Event ID: S10609
Info
Oct 14-16 ● Wed/Thu/Fri ● 8:00 am - 4:30 pm ● 3 mtgs ● UHM Krauss 012 (Yukiyoshi Room) ● $595 (General), $447 (UH School of Architecture Alumni Association , $298 (UH Student with ID). Registration Information: connect here
Instructor
Rudolph V. Matalucci, PhD, BSCP, PE
Topic
The seminar provides an introduction to the systematic and robust Security Risk Assessment and Management (SRAM) process for the evaluation of buildings and infrastructures. The technically applied security Risk Assessment Methodology (RAM) process was developed by Sandia National Laboratories for the purpose of evaluating security risks from malevolent attacks at hydro-electric dams and high-voltage power transmission facilities. The process was recognized by the Federal Laboratory Council as an outstanding R & D technology transfer project for 2002.
Upon completion of the seminar, participants will be able to lead security assessment teams through an actual risk assessment application and arrive at risk reduction alternatives for the decision-makers to review, evaluate, and implement those options that are determined to be cost-effective and realistic.
The SRAM seminar instruction will demonstrate how upgrades and consequence mitigation alternatives can be successfully applied to both building structures and infrastructures to improve their security, resilience and assure overall performance.
Purpose
Participants will learn how to systematically: 1) screen for those most critical system as-built assets by using fault-tree analyses techniques, 2) assess an adversarial threat spectrum for likelihood of attack, 3) evaluate consequences resulting from destruction and/or interruption of project facility mission, 4) perform vulnerability analyses using physical security system performance-effectiveness techniques, and 5) achieve a reasonable measure of security risks for an existing building and/or infrastructure.
The process permits decision-makers to select risk reduction options that are justified through performance metrics and cost-benefit analyses. Vulnerability logic diagrams and adversarial attack pathway-sequence diagrams are introduced to determine most likely attack scenarios and to develop security strategies for effective upgrades and consequence mitigation measures.
Because today’s challenges to security and performance are constantly changing, the instructors will provide current events material for seminar discussion, and encourage participants to contribute additional information that will be incorporated into more viable solutions.
A final participant project will provide instruction on how to form multi-disciplined teams to conduct, present and evaluate prototype risk assessment and management case-studies using actual example problems.
The course is sponsored by the School of Architecture and Outreach College at the University of Hawaii at Manoa.
Who Should Attend?
Architects, engineers, commercial and industrial planners, security protection professionals, building and facility managers and decision-makers who have a responsibility for the safety, security, reliability and operations of public and/or private and their supporting infrastructures.
Why Attend?
-- To learn an effective systematic approach to identify, assess, and manage security risks to buildings and infrastructures with a higher level of effectiveness and return on invested capital.
-- To evaluate the application and effectiveness of security risk assessment and management techniques and professional certification processes before committing agency or company resources.
-- To learn how to adapt a practical and rigorous risk methodology that addresses the full scope of challenges for the security of buildings and infrastructures.
Seminar Benefits
-- Learn to apply security risk guidelines to establish critical asset protection that is both practical and user-friendly
-- Learn about the tools and processes available to professionals to optimize building resilience
-- Experience the advantages of a systematic and robust risk process that has payoffs to owners and stakeholders
-- Gain confidence by applying a performance-based security risk reduction approach to actual circumstances
-- Address how to apply resilience solutions in multi-hazard & multi-threat environments
-- Meet the challenges to security performance in a risk management context
-- Address challenges to security and performance in the context of risk assessment methodologies
-- Prepare to meet subsequent building security certification requirements required by the relevant professional associations
Public (Federal) Sector
-- The seminar provides verified methodology as developed for the Interagency Forum for Infrastructure Protection (IFIP)
-- The Risk Assessment Methodology and its evaluation of security system effectiveness used in the seminar is consistent with guidelines developed by the ASCE Building Security Council and other Federal Agencies, including the Center for Security Systems and Technology, Sandia National Laboratories, a U.S. Department of Energy facility.
-- Apply the Department of Homeland Security (DHS) “National Infrastructure Protection Plan” (NIPP) framework for risk management, and review the application of the FEMA Risk Management Series of Publications, such as the: “Minimizing the Effects of Natural Disasters and Potential Terrorist Attacks on Large Buildings.”
Private Sector
-- 85% of buildings and infrastructures in the U.S. are privately owned
-- 70% of U. S. industrial complex believe that security spending is offset by gains in improved long-term productivity.
-- Commercial enterprises are becoming more pro-active in supporting the DHS emphasis on protection of infrastructure that has national security and economic interests.
-- Security risk assessment and management tools are being used for allocating scarce manpower and facility resources where justified.
Instructor
RUDY MATALUCCI, PH.D., P.E., RETIRED Lt. Col. (USAF), Albuquerque, NM, is the President of Rudolph Matalucci Consultants, Inc. (RMCI), Specialists in Infrastructure and Architectural Surety®, (www.archsur.com).
During twenty-two years at Sandia National Laboratories, he served as project engineer and manager for DOE and DOD funded R & D programs for deeply buried nuclear waste repositories, advanced nuclear weapons security and survivability facilities, environmental cleanup of contaminated DOE sites, and building and infrastructure protection against malevolent and abnormal threats.
At Sandia, Dr. Matalucci was a distinguished member of the technical staff and project manager for Infrastructure and Architectural Surety® Federal and non-federal programs. He directed the development of the Risk Assessment Methodology for Dams (RAM-DSM) and High-Voltage Power Transmission (RAM-TSM) in cooperation with numerous government agencies and was assigned as the Federal DHS subject matter expert for application of security risk management procedures to the Dam Sector and other national infrastructures.
He is a Building Security Certified Professional (BSCP) through the ASCE Building Security Council.
Dr. Matalucci is a co-author of a 2007 John Wiley & Sons published textbook entitled: “Security Risk Assessment and Management: A Professional Practice Guide for Protecting Buildings and Infrastructures.” He has Civil Engineering degrees from University of New Hampshire (BSCE) and Oklahoma State University (MSCE, PhD).
In his twenty years with the USAF, Lt. Colonel Matalucci directed R & D for high-explosive blast and shock simulations for evaluation of nuclear and conventional weapons effects on hardened military structures; and directed design, construction, and testing of prototype conventional and specialized military protective facilities around the world.
Course Content
Summary
Introduction and Definitions
“Surety” Principles and Applications
Risk Assessment Methodology
Facility Characterizations
Threats, Consequences, Vulnerabilities
Risk Assessment Procedures
Risk Reduction Options
Security Strategies and Cost-Benefits
Physical Protection System Effectiveness and Impacts
Risk Management Alternatives
Owner and Stakeholder Decision-Making Process
Engineering Designs and Implementation Phases
Training and Security Operations
Team Case Study
Tools and Concepts
-- Risk Management Elements and Principles
-- Facility Mission and Characterization
-- Critical Asset Mission and Identification
-- Incident-Threat Characterization and Analysis
-- Consequence and Impact Analysis
-- Vulnerability and Physical
-- Security System Effectiveness
-- Potential Attack Scenario Tables
-- Risk Management for Decision-Makers
-- Security Strategies and Consequence Mitigation Options
-- Performance Metrics and Resource Allocation
Technology Transfer
-- Risk Assessment Methodology
-- Physical Security System Performance
-- General Effects of Explosive Attacks
-- Engineered Innovative Materials (optional)
-- Instrumentation and Non-Destructive Evaluation (optional)
Team Exercise
-- Application of Tool-Sets to Case Study
-- Alternative Solutions for Integrated Designs
-- Consensus Building Experience
-- Team Presentations and Lessons Learned
