Dr. Alan Peters is an Associate Professor of Electrical Engineering in the Department of Electrical Engineering and Computer Science.  He is a member of the Center for Intelligent Systems where he directs research on the humanoid robot, ISAC, and on various mobile robots at the Cognitive Robotics Laboratory.  He is also has worked with members of the Department of Psychology Cognitive Sciences Group, and the Department of Physics and Astronomy.  He is a member of the NASA Robonaut research team and is the Chief Technology Officer of Universal Robotics.  Curriculum Vita (HTML) or (PDF)

Teaching

Computer Vision

EECE 254 Computer Vision I 

Engineering Mathematics

EECE 311 Systems Theory

Image Processing

EECE 253 Image Processing I 

Microcontrollers

EECE 218 Introduction to Microcontrollers

Robotics

EECE 395-2 Special Topics:  Behavior-Based Robotics

Signal Processing

EECE 253 Signal Processing and Communications

Research

Alan Peters's current research is on the acquisition of intelligent behaviors by sensory-guided robots.  His previous work includes image processing,  mathematical morphology, and electromagnetic scattering.  Sensory-guided robotics is the integration of exteroception (such as computer vision, audition, touch, range mapping) and proprioception (the sensing of internal states including joint position and velocity) with action for navigation, articulated motion, and dexterous manipulation.  Peters is studying the integration of these functions through the robot learning of Sensory-Motor Coordination (SMC).  The approach builds on the self-organization of SMC information in response to a robot's actions within a loosely structured environment.  The goal is to enable a robot to learn through its own experiences and, ultimately, to interact naturally with the world.  Many of the papers listed in his CV are on these subjects.

Mathematical morphology is a theory of nonlinear image processing that is primarily concerned with the quantitative analysis of shape.  Peters's primary theoretical contributions to the subject are the description and properties of pseudo bandpass morphological filters and a definition of a mathematical morphology for color images.  His primary practical contributions have been morphological methods for image noise reduction and feature enhancement as well as a freely distributed software package  (for unix) that implements the morphological image operators and algorithms for use on digital images.  See his Lecture Notes on Image Processing  for an introduction to the subject. 

Images can be created in part because electromagnetic radiation in the form of visible light is scattered by material surfaces.  The appearance of an object in an image is determined both by the shape of the object and the light scattering properties of the materials in the object.  Given an image of an object, if the scattering function is known, it is theoretically possible to mathematically determine the shape of the object.  Peters has researched the scattering of light from objects as a function of the micro scale structure of surfaces. Such analysis could lead to useful algorithms for the determination of shape from shading.  See his Lecture Notes on Light Scattering for an introduction to the subject.  For a general introduction to the history of electromagnetism see, A Brief Outline of the History of Electromagnetics.
 

Document Viewers 

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 Education

Ph.D.

Electrical Engineering

1988

University of Arizona,  Tucson Arizona, USA.

M.S.

Electrical Engineering

1985

University of Arizona, Tucson Arizona, USA.

A.B.

Mathematics & Electronic Music

1979

Oberlin College,  Oberlin Ohio, USA.

H.S.

Music

1974

Youngsville High School, Youngsville  Pennsylvania, USA.

Contact

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Address:

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Mailing
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Phone:

(615) 322-7924 

FAX:

(615) 343-6702 

Email:

rap2@vuse.vanderbilt.edu  or Alan.Peters@Vanderbilt.Edu

Personal Homepage:

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