EES Installs “Electro-Mechanical Brain”
In 1947, EES' reputation and capabilities took another giant leap forward when Georgia Power Company generously donated an AC Network Calculator to Georgia Tech. The $300,000 "electro-mechanical brain" was an analog computer —a fantastically complex collection of resistors, capacitors and inductors.
The machine helped engineers solve difficult linear and nonlinear equations associated with load division, short circuit and stability problems, and thereby model the most efficient electrical distribution systems. It was only the sixth such machine installed at a U.S. university and the first in the Southeast.
Another project involved a multi-year collaboration between EES and the University of Georgia College of Agriculture. To make peanut farming more profitable, researchers produced more efficient and economical harvesting and processing machinery.
Researchers also solved certain technical problems in the shelling operation, while devising improvements in sampling and grading, storage and loading. Experiments with an electric eye to aid in quality-picking machinery were a harbinger of machine vision work that would prove valuable to the poultry industry decades later.
In 1948, the Engineering Division of the Association of Land Grant Colleges and Universities compiled the dollar value of research conducted at 24 state-supported engineering experiment stations. Georgia Tech placed first in the South and second nationally, behind Purdue.
Back on Tech's North Avenue campus, EES' chronic lack of space was somewhat mitigated with yet another addition to the Research Building. The entire structure was renamed for Atlanta dentist Thomas Hinman, whose memorial foundation's contribution had made the new construction possible. This gift allowed EES to have state-of-the-art research facilities and facilitated rapid growth.
The occasion was soon followed by another milestone: EES research income topped $1 million for the first time. It would double within five years.
The onset of the Cold War and Korean conflict triggered a massive and sustained influx of federal research dollars to universities across the country. EES' share included a number of U.S. Department of Defense contracts, many of them highly sensitive, related to:
- Microwave propagation,
- Missile tracking frequency control,
- Antenna design,
- Underwater acoustics, and
- Microwave optics.
The projects solidified EES' national reputation for innovative problem solving, particularly in the fields of radar and the application of microwave technology. More important, they established its future course of a substantial reliance on national security contracts.