Presentation is loading. Please wait.

Presentation is loading. Please wait.

Connecting Brains with Machines The Neural Control of 2D Cursor Movement M. J. Black, E. Bienenstock, J.P. Donoghue, M.

Published by Modified over 9 years ago

Similar presentations

Presentation on theme: "Connecting Brains with Machines The Neural Control of 2D Cursor Movement M. J. Black, E. Bienenstock, J.P. Donoghue, M."— Presentation transcript:

1 Connecting Brains with Machines The Neural Control of 2D Cursor Movement http://www.cs.uml.edu/~hgoodell M. J. Black, E. Bienenstock, J.P. Donoghue, M. Serruya, Wei Wu; Yun Gao, Proceedings of the First International IEEE EMBS Conference on Neural Engineering, pp. 610-613, Mar. 2003. http://donoghue.neuro.brown.edu/pubs/capri%20IEEE%20review.pdf

2 Neural Control of 2D Movement

3 Firing rate vs. velocity Firing rate roughly relative to speed Rough cosine dependence to preferred angle of motion Zc = h3 + hx vx + hy vy

4 Firing rate vs. velocity Measured Speed vs. DirectionBest Linear Model

5 Firing rate vs. position At a slower time scale (1.4 second vs. 70 ms for position), firing rate is also proportional to position.

6 Firing rate vs. position Measured positionBest Linear Model

7 General Linear Model Zk = Hxk + qk Z = vector of firing rates of sampled cells xk = x6 matrix (x,y position, velocity, accel) H = matrix of coefficients relating each cell’s firing rate to these 6 properties. Kalman filter trained with 3.5 minutes of data

8 Model performance (Kalman filter)

Download ppt "Connecting Brains with Machines The Neural Control of 2D Cursor Movement M. J. Black, E. Bienenstock, J.P. Donoghue, M."

Similar presentations

PHYSICS Vectors and Scalars.

PHYSICS Vectors and Scalars.
Inferring Hand Motion from Multi-Cell Recordings in Motor Cortex using a Kalman Filter Wei Wu*, Michael Black †, Yun Gao*, Elie Bienenstock* §, Mijail.

Inferring Hand Motion from Multi-Cell Recordings in Motor Cortex using a Kalman Filter Wei Wu*, Michael Black †, Yun Gao*, Elie Bienenstock* §, Mijail.
Motion and Forces Unit Chapter 1 Section 3. Acceleration.

Motion and Forces Unit Chapter 1 Section 3. Acceleration.
Linear Motion III Acceleration, Velocity vs. Time Graphs.

Linear Motion III Acceleration, Velocity vs. Time Graphs.
Mass and Acceleration. Mass  Matter has substance. Solids, liquids or gasesSolids, liquids or gases Subatomic particlesSubatomic particles Planets and.

Mass and Acceleration. Mass  Matter has substance. Solids, liquids or gasesSolids, liquids or gases Subatomic particlesSubatomic particles Planets and.
NEWTON’S SECOND LAW OF MOTION Law of Acceleration.

NEWTON’S SECOND LAW OF MOTION Law of Acceleration.
Linear Motion. Moving things have two different kinds of motion Linear Motion Harmonic Motion Motion is a change in position in a certain amount of time.

Linear Motion. Moving things have two different kinds of motion Linear Motion Harmonic Motion Motion is a change in position in a certain amount of time.
Motion ISCI 2002. Speed Speed: change in distance over time Speed =  d /  t Constant vs. Average Speed Speed is a ‘scalar’ quantity – No directional.

Motion ISCI Speed Speed: change in distance over time Speed =  d /  t Constant vs. Average Speed Speed is a ‘scalar’ quantity – No directional.
Science Starter! Complete the worksheet “Science Starter!” (on teacher’s desk).

Science Starter! Complete the worksheet “Science Starter!” (on teacher’s desk).
Interpreting Motion Graphs {Forces and Motion. Distance vs Time Graphs The motion of an object is defined by its change of position over a period of time.

Interpreting Motion Graphs {Forces and Motion. Distance vs Time Graphs The motion of an object is defined by its change of position over a period of time.
STUDY, MODEL & INTERFACE WITH MOTOR CORTEX Presented by - Waseem Khatri.

STUDY, MODEL & INTERFACE WITH MOTOR CORTEX Presented by - Waseem Khatri.
Characterisation of the mean and time dependent properties of inclined oil-in- water pipe flows using 4-sensor probes G. Lucas and Xin Zhao University.

Characterisation of the mean and time dependent properties of inclined oil-in- water pipe flows using 4-sensor probes G. Lucas and Xin Zhao University.
Vectors and Two Dimensional Motion Chapter 3. Scalars vs. Vectors Vectors indicate direction ; scalars do not. Scalar – magnitude with no direction Vector.

Vectors and Two Dimensional Motion Chapter 3. Scalars vs. Vectors Vectors indicate direction ; scalars do not. Scalar – magnitude with no direction Vector.
Part 1 Motion in Two Dimensions Scalars A scalar is a quantity that can be completely described by a single value called magnitude. Magnitude means size.

Part 1 Motion in Two Dimensions Scalars A scalar is a quantity that can be completely described by a single value called magnitude. Magnitude means size.
Displacement vs Time, Velocity vs Time, and Acceleration vs Time Graphs.

Displacement vs Time, Velocity vs Time, and Acceleration vs Time Graphs.
Encoding/Decoding of Arm Kinematics from Simultaneously Recorded MI Neurons Y. Gao, E. Bienenstock, M. Black, S.Shoham, M.Serruya, J. Donoghue Brown Univ.,

Encoding/Decoding of Arm Kinematics from Simultaneously Recorded MI Neurons Y. Gao, E. Bienenstock, M. Black, S.Shoham, M.Serruya, J. Donoghue Brown Univ.,
Detecting Hidden Messages Using Higher-Order Statistics and Support Vector Machines Siwei Lyu and Hany Farid Department of Computer Science, Dartmouth.

Detecting Hidden Messages Using Higher-Order Statistics and Support Vector Machines Siwei Lyu and Hany Farid Department of Computer Science, Dartmouth.
Handwritten Hindi Numerals Recognition Kritika Singh Akarshan Sarkar Mentor- Prof. Amitabha Mukerjee.

Handwritten Hindi Numerals Recognition Kritika Singh Akarshan Sarkar Mentor- Prof. Amitabha Mukerjee.
Motion ISCI 2002. Speed: change in distance over time Speed =  d /  t Constant vs. Average Speed Speed is a ‘scalar’ quantity No directional properties.

Motion ISCI Speed: change in distance over time Speed =  d /  t Constant vs. Average Speed Speed is a ‘scalar’ quantity No directional properties.
Accelerated Motion. is changing either the speed or direction, or both, of motion. Acceleration is the rate of change of velocity, in other words, how.

Accelerated Motion. is changing either the speed or direction, or both, of motion. Acceleration is the rate of change of velocity, in other words, how.

Similar presentations

Ads by Google