%D8%B0%D8%B1%D8%A7%D8%B9_%D8%A2%D9%84%D9%8A%D8%A9%D0%A0%D0%B0%D0%B1%D0%B0%D1%82%D1%8B%D0%B7%D0%B0%D0%B2%D0%B0%D0%BD%D0%B0%D1%8F_%D1%80%D1%83%D0%BA%D0%B0Robotic_armBrazo_rob%C3%B3tico%D8%A8%D8%A7%D8%B2%D9%88%DB%8C_%D8%B1%D8%A8%D8%A7%D8%AA%DB%8C%DA%A9Bras_manipulateur%E3%83%AD%E3%83%9C%E3%83%83%E3%83%88%E3%82%A2%E3%83%BC%E3%83%A0%EB%A1%9C%EB%B4%87_%ED%8C%94Robotarm%E0%B9%81%E0%B8%82%E0%B8%99%E0%B8%AB%E0%B8%B8%E0%B9%88%E0%B8%99%E0%B8%A2%E0%B8%99%E0%B8%95%E0%B9%8CQ40687%E6%A9%9F%E6%A2%B0%E6%89%8B%E8%87%82
about
sameAs
P1056
Reach and grasp by people with tetraplegia using a neurally controlled robotic arm.A comparison of robotic arm versus gantry linear accelerator stereotactic body radiation therapy for prostate cancerA New Artificial Neural Network Approach in Solving Inverse Kinematics of Robotic Arm (Denso VP6242).Cortical Spiking Network Interfaced with Virtual Musculoskeletal Arm and Robotic ArmA supplementary system for a brain-machine interface based on jaw artifacts for the bidimensional control of a robotic armAdapting a Low-Cost Selective Compliant Articulated Robotic Arm for Spillage AvoidancePick-up, transport and release of a molecular cargo using a small-molecule robotic armSchool-based use of a robotic arm system by children with disabilities.Noninvasive Electroencephalogram Based Control of a Robotic Arm for Reach and Grasp Tasks.Is robotic arm stereotactic body radiation therapy “virtual high dose ratebrachytherapy” for prostate cancer? An analysis of comparative effectiveness using published data [corrected].High-precision robotic microcontact printing (R-μCP) utilizing a vision guided selectively compliant articulated robotic arm.Robust EMG sensing system based on data fusion for myoelectric control of a robotic armNoninvasive Electroencephalogram Based Control of a Robotic Arm for Writing Task Using Hybrid BCI System.From sensors to spikes: evolving receptive fields to enhance sensorimotor information in a robot-arm.Changes in motoneuron excitability in hemiplegic subjects after passive exercise when using a robotic arm.Adaptive and predictive control of a simulated robot arm.Minimally invasive robotic-arm-guided unicompartmental knee arthroplasty.Brain-machine interface via real-time fMRI: preliminary study on thought-controlled robotic armDevelopment of a 3D parallel mechanism robot arm with three vertical-axial pneumatic actuators combined with a stereo vision systemDevelopment of a stereo vision measurement system for a 3D three-axial pneumatic parallel mechanism robot arm.A study on a robot arm driven by three-dimensional trajectories predicted from non-invasive neural signals.Operation of a DNA robot arm inserted into a 2D DNA crystalline substrate.Comparison of three-dimensional, assist-as-needed robotic arm/hand movement training provided with Pneu-WREX to conventional tabletop therapy after chronic stroke.CyberKnife robotic arm stereotactic radiosurgery.Orthognathic model surgery by using of a passive Robot Arm.Indications for unicompartmental knee arthroplasty and rationale for robotic arm-assisted technology.Perioperative management of unicompartmental knee arthroplasty using the MAKO robotic arm system (MAKOplasty).Outcomes of robotic arm-assisted unicompartmental knee arthroplasty.Modular bicompartmental knee arthroplasty with robotic arm assistance.Robotic arm-assisted UKA improves tibial component alignment: a pilot study.Gaze Contingent Cartesian Control of a Robotic Arm for Laparoscopic Surgery.Robotic-Arm Assisted Surgery in Total Hip Arthroplasty.Acquisition and extinction of operant pain-related avoidance behavior using a 3 degrees-of-freedom robotic arm.Intuitive wireless control of a robotic arm for people living with an upper body disability.Robotic Arm-Assisted Sonography: Review of Technical Developments and Potential Clinical Applications.Complex Tasks by Users With upper-extremity disability Using a 6-DOF Robotic Arm: A Study.Robotic neurosurgery: a preliminary study using an active vision-guided robotic arm for bone drilling and endoscopic manoeuvres.A proposal for automatic fruit harvesting by combining a low cost stereovision camera and a robotic arm.A soft body as a reservoir: case studies in a dynamic model of octopus-inspired soft robotic arm.An open-source and cross-platform framework for Brain Computer Interface-guided robotic arm control.
P921
Q24630689-1539C8AB-1A68-4B2D-83B7-C21AF1D6559EQ26738278-C283476C-A44E-4ADE-B6A4-761F21317511Q27312635-E5386172-E2A0-4C5E-9078-D05FF7AB9D45Q27320500-5C874F3A-D1BF-4669-8352-14CA1F846E11Q27330383-8DEC4DB5-7FC1-47D7-8F0C-7D17F9224066Q28273392-2879358A-AD60-44CA-82DB-590E82253740Q29027367-925D865E-5902-4ED7-9DFE-D75A5B23345AQ30352617-E135C3AB-2DB7-4274-B330-230B6917D9EBQ30831921-DB9504FA-EE6A-436C-BA74-7A881F6004DDQ30881854-849B8574-C718-412F-AE8C-A7525294C607Q31159455-6F9D85DD-A84B-48B5-BB0D-6DD27C57B848Q33412602-771B877E-AC56-46C0-BE98-31828D3400B8Q33809018-DD0388FE-E081-475A-80D3-E91C2C8FB862Q34351504-CC1F9D68-07CB-4037-A89E-8F2126C56F20Q34560794-B7DC0CB9-AF63-4783-AD24-D93BF1618E23Q34694119-EEBBD6C6-4D7F-4766-A192-98B391F84C6DQ34933770-9F819D4E-8590-442C-AE4D-8C1FE8C7E61BQ35532324-56270FAE-0F81-47AF-BCF3-3752E9F22EDFQ35654451-F34BD9EE-A2BA-4C82-8159-67D8A7996894Q35741174-6983F108-A9D7-45B0-8726-A922DBF57EA7Q35986300-BC670855-C70D-41DB-83F4-2A805BA50A48Q36294949-CCA24AAD-2497-434B-BBFB-DFCCBB26CC25Q36366707-0547D871-6049-49DF-87D0-5BA61982FD4AQ36895077-0D288B9D-5C4C-4385-9193-D4DBABE163A1Q37299558-74C5D83D-9AC7-4F36-B0DB-199F04CE256CQ37429839-5F76D8C4-7644-4F42-B10A-3DD59F80F908Q37429844-0929FADC-6036-4960-B498-7B4E623A4D94Q37429849-CFC4D594-5869-48BE-A930-8E0F87122B7EQ37429854-60A33747-AFA4-46AA-8324-285DD06662ADQ37483461-0DC6E4E2-F3BB-4EED-B285-D9BBDE0A0348Q37706312-8B993624-ACB8-40FA-AE6D-9CB96AEB7E9BQ38521100-2D83870D-92FA-489C-A9E2-402CB648BDBDQ38921479-847FBA55-1860-48A1-B2C4-CF94303DC39AQ38924026-2B0FAC27-D7A5-4104-8E8E-4553F77D03CDQ38972224-5DEBED26-7F24-459C-816F-C85BFC00C476Q39004893-90D51346-BFB2-49DB-8F69-CD0864D33936Q39110115-2A2260D1-F150-40C5-9EC4-B872E5B014DEQ39166720-2ECAE1F6-C35E-43D3-83B1-7791139F657FQ39386108-BAF85D57-268F-4F63-85F9-DB07BCE89686Q39474337-3E09CC35-A84F-41C3-8A54-6A7213044AF1
P921
description
bras d'un robot généralement programmable
@fr
type of mechanical arm with similar functions to a human arm
@en
name
Brazo robótico
@es
Robotarm
@nl
Roboterarm
@de
bras manipulateur
@fr
braț robotic
@ro
robota brako
@eo
robotic arm
@en
Рабатызаваная рука
@be
роботизированная рука
@ru
بازوی رباتیک
@fa
type
label
Brazo robótico
@es
Robotarm
@nl
Roboterarm
@de
bras manipulateur
@fr
braț robotic
@ro
robota brako
@eo
robotic arm
@en
Рабатызаваная рука
@be
роботизированная рука
@ru
بازوی رباتیک
@fa
altLabel
Brazo robotico
@es
robot arm
@en
robotic arm
@en
ロボットアーム
@ja
机械手
@zh
机械臂
@zh
prefLabel
Brazo robótico
@es
Robotarm
@nl
Roboterarm
@de
bras manipulateur
@fr
braț robotic
@ro
robota brako
@eo
robotic arm
@en
Рабатызаваная рука
@be
роботизированная рука
@ru
بازوی رباتیک
@fa
P6366
P646
P1482
P3417
Robotic-Arm
P361
P373
Handling robots
P6366
P646
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