Spectral Similarity Index: measures spectral match between light sources via spectrophotometry. Values >95 indicate identical sources; <80 cause visible color shifts in color-matching applications.
Technical Details
The SSI calculation is based on spectroradiometric measurements with a resolution of at least 5nm intervals. Values above 95 are considered practically identical, while values below 80 can cause visible color shifts during mixing. Modern LED panels achieve SSI values of 92-98 among themselves, while the comparison between tungsten light (3200K) and daylight LEDs typically yields SSI values around 45-55. Measurements are taken using calibrated spectrometers such as the Sekonic C-800 or Photo Research PR-788, which can display SSI values in real-time.
History & Development
In 2013, the AMPAS initiated the Science and Technology Council to develop more precise lighting metrics for digital film production. The SSI emerged as a direct response to the limitations of CRI with LED technology and multi-source setups. Initial field tests were conducted in 2014 at Warner Bros. Panavision, before official standardization occurred in 2015. Since 2018, manufacturers such as ARRI, Kino Flo, and Litepanels have integrated SSI measurements into their product specifications. The standard was supplemented in 2020 with the Extended SSI (eSSI) for the expanded spectral range up to 1000nm.
Practical Application in Film
For "Blade Runner 2049" (2017), cinematographer Roger Deakins used SSI measurements for precise matching of various LED arrays for the complex neon scenes. Color continuity between practical LED walls (SSI 96) and fill panels enabled seamless transitions without extensive color correction. In TV productions like "The Mandalorian," SSI matching between LED volumes and set lighting ensures consistent color reproduction across different camera positions. The index accelerates setup time, as gaffers can immediately identify compatible light sources without relying on test shots.
Comparison & Alternatives
While CRI evaluates color rendering against blackbody radiators, SSI measures the practical compatibility between actually used light sources. The Television Lighting Consistency Index (TLCI) focuses on camera sensor-specific optimization but does not achieve the precision of SSI in spectral analysis. For pure LED setups, SSI is the primary matching tool, while for mixed tungsten/LED setups, CRI values remain relevant. The newer Spectral Power Distribution Match (SPDM) extends SSI principles to include intensity matching, but has not yet become widespread.