| scholarly article | Q13442814 |
| P50 | author | Bradley Greger | Q30508221 |
| Hansjörg Scherberger | Q41045930 | ||
| P2093 | author name string | R A Andersen | |
| B D Corneil | |||
| S Musallam | |||
| P433 | issue | 5681 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | neuroprosthetics | Q1431093 |
| P304 | page(s) | 258-262 | |
| P577 | publication date | 2004-07-01 | |
| P1433 | published in | Science | Q192864 |
| P1476 | title | Cognitive control signals for neural prosthetics | |
| P478 | volume | 305 |
| Q44185025 | "Master" neurons induced by operant conditioning in rat motor cortex during a brain-machine interface task. |
| Q34001020 | A biomimetic adaptive algorithm and low-power architecture for implantable neural decoders |
| Q41769935 | A closed-loop human simulator for investigating the role of feedback control in brain-machine interfaces |
| Q35542193 | A cognitive neuroprosthetic that uses cortical stimulation for somatosensory feedback |
| Q34405105 | A cortical-spinal prosthesis for targeted limb movement in paralysed primate avatars |
| Q36880800 | A dynamical systems view of motor preparation: implications for neural prosthetic system design |
| Q34569050 | A high-performance brain-computer interface |
| Q30647112 | A high-performance keyboard neural prosthesis enabled by task optimization |
| Q57460340 | A large electroencephalographic motor imagery dataset for electroencephalographic brain computer interfaces |
| Q43098190 | A mixed filter algorithm for cognitive state estimation from simultaneously recorded continuous and binary measures of performance |
| Q41511905 | A new feature extraction method for signal classification applied to cord dorsum potential detection |
| Q42424163 | A new rodent behavioral paradigm for studying forelimb movement |
| Q38075389 | A primer on brain-machine interfaces, concepts, and technology: a key element in the future of functional neurorestoration |
| Q34672341 | A real-time brain-machine interface combining motor target and trajectory intent using an optimal feedback control design |
| Q43977540 | A reductionist approach to the analysis of learning in brain-computer interfaces |
| Q30478447 | A reward-modulated hebbian learning rule can explain experimentally observed network reorganization in a brain control task |
| Q50417253 | A simulation study on the effects of neuronal ensemble properties on decoding algorithms for intracortical brain-machine interfaces. |
| Q48435167 | A state-space analysis for reconstruction of goal-directed movements using neural signals. |
| Q35909322 | Adaptive decoding for brain-machine interfaces through Bayesian parameter updates |
| Q39720016 | Adaptive neuron-to-EMG decoder training for FES neuroprostheses |
| Q33981023 | Adaptive offset correction for intracortical brain-computer interfaces. |
| Q57860457 | Advanced User Interfaces for Upper Limb Functional Electrical Stimulation |
| Q37324013 | Advanced neurotechnologies for chronic neural interfaces: new horizons and clinical opportunities. |
| Q34734832 | Advances in neuroprosthetic learning and control |
| Q56689774 | Animal Consciousness: Paradigm Change in the Life Sciences |
| Q42076581 | Are muscle synergies useful for neural control? |
| Q37428594 | Asynchronous decoding of dexterous finger movements using M1 neurons |
| Q43516753 | Asynchronous decoding of finger position and of EMG during precision grip using CM cell activity: application to robot control. |
| Q47176795 | Augmenting intracortical brain-machine interface with neurally driven error detectors |
| Q27690665 | Autonomous head-mounted electrophysiology systems for freely behaving primates |
| Q36115932 | Behavioral and neural correlates of visuomotor adaptation observed through a brain-computer interface in primary motor cortex |
| Q42673033 | Bias, optimal linear estimation, and the differences between open-loop simulation and closed-loop performance of spiking-based brain-computer interface algorithms |
| Q38576365 | Brain control and information transfer |
| Q33587488 | Brain control of movement execution onset using local field potentials in posterior parietal cortex |
| Q24802540 | Brain versus Machine Control |
| Q39169358 | Brain-Machine Interfaces: From Basic Science to Neuroprostheses and Neurorehabilitation. |
| Q88719016 | Brain-Machine Interfaces: Powerful Tools for Clinical Treatment and Neuroscientific Investigations |
| Q36867332 | Brain-computer interface systems: progress and prospects |
| Q36718913 | Brain-computer interfaces as new brain output pathways. |
| Q37983176 | Brain-computer interfaces in medicine |
| Q37286694 | Brain-computer interfaces in neurological rehabilitation |
| Q36268958 | Brain-computer interfaces--the key for the conscious brain locked into a paralyzed body |
| Q34709109 | Brain-machine interface for eye movements |
| Q36935118 | Brain-machine interfaces and transcranial stimulation: future implications for directing functional movement and improving function after spinal injury in humans |
| Q37989956 | Brain-machine interfaces for motor control: a guide for neuroscience clinicians |
| Q47341152 | Brain-state classification and a dual-state decoder dramatically improve the control of cursor movement through a brain-machine interface |
| Q28271314 | Breaking the silence: brain-computer interfaces (BCI) for communication and motor control |
| Q37831709 | Challenges and opportunities for next-generation intracortically based neural prostheses |
| Q47175435 | Changes in cortical network connectivity with long-term brain-machine interface exposure after chronic amputation |
| Q33997248 | Characterization of neural activity recorded from the descending tracts of the rat spinal cord |
| Q36098884 | Choosing the greater of two goods: neural currencies for valuation and decision making |
| Q35049784 | Chronic tissue response to untethered microelectrode implants in the rat brain and spinal cord |
| Q54970125 | Classification of Targets and Distractors Present in Visual Hemifields Using Time-Frequency Domain EEG Features. |
| Q36573420 | Coding of attention across the human intraparietal sulcus |
| Q35302602 | Coding of reward probability and risk by single neurons in animals |
| Q64094998 | Cognition in Sensorimotor Control: Interfacing With the Posterior Parietal Cortex |
| Q33770552 | Cognitive neural prosthetics |
| Q30525847 | Cognitive signals for brain-machine interfaces in posterior parietal cortex include continuous 3D trajectory commands |
| Q40307194 | Comment on "In monkeys making value-based decisions, LIP neurons encode cue salience and not action value". |
| Q34142107 | Comparing temporal aspects of visual, tactile, and microstimulation feedback for motor control |
| Q37510022 | Comparison of classifiers for decoding sensory and cognitive information from prefrontal neuronal populations |
| Q35095287 | Comparison of spike sorting and thresholding of voltage waveforms for intracortical brain-machine interface performance |
| Q46979957 | Continuous closed-loop decoder adaptation with a recursive maximum likelihood algorithm allows for rapid performance acquisition in brain-machine interfaces. |
| Q30538064 | Continuous neuronal ensemble control of simulated arm reaching by a human with tetraplegia |
| Q21560912 | Continuous three-dimensional control of a virtual helicopter using a motor imagery based brain-computer interface |
| Q34782288 | Cortical control of a prosthetic arm for self-feeding |
| Q33987050 | Cortical ensemble adaptation to represent velocity of an artificial actuator controlled by a brain-machine interface. |
| Q38562667 | Cortical neuroprosthetics from a clinical perspective |
| Q36788956 | Cortical plasticity: a view from nonhuman primates. |
| Q47271942 | Cortical-based neuroprosthetics: when less may be more |
| Q38892510 | Decoding Information for Grasping from the Macaque Dorsomedial Visual Stream. |
| Q39051917 | Decoding a wide range of hand configurations from macaque motor, premotor, and parietal cortices. |
| Q35616622 | Decoding movement intent from human premotor cortex neurons for neural prosthetic applications |
| Q35198497 | Decoding of visual attention from LFP signals of macaque MT |
| Q37308289 | Decoding trajectories from posterior parietal cortex ensembles |
| Q48087636 | Decoding visual inputs from multiple neurons in the human temporal lobe |
| Q40028470 | Definitions of state variables and state space for brain-computer interface : Part 1. Multiple hierarchical levels of brain function |
| Q30580684 | Demonstration of a semi-autonomous hybrid brain-machine interface using human intracranial EEG, eye tracking, and computer vision to control a robotic upper limb prosthetic. |
| Q108127373 | Dendritic calcium signals in rhesus macaque motor cortex drive an optical brain-computer interface |
| Q43534362 | Design and analysis of closed-loop decoder adaptation algorithms for brain-machine interfaces. |
| Q42142902 | Design and validation of a real-time spiking-neural-network decoder for brain-machine interfaces |
| Q37425978 | Design of a cybernetic hand for perception and action. |
| Q36957007 | Detecting neural-state transitions using hidden Markov models for motor cortical prostheses |
| Q34598772 | Direct control of paralysed muscles by cortical neurons |
| Q40195193 | Direct instrumental conditioning of neural activity using functional magnetic resonance imaging-derived reward feedback. |
| Q30478211 | Dissociable effects of the implicit and explicit memory systems on learning control of reaching |
| Q34664369 | Dopamine modulates the neural representation of subjective value of food in hungry subjects |
| Q24630593 | Dorsal premotor neurons encode the relative position of the hand, eye, and goal during reach planning |
| Q48416918 | Dynamic encoding of movement direction in motor cortical neurons. |
| Q43232338 | Dynamic response-by-response models of matching behavior in rhesus monkeys |
| Q30498153 | EEG control of a virtual helicopter in 3-dimensional space using intelligent control strategies |
| Q35781120 | Early planning activity in frontal and parietal cortex in a simplified task |
| Q48607919 | Effects of noise correlations on information encoding and decoding. |
| Q38018363 | Efficient coding and the neural representation of value. |
| Q42087366 | Efficient universal computing architectures for decoding neural activity. |
| Q33484711 | Emergence of a stable cortical map for neuroprosthetic control |
| Q91641499 | Emerging ideas and tools to study the emergent properties of the cortical neural circuits for voluntary motor control in non-human primates |
| Q37375433 | Emulation of computer mouse control with a noninvasive brain-computer interface. |
| Q55034940 | Encoding of Spatial Attention by Primate Prefrontal Cortex Neuronal Ensembles. |
| Q48895208 | Encoding-based brain-computer interface controlled by non-motor area of rat brain. |
| Q41810225 | Explicit neural signals reflecting reward uncertainty. |
| Q37396807 | Extracting information from neuronal populations: information theory and decoding approaches |
| Q58835325 | Fabrication of Responsive, Softening Neural Interfaces |
| Q37298734 | Factor-analysis methods for higher-performance neural prostheses |
| Q50129604 | Feature Selection Methods for Robust Decoding of Finger Movements in a Non-human Primate. |
| Q41580277 | Forward Prediction in the Posterior Parietal Cortex and Dynamic Brain-Machine Interface |
| Q24605301 | Free will debates: Simple experiments are not so simple |
| Q26738392 | From Trust in Automation to Decision Neuroscience: Applying Cognitive Neuroscience Methods to Understand and Improve Interaction Decisions Involved in Human Automation Interaction |
| Q92217238 | From thought to action: The brain-machine interface in posterior parietal cortex |
| Q37039613 | Functional network reorganization during learning in a brain-computer interface paradigm |
| Q48158212 | General-purpose filter design for neural prosthetic devices |
| Q37351635 | Goal selection versus process control in a brain-computer interface based on sensorimotor rhythms |
| Q48859140 | Grasp movement decoding from premotor and parietal cortex. |
| Q90707619 | Hand Knob Area of Premotor Cortex Represents the Whole Body in a Compositional Way |
| Q33784201 | High accuracy decoding of movement target direction in non-human primates based on common spatial patterns of local field potentials |
| Q37656675 | High performance communication by people with paralysis using an intracortical brain-computer interface |
| Q40819185 | How many neurons can we see with current spike sorting algorithms? |
| Q36734735 | Human cortical prostheses: lost in translation? |
| Q34138304 | Human neocortical electrical activity recorded on nonpenetrating microwire arrays: applicability for neuroprostheses |
| Q48313766 | Human parietal "reach region" primarily encodes intrinsic visual direction, not extrinsic movement direction, in a visual motor dissociation task. |
| Q30497036 | Human posterior parietal cortex plans where to reach and what to avoid |
| Q37486541 | Human reinforcement learning subdivides structured action spaces by learning effector-specific values |
| Q37310124 | Identification of a self-paced hitting task in freely moving rats based on adaptive spike detection from multi-unit M1 cortical signals |
| Q30356760 | Implications for a Wireless, External Device System to Study Electrocorticography |
| Q35968158 | Inactivation of Parietal Reach Region Affects Reaching But Not Saccade Choices in Internally Guided Decisions. |
| Q41979979 | Incorporating feedback from multiple sensory modalities enhances brain-machine interface control. |
| Q33533303 | Integration of sensory and reward information during perceptual decision-making in lateral intraparietal cortex (LIP) of the macaque monkey |
| Q30423752 | Intention concepts and brain-machine interfacing |
| Q48858293 | Intentional signal in prefrontal cortex generalizes across different sensory modalities. |
| Q39047743 | Interfacing to the brain's motor decisions |
| Q26738442 | Intracortical Brain-Machine Interfaces Advance Sensorimotor Neuroscience |
| Q51072588 | Intuitive prosthetic limb control. |
| Q34269368 | Latent inputs improve estimates of neural encoding in motor cortex. |
| Q41286887 | Leveraging neural dynamics to extend functional lifetime of brain-machine interfaces |
| Q90010264 | Low and high stimulation frequencies differentially affect automated response selection in the superior parietal cortex - implications for somatosensory area processes |
| Q41823958 | Minimum requirements for accurate and efficient real-time on-chip spike sorting |
| Q64107292 | Mixed Spatial and Movement Representations in the Primate Posterior Parietal Cortex |
| Q48411861 | Mixture of trajectory models for neural decoding of goal-directed movements. |
| Q30402001 | Modulation of neural activity by reward in medial intraparietal cortex is sensitive to temporal sequence of reward |
| Q48890118 | Motor cortex neural correlates of output kinematics and kinetics during isometric-force and arm-reaching tasks. |
| Q33651042 | Motor preparatory activity in posterior parietal cortex is modulated by subjective absolute value |
| Q39122735 | Neural coding for effective rehabilitation |
| Q42174533 | Neural control of computer cursor velocity by decoding motor cortical spiking activity in humans with tetraplegia |
| Q30541581 | Neural control of cursor trajectory and click by a human with tetraplegia 1000 days after implant of an intracortical microelectrode array |
| Q46378262 | Neural correlates of skill acquisition with a cortical brain-machine interface |
| Q41910628 | Neural events in the reinforcement contingency |
| Q36999787 | Neural interfaces at the nanoscale |
| Q36431266 | Neural population partitioning and a concurrent brain-machine interface for sequential motor function |
| Q47188391 | Neuron-Type-Specific Utility in a Brain-Machine Interface: a Pilot Study. |
| Q22241960 | Neuronal Reward and Decision Signals: From Theories to Data |
| Q33954750 | Neuronal spike train analysis in likelihood space |
| Q47691271 | Neurons in dorsal premotor cortex represent the switching of intended hand path in a delayed reaching task |
| Q36978551 | Neurophysiology. Decoding motor imagery from the posterior parietal cortex of a tetraplegic human |
| Q28084691 | Neuroplasticity subserving the operation of brain-machine interfaces |
| Q37200531 | Neuroprosthetic devices: how far are we from recovering movement in paralyzed patients? |
| Q49132662 | Neuroscience. Attention--voluntary control of brain cells. |
| Q47678082 | Neuroscience: Brain control of a helping hand |
| Q37768675 | New Perspectives on the Dialogue between Brains and Machines |
| Q37288030 | Observation-based learning for brain-machine interfaces |
| Q38447460 | On brain activity mapping: insights and lessons from Brain Decoding Project to map memory patterns in the hippocampus |
| Q26827789 | On initial Brain Activity Mapping of episodic and semantic memory code in the hippocampus |
| Q30477998 | On-line, voluntary control of human temporal lobe neurons |
| Q102141709 | Operant conditioning of motor cortex neurons reveals neuron-subtype-specific responses in a brain-machine interface task |
| Q33783768 | Operant conditioning of primate prefrontal neurons |
| Q37725115 | Optic ataxia: from Balint's syndrome to the parietal reach region |
| Q55318467 | Optimizing the learning rate for adaptive estimation of neural encoding models. |
| Q27308117 | Parietal neural prosthetic control of a computer cursor in a graphical-user-interface task |
| Q39928640 | Perception of electrical and mechanical stimulation of the skin: implications for electrotactile feedback |
| Q38160373 | Personalized neuroprosthetics |
| Q35804115 | Point-and-click cursor control with an intracortical neural interface system by humans with tetraplegia |
| Q37117119 | Posterior parietal cortex encodes autonomously selected motor plans |
| Q30228828 | Posterior parietal cortex role in a sensorimotor task performance |
| Q50945619 | Predicting movement from multiunit activity. |
| Q36738891 | Prediction of imagined single-joint movements in a person with high-level tetraplegia |
| Q45731586 | Prefrontal neurons of opposite spatial preference display distinct target selection dynamics. |
| Q48467524 | Preparatory activity in premotor and motor cortex reflects the speed of the upcoming reach. |
| Q34988056 | Principles of neural ensemble physiology underlying the operation of brain-machine interfaces. |
| Q36805085 | Probability-based prediction of activity in multiple arm muscles: implications for functional electrical stimulation |
| Q34786323 | Profile of Richard A. Andersen |
| Q30557751 | Quadcopter control in three-dimensional space using a noninvasive motor imagery-based brain-computer interface |
| Q30834686 | Rapid control and feedback rates enhance neuroprosthetic control |
| Q24630689 | Reach and grasp by people with tetraplegia using a neurally controlled robotic arm. |
| Q34428046 | Reactivation of emergent task-related ensembles during slow-wave sleep after neuroprosthetic learning |
| Q42209297 | Recasting brain-machine interface design from a physical control system perspective |
| Q61806599 | Reduced neural representation of arm/hand actions in the medial posterior parietal cortex |
| Q36101388 | Reprogramming movements: extraction of motor intentions from cortical ensemble activity when movement goals change |
| Q33920884 | Responses of amygdala neurons to positive reward-predicting stimuli depend on background reward (contingency) rather than stimulus-reward pairing (contiguity) |
| Q34198770 | Restoration of motor function following spinal cord injury via optimal control of intraspinal microstimulation: toward a next generation closed-loop neural prosthesis. |
| Q38205112 | Restoring sensorimotor function through intracortical interfaces: progress and looming challenges |
| Q30519503 | Reversible large-scale modification of cortical networks during neuroprosthetic control |
| Q39171164 | Review: Human Intracortical recording and neural decoding for brain-computer interfaces |
| Q47352532 | Reward Size Informs Repeat-Switch Decisions and Strongly Modulates the Activity of Neurons in Parietal Cortex |
| Q35316041 | Reward-based decision signals in parietal cortex are partially embodied. |
| Q35976685 | Robust Brain-Machine Interface Design Using Optimal Feedback Control Modeling and Adaptive Point Process Filtering |
| Q34479208 | Robust neuroprosthetic control from the stroke perilesional cortex. |
| Q36856898 | Role of electrical stimulation for rehabilitation and regeneration after spinal cord injury: an overview |
| Q34034321 | Selective visual attention to drive cognitive brain-machine interfaces: from concepts to neurofeedback and rehabilitation applications |
| Q37086735 | Selectivity for grasp in local field potential and single neuron activity recorded simultaneously from M1 and F5 in the awake macaque monkey |
| Q35369168 | Self-recalibrating classifiers for intracortical brain-computer interfaces |
| Q37955377 | Sensing with the motor cortex |
| Q34481816 | Sensorimotor learning biases choice behavior: a learning neural field model for decision making |
| Q38122196 | Sensors and decoding for intracortical brain computer interfaces |
| Q21129347 | Sensory synergy as environmental input integration |
| Q27330296 | Shaping the dynamics of a bidirectional neural interface |
| Q48697527 | Simple spike firing in the posterior lateral cerebellar cortex of Macaque Mulatta was correlated with success-failure during a visually guided reaching task. |
| Q37218261 | Simultaneous modeling of visual saliency and value computation improves predictions of economic choice |
| Q42761503 | Single trial prediction of self-paced reaching directions from EEG signals. |
| Q50897565 | Single-neuron stability during repeated reaching in macaque premotor cortex. |
| Q38565832 | Single-trial decoding of intended eye movement goals from lateral prefrontal cortex neural ensembles |
| Q33750010 | Speeded near infrared spectroscopy (NIRS) response detection |
| Q42775795 | Spike train decoding without spike sorting |
| Q48693333 | Stable ensemble performance with single-neuron variability during reaching movements in primates. |
| Q42073301 | Statistical Signal Processing and the Motor Cortex |
| Q64114662 | Structure and variability of delay activity in premotor cortex |
| Q46169380 | Supplementary motor area encodes reward expectancy in eye-movement tasks |
| Q46168204 | Target selection signals for arm reaching in the posterior parietal cortex. |
| Q30664099 | Teaching brain-machine interfaces as an alternative paradigm to neuroprosthetics control. |
| Q36531946 | Temporal stability of visually selective responses in intracranial field potentials recorded from human occipital and temporal lobes. |
| Q34051227 | The Neurobiological Basis of Cognition: Identification by Multi-Input, Multioutput Nonlinear Dynamic Modeling: A method is proposed for measuring and modeling human long-term memory formation by mathematical analysis and computer simulation of [...] |
| Q35593737 | The emergence of single neurons in clinical neurology |
| Q48933043 | The functional consequences of chronic, physiologically effective intracortical microstimulation. |
| Q35734727 | The impact of mind-body awareness training on the early learning of a brain-computer interface |
| Q37578399 | The parietal reach region is limb specific and not involved in eye-hand coordination |
| Q37463140 | The science of neural interface systems |
| Q37063748 | The utility of multichannel local field potentials for brain-machine interfaces |
| Q47387512 | Toward an autonomous brain machine interface: integrating sensorimotor reward modulation and reinforcement learning. |
| Q26849428 | Toward more versatile and intuitive cortical brain-machine interfaces |
| Q37018575 | Toward optimal target placement for neural prosthetic devices |
| Q27348447 | Toward the restoration of hand use to a paralyzed monkey: brain-controlled functional electrical stimulation of forearm muscles |
| Q37347002 | Two-dimensional movement control using electrocorticographic signals in humans. |
| Q33482151 | Unscented Kalman filter for brain-machine interfaces. |
| Q35555417 | Vacillation, indecision and hesitation in moment-by-moment decoding of monkey motor cortex |
| Q33356857 | Variational Bayesian least squares: an application to brain-machine interface data |
| Q38978357 | Velocity neurons improve performance more than goal or position neurons do in a simulated closed-loop BCI arm-reaching task |
| Q40015694 | Volitional control of neural activity relies on the natural motor repertoire |
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