Effective Physical Security, Fifth Edition is a best-practices compendium that details the essential elements and latest developments in physical security protection. This new edition is completely updated, with new chapters carefully selected from the author's work that set the standard. This book contains important coverage of environmental design, security surveys, locks, lighting, and CCTV, the latest ISO standards for risk assessment and risk management, physical security planning, network systems infrastructure, and environmental design.
Effective Physical Security, Fifth Edition is a best-practices compendium that details the essential elements and latest developments in physical security protection. This new edition is completely updated, with new chapters carefully selected from the author's work that set the standard.
This book contains important coverage of environmental design, security surveys, locks, lighting, and CCTV, the latest ISO standards for risk assessment and risk management, physical security planning, network systems infrastructure, and environmental design. Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Lawrence J. Fennelly is an internationally recognized authority on crime prevention, security planning and analysis, and on the study of how environmental factors (CPTED), physical hardware, alarms, lighting, site design, management practices, litigation consultants, security policies and procedures, and guard management contribute to criminal victimization.
Mr. Fennelly was previously employed with Apollo Security, Computershare, Inc., as well as a sergeant at Harvard College, employed by the Harvard University Police Department in Cambridge, Massachusetts. He was trained as a crime prevention specialist and served in this capacity for over 21 years at Harvard. He was also the department's training officer and assistant court officer. As part of his role as an officer at Harvard, Larry also was a deputy sheriff in both Suffolk and Middlesex counties (Massachusetts). Mr. Fennelly is a frequent speaker and lecturer on CPTED, physical security, school crime, and other issues. He serves as an expert witness who works closely with attorneys in defense as well as plaintiff cases, assisting in case preparation, offering knowledgeable questions to ask the opposing side, etc. He has also done a considerable amount of consultant work throughout the United States. His experience ranges from identifying vulnerabilities to conducting security and lighting surveys, working with architects to design and implement security, and developing long range guard training programs and risk assessments of various facilities. He is also a prolific author. His titles include such well-known security books as "Crime Prevention Through Environmental Design," "Effective Physical Security," and "Handbook of Loss Prevention and Crime Prevention."
Inhaltsangabe
Chapter 1. Encompassing Effective CPTED Solutions in 2017 and Beyond: Concepts and Strategies
Chapter 2. Introduction to Vulnerability Assessment
Chapter 3. Influence of Physical Design
Chapter 4. Approaches to Physical Security
Chapter 5. Security Lighting
Chapter 6. Electronics Elements: A Detailed Discussion
Chapter 7. Use of Locks in Physical Crime Prevention
Chapter 8. Internal Threats and Countermeasures
Chapter 9. External Threats and Countermeasures
Chapter 10. Biometrics in the Criminal Justice System and Society Today
Chapter 11. Access Control Systems and Identification Badges
Chapter 12. Chain-Link Fence Standards
Chapter 13. Doors, Door Frames, and Signage
Chapter 14. Glass and Windows
Chapter 15. The Legalization of Marijuana and the Security Industry
Chapter 16. Designing Security and Working With Architects
Chapter 17. Standards, Regulations, and Guidelines Compliance and Your Security Program, Including Global Resources
Chapter 18. Information Technology Systems Infrastructure
Chapter 19. Security Officers and Equipment Monitoring
Chapter 20. Video Technology Overview
Chapter 21. Understanding Layers of Protection Analysis