Tell us a little bit more about yourself and what you are interested in! We will have an expert connect with you and share more about our products and solutions and answer any questions you have.
CinVivo.com. All rights reserved.
Designed, Developed and manufactured in silicon valley
High Dynamic Range (HDR) in videography is a comprehensive imaging approach that enhances the visual quality of video by capturing, processing, and displaying a broader range of brightness and color than traditional Standard Dynamic Range (SDR). It begins with specialized image sensors capable of detecting deep shadows and bright highlights simultaneously, often using techniques like dual-gain or multi-exposure fusion. These sensors work in tandem with logarithmic gamma curves or dedicated HDR formats to preserve detail across the full luminance spectrum. The video is then encoded in high bit-depth formats (typically 10-bit or higher) using wide color gamuts like BT.2020 and advanced transfer functions such as PQ (Perceptual Quantizer) or HLG (Hybrid Log-Gamma). Metadata—either static or dynamic—further guides HDR playback systems in tone mapping content to match display capabilities. During post-production, editors use HDR-capable tools to refine exposure, color grade, and contrast, maximizing the fidelity and depth of the captured footage. On playback, HDR-capable displays with high peak brightness and deep blacks render video with greater realism, sharper contrast, and more vivid color. The result is a video that preserves highlights without clipping, maintains shadow detail, and offers a more immersive and lifelike viewing experience, especially in high-stakes environments like surgical recording, where clarity and color accuracy are critical. HDR has become a defining standard for premium content across broadcast, streaming, and professional applications, offering both creative flexibility and future-proof visual quality.
Preserves Detail in Bright and Dark Areas
Surgical fields often include both bright reflections (from lights or instruments) and shadowed areas (deep incisions). HDR captures detail across this full brightness range, ensuring nothing is lost in overexposed highlights or underexposed shadows.
Enhances Visualization of Anatomy
By accurately rendering tissue color and structure, HDR improves the ability to differentiate between critical anatomical features.
Reduces Need for Manual Adjustments
With HDR, exposure dynamically adapts to challenging lighting conditions. This minimizes the need for manual gain/exposure tweaks mid-procedure, reducing workflow interruptions.
Future-Proofs Surgical Video for AI
AI systems perform better with high-quality input. HDR ensures consistent, detailed data capture—ideal for downstream applications like:
AI-based surgical coaching
Instrument tracking
Post-op analysis
Competency-based training
Enables Better Playback on Modern Displays
Many hospital systems now use HDR-capable monitors. Recording in HDR allows full use of this hardware, offering lifelike replay for education, review, and marketing.
