Difference between revisions of "Main Page"
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− | + | In 1967 I started a summer job at the US Army Watervliet Arsenal Maggs | |
+ | Research Center. This was my first job that was related to my training | ||
+ | as a Mathematician at Rensselaer Polytechnic Institute (the summer | ||
+ | before I was a short order cook). The Research Center had an analog | ||
+ | plotter that was driven by an IBM reproducing card machine. That | ||
+ | summer, I generated simple plots of mathematical formulas. From then | ||
+ | on, I was hooked on graphics and have spent the last 40 years in the | ||
+ | field. In 1968 I joined the Arsenal as a full-time, Research | ||
+ | Mathematician and spent the next ten years building expertise in | ||
+ | computer graphics, numerical analysis and scientific | ||
+ | programming. These were the early days of computer science and most | ||
+ | everything was learned on the job. | ||
+ | |||
+ | In 1978, I started my second (and final) job at GE's Corporate | ||
+ | Research and Development Center (CRD). Initially, I worked in the | ||
+ | central computer organization doing contract programming for CRD | ||
+ | scientists. I sensed that the then-emerging field of computer graphics | ||
+ | would have an impact on all of GE’s businesses and worked to introduce | ||
+ | state-of-the-art computer graphics technology into the research lab | ||
+ | and the company. In a short time I was able to establish my own | ||
+ | research projects. I did research in 3D medical imaging, molecular | ||
+ | modeling, scientific visualization and object-oriented software as it | ||
+ | applied to computer animation. | ||
+ | |||
+ | My GE career has been technically and financially rewarding. An | ||
+ | industrial research lab sits somewhere between an academic position | ||
+ | and an advanced engineering position. On the one hand we have | ||
+ | difficult problems posed by the Company. On the other hand, we have | ||
+ | the luxury of time to think and invent new technology. The demands of | ||
+ | doing research and producing usable results are always challenging. | ||
+ | |||
+ | In fact, most careers (and much of life) involves trade-offs: family | ||
+ | versus work, research versus products, employer demands versus | ||
+ | personal development. A successful career balances the trade-offs. | ||
+ | |||
+ | The most rewarding part of my career has been the personal | ||
+ | relationships that I have made within the Company and in the external | ||
+ | community. These relationships, more than anything else, made me a | ||
+ | successful researcher and a valuable employee. | ||
+ | |||
+ | Recently when I was asked in a GE interview, | ||
+ | ''"What’s the best advice to give an early career researcher at GE Global Research?”'' | ||
+ | My reply, | ||
+ | ''“Establish yourself technically both within and outside the Company. Find others who share your interests and work with them regardless of where they sit in the organization. Become active in professional organizations like the IEEE or ASME. Attend the society meetings, work on committees, review papers. The external exposure is great for you and the Company.”'' | ||
+ | |||
[[Starting Points|Starting Points]] | [[Starting Points|Starting Points]] |
Revision as of 13:49, 2 December 2008
In 1967 I started a summer job at the US Army Watervliet Arsenal Maggs Research Center. This was my first job that was related to my training as a Mathematician at Rensselaer Polytechnic Institute (the summer before I was a short order cook). The Research Center had an analog plotter that was driven by an IBM reproducing card machine. That summer, I generated simple plots of mathematical formulas. From then on, I was hooked on graphics and have spent the last 40 years in the field. In 1968 I joined the Arsenal as a full-time, Research Mathematician and spent the next ten years building expertise in computer graphics, numerical analysis and scientific programming. These were the early days of computer science and most everything was learned on the job.
In 1978, I started my second (and final) job at GE's Corporate Research and Development Center (CRD). Initially, I worked in the central computer organization doing contract programming for CRD scientists. I sensed that the then-emerging field of computer graphics would have an impact on all of GE’s businesses and worked to introduce state-of-the-art computer graphics technology into the research lab and the company. In a short time I was able to establish my own research projects. I did research in 3D medical imaging, molecular modeling, scientific visualization and object-oriented software as it applied to computer animation.
My GE career has been technically and financially rewarding. An industrial research lab sits somewhere between an academic position and an advanced engineering position. On the one hand we have difficult problems posed by the Company. On the other hand, we have the luxury of time to think and invent new technology. The demands of doing research and producing usable results are always challenging.
In fact, most careers (and much of life) involves trade-offs: family versus work, research versus products, employer demands versus personal development. A successful career balances the trade-offs.
The most rewarding part of my career has been the personal relationships that I have made within the Company and in the external community. These relationships, more than anything else, made me a successful researcher and a valuable employee.
Recently when I was asked in a GE interview, "What’s the best advice to give an early career researcher at GE Global Research?” My reply, “Establish yourself technically both within and outside the Company. Find others who share your interests and work with them regardless of where they sit in the organization. Become active in professional organizations like the IEEE or ASME. Attend the society meetings, work on committees, review papers. The external exposure is great for you and the Company.”