OLED Display For Surgical Training
Such surgery involves operations using precision pin-thin instruments inside the eye. Teaching and training of such microsurgical interventions is expensive and very time consuming. Without the use of simulation, beginning surgeons can gain surgical experience only on actual patients, thus increasing rates of complications. In addition there is no way to train the handling of complications under real surgical conditions without additional risk to the patient.
The EYESI is designed to reflect all critical issues of the surgical situation. The surgeon inserts replicas of original surgical instruments into an eye model, which is fixed under a facial mask. The position of surgical instruments and orientation of the eye model is determined by a specially designed optical tracking system. Tracking involves three CMOS cameras and field programmable gate array (FPGA) image-processing hardware, delivering position data to sub-millimeter accuracy. The operation scenario is rendered via computer graphics to a stereomicroscope mimic, or simulated image. The microscope contains two high-resolution OLED microdisplays which are viewed through oculars to provide left and right eye views, providing a 3D image.
EMagin is a US developer of active-matrix OLED displays. VRmagic is based in Mannheim, Germany.
AngelTech Live III: Join us on 12 April 2021!
AngelTech Live III will be broadcast on 12 April 2021, 10am BST, rebroadcast on 14 April (10am CTT) and 16 April (10am PST) and will feature online versions of the market-leading physical events: CS International and PIC International PLUS a brand new Silicon Semiconductor International Track!
Thanks to the great diversity of the semiconductor industry, we are always chasing new markets and developing a range of exciting technologies.
2021 is no different. Over the last few months interest in deep-UV LEDs has rocketed, due to its capability to disinfect and sanitise areas and combat Covid-19. We shall consider a roadmap for this device, along with technologies for boosting its output.
We shall also look at microLEDs, a display with many wonderful attributes, identifying processes for handling the mass transfer of tiny emitters that hold the key to commercialisation of this technology.
We shall also discuss electrification of transportation, underpinned by wide bandgap power electronics and supported by blue lasers that are ideal for processing copper.
Additional areas we will cover include the development of GaN ICs, to improve the reach of power electronics; the great strides that have been made with gallium oxide; and a look at new materials, such as cubic GaN and AlScN.
Having attracted 1500 delegates over the last 2 online summits, the 3rd event promises to be even bigger and better – with 3 interactive sessions over 1 day and will once again prove to be a key event across the semiconductor and photonic integrated circuits calendar.
So make sure you sign up today and discover the latest cutting edge developments across the compound semiconductor and integrated photonics value chain.
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