Although smartphones and other consumer cameras are increasingly used for scientific applications, it's difficult to compare and combine data from different devices. A new easy-to-use standardized method makes it possible for almost anyone to calibrate these cameras without any specialized equipment, helping amateurs, science students, and professional scientists to acquire useful data with any consumer camera.

A new calibration method makes it easier to compare and combine data from different cell phone devices used for scientific applications. The researchers found that while most cameras had very similar spectral response curves there were some differences that could influence how the cameras sense and reproduce colors, even when imaging the exact same scene. (Courtesy of Olivier Burggraaff)

A multi-institutional group of researchers has reported a new standardized calibration method and database, called Standardized Photographic Equipment Calibration Technique And CataLoguE (SPECTACLE), which can be used for smartphones, digital single-lens reflex cameras, and cameras aboard drones. The database allows users to upload calibration data from their cameras for others to use.

The standardized calibration method was developed in response to a need that arose as the researchers were developing citizen science methods to measure optical water quality using a smartphone add-on called Spectropolarimeter for Planetary EXploration (iSPEX) that they originally developed to measure air pollution. This add-on allows a smartphone camera to measure extra optical information such as hyperspectral and polarimetric data. SPECTACLE and iSPEX are part of Multiscale Observation Networks for Optical monitoring of Coastal waters, Lakes and Estuaries (MONOCLE), a project funded by the European Commission aimed at creating sustainable solutions for measuring optical water quality.

“To use smartphone cameras to measure water quality we need to understand them well because each manufacturer and each device has its own characteristics,” said lead researcher Olivier Burggraaff, of Leiden University, Netherlands. “SPECTACLE brings together many existing calibration methods and applies them for the first time to consumer cameras, which will make it much easier for other developers and for us to use these cameras for scientific purposes.”

Although calibration methods for consumer cameras have been developed previously, these efforts were often hampered by a lack of access to the software or available information about the devices. For example, until recently it wasn't possible to access data straight from the camera sensor — known as so-called RAW data — or to control many camera settings like focus or exposure. However, new versions of iOS and Android allow both.

To test the new calibration methods, the researchers compared them with established methods using several cameras. They found, for example, that the DIY method for measuring how the lens distributes light on the sensor, known as flat fielding, matched within five percent of results from the standard method, which requires an integrating sphere in a laboratory setup. The DIY method involved taping paper on the camera and acquiring images of the sun or a computer screen.

They also tested the spectral response curves of a smartphone camera with the iSPEX attached and were able to achieve results within four percent of the professional measurement method, which requires an expensive and difficult-to-operate monochromator. The calibration of a single camera can take half a day with a monochromator, but the DIY method required simply taking a single picture of a piece of printer paper in the sun.

“We tested a number of cameras and found interesting differences and similarities between them,” said Burggraaff. “For example, the cameras’ responses to different wavelengths of light, known as spectral response curves, were very similar among most cameras except for a few devices that showed differences that could influence how the cameras sense and reproduce colors, even when imaging the exact same scene.”

The researchers plan to apply the SPECTACLE methodology to a much larger number of cameras to fill in the database and get a broader idea of camera properties. This will be done by the researchers as well as anyone who wants to upload their calibration data into the database. They are also continuing to develop the iSPEX smartphone add-on to improve its ability to acquire water and air pollution measurements. This involves advancing its physical design and the algorithms for retrieving scientific results from its data while using the SPECTACLE methods and database to combine data from different smartphones.

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Photonics & Imaging Technology Magazine

This article first appeared in the September, 2019 issue of Photonics & Imaging Technology Magazine.

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