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customized prosthesis hardware  (Biomedical Technologies)

 
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    Structured Review

    Biomedical Technologies customized prosthesis hardware
    Perception of discrete or continuous stimulation for subjects A1 and A2 (left) with corresponding <t>prosthesis</t> neuromorphic output (right). The stimulation amplitude for subject A1 is 1.0 mA and 1.4 mA for subject A2. The frequency (f) threshold for perceiving a stimulation as continuous is 9.7 Hz for subject A1 and 21 Hz for subject A2. The fitted psychometric functions have an R2 > 0.90. The neuromorphic tactile response represents points along the psychometric function at a particular frequency.
    Customized Prosthesis Hardware, supplied by Biomedical Technologies, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/customized prosthesis hardware/product/Biomedical Technologies
    Average 90 stars, based on 1 article reviews
    customized prosthesis hardware - by Bioz Stars, 2026-06
    90/100 stars

    Images

    1) Product Images from "Targeted Transcutaneous Electrical Nerve Stimulation for Phantom Limb Sensory Feedback"

    Article Title: Targeted Transcutaneous Electrical Nerve Stimulation for Phantom Limb Sensory Feedback

    Journal: IEEE Biomedical Circuits and Systems Conference : healthcare technology : [proceedings]. IEEE Biomedical Circuits and Systems Conference

    doi: 10.1109/biocas.2017.8325200

    Perception of discrete or continuous stimulation for subjects A1 and A2 (left) with corresponding prosthesis neuromorphic output (right). The stimulation amplitude for subject A1 is 1.0 mA and 1.4 mA for subject A2. The frequency (f) threshold for perceiving a stimulation as continuous is 9.7 Hz for subject A1 and 21 Hz for subject A2. The fitted psychometric functions have an R2 > 0.90. The neuromorphic tactile response represents points along the psychometric function at a particular frequency.
    Figure Legend Snippet: Perception of discrete or continuous stimulation for subjects A1 and A2 (left) with corresponding prosthesis neuromorphic output (right). The stimulation amplitude for subject A1 is 1.0 mA and 1.4 mA for subject A2. The frequency (f) threshold for perceiving a stimulation as continuous is 9.7 Hz for subject A1 and 21 Hz for subject A2. The fitted psychometric functions have an R2 > 0.90. The neuromorphic tactile response represents points along the psychometric function at a particular frequency.

    Techniques Used:

    Neuromorphic tactile signal during the prosthesis grasping task. The LIF neuron model produces spikes, using stimulation and frequency detection thresholds for subject A2 to determine the pulse width (1 ms) and frequency range (0 - 20 Hz). This spiking output form the prosthesis sensors can then be used as feedback on the residual limb to create the closed-loop prosthesis.
    Figure Legend Snippet: Neuromorphic tactile signal during the prosthesis grasping task. The LIF neuron model produces spikes, using stimulation and frequency detection thresholds for subject A2 to determine the pulse width (1 ms) and frequency range (0 - 20 Hz). This spiking output form the prosthesis sensors can then be used as feedback on the residual limb to create the closed-loop prosthesis.

    Techniques Used:



    Similar Products

    customized prosthesis hardware  (Biomedical Technologies)
    90
    Biomedical Technologies customized prosthesis hardware
    Perception of discrete or continuous stimulation for subjects A1 and A2 (left) with corresponding <t>prosthesis</t> neuromorphic output (right). The stimulation amplitude for subject A1 is 1.0 mA and 1.4 mA for subject A2. The frequency (f) threshold for perceiving a stimulation as continuous is 9.7 Hz for subject A1 and 21 Hz for subject A2. The fitted psychometric functions have an R2 > 0.90. The neuromorphic tactile response represents points along the psychometric function at a particular frequency.
    Customized Prosthesis Hardware, supplied by Biomedical Technologies, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/customized prosthesis hardware/product/Biomedical Technologies
    Average 90 stars, based on 1 article reviews
    customized prosthesis hardware - by Bioz Stars, 2026-06
    90/100 stars
    		  Buy from Supplier

    Image Search Results


    Perception of discrete or continuous stimulation for subjects A1 and A2 (left) with corresponding prosthesis neuromorphic output (right). The stimulation amplitude for subject A1 is 1.0 mA and 1.4 mA for subject A2. The frequency (f) threshold for perceiving a stimulation as continuous is 9.7 Hz for subject A1 and 21 Hz for subject A2. The fitted psychometric functions have an R2 > 0.90. The neuromorphic tactile response represents points along the psychometric function at a particular frequency.

    Journal: IEEE Biomedical Circuits and Systems Conference : healthcare technology : [proceedings]. IEEE Biomedical Circuits and Systems Conference

    Article Title: Targeted Transcutaneous Electrical Nerve Stimulation for Phantom Limb Sensory Feedback

    doi: 10.1109/biocas.2017.8325200

    Figure Lengend Snippet: Perception of discrete or continuous stimulation for subjects A1 and A2 (left) with corresponding prosthesis neuromorphic output (right). The stimulation amplitude for subject A1 is 1.0 mA and 1.4 mA for subject A2. The frequency (f) threshold for perceiving a stimulation as continuous is 9.7 Hz for subject A1 and 21 Hz for subject A2. The fitted psychometric functions have an R2 > 0.90. The neuromorphic tactile response represents points along the psychometric function at a particular frequency.

    Article Snippet: As a demonstration, we implemented a leaky integrate and fire neuron model on customized prosthesis hardware (Infinite Biomedical Technologies, USA) to create a subject specific neuromorphic spiking output from previously developed force sensors on a bebionic3 prosthetic hand (Steeper, UK) [ 5 ].

    Techniques:

    Neuromorphic tactile signal during the prosthesis grasping task. The LIF neuron model produces spikes, using stimulation and frequency detection thresholds for subject A2 to determine the pulse width (1 ms) and frequency range (0 - 20 Hz). This spiking output form the prosthesis sensors can then be used as feedback on the residual limb to create the closed-loop prosthesis.

    Journal: IEEE Biomedical Circuits and Systems Conference : healthcare technology : [proceedings]. IEEE Biomedical Circuits and Systems Conference

    Article Title: Targeted Transcutaneous Electrical Nerve Stimulation for Phantom Limb Sensory Feedback

    doi: 10.1109/biocas.2017.8325200

    Figure Lengend Snippet: Neuromorphic tactile signal during the prosthesis grasping task. The LIF neuron model produces spikes, using stimulation and frequency detection thresholds for subject A2 to determine the pulse width (1 ms) and frequency range (0 - 20 Hz). This spiking output form the prosthesis sensors can then be used as feedback on the residual limb to create the closed-loop prosthesis.

    Article Snippet: As a demonstration, we implemented a leaky integrate and fire neuron model on customized prosthesis hardware (Infinite Biomedical Technologies, USA) to create a subject specific neuromorphic spiking output from previously developed force sensors on a bebionic3 prosthetic hand (Steeper, UK) [ 5 ].

    Techniques: