Daily Archives: April 12, 2011

Spring issue of Evolution now available online

The Spring 2011 issue of Evolution, North Carolina A&T’s research magazine, is now available online.

Evolution Spring 2011 electronic edition (PDF)

It features articles on:

  • The biomedical engineering research being conducted by Dr. Salil Desai;
  • The perspective of Dr. Abdellah Ahmidouch, chair of the Department of Physics, on the Fukushima nuclear plant disaster;
  • An interview with Provost Linda Thompson Adams; and
  • Research projects being conducted by five faculty members and two students.

This issue also features a short column by Dr. Celestine Ntuen, published in a longer version immediately below this item with a request for you to share your thoughts on Dr. Ntuen’s ideas regarding emergence and convergence.

Evolution is now available on campus exclusively in its online edition, available on the Aggie Research blog and the Division of Research and Economic Development website.  A limited number of printed copies are distributed off campus and to on-campus offices and individuals as needed.

Dr. Ntuen on emergence and convergence

A shorter version of this column by Dr. Celestine Ntuen, interim vice chancellor for research and economic development, appears in the Spring 2011 edition of Evolution, North Carolina A&T’s research magazine.

Emergence is a phenomenon that results from interactions of many behaviors.  In studies of complex systems, emergence is what happens when new ideas or entities appear.  It represents unpredictable, stochastic circumstances – the “aha” moment in a laboratory.  Convergence is the interaction of interdisciplinary and transdisciplinary sciences and technologies toward solving a common problem.

Paradigm shifts driven by concepts in emergence properties and convergence in technology are about to invalidate the status quo in scientific inquiry.  For example, funding agencies are moving away from funding single investigators to more collaborative teams – interdisciplinary and cross-disciplinary scientists converging to address a common problem.  These are the opportunities for which our existing and emerging research clusters were designed.  The biomedical research described in this issue of Evolution is a good example.

The concepts and technologies of emergence and convergence have much to offer North Carolina A&T State University.  First, we are developing the structure and capacity to do research seamlessly, anywhere, anytime with cloud computing.  Cloud computing is a model for enabling convenient, on-demand network access to a shared pool of configurable computing resources (e.g., networks, servers, storage, applications, and services) that can be rapidly provisioned and released with minimal management effort or service provider interaction.

With cloud computing, faculty and students will be able to re-align their research along the complimentary sciences or convergence and emerging. Here are some examples of our strategic position for emerging and converging initiatives:

Emergence Convergence
Biomedical and health sciences; biomedical computing and health informatics; nanobioscience & nanoengineering; agromedicine Solutions for Alzheimer’s disease and cerebral-vascular disease among African Americans; nanotechnology in drug delivery and tissue engineering / regenerative medicine; agroproducts, like medicinal mushrooms, and post-harvest technologies;  microelectromechanical (MEMS) systems for healthcare.
Alternative energy sources: biofuels, biomass conversion, nanotechnology for power grids Climate change tracking with intelligent sensors, climate change policies, rural energy economics, alternative transportation energy
Identify sciences Language and biological sciences, computing sciences and engineering.
Cyber security Social & behavioral sciences and engineering collaborating to protect our national information space
Advanced composite and nano materials Solutions to aviation and aerospace challenges, resilient infrastructure

At A&T, emergence and convergence are more than simply bringing faculty and student scientists together; they are about solving targeted problems of value to humanity. We have emerging research clusters, such as Bioscience and Health, as well as Social and Behavioral Sciences, and soon we will target Nutrition and Food Sciences. These clusters are fractional emergences resulting from interest among groups of faculty members.

I am sure the readers of Evolution will ask questions, such as:

  • How do you get people to converge? The answer is simply: Get people’s ideas to converge. Physical presence is no longer relevant.
  • What is the major contribution of convergence and emergence in academic programs? The answers are many. In my view, departments and schools should be designed to facilitate interdisciplinary ventures and cross-fertilization of intellects. Academic programs can be restructured to be flexible, adaptive and responsive to changing knowledge-based and networked systems globally.
  • What are other benefits? Global access to innovative technologies, distal collaboration for research and education, and sharing global problems contextually.

I urge our faculty and students to think about emergence and convergence and be ready to embrace the changing dynamics of research and funding policies.  What do you think?  Please add your comments – I would be delighted to hear your reaction to my thoughts.

Today’s keynote speaker: Dr. David Carroll

One highlight of Graduate Student Research Day today will be the keynote talk by Dr. David Carroll, director of the Center for Nanotechnology and Molecular Materials at Wake Forest University. Dr. Carroll will speak at lunch, which begins at noon in the Fort IRC, Room 410.

Carroll is a professor of physics, adjunct professor of biomedical engineering,and adjunct professor of cancer biology.  He also serves as editor of the journal Engineering.  Professor Carroll’s research is focused on the synthesis, assembly, characterization, and applications of nanostructures.  He has published over 200 scholarly articles on nanotechnology and the nanosciences.  He has published a text book,  edited two books, and holds 12 patents.  Carroll has been actively involved in four spin-off companies utilizing technologies from his labs.