Garret Wassermann

Garret Wassermann

he/him

Software, Cybersecurity, Mathematics, Education

Publications

The CERT Guide to Coordinated Vulnerability Disclosure

Published in Software Engineering Institute Special Report, 2017

This guide provides an introduction to the key concepts, principles, and roles necessary to establish a successful Coordinated Vulnerability Disclosure process. It also provides insights into how CVD can go awry and how to respond when it does so. Read more

Recommended citation: Householder, Allen D.; Wassermann, Garret; Manion, Art; & King, Christopher. The CERT Guide to Coordinated Vulnerability Disclosure. Software Engineering Institute. 2017. https://insights.sei.cmu.edu/library/the-cert-guide-to-coordinated-vulnerability-disclosure-2/ https://insights.sei.cmu.edu/library/the-cert-guide-to-coordinated-vulnerability-disclosure-2/

2016 Emerging Technology Domains Risk Survey

Published in Software Engineering Institute Special Report, 2016

In today’s increasingly interconnected world, the information security community must be prepared to address emerging vulnerabilities that may arise from new technology domains. Read more

Recommended citation: King, Christopher; Klinedinst, Dan; Lewellen, Todd; & Wassermann, Garret. 2016 Emerging Technology Domains Risk Survey. Software Engineering Institute. 2016. https://insights.sei.cmu.edu/library/2016-emerging-technology-domains-risk-survey/ https://insights.sei.cmu.edu/library/2016-emerging-technology-domains-risk-survey/

Lab Manual for (First/Second) Semester (Algebra/Calculus)-Based Physics

Published in XanEdu Inc., 2014

A set of algebra- and calculus-based physics lab manuals meant to accompany 1st and 2nd semester general physics courses, originally published in 2014, now in 4th Edition (2019). Read more

Recommended citation: Patricia Robbert, Garret Wassermann, and Elaina Rodriguez. Lab Manual for (First/Second) Semester (Algebra/Calculus)-Based Physics, 4th Edition. XanEdu Inc. 2019.

Fabrication and Assembly Behavior of Square Microcapsules

Published in Adv. Mater. 2006, 18, 270–274, 2006

Herein we report the use of silicon membranes in the fabrication of micrometer-sized square tubes and capsules. The Si pores of a membrane are modified with a polymer component such that a gap is created along the wall of the channel. Electrochemical deposition within this modified structure creates square metal tubes. The tubes can be released from the membrane, or with further processing, be converted to buoyant microcapsules with interesting assembly properties. Read more

Recommended citation: F. Li, X. Badel, J. Linnros, G. Wasserman, S. L. Whittenburg, L. Spinu, J. B. Wiley. "Fabrication and Assembly Behavior of Square Microcapsules". Adv. Mater. 2006, 18, 270–274 https://onlinelibrary.wiley.com/doi/abs/10.1002/adma.200401411