Team 6 Cybersecurity Education Homework

Intro

Cybersecurity is a dynamic and developing field within computer science.  The need for cybersecurity has become increasingly clear in the public eye, as a growing number of companies, federal agencies, and individuals have become victims of cyber-attacks.  According to a study performed by the Association of Financial Professionals, “more than 60 percent of companies have been the victim of an attempted cyber-attack” (Pruitt).  This often results in personal information, including credit card numbers, being distributed among criminals.  The hacking of personal photos and information from celebrities and others has featured prominently in the news over the last few years, as well. 

As these attacks multiply in number and severity, there has been a rallying cry to recruit more cybersecurity professionals to battle them.  Postings for cybersecurity jobs have risen by 74 percent over the last five years, and the demand for such jobs is expected to grow by 53 percent through 2018.  Sadly, the call to arms seems to have been left mostly unanswered.  As of 2015, more than 209,000 cybersecurity jobs in the U.S. remain unfilled (Setalvad), and the infrastructure that should be pumping out qualified cybersecurity professionals left and right is struggling to even meet the minimum requirement.  So considering that “the demand for cybersecurity professionals over the past five years grew 3.5 times faster than demand for other IT jobs and about 12 times faster than for all other jobs,” (Setalvad) why is this need not being met?

The answer is complex, and numerous people and organizations are taking steps to encourage students to pursue a career in cybersecurity.  But a strong defense against cyber-attacks is not complete without an educated public.  Even with a team of qualified cybersecurity specialists on retainer, a large corporation can have its information compromised simply by one employee clicking on a malicious link in an email.  With this in mind, other organizations are attempting to bridge the general public’s gap in knowledge when it comes to understanding and implementing basic internet security principles.

The bottom line is that there are currently many gaps in our country’s cybersecurity education program, and this blog is meant to inform you on what they are, and what others have been trying to do about them.

The gender gap

In the big picture, one of the most glaring gaps, not just in cybersecurity education, but in the IT field in general, is that of the under-representation of women.  Google and Facebook have been under scrutiny after it was reported that less than 40 percent of their workforces were women.  Data from the federal Department of Education demonstrates that in 1983-84, computer science degrees accounted for 2.4 percent of all bachelor’s degrees conferred to women, but by 2011-12, that had shrunk to less than 1 percent (Setalvad). 

What’s curious is that this trend towards fewer women in computer science runs counter to the trend in other scientific fields.  So why the divergence from the norm?  Setalvad cites some cybersecurity educators in California as saying that they believe this trend is representative of two things: a lack of encouragement for female students, and the prominence of a negative stereotype about computer enthusiasts. 

One teacher named Phillip Ye put it this way: “Computer science isn’t glamorous…  Popular culture always portrays [cyber-professionals] as nerdy males who live in their mom’s basement, drinking Mountain Dew out of the bottle with chips all around them.  So girls have already developed this resistance to it” (Setalvad).  Nina Levine, another teacher, observes that at a younger age, students from both genders are equally interested in technology studies.  She points out that as they get older, male students tend to stay interested, whereas female students lose interest if they are not encouraged to maintain it.  (Setalvad).

In the computer science industry in general, women account for only about 25 percent of the workforce.  For cybersecurity, that percentage drops to only 10 to 15 percent (Setalvad).  Bringing that percentage higher could make a huge difference in meeting the demand for more cyber-security specialists.

K-12

For students:

In the landscape of K-12 education, students often have “a limited knowledge of cyber-security”, and sometimes (especially at middle school and below) even lack basic computer skills and understanding (Konak).  In general, computer science is an under-taught subject in K-12 classrooms in the U.S.  According to a survey cited by Setalvad, “only 12% of high school students even took a computer science course this last year.”  High school faculty often overlook cybersecurity education in order to favor established programming or robotics courses. 

According to a survey conducted by Raytheon, “41 percent [of high school students] said that during high school, at least one teacher, guidance or career counselor, or other adult in an after-school program or extra-curricular activity discussed or mentioned the idea of a career in cybersecurity.”  This number is up from the previous year when only 18 percent reported similar discussions.  It’s clear from these numbers that there has been some improvement in the discussing of cyber-security principles in general.  Sadly, the survey also reported that 64 percent of the students surveyed were not even offered computer classes as part of their school’s curriculum.  This illustrates the gap in resources for K-12 students who could potentially pursue education in cybersecurity.

To try to fill this gap, different organizations have tried to promote cybersecurity through extracurricular activities and workshops.  Konak and Setalvad give examples of workshops aimed at middle school students that focus on cyphering and basic security principles (for instance, password security).  The workshops use fun, engaging activities at an appropriate level of understanding to excite interest in cybersecurity.  Many of these types of workshops are run by groups of college students, and are meant as an outreach to the community.

Watch the following video clip about a middle school outreach program:

https://youtu.be/5rN3fH5V7nk

CyberWatch West is another organization trying to fill this gap.  As a program of the National Science Foundation, CyberWatch West aims to promote cybersecurity education in K-12 and colleges throughout the country through the use of hacking competitions, events, and presentations.  The goal of the program is to grow interest in cybersecurity at an earlier education level with the hopes that it will result in more cybersecurity professionals.

While these examples do demonstrate a growing effort to inform K-12 students about cybersecurity options, there is still a long way to go in implementing cybersecurity as a part of regular curriculums.

For educators:

Another gap, as it relates to K-12 education, is the need for qualified instructors to teach cybersecurity.  As with any other subject, teachers require accreditation in order to be able to effectively teach a given subject.  Cybersecurity is no different; however, accreditation requires the teachers to be taught, and that costs money.  There is also some debate on what should be included in cybersecurity accreditation since the field of cybersecurity is a “dynamic, fluid environment” (Conklin).

At present, cybersecurity education for teachers in the U.S. does not include accreditation.  What little education teachers normally have comes from sources like the The National Cyber Security Alliance (NCSA).  The NCSA has recently launched a new website and guidebook aimed at teachers and parents to educate them on safe online practices, so that they can in turn educate their students or children on those principles (“Teach Teenagers”).  Educators are advised to teach students three key safety lessons:  protect privacy, minimize negative publicity, and do not talk to strangers.  The question remains, do these limited resources and online guides provide teachers with enough information to be qualified in sharing these same principles with their students?  Or is there a need for legitimate accreditation?

Currently, there appears to be a growing trend toward increasing the cybersecurity knowledge base for teachers at the high school level.  The National Science Foundation recently gave a grant to a University of New Orleans professor in order to enable him to educate 20 high school teachers on the basics of cybersecurity (“Cyber-Security Training”).  The program is free-of-charge to the teachers, and includes lodging, travel, and meals.  The desired goal of this program is to educate teachers so that they will be more qualified to teach their students.  The expected outcome is that more students will then be exposed to the principles of cybersecurity and have a desire to pursue cybersecurity as a career.  In previous years, the same program was only allowed 15 teachers, so it appears the government is getting more on board with teacher education for cybersecurity, at least in the New Orleans area.

While accreditation is seriously lacking in the U.S., other countries have already began to move in this direction.  In England, a new cybersecurity accreditation program is being launched to enable teachers and schools to meet the increasing need for cybersecurity education in public schools.  Divided into three levels, the new accreditation in “Cyber Awareness” for teachers will also allow schools with a sufficient number of accredited teachers (and fulfill other curriculum-based criteria) to be awarded the “Cyber-Aware Institution” status.  The three-stage accreditation process requires teachers to learn cybersecurity principles, apply them, and then lead others in learning and applying those same principles.  The program is going to be rolled out to five pilot schools around England this month, and will be formally launched in September of 2015 as part of the TechFuture Teachers Programme (“New Cyber Security Accreditation”).

Accreditation for cybersecurity educators, while moving towards a mandatory status in other countries, remains an elusive goal in the United States.  Bridging this gap could make a huge difference in the prolificacy of cybersecurity curriculum in our K-12 classrooms.

College

At the college level, cybersecurity as a topic of study is a little more represented.  Computer Science (CS) majors are often presented opportunities to study cybersecurity as an elective; however, colleges face major challenges in keeping their course offerings relevant for the following reasons:  “the progressive nature of cyber-security and cyber-attacks and keeping curriculum up-to-date, finding qualified instructors, competing resources and topics, lack of proper lab and testing equipment, and dealing with a dynamic curriculum” (Viveros). 

According to Bilzor, there tends to be a trend towards the all-theory approach in college-level cybersecurity courses.  Bilzor contends that a truly relevant curriculum must incorporate a good balance between theory and hands-on experience, noting that theory-heavy courses tend to assume situations that are idealized, and are not completely applicable in the real world.  As Conklin puts it, these theory-driven curriculums tend to assume “predictable, static infrastructure, when the reality is a dynamic, fluid environment” (Conklin).

Workshops on cybersecurity aimed at both CS and non-CS college students offer an interesting perspective on the role cybersecurity should play in the general education curriculum.  Jacobson argues that basic cybersecurity education is important for both major and non-major students in order to produce a better-prepared working class.  The idea is that the principles learned in college will carry over into each student’s professional life, ensuring a higher level of security and safe internet practices in the workplace.

Believing in this same principle (and no doubt feeling the need for more cybersecurity specialists within its own ranks), the federal government currently funds a “Scholarships for Service” program through the National Science Foundation.  The “Scholarships for Service” program gives scholarships to students, regardless of their major, to study cyber-security topics.  The students are then expected to “pay back” their scholarships by working for the federal government in a cyber-security position for a period of time equal to the time during which they received the scholarship (Zacharias).

Organizations

The news has recently been full of stories about the hacking of personal information from companies such as Target, Sony, and Home Depot.  Even the U.S. government has not been exempt from the rising tide of cyber-attacks.  Hackers recently went after the U.S. Postal Service, the State Department, the White House, and the National Oceanic and Atmospheric Administration (NOAA).  According to Benner, “experts have warned for months that corporate hackers are using techniques once reserved for nation-state level warfare and they say an attack on the nation’s largest businesses could disrupt commerce, livelihoods and workers’ morale.”  With all of this hacking going on, the need for a workforce versed in cybersecurity has become apparent.

Kansas City recently conducted a fake phishing attack on its own city employees.  Each employee was sent an email with fake malicious links that asked the employee to reset their password and give personal information.  280 employees gave away their personal information and login credentials during the “attack”, demonstrating the need for improved cybersecurity awareness in the workforce (Davis).  Were this a real attack, hackers would have been enabled to collect and manipulate information in the municipal computer systems.  The sheer number of people who fell for this phishing test is no doubt representative of a greater problem in both the private and government sectors.

Watch the following video clip about cybersecurity in corporations and the accreditation process:
https://www.youtube.com/watch?v=nR-yV0oNaH8

There are many advocates arguing for a national strategy to develop a cybersecurity workforce that is both competent and large enough to handle the ever-evolving threat of cyber-attacks.  Published in 2009, Obama’s Cyberspace Policy Review  says the following:

“Existing cybersecurity training and personnel development programs, while good, are limited in focus and lack unity of effort.  In order to effectively ensure our continued technical advantage and future cybersecurity, we must develop a technologically-skilled and cyber-savvy workforce and an effective pipeline for future employees” (McGettrick).

Since 2009, the number of workshops at the corporate and government level has increased in order to develop such a workforce (McGettrick).

Senior citizens

As the number of cyber-attacks rises, senior citizens have increasingly found themselves the targets of such attacks.  According to a study by Cook, et. al., “elderly computer users with limited skill and knowledge are left playing catch-up in an ever-widening gap in fundamental cyber-related comprehension”.  Cook argues that because elderly computer users are more likely to accept initial information at face value, they are more likely to be taken advantage of with cyber-attacks or online scams.  As Lobo illustrates, “senior citizens have become easy targets for cybercriminals given their trusting nature and poor understanding on how voice and data services work.  Cybercriminals and Spammers target these four types of communication channels (voice, instant messaging, SMS and internet telephone) to defraud senior citizens.”

As of this writing, there are no major initiatives with a specific focus on educating senior citizens on the basics of cybersecurity.

Conclusion

To conclude, there are many gaps in the long-term cybersecurity education plan in the United States.

The government has instituted the National Initiative for Cybersecurity Education (NICE) in an attempt to begin to fill these gaps.  The three main focuses of NICE are education, workforce development, and awareness.  The education component, working with the National Science Foundation and the U.S. Department of Education, plans to enhance education for all citizens in kindergarten through 12th grade, higher education, and vocational programs.  The workforce development component offers tools and resources for people pursuing or already working in a cybersecurity career.  The cybersecurity awareness component is a public awareness campaign.

“Stop.Think.Connect” is a national public awareness campaign initiated in 2010, and comprises the awareness arm of NICE. Its main goal is to increase understanding of cyber-threats and to assist the public in being safer and more secure online. The “Stop.Think.Connect” website contains numerous resources including information for parents, games and activities for kids, materials for students in K-12, and more information from research to blogs for young professionals, business people, and older Americans (“Stop.Think.Connect”).

While these programs are a good start, there is still much more to be done to fill the gaps in our nation’s cybersecurity education program.  This blog has given you a look into the present state of things, and our group hopes you will begin to think about how some of these gaps might be better filled.

Works Cited

Benner, Katie. “Is Corporate America Ready for Real Cyber-Security?” The News Tribune. N.p., n.d. Web. 17 Apr. 2015.

Bilzor, Michael. "Seeking Balance in Cyber Education." CrossTalk Online. CrossTalk: The Journal of Defense Software Engineering, 4 Jan. 2015. Web. 15 Apr. 2015.

Conklin, W.A., R.E. Cline, and T. Roosa. “Re-Engineering Cybersecurity Education in the US: An Analysis of the Critical Factors.” 2014 47th Hawaii International Conference on System Sciences (HICSS). N.p., 2014. 2006–2014. Web.

Cook, David, et. al. “Securing the Elderly: A Developmental Approach to Hypermedia Based Online Information Security for Senior Novice Computer Users.” N.p., n.d. Web. 19 Apr. 2015.

"Cybersecurity Training for High School Teachers Will Be Offered in New Orleans." The Times/Picayune Greater New Orleans Blog. The Times/Picayune Greater New Orleans, 31 Mar. 2015. Web. 15 Apr. 2015.

Davis, Mark. "280 Kansas City Employees Fall for Fake Hack." Kansas City Star. Kansas City Star, 26 Mar. 2015. Web. 28 Apr. 2015.

Jacobson, Doug, Julie Rursch, and Joseph Idziorek. "Workshop: Teaching Computer Security Literacy to the Masses: A Practical Approach." IEEE Xplore. Iowa State University, 2012. Web. 15 Apr. 2015.

Konak, Abdullah. "A Cyber Security Discovery Program: Hands-on Cryptography." IEEE Xplore. Penn State Berks, 2014. Web. 15 Apr. 2015.

Lobo, Lucius. “Cyber Scams That Target Senior Citizens in India.” Security Bloggers Network. N.p., n.d. Web. 19 Apr. 2015.

McGettrick, Andrew. "Report of a Workshop on Cybersecurity Education and Training." (n.d.): n. pag. Acm, 30 Aug. 2013. Web. 19 Apr. 2015.

"National Initiative For Cybersecurity Education (NICE)." The National Initiative for Cybersecurity Education (NICE). N.p., n.d. Web. 19 Apr. 2015.

“New Cyber Security Accreditation for Teachers and Schools.” N.p., n.d. Web. 19 Apr. 2015.

Pruitt, Gina. “Reduce the Risk of Cyber-Security Threats with Education and Training.”Nashville Business Journal. N.p., n.d. Web. 17 Apr. 2015.

Raytheon-NCSA. Preparing Millennials to Lead in Cyberspace October 2014 (2015): n. pag. Raytheon.com. Raytheon-NCSA, Oct. 2015. Web. 18 Apr. 2015.

Setalvad, Ariha. "Demand to Fill Cybersecurity Jobs Booming." Peninsula Press. Stanford Journalism Program, 31 Mar. 2015. Web. 16 Apr. 2015.

"Stop.Think.Connect." Homeland Security. N.p., n.d. Web. 18 Apr. 2015.

“Teach Teenagers Cyber-Safety.” Inside School Safety (LRP Publications) 11.4 (2006): 2–2. Print.

Viveros, Marisa, and David Jarvis. "Cybersecurity Education for the next Generation." IBM. IBM Center for Applied Insights, 25 Apr. 2013. Web. 16 Apr. 2015.

Zacharias, Maria C. "Cybersecurity: It's about Way More than Countering Hackers." Nsf.gov. National Science Foundation, 30 Oct. 2014. Web. 16 Apr. 2015.