program offerings b.s. in electrical engineering - accredited since 1972 concentration in computer...
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PROGRAM OFFERINGS
B.S. in Electrical Engineering - Accredited since 1972Concentration in Computer Engineering 1979
Proposed Concentration in Systems Engineering - 2010
Master of Engineering - 1979Concentration in Electrical Engineering (Power Systems)Concentration in Biomedical Engineering
M.S. in Computer and Information Systems Engineering - 1997
Ph.D. in Computer and Information Systems Engineering - 2001
Reforming Electric Energy Curriculum TSU-ECE
Local [5] State [5] National [6]
Title 2006 2016 percentoverallgrowth
2006 2016 percent overall growth
2008 2018 percent overall growth
Computer and MathematicalOccupations 15-0000
11680 14320 22.6% 39650 47870 20.7% 3540K 4326K 22.2%
Computer Software Engineers, Applications 15-1031
1260 1760 39.9% 2820 3980 41.1% 514.8K 689.9K 34%
Computer Software Engineers, Systems Software 15-1032
790 990 25.1% 2640 3620 37.1% 394.8K 515K 30.4%
Database Administrators 15-1061
420 530 24.6% 1120 1420 26.8% 120.4K 144.7K 20.3%
Network and Computer Systems Administrators 15-1071
1150 1530 33.5% 4190 5510 31.5% 339.5K 418.4K 23.2%
Network Systems and Data Communications Analyst 15-1081
980 1330 36.1% 2590 3990 54.1% 292.0K 447.8K 53.4%
Architecture and EngineeringOccupations 17-0000
9600 10220 6.4% 37300 39860 6.86% 2636K 2906.6k 10.3%
Electrical Engineers 17-2061, -2071, -2072
1610 1820 13.0% 3630 4020 10.7% 376.2K 382.1K 1.57%
Table 1Employment Projections at Local, State and National Level [5, 6]
TSU New Approach (Thinking)THE COMPLEX WHOLE
“The past three centuries of science have been predominantly reductionist, attempting to break complex systems into simple parts, and those parts, in turn, into simpler parts. The reductionist program has been successful, and will continue to be so. But it has often left a vacuum: How do we use the information gleaned about the parts to build up a theory of the whole? The deep difficulty here lies in the fact that the complex whole may exhibit properties that are not readily explained by understanding the parts. The complex whole, in a completely nonmystical sense, can often exhibit collective properties, ‘emergent’ features that are lawful in their own right.”
Stuart Kauffman - At Home in the Universe, 1994
Dr. Joseph Bordogna, Deputy Director , NSF, Stepping into the New Millennium NEEDHA, 3/16/1998
TSU New Thinking
Today’s Challenge in Engineering Education
“The need to create sound synthesis and systemization of knowledge … will call
out a kind of scientific genius which hitherto has existed only as an aberration: the genius for integration. Of necessity this means specialization as all creative effort goes, but this time the [person] will be specializing in the construction of the whole.”
Jose Ortega y Gasset - Mission of the University (1930) (from)
Dr. Joseph Bordogna, Deputy Director , NSF, Stepping into the New Millennium NEEDHA, 3/16/1998
TSU NEXT GENERATION ENGINEERING CAREER PATHS
•Sustainable development: avoiding environmental harm; energy & materials efficiency
•Life cycle engineering; infrastructure creation and renewal
•Mega systems
•Smart systems
•Multimedia and computer communications systems
•Living systems engineering
•Product and process development. quality and control
•System integration; system reconfiguration
•Creative enterprise transformation
•Dr. Joseph Bordogna, Deputy Director , NSF, Stepping into the New Millennium NEEDHA, 3/16/1998
TSU NEXT GENERATION ENGINEERING SKILL SET
•Systems integration; Synthesis
•Engineering science; analysis
•Problem formulation as well as problem solving
•Engineering design
•Ability to realize products
•Facility with intelligent technology to enhance creative opport.
•Teamwork; sensitivity in interpersonal relations
•Language and multicultural understanding
•Ability to advocate and influence
•Entrepreneurship and decision making
•knowledge integration, education and mentoring•Dr. Joseph Bordogna, Deputy Director , NSF, Stepping into the New Millennium NEEDHA, 3/16/1998
TSU DEMAND ANALYSIS EMPLOYMENT PROJECTIONS [2]
LOCAL AND STATE DEMANDOccupation Local Need State-wide Need
1996 2005 % change 1996 2005 % change
Computer Engineers 3520 5365 52.41% 18260 27830 52.41%
System Analysts 1410 2625 86.17% 7650 14060 83.79%
Operations Research Analyst 165 265 60.61% 800 1280 60.00%
Computer Programmer 1365 1635 19.78% 6730 8040 19.47%
Database Admin. 70 115 64.39% 340 570 67.75%
Computer Support Specialists 200 320 60.00% 870 1480 70.11%
National Demand [3]Occupation Year 1994 Year 2005 % ChangeComputer Engineers 350,000 700,000 100.00%System Analysts 480,000 930,000 95.75%Computer Programmer 520,000 600,000 15.38%
CISE - Computer and Information Systems Engineering
MASTER OF SCIENCE IN CISE PROGRAM OF STUDYFall Semester Cr. Hours
CISE 5010 Data Structures and Algorithms 3CISE 5020 Computer Architecture & Operating Sys. 3CISE 5040 Systems Engineering 3
Spring Semester Cr. HoursCISE 5030 Software Systems Design 3CISE 5230 Computer Commun. and Networks 3CISE 5905 Master of Science Thesis I 3 Fall Semester Cr. HoursCISE 5220 Computer Aided System Design 3CISE 5905+ Master of Science Thesis I Continued 3 Elective 3
Spring SemesterCISE 5905+ Master of Science Thesis I Continue 3CISE 5906 Master of Science Thesis II 3
Elective 3
Ph. D. in COMPUTER AND INFORMATION SYSTEMS ENGINEERING (CISE)
Concentrations
in
Computer Communication and Networks
Control System and Signal Processing
Robotics and Computer Integrated Manufacturing
Implemented in Fall 2001
ECSE 2400 Intro. To Systems
Engineering
EECE 3410Energy Conversion
MATH 3120 Applied Math
POWER SYSTEMS
EECE 4410 TERenewal Energy
EECE 3210E.M. Theory
EECE 3500Communication Systems
ESCE 4600 Systems Engr.
Analysis
EECE 2120
Circuits II
ESCE 3400 Discrete Event Sys. Simulation
DEPARTMENT OF ELECTRICAL AND COMPUTER ENGINEERING TENNESSEE STATE UNIVERSITY
INTEGRATE SYSTEMS ENGINEERING IN ELECTRIC POWER SYSTEMS
ENGR 2000,
CIRCUITS I & Lab
ENGR 2230 Computer C++ Programming
EECE 3200Linear Systems
SOPHOMORE JUNIOR YEAR SENIOR YEAR
Fall Spring Spring SpringFall Fall
ENGR 2140
Stat./Dynamic
ESCE 4630Embedded Systems
EECE 3420Power Systems
TSU-ECE
EECE 4350 TEComp. Comm. & Networks
ENGR 2230 Computer C++ Programming
ECSE 4400 Probability & Rand. Proc.
ECSE 4620 Reliability, Maintainability & Failure Mod Ana.
EECE 3430 TEPower Distribution
Capstone Design Project I and II
EECE 3330 TEPower Electronics
EECE 4410 TERenewal Energy
EECE 3300, 3301Electronics & Lab
WEAKNESSES
• Heavy Teaching Loads
• Open Admission - Student Preparation
• Inefficient Admissions Support• • Poor Financial Support
OPPORTUNITIES
• Innovative Systems Engineering –Based Program
• NSF CREST Center -
• DoD Research Projects
• Young Faculty – Research Collaborations
• Young Ph.D. Programs
THREATS
• E I T Performance
• Low Financial Support – Faculty and support
• Low Enrollment