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CCTV System Programming

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CCTV System Programming

B2478

Istanbul (Turkey)

12 Apr 2026 -23 Apr 2026

9750

Overview

Introduction:

CCTV system programming represents a critical technical function within modern security and surveillance infrastructures. Effective programming ensures that camera systems, recording platforms, and monitoring interfaces operate in alignment with organizational security objectives and risk-control requirements. This program presents structured frameworks for configuring, programming, and managing CCTV systems within institutional and operational environments. It also addresses system integration, performance optimization, and governance considerations that support reliable and compliant surveillance operations.

Program Objectives:

By the end of this program, participants will be able to:

  • Define the functional scope and institutional role of CCTV system programming within security frameworks.

  • Classify CCTV system components, configurations, and programming parameters.

  • Configure camera settings, recording rules, and system logic to meet operational requirements.

  • Evaluate system performance, storage efficiency, and operational reliability.

  • Develop structured approaches for maintaining, updating, and governing CCTV system configurations.

Targeted Audience:

  • Security Systems Technicians and Engineers.

  • CCTV and Surveillance Operators.

  • IT and Systems Integration Specialists.

  • Facility and Security Managers.

  • Professionals involved in physical security and monitoring systems.

Program Outline:

Unit 1:

CCTV Systems Architecture and Programming Fundamentals:

  • Overview of CCTV system architecture and surveillance objectives.

  • Roles of programming within security system effectiveness.

  • Analog, IP, and hybrid CCTV system structures.

  • Core components: cameras, NVR/DVR, servers, and control interfaces.

  • Institutional requirements for CCTV system configuration.

Unit 2:

Camera Configuration and Parameter Programming:

  • Programming camera resolution, frame rates, and compression formats.

  • Field-of-view settings, focus, and image optimization parameters.

  • Day/night modes, infrared, and low-light configuration.

  • Privacy masking and compliance-related configuration settings.

  • Synchronization of camera settings across systems.

Unit 3:

CCTV Camera Types and Configurations:

  • Recording schedules and trigger-based recording logic.

  • Motion detection and event-rule configuration.

  • Storage allocation, retention policies, and backup parameters.

  • Alarm integration and event-notification programming.

  • Managing system load and storage optimization.

Unit 4:

Network Integration and System Management:

  • IP addressing and network configuration for CCTV systems.

  • Integration with access control, alarms, and monitoring platforms.

  • User roles, permissions, and access-control programming.

  • Remote access configuration and secure connectivity.

  • Cybersecurity considerations in CCTV system programming.

Unit 5:

Performance Monitoring, Maintenance, and Governance:

  • Monitoring system health and performance indicators.

  • Firmware updates and configuration management practices.

  • Troubleshooting common programming and configuration issues.

  • Documentation, audit trails, and change-control procedures.

  • Governance frameworks and regulatory considerations for CCTV operations.

Unit 6:

Video Management Systems (VMS) Architecture and Control:

  • Institutional role of Video Management Systems within surveillance ecosystems.

  • Structural components and configuration models of VMS platforms.

  • Centralized management of multi-camera environments through VMS.

  • Monitoring, playback, and evidence-handling workflows.

  • Integration frameworks between VMS and access control systems.

Unit 7:

Video Analytics and Intelligent Surveillance Functions:

  • Analytical capabilities of video analytics within CCTV systems.

  • Configuration logic for motion detection and event-based triggers.

  • Behavioral pattern recognition and rule-based analytics models.

  • Alignment of analytics outputs with alarm and notification systems.

  • Operational value of analytics through institutional use cases.

Unit 8:

Remote Monitoring and Secure Mobile Access:

  • Remote-access architectures for distributed CCTV environments.

  • Mobile and web-based access models for surveillance systems.

  • Cloud-enabled monitoring and centralized management frameworks.

  • Security controls for remote connectivity and data transmission.

  • Reliability considerations and resolution of remote-access disruptions.

Unit 9:

Integrated Security Systems and Interoperability:

  • Integration models between CCTV, access control, and alarm systems.

  • Communication protocols, APIs, and data-exchange frameworks.

  • Event correlation and automated response configurations.

  • Institutional case scenarios for integrated security operations.

  • Ensuring system interoperability, resilience, and operational continuity.

Unit 10:

System Maintenance, Optimization, and Troubleshooting:

  • Preventive maintenance frameworks for CCTV systems.

  • Configuration management, system updates, and performance tuning.

  • Diagnostic approaches for common system and network issues.

  • Firmware governance and software patch management.

  • Developing institutional maintenance schedules and audit records.