Publication | Closed Access
Smartphone imaging technology and its applications
115
Citations
74
References
2021
Year
EngineeringMobile InteractionImage SensorSpc MarketSmartphone ImagingComputational ImagingVision SensorTime-of-flight ImagingHealth SciencesTime-of-flight CameraMedical ImagingOphthalmologyMobile ImagingMobile ComputingDigital ImagingMedical Image ComputingComputational Optical ImagingOptical SensorsImage PerformanceElectronic ImagingBiomedical ImagingTechnologyImagingCamera Technology
Abstract Thanks to their portability, connectivity, and their image performance – which is constantly improving – smartphone cameras (SPCs) have been people’s loyal companions for quite a while now. In the past few years, multicamera systems have become well and truly established, alongside 3D acquisition systems such as time-of-flight (ToF) sensors. This article looks at the evolution and status of SPC imaging technology. After a brief assessment of the SPC market and supply chain, the camera system and optical image formation is described in more detail. Subsequently, the basic requirements and physical limitations of smartphone imaging are examined, and the optical design of state-of-the-art multicameras is reviewed alongside their optical technology and manufacturing process. The evolution of complementary metal oxide semiconductor (CMOS) image sensors and basic image processing is then briefly summarized. Advanced functions such as a zoom, shallow depth-of-field portrait mode, high dynamic range (HDR), and fast focusing are enabled by computational imaging. Optical image stabilization has greatly improved image performance, enabled as it is by built-in sensors such as a gyroscope and accelerometer. Finally, SPCs’ connection interface with telescopes, microscopes, and other auxiliary optical systems is reviewed.
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