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This article was automatically translated from the original Turkish version.

Article

Security Camera

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Interface Connections

Wi-Fi

RJ45 (Ethernet)

BNC (Coaxial)

Assembly Formats

Box

PTZ

Bullet

Dome

Recording Units

NVR (Network Video Recorder)

DVR (Digital Video Recorder)

Signal Types

Digital (IP)

Analog

Core Technologies

Infrared (IR)

CMOS

CCD

Door

Electro-optical imaging device

Security camera is an electro-optical device designed to monitor a specific area, record images, or transmit them to a remote location. In literature, it is commonly defined as the primary component of CCTV (Closed-Circuit Television) systems. Unlike television broadcasting, these systems transmit images not to the public but exclusively to authorized monitoring points.

Basic Working Principle

The fundamental function of a security camera is to convert light entering through the lens into electrical signals. The process consists of the following stages:

  1. Light Collection: The lens gathers light from the subject and focuses it onto the image sensor.
  2. Conversion: The image sensor (CCD or CMOS) converts light photons into electrical charges.
  3. Processing: The signal processor (DSP) transforms this data into a digital image, adjusting color, contrast, and sharpness.
  4. Transmission: The image is sent to a recording device (DVR/NVR) or display via wired (coaxial/Ethernet) or wireless methods.

Security Camera Working Principle (generated by artificial intelligence)

Image Sensor Technologies

Two main types of sensors are used in security cameras:

  • CCD (Charge-Coupled Device): Offers high sensitivity to light and produces less noise in low-light conditions. However, manufacturing costs are higher.
  • CMOS (Complementary Metal-Oxide-Semiconductor): Consumes less power and processes image data more quickly. CMOS sensors are now preferred in most high-resolution (4K and above) IP cameras.

Camera Types and Classification

Security cameras are categorized based on their intended use and physical design:

A. By Signal Transmission Method

  • Analog Cameras: Transmit images as analog signals via coaxial cables. They require a DVR (Digital Video Recorder) to record the footage.
  • IP (Internet Protocol) Cameras: Convert images into digital data and transmit them over a local area network (LAN) or the internet. They have built-in processors and IP addresses.

B. By Physical Design

  • Dome Cameras: Have a semi-spherical shape. Typically mounted on ceilings for indoor use; vandal-resistant models are available.
  • Bullet Cameras: Feature a cylindrical design. Commonly used outdoors or for monitoring specific directions due to their long-range viewing capability.
  • PTZ (Pan-Tilt-Zoom) Cameras: Can be controlled remotely. They can rotate horizontally, tilt vertically, and perform optical zoom.

Technical Components and Features

  • Resolution: Determines the amount of detail in the image. Measured in pixels (e.g., 1920x1080 – Full HD).
  • Infrared (IR) Illumination: Uses IR LEDs around the camera to capture images in complete darkness. This invisible light is detected by the sensor to produce black-and-white night vision.
  • WDR (Wide Dynamic Range): A technology that balances light levels between very bright and very dark areas in a scene to prevent loss of detail.
  • Focal Length: Expressed in millimeters (mm). Lower values (e.g., 2.8mm) provide wide-angle views, while higher values (e.g., 12mm) offer narrow-angle views with greater distance coverage.

Technical Components of Security Cameras (generated by artificial intelligence)

Storage and Data Management

The following methods are used for storing video footage:

  • DVR (Digital Video Recorder): Converts analog signals into digital format and records them onto a hard drive.
  • NVR (Network Video Recorder): Receives and stores digital data directly from IP cameras over a network.
  • Cloud Storage: Stores data on remote servers via the internet.

Bibliographies

Goolsby, Billie C., Marie-Therese Fischer, Tony G. Chen, Daniela Pareja-Mejía, Daniel A. Shaykevich, Amaris R. Lewis, et al. "Home Security Cameras as a Tool for Behavior Observations and Science Affordability." *PMC10153166*, (April 2023). Accessed December 28, 2025. https://pmc.ncbi.nlm.nih.gov/articles/PMC10153166/

James Pierce. "Machine Learning Uncertainty as a Design Material: A Post-Phenomenological Inquiry." CHI Conference on Human Factors in Computing Systems Proceedings, May 2021. Accessed December 28, 2025. https://dl.acm.org/doi/abs/10.1145/3290605.3300275

Narvilas, Gintaras, Valdas Urbonas, and Eglė Butkevičiūtė. "Human's Behavior Tracking in a Store Using Multiple Security Cameras." *Baltic Journal of Modern Computing* 10, no. 3 (2022): 526-544. Accessed December 28, 2025. https://epubl.ktu.edu/object/elaba:141536382/

Piza, Eric L., Brandon C. Welsh, David P. Farrington, and Amanda L. Thomas. "CCTV Surveillance for Crime Prevention: A 40-Year Systematic Review with Meta-Analysis." Criminology & Public Policy 18, no. 1 (2019): 135-159. Accessed December 28, 2025. https://academicworks.cuny.edu/jj_pubs/256/.

Surfaro, Steve, Dan Syed, Steven Babin, and Jay Chang. *Digital Video Quality Handbook*. Washington, D.C.: National Public Safety Telecommunications Council, 2018. Accessed December 28, 2025. https://www.npstc.org/download.jsp?tableId=37&column=217&id=4194&file=VQiPS_Digital_Video_Quality_HB_Appendix_180117_508.pdf.

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AuthorArda SongurDecember 28, 2025 at 6:50 PM

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Contents

  • Basic Working Principle

  • Image Sensor Technologies

    • Camera Types and Classification

      • A. By Signal Transmission Method

      • B. By Physical Design

  • Technical Components and Features

  • Storage and Data Management

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