perm filename PHD[1,VDS]3 blob sn#091813
filedate 1974-03-12 generic text, type C, neo UTF8
COMMENT ⊗ VALID 00006 PAGES
C REC PAGE DESCRIPTION
C00002 00002 People, Degrees and Courses
C00006 00003 Statement of Purpose
People, Degrees and Courses
Principal Advisor- Prof. Bernard Roth
Others on Committee
Prof. John McCarthy
Prof. Jerome Feldman
Prof. David Thompson
Proposed Title for Deg. Ph. D. in Automation
Special field of investigation- Automated manufacturing systems
Tentative title of dissertation- A totally automated system for the design and
manufacture of sheet metal parts.
B.S. Aeronautics and Astronautics, Mass. Inst. of Tech. June 1963
M.S. Mechanical Engineering, Stanford University, June 1965
Diploma of Engineering-Fluid Dynamics, Von Karman Institute for Fluid Dynamics, Rhode St. Genese, Belgium- July 1967
Engineer- Mechanical Engineering, Stanford University, June 1969
Courses completed as a graduate student-(At Stanford Univ. unless noted)
Fluid Mechanics- Propulsion
AA280B Rocket Propulsion 2Q
AA280C Rocket Propulsion 2Q
AA282 Nuclear Propulsion 3Q
AA281 Electric Propulsion 3Q
ME138A Fluid Flow 3Q
ME238A Continum Fluid Mech. 3Q
AA220 Aerodynamic Physical Measurements 3Q
Fluidics -VKI- 3Q
Low Speed Aerodynamics- VKI 3Q
ME231A Heat Transmission 3Q
ME231B Heat Transmission 3Q
ME233 Adv. Thermodynamics 2B
Engr. 235 Satellite Syst. Eng. 6Q
EE373 Adaptive Systems 3Q
ME291 Engineering Problems 6Q - Solar Energy Systems Studies under Dr. William Bollay
ME217A Analytical Design 3Q
ME 116 a,b,c- Product Design 9Q
ME112a,b- Product Design- 6Q
ART 155B Design Problems 3Q
Mechanics and Dynamics
ME222 Kinematic Synthesis
EM202A Elasticity 3Q
EM221N Dynamics 3Q
EM222N Dynamics 3Q
ME218A Control Systems 3Q
EE128 Control Systems 3Q
EE171H Control Systems Lab. 3Q
ME228 Fluidics 3Q
Control Systems- VKI- 3Q
EM 250 Mathematical Methods 3Q
EM 251 Mathematical Methods 3Q
Seminars during several quarters
Engineers Deg. Thesis title: Design of a Computer Controlled Manipulator
Diploma Paper-VKI-" Pulsed and Oscillating Flow Thrust Augmenting Ejectors"
Bachelors Deg. thesis- M.I.T.- Design of a Fully Submerged Foil Hydrofoil Boat
Completed several other short courses, including Fortran and Algol Programming.
Engineering problem work with Profs. B. Roth, A. London, R. McKim and W. Bollay on
Proposed Course Program
One course in Industrial Engineering
One course in Advanced Programing
Statement of Purpose
The dissertation topic I have chosen- The Automated Sheet
Metal Shop- will require the use of facilities and capabilities of
various departments. Specifically, the topic will involve the
development of both new software and new hardware systems and an in
integrated management and control system to perform the proper
functions in a industrially and commercially realistic manner. My
sponsoring committee has been chosen from the fields which I think I
will draw most heavily from during the development and execution of
this dissertation. The initial phase will be a project planning
phase, involving a systems engineering approach with interaction with
industrial organizations. Part of this phase will also involve
obtaining sufficient funds and other material resources to enable
execution of the later hardware phases.
The software development section of the project will utilizee
many of the resources of the Artificial Intelligence project. The
design phase of the project will involve use of the A.I. project's
interactive graphics capability. Existing software and display
terminals will be used. New planning programs will have to be
developed, These programs will draw heavily on both current
industrial practice, and on new guidelines which will be developed as
the project progresses. These guidelines will be based on the
availability and use of multiple machines rather than single machine
oriented industrial planning programs.
Much of the operator feedback, during the design and planning
phase of the problem will come from data and performance
specifications obtained and developed from mechanical engineering,
manufacturing and control engineering considerations. This phase
will rely heavily on the engineering departments associated with the
The hardware development phase of the dissertation will make
use of both previous experience in the field of computer controlled
manipulators and machines and also draw heavily on the Mechanical
Engineering and Electrical Engineering Departments for their
capabilities and resources in the area of machine design and control
of these machines.
Statement of Purpose
The area of study which I have chosen- Automation- is
basically an interdisciplinary field. At present there is no one
department at Stanford which provides more than one or two courses in
My dissertation topic - The Automated Sheet Metal Shop-[see
attached Dissertation Proposal ] is a logical extension of both my
academic pursuits and my professional experience in the fields of
automation engineering and design of computer controlled manipulators
and devices. The topic I have proposed involves research, design,
and actual development, in both software and hardware of a complete
I have carefully studied the scope of this project, and feel
that to successfully execute the project in a reasonable period of
time will require both a close working relationship with my chosen
committee, and the use of a large number of University resources.
The members of my committee have been selected with the objective of
having a respected "consultant" in each of the major study areas.
The project will physically be located at the Stanford
Artificial Intelligence Laboratory which has the required computer
facilities. The laboratory also has the displays, computer controlled
manipulators, and supporting software and hardware to make a project
of this type a realistic goal at Stanford.
It is hoped that the results of this research will help to
map out new directions in automation, the most important being the
integration of the design and manufacturing process. It is expected
that these results will be of value in other fields as well; such as
helping to broaden artistic expression by giving artisians a new
complete tool, or as a detailing and construction planning aid to an
architect and contractor, or as a general purpose type of tool to
help the average individual by taking much of the manual labor out of
the inspection, maintainance and repair of standard devices in which
routine disassembly and assembly are required( e.g. automobile
repair, household appliance repair, televison repair).
In summary,I intend to synthesize more than a decade of
progress by computer scientists in the field of Artificial
Intelligence to produce a viable computer automated integrated
design, planning and manufacturing system.
Systems Engineering-Proposal, State of the Art Research, Feasability
Studies, Cost and Effort Planning, Funding.
Human Factors Engineering-Man-Machine Interface. Design Philosophy
Computer Graphics- Display Routines, Interactive Planning and
Product Design- Development of guidelines and models of building
block sheet metal parts and components.
Machine Design- Design and development of computer controlled and/or
Robot Factors Engineering-A new engineering disipline involving
Robot-Machine Interface Problems, Robot
Task planning,Design of machines to be
controlled and operated by robots and
Control Systems Engineering- R and D and Design of computer control
of machines and robots. Sensors and feedback devices and
Manufacturing Operations- Time, Motion, and Cost studies of sheet
metal fabrication. Sequence of operations. Estimation rules
and operational sequence planning and program development.
Programming- Development of new display, planning, interactive
design, machine-robot, sensing, and control routines.
Electrical Engineering and Logic Design- Planning and development of
computer-machine and computer-robot interface.
Prof. B. Roth- Industrial automation, design process ,machine design,
manufacturing processes, product design.
Prof. J. McCarthy- Conceptualization, imagination, allied fields
implications, programming philosophy,A.I.
Prof. J. Feldman- Display techniques, Programming guidance,
Computer-Machine and Robot-Machine
interfacing and programming.
Prof. D. Thompson- Human factors, robot factors, graphics and display
methods and approaches. Planning and weighting
of component sub-systems development.