Cameron R. Taylor
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View article: A wireless magnetic implant system for continuous neuromuscular sensing
A wireless magnetic implant system for continuous neuromuscular sensing Open
Precise measurement of neuromuscular mechanics yields an intuitive control signal for producing synchronous movement with wearable robotics. Practically obtaining such measurements remains challenging as current muscle-sensing technologies…
View article: Discrete Approximation of Permanent Magnet Arrays for Mechatronic Applications
Discrete Approximation of Permanent Magnet Arrays for Mechatronic Applications Open
View article: Discrete Approximation of Permanent Magnet Arrays for Mechatronic Applications
Discrete Approximation of Permanent Magnet Arrays for Mechatronic Applications Open
View article: <scp>MRI</scp> Safety Considerations for Permanent Magnet Implants in Muscle
<span>MRI</span> Safety Considerations for Permanent Magnet Implants in Muscle Open
Background Permanent magnet implants are used with several medical and assistive devices, such as cochlear implants, dental attachments, and prosthetic control, but raise caution for MR imaging. Previous work has evaluated several magnet i…
View article: Metamorphic Flexure Bearings for Extended Range of Motion
Metamorphic Flexure Bearings for Extended Range of Motion Open
View article: Metamorphic Flexure Bearings for Extended Range of Motion
Metamorphic Flexure Bearings for Extended Range of Motion Open
Flexure bearings provide precise, low-maintenance operation but have a limited range of motion compared to conventional bearings. Here we introduce a new class of bearing – the metamorphic flexure bearing – that retains the advantages of p…
View article: Design of a Controllable Axial-Flux Halbach Array for Magnetic Suspension Tasks
Design of a Controllable Axial-Flux Halbach Array for Magnetic Suspension Tasks Open
Magnetic fields enable force application without mechanical connection. By this means, electromagnets apply force across a distance, but require continuous power to maintain constant force. In contrast, switchable permanent magnet mechanis…
View article: Metamorphic Flexure Bearings for Extended Range of Motion
Metamorphic Flexure Bearings for Extended Range of Motion Open
View article: Non-pyrogenicity and biocompatibility of parylene-coated magnetic bead implants
Non-pyrogenicity and biocompatibility of parylene-coated magnetic bead implants Open
Clinical grade magnetic bead implants have important applications in interfacing with the human body, providing contactless mechanical attachment or wireless communication through human tissue. We recently developed a new strategy, magneto…
View article: Non-Pyrogenicity and Biocompatibility of Parylene-Coated Magnetic Bead Implants
Non-Pyrogenicity and Biocompatibility of Parylene-Coated Magnetic Bead Implants Open
We verify the non-pyrogenicity of magnetic bead implants and submit them to a full chemical characterization and toxicological risk assessment. Further, we validate the cleaning efficacy, steam sterilization, and dry time of a magnetic bea…
View article: Clinical viability of magnetic bead implants in muscle
Clinical viability of magnetic bead implants in muscle Open
Human movement is accomplished through muscle contraction, yet there does not exist a portable system capable of monitoring muscle length changes in real time. To address this limitation, we previously introduced magnetomicrometry, a minim…
View article: Untethered muscle tracking using magnetomicrometry
Untethered muscle tracking using magnetomicrometry Open
Muscle tissue drives nearly all movement in the animal kingdom, providing power, mobility, and dexterity. Technologies for measuring muscle tissue motion, such as sonomicrometry, fluoromicrometry, and ultrasound, have significantly advance…
View article: Untethered Muscle Tracking Using Magnetomicrometry
Untethered Muscle Tracking Using Magnetomicrometry Open
Muscle tissue drives nearly all movement in the animal kingdom, providing power, mobility, and dexterity. Technologies for measuring muscle tissue motion, such as sonomicrometry, fluoromicrometry, and ultrasound, have significantly advance…
View article: Clinical Viability of Magnetic Bead Implants in Muscle
Clinical Viability of Magnetic Bead Implants in Muscle Open
Human movement is accomplished through muscle contraction, yet there does not exist a portable system capable of monitoring muscle length changes in real time. To address this limitation, we previously introduced magnetomicrometry, a minim…
View article: Untethered Muscle Tracking Supplementary Materials
Untethered Muscle Tracking Supplementary Materials Open
Supplementary Data for Untethered Muscle Tracking Using Magnetomicrometry
View article: Untethered Muscle Tracking Supplementary Materials
Untethered Muscle Tracking Supplementary Materials Open
Supplementary Data for Untethered Muscle Tracking Using Magnetomicrometry
View article: Low-Latency Tracking of Multiple Permanent Magnets
Low-Latency Tracking of Multiple Permanent Magnets Open
Magnetic target tracking is a low-cost, portable, and passive method for tracking materials wherein magnets are physically attached or embedded without the need for line of sight. Traditional magnet tracking techniques use optimization alg…
View article: Low-Latency Tracking of Multiple Permanent Magnets
Low-Latency Tracking of Multiple Permanent Magnets Open
Magnetic target tracking is a low-cost, portable, and passive method for tracking materials wherein magnets are physically attached or embedded without the need for line of sight. Traditional magnet tracking techniques use optimization alg…
View article: Magnetomicrometry
Magnetomicrometry Open
We live in an era of wearable sensing, where our movement through the world can be continuously monitored by devices. Yet, we lack a portable sensor that can continuously monitor muscle, tendon, and bone motion, allowing us to monitor perf…