The WizMind S Series camera range boasts an impressive array of features designed to provide top-notch security solutions. These cameras are engineered to deliver excellent image quality, addressing complex security challenges through a combination of image-enhancing technologies. With multiple AI functions, they offer exceptional analytical capabilities that fully support business practices and user management, making them adaptable and reliable in various situations. The dual-power backup ensures continuous operation even in power supply disruptions, and an anti-corrosion coating enhances durability in challenging environments.
The P-iris, Dual-Mic, and Heater features add to the camera’s adaptability. These cameras also feature AI-Powered Images for improved image quality, Deeplight technology for enhanced low-light performance, and Image Distortion Correction for natural and realistic video footage. With features like AcuPick, Video Metadata, Perimeter Protection, and People Counting, these cameras provide comprehensive security solutions. Furthermore, they come in plastic-free packaging, making them environmentally friendly, reliable, economical, and 100% recyclable, aligning with sustainability efforts to consume less.
Excellent Image Quality Captured through an array of image-enhancing technologies that address complex security challenges.
• AI-Powered Images Deeplight Image Distortion Correction Multiple AI Functions With exceptional analytical capabilities, the AI functions can fully support business practices and user management. AcuPick Video Metadata Perimeter Protection People Counting
Reliable Adaptability Providing more accurate light input control, whilst supporting an operating and storage temperature range of –40°C to +60° and max. 18m and 80dB single sound source pickup, WizMind S is the perfect solution for harsh environments. Anti-Corrosion Coating
(NEMA 4X-rated) P-Iris* Dual-Mic* Heater* Perimeter Protection & Self-Learning This new AI feature improves the cameras performance over time, without requiring explicit programming. The advanced algorithm learns from data to identify patterns and make decisions with minimal human intervention. Users or installers can detect false alarms, with the device analysing recorded frames to learn and prevent similar false alarms in the future. In complex scenarios, perimeter protection may generate false positives. However, with the self-learning function, the algorithm can identify and reduce these false targets, decreasing the rate of false positives.