He belongs to numerous committees and organizations including the International Association of Chief’s of Police, National Emergency Number Association, Interagency Board, SAFECOM Emergency Response Council and, multiple DHS sponsored working groups on cyber security, police technology and interoperability. Perera has authored several articles related to police technology as well as his thesis cyber security implication to the homeland. His last project was the creation of a Real Time Crime Center. While assigned to IT he was accepted to the Naval Post Graduate School, Center for Homeland Defense and Security Master’s degree program sponsored by DHS and graduated December 2012. He served as project manager for several significant IT projects, including the 911‐telephone switch replacement as well as was responsible for over $300 million in infrastructure. His assignments included Information Technology where he continued to expand his knowledge of security, data storage, networks, as well as all other aspects of police technology.
#Indrani perera programs professional#
He is also a NENA Emergency Number Professional (ENP) since 2005. During his tenure he obtained his first Master’s degree in Public Administration from Lynn University as well as a graduate certificate in Emergency Planning and Administration. Perera is frequently called upon by the Department of Homeland Security (DHS) to participate in policy related forums as well as speaking engagements. Reputation for strong work ethic and uncompromising devotion to service. Skilled at collaborating with regional, state, and federal law enforcement officials on investigative matters as well as technology related issues. Excellent research and problem solving skills maintain strict confidentiality on sensitive information. Strong qualifications in budgeting, cyber security, information technology, resource management, homeland security, and emergency response. Perera has extensive command level experience in planning and managing investigations, police technology, public safety and police force activities. Perera has experience in information technology with a focus on security assessments, perimeter defense, secure network design, vulnerability discovery, penetration testing, compliance and intrusion detection systems as well as business rules and policy development. His background includes leading‐edge cyber security consulting and works to advance the state of the art in information systems security. A participant in the national critical infrastructure protection dialogue for ten years, Perera has provided regular advice, insight, and thought leadership to all levels of government and has been involved in the development of multiple Federal policies in technology and more specifically cyber security. His unusual combination of hard technical, public/private partnership development, facilitation, and national risk management experience allow him to provide particular insight into and leadership of strategic organizational,sector, and national cyber security initiatives and educational endeavors. Perera excelled in technology and ultimately has become a subject matter expert in the areas of communications interoperability and cyber security. With the last 15 years working in technology focusing in cyber security. Packaging solutions can vary the parameters of some lens types from their nominal value to outside the tolerance range set by ISO.Captain George Perera is a career law enforcement officer with more than 29 years service. Osmolality and buffering agents influence lens parameters. LD of alphafilcon A lenses (greater than +/- 0.2 mm) and BVP of lotrafilcon A and etafilcon A lenses (greater than +/- 0.25 D) measured outside the International Standards Organization (ISO) tolerance from their packaging labels when measured in solutions that mimicked their packaging solutions. Etafilcon A showed the largest amount of parameter change, followed by alphafilcon A and balafilcon A. Statistically significant differences were found in all three parameters across all osmolality levels for both buffering agents. Lens diameter (LD), base curve (BOZR) and back vertex power (BVP) were measured and compared to nominal packaging label values. One lens type from each FDA contact lens material category was equilibrated to phosphate buffered saline (PBS) or borate buffered saline (BBS), at three osmolality concentrations: 270, 310 and 414 mOsmol/kg. The study determined the effects of packaging solution osmolality and buffering agent on soft contact lens parameters.
0 kommentar(er)
