Decoding a new neural machine interface for control of artificial limbs.
about
On the viability of implantable electrodes for the natural control of artificial limbs: review and discussionElectromyographic control of a hands-free electrolarynx using neck strap musclesRobotic touch shifts perception of embodiment to a prosthesis in targeted reinnervation amputeesTargeted muscle reinnervation for real-time myoelectric control of multifunction artificial armsBioPatRec: A modular research platform for the control of artificial limbs based on pattern recognition algorithms.Improving the Robustness of Real-Time Myoelectric Pattern Recognition against Arm Position Changes in Transradial Amputees.EMG feature assessment for myoelectric pattern recognition and channel selection: a study with incomplete spinal cord injury.Non-invasive physiological monitoring of exercise and fitness.Reducing the Impact of Shoulder Abduction Loading on the Classification of Hand Opening and Grasping in Individuals with Poststroke Flexion Synergy.Study of stability of time-domain features for electromyographic pattern recognition.A novel channel selection method for multiple motion classification using high-density electromyographyDesign of a robust EMG sensing interface for pattern classification.Quantifying pattern recognition-based myoelectric control of multifunctional transradial prosthesesA strategy for identifying locomotion modes using surface electromyography.Examination of force discrimination in human upper limb amputees with reinnervated limb sensation following peripheral nerve transfer.Adaptive pattern recognition of myoelectric signals: exploration of conceptual framework and practical algorithmsSpatial filtering improves EMG classification accuracy following targeted muscle reinnervation.The effects of electrode size and orientation on the sensitivity of myoelectric pattern recognition systems to electrode shiftAmputation with median nerve redirection (targeted reinnervation) reactivates forepaw barrel subfield in rats.An analysis of EMG electrode configuration for targeted muscle reinnervation based neural machine interface.Targeted muscle reinnervation and advanced prosthetic arms.Improved myoelectric prosthesis control using targeted reinnervation surgery: a case series.Decoding of human hand actions to handle missing limbs in neuroprosthetics.Quantifying forearm muscle activity during wrist and finger movements by means of multi-channel electromyographyThe role of feed-forward and feedback processes for closed-loop prosthesis controlSample entropy analysis of surface EMG for improved muscle activity onset detection against spurious background spikes.A novel myoelectric pattern recognition strategy for hand function restoration after incomplete cervical spinal cord injury.Application of a self-enhancing classification method to electromyography pattern recognition for multifunctional prosthesis control.Sensory capacity of reinnervated skin after redirection of amputated upper limb nerves to the chestThe effect of involuntary motor activity on myoelectric pattern recognition: a case study with chronic stroke patientsProceedings of the first workshop on Peripheral Machine Interfaces: going beyond traditional surface electromyography.Muscle length-dependent contribution of motoneuron Cav1.3 channels to force production in model slow motor unit.Real-Time Control of an Exoskeleton Hand Robot with Myoelectric Pattern Recognition.An Adaptive Classification Strategy for Reliable Locomotion Mode Recognition.Spatio-spectral filters for low-density surface electromyographic signal classification.Myoelectric Pattern Recognition Outperforms Direct Control for Transhumeral Amputees with Targeted Muscle Reinnervation: A Randomized Clinical Trial.Upper limb cortical maps in amputees with targeted muscle and sensory reinnervation.Estimation of distal arm joint angles from EMG and shoulder orientation for transhumeral prostheses.Targeted Muscle Reinnervation for the Upper and Lower Extremity.Conditioning and sampling issues of EMG signals in motion recognition of multifunctional myoelectric prostheses.
P2860
Q26865297-AB2E926B-E74D-46C2-AED3-DF1A753B79B6Q28972543-5D256C27-39C8-4F7A-BA4A-47D788B2F8BBQ30469908-E2C1460E-00E3-4467-85E1-7D72DB6263A2Q30498136-C98892DF-5FF2-40C5-9F0C-31D256820882Q30540218-081575D5-F797-491C-A04B-054C837D4211Q33646419-440D7B24-7829-4AA3-88EE-0E9012D22187Q33707047-8BFC9100-3772-407C-8C04-49E3BDD5EA64Q33786361-38CA82BC-6C9A-4085-9B3B-CD40383E26A8Q33855290-DD4FF51B-6800-4E9C-AFC3-1DC609BCDE6DQ33895022-F95D94E3-D13B-4D34-8104-6F73EFA24A8EQ34016396-24CEA0EB-C935-4FEB-9200-27A8B1401134Q34206462-F6AE68F0-BBB1-4B32-9AA7-1427EACBDC62Q34510219-726D892D-5E3A-4F43-B637-39CB7A0BD292Q34512279-B63EA55E-58AA-4250-93A6-BEA43E4A0774Q34514550-1136427E-1FFF-4BAE-934B-28084940F066Q34514563-362B8B56-3C7F-4646-B018-A7C662E777B3Q34521658-3D1A9FC6-ED75-4023-B0DB-8E86BA63A9E7Q34522410-569DDDE9-46DD-4C0A-86DB-6ADC336E9596Q34776991-0B39BD62-2CAC-4755-B8F1-ACAD440942D5Q35046653-2D85B6A2-8B64-4C6A-ADAE-79BDEAD15B51Q35049745-44DAA32C-02AB-4A1F-8EA4-31155CDCB231Q35054147-3940F176-6ED4-4B60-A861-B2DC75C7FC21Q35124403-73560573-0D8F-47B8-B8C6-6054ABCD2FB7Q35308140-27A3A49D-9DA9-42BF-A33E-C181DAC8254DQ35582740-E64C2DB7-C7B3-46BE-A1F3-AE378C79AE16Q36446738-389E428E-E7AE-4083-BA74-7BA87E111023Q36672277-43D956F3-8859-4283-BED2-4441BBDEE492Q36945597-93E22BD4-61FD-4705-99E0-83E805793B66Q37201400-6996D68E-90D6-443C-A5D0-9BC47D2C2A46Q37261122-05ED3F65-2B13-44EB-87D4-6A8B1D2A82BAQ38245225-3AE2818F-A757-4A8D-B513-82EF5CE09556Q38881087-FB0F1284-D79B-41D9-931B-9E1BB6D45D02Q39165323-5869370C-179E-4B71-8BF9-CD938BADE73AQ42367228-110C5373-496C-4FC2-A4C1-EB6CA9D513A5Q45730583-82AA62C6-24AF-433A-9B80-DB3EB40BE600Q46192188-BD349A2A-12EF-471E-B853-E47A359B1E8AQ47395022-F8724276-4C92-465C-8783-D401B83F2C55Q48009519-FBC66A30-2866-4F70-8318-C1A3EE7D689CQ48779107-C6B2700A-47C2-4943-B697-67A1A6CF994CQ51021053-C2FCB605-7BF5-431C-A581-F7D8C6973678
P2860
Decoding a new neural machine interface for control of artificial limbs.
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年学术文章
@wuu
2007年学术文章
@zh
2007年学术文章
@zh-cn
2007年学术文章
@zh-hans
2007年学术文章
@zh-my
2007年学术文章
@zh-sg
2007年學術文章
@yue
2007年學術文章
@zh-hant
name
Decoding a new neural machine interface for control of artificial limbs.
@en
Decoding a new neural machine interface for control of artificial limbs.
@nl
type
label
Decoding a new neural machine interface for control of artificial limbs.
@en
Decoding a new neural machine interface for control of artificial limbs.
@nl
prefLabel
Decoding a new neural machine interface for control of artificial limbs.
@en
Decoding a new neural machine interface for control of artificial limbs.
@nl
P2093
P2860
P356
P1476
Decoding a new neural machine interface for control of artificial limbs.
@en
P2093
Guanglin Li
Julius P A Dewald
Kevin B Englehart
Levi Hargrove
Todd A Kuiken
P2860
P304
P356
10.1152/JN.00178.2007
P407
P577
2007-08-29T00:00:00Z