Add to ORKGThis paper presents new findings concerning a hand-held stiffness probe for the medical diagnosis of abnormalities during palpation of soft-tissue. Palpation is recognized by the medical community as an essential and low-cost method to detect and diagnose disease in soft-tissue. However, differences are often subtle and clinicians need to train for many years before they can conduct a reliable diagnosis. The probe presented here fills this gap providing a means to easily obtain stiffness values of soft tissue during a palpation procedure. Our stiffness sensor is equipped with a multi degree of freedom (DoF) Aurora magnetic tracker, allowing us to track and record the 3D position of the probe whilst examining a tissue area, and generate a 3D...
When humans are asked to palpate a soft tissue to locate a hard nodule, they regulate the stiffness,...
This paper presents experimental evidence for the existence of a set of unique force modulation stra...
This work was supported by EPSRC MOTION grant (grant number EP/N03211X/1), National Institute for He...
This paper presents new findings concerning a hand-held stiffness probe for the medical diagnosis of...
This paper presents an innovative hand-held device able to compute stiffness when interacting with a...
During abdominal palpation diagnosis, a medical practitioner would change the stiffness of their fin...
This paper provides a solution for fast haptic information gain during soft tissue palpation using a...
Haptic information in robotic surgery can significantly improve clinical outcomes and help detect ha...
During abdominal palpation diagnosis, a medical practitioner would change the stiffness of their fin...
During abdominal palpation diagnosis, a medical practitioner would change the stiffness of their fin...
During abdominal palpation diagnosis, a medical practitioner would change the stiffness of their fin...
Recent advancements in robotic-assisted surgery have revolutionised the medical field by providing t...
AbstractThis paper presents a feasibility study of a novel air-float palpation probe for stiffness c...
Abstract — This paper presents a novel design approach to soft probes with controllable stiffness in...
This paper presents experimental evidence for the existence of a set of unique force modulation stra...
When humans are asked to palpate a soft tissue to locate a hard nodule, they regulate the stiffness,...
This paper presents experimental evidence for the existence of a set of unique force modulation stra...
This work was supported by EPSRC MOTION grant (grant number EP/N03211X/1), National Institute for He...
This paper presents new findings concerning a hand-held stiffness probe for the medical diagnosis of...
This paper presents an innovative hand-held device able to compute stiffness when interacting with a...
During abdominal palpation diagnosis, a medical practitioner would change the stiffness of their fin...
This paper provides a solution for fast haptic information gain during soft tissue palpation using a...
Haptic information in robotic surgery can significantly improve clinical outcomes and help detect ha...
During abdominal palpation diagnosis, a medical practitioner would change the stiffness of their fin...
During abdominal palpation diagnosis, a medical practitioner would change the stiffness of their fin...
During abdominal palpation diagnosis, a medical practitioner would change the stiffness of their fin...
Recent advancements in robotic-assisted surgery have revolutionised the medical field by providing t...
AbstractThis paper presents a feasibility study of a novel air-float palpation probe for stiffness c...
Abstract — This paper presents a novel design approach to soft probes with controllable stiffness in...
This paper presents experimental evidence for the existence of a set of unique force modulation stra...
When humans are asked to palpate a soft tissue to locate a hard nodule, they regulate the stiffness,...
This paper presents experimental evidence for the existence of a set of unique force modulation stra...
This work was supported by EPSRC MOTION grant (grant number EP/N03211X/1), National Institute for He...