery and minimally invasive robotic surgery inherently entail that the hands of t...
Flexible, highly articulated robotic tools can greatly facilitate procedures in which the operator n...
This paper presents a multi-axis force/torque sensor based on simply-supported beam and optoelectron...
In this thesis, we researched design developments for multi-axis force sensing at the surgeon and th...
In recent years we have seen tremendous progress in the development of robotic solutions for minimal...
This paper presents a multi-axis force/torque sensor based on simply-supported beam and optoelectron...
This article presents a novel force sensor to detect the distal force of tendon-sheath mechanisms (T...
Minimally invasive robotic surgery (MIRS) has revolutionized surgical procedures. However, compared ...
Summary: A 5 mm diameter tri-axial force sensor has been developed for minimally invasive robotic su...
Haptic feedback and motion tracking are still absent in the Robotic Minimally Invasive Surgery (RM...
Soft and Stiffness-controllable Robotics Solutions for Minimally Invasive Surgery presents the resul...
The development of miniaturized continuum robots has a wide range of applications in minimally invas...
Using pliable materials for the construction of robot bodies presents new and interesting challenges...
This paper proposes a force/torque sensor structure that can be easily integrated into a flexible ma...
Robot-assisted Minimally Invasive Surgery (RMIS) typically uses a master–slave surgical configuratio...
Robot assisted surgery and minimally invasive robotic surgery inherently entail that the hands of t...
Flexible, highly articulated robotic tools can greatly facilitate procedures in which the operator n...
This paper presents a multi-axis force/torque sensor based on simply-supported beam and optoelectron...
In this thesis, we researched design developments for multi-axis force sensing at the surgeon and th...
In recent years we have seen tremendous progress in the development of robotic solutions for minimal...
This paper presents a multi-axis force/torque sensor based on simply-supported beam and optoelectron...
This article presents a novel force sensor to detect the distal force of tendon-sheath mechanisms (T...
Minimally invasive robotic surgery (MIRS) has revolutionized surgical procedures. However, compared ...
Summary: A 5 mm diameter tri-axial force sensor has been developed for minimally invasive robotic su...
Haptic feedback and motion tracking are still absent in the Robotic Minimally Invasive Surgery (RM...
Soft and Stiffness-controllable Robotics Solutions for Minimally Invasive Surgery presents the resul...
The development of miniaturized continuum robots has a wide range of applications in minimally invas...
Using pliable materials for the construction of robot bodies presents new and interesting challenges...