Featured Student: Clement Smartt, Ph.D. Industrial Engineering Student with a Focus on Systems Engineering

UTA’s Systems Engineering Research Center (SERC) focuses on innovative and strategic systems engineering research. This blog entry focuses on one of the students affiliated with UTA’s SERC and his research related to real-world needs.

Clement Smartt is a Ph.D. candidate with a focus on Systems Engineering. Clement received the 2012 INCOSE Foundation Stevens Doctoral Award. This award recognizes innovative doctoral-level research related to the field of systems engineering.  His research addresses the important, but relatively unexplored topic: the use of systems engineering on proposals.  Organizations whose primary business is executing contracts must be able to capture contracts to survive.  When the contracts involve engineering complex systems, systems engineering often plays a significant role in the proposal process, sometimes leading the technical effort.  This research seeks to find an optimal use of systems engineering in proposal management to maximize the probability that a supplier organization will be awarded contracts.

Smartt suggests that a number of systems engineering related factors that can potentially be used to predict contract awards and pertain to the organization, the skill levels of employees, the competitive environment, the proposal project, the contract, and the relationship with the customer.  A survey was conducted to gather information related to these factors as well as contract award status for recent proposal efforts.  Smartt’s analysis of the survey results indicates that suppliers seeking to be awarded new contracts should: (1) keep their existing customers very satisfied with the contract work already captured, (2) invest adequate resources in systems engineering labor to understand the requirements and define a solution in support of the proposal, and (3) maintain an adequate number of face-to-face contacts with the customer during the proposal process.

A modeling framework was developed and validated to help decision makers determine an optimal use of systems engineering on their proposals.  The framework allows users to maximize the probability of a contract award given constraints such as budget and employee availability by strategically allocating resources to key systems engineering activities and employee with various skill levels. Organizations that engineer complex systems can use the findings of the survey analysis and the modeling framework to improve the chances of survival for their organizations.

Clement Smartt will be defending his dissertation on Friday, November 1, 2013 in Woolf Hall Room 200. If you are interested in learning more about systems engineering or about our M.S. Systems Engineering or Ph.D Industrial Engineering with Systems Engineering focus, please feel free to contact the IMSE Department at UT Arlington at 817-272-3092 and ask to speak to an advisor or email us with your questions at IMSEinfo@.uta.edu.

Written by Dr. Susan Ferreira, Director of Systems Engineering Research Center
IMSE Faculty

and

Clement Smartt
Ph.D. Student

Dr. Corley’s Recent Activities

As this entry goes online, I will be in Minneapolis at the annual INFORMS conference presenting a paper entitled “A Cooperative Dual for the Nash Equilibrium.” The gist of this research is that people can often fare better in competitive situations if they cooperate. However, the more profound implication of the work is that complete cooperation is guaranteed to be possible only between two competitors, not three or more. In other words, there is a mathematical limit to complete cooperation. Apparently, three’s a crowd, like we all knew already. In addition, I will be attending the conference “Learning and the Brain” at Harvard in  November. At the INFORMS conference, I will also be working on a Systems Engineering research proposal with Dr. Ferreira.

Dr. Rosenberger, a recent IMSE Ph.D. graduate,  and I submitted in August a paper entitled “Constraint Optimal Selection Techniques (COSTs) for Nonnegative Linear Programming Problems”  to Optimization Methods and Software about an approach to solve huge, currently unsolvable linear programming problems quickly, as demanded by today’s high-speed, high-tech, ever-accelerating world. Linear programming, as you may remember, is the most widely used computational model in the business and scientific worlds. The method was also the basis of a recently issued patent entitled “System, Method and Apparatus for Allocating Resources by Constraint Selection.”

Finally, I will be headed abroad over the winter break and stop thinking about all this heady stuff. Enjoy your semester.

Written by Dr. Bill Corley
IMSE Faculty

IMSE Grants and Awarded Contracts

Several IMSE faculty members were recently awarded research grants and contracts. Dr. Li Zeng made news for the grant she received recently from the National Science Foundation for her research titled, ” Quality Profile Modeling and Control with Applications in Tissue-engineered Scaffolds Fabrication.” The collaborative research will be conducted with Penn State and with the purpose of developing a “generic and systematic methodology for the modeling and control of quality profiles through the integration of advanced statistical techniques and expert knowledge of manufacturing processes.” Dr. Zeng was awarded a $142,223 grant that will run through 2016. For more information on this research, read the abstract on the NSF website.

In addition, the IMSE Department received a Graduate Assistance in Areas of National Need, (GAANN) Grant for $534,000 that will benefit five students over the next three years.

Dr. Jay Rosenberger, Dr. Susan Ferreira, and Dr. Victoria Chen were awarded a $33,000 contract with L-3 Communications for a “Flight Test Matching Tool” to develop a method to warm start a simulator calibration process.

Additional grants that were awarded:

Richard Billo, John Priest, and Erick Jones were awarded TxMED grant “A Novel Glass Microfluidic Neuro-Sensor For High-Throughput Drug Discovery.”

Erick Jones was awarded NSF I/UCRC grant “Rf-Code Computer Rack Cooling System RFID Project.”
Erick Jones was awarded a grant from Angelica Incoroporation Evaluating RFID in Healthcare Linen” joint with SAVANT.