|Follow on Twitter as @techEnablement|
Recent gender diversity reports from Google, Facebook and Apple (to name a few) have spurred a number of positive efforts to bring more women into computer science, including the Supercomputing 2014 (SC14 WHPC) “Women in High Performance Computing” workshop, NVIDIA’s “Women who CUDA” campaign, and Google’s $50M “Women Who Code” program. The truth in the observation by a nine-year-old boy is undeniable, as female scientists and technologists do perform incredible and unbelievably influential work. Sadly, the truth about the lack of gender diversity is also undeniable and can be seen by simply looking around most scientific and technology organizations.
The causes behind the lack of gender diversity are many and generally subtle, as gender bias in hiring is illegal in the US. Most scientists and technologists work behind a veil of obscurity that is enforced and reinforced by specialization, the complexity of the work, and the slow pace of careful research and product development. The joke that scientists are “ummers” highlights this obscurity: “When the spouse of a scientist is asked what sort of work their partner does the spouse answers ‘Ummm … Errr …’ go ask them.”
Even so, recognition of colleagues and a new staff scientist at Los Alamos (namely Bette Korber, Alan Perelson and the recently appointed Dr. Allison Aiken) as “The World’s Most Influential Scientific Minds” demonstrates that it is possible for both genders to pierce that veil of obscurity even when they work in theoretical biology, bioinformatics and atmospheric science. (Alan Perelson is working to understand Hepatitis C to find a possible cure, Bette Korber is focused on HIV and the evolution of the virus, and Allison Aiken is focused on ambient aerosol measurements in the atmosphere). Similarly, Dr. Yasamin Mostofi, a female professor of electrical and computer engineering at UCSB was a recent 2012 Presidential Early Career Award recipient. She and her team have been busy building and testing robots that can see through solid walls using Wi-Fi signals.
Success of a few is, unfortunately, not the measure for the many as Presidential recognition and other high accolades are both rare in a career and limited to only a few. Publication is essentially the only path that scientists and technologists can follow to achieve recognition, funding and career advancement.
A recent statistical analysis of gender diversity by Emma Pierson, “In Science, It Matters That Women Come Last” determined that, on average, a female scientist is more likely to be first author (indicating the scientist who is primarily responsible for the paper), but is less likely to be last author (indicating the senior scientist who supervised the work). (Note the authors’ gender was inferred from their first names in the Pierson study.) Further, female scientists write far fewer papers and are especially unlikely to publish papers on their own. The good news is that women’s contributions in the literature have increased over the past 23 years, at least according to the statistics garnered from 938,301 scientific papers in the arXiv Web site where physicists, mathematicians and other scientists often post their papers. The end result is fewer publications by women scientists and a resulting social isolation in the network of scientists. Specifically, “even though women tend to work on papers with more authors, they have significantly fewer collaborators and are significantly less central to the overall community of people publishing scientific papers.”
The NSERC / Pratt & Whitney Chair for Women in Science and Engineering for Ontario is a five-year program to advance women in the fields of science and engineering, supported by NSERC (the Natural Sciences and Engineering Research Council of Canada), Pratt & Whitney Canada as industrial partner and the University of Ottawa.
Source: Women in IT