Advanced optical engineering
The Advanced Optics group of CeDInt specializes in the development of new photo voltaic concentration systems that optimize cost, tolerance and conversion efficiency of conventional photo voltaic systems. Development of advanced optics for lighting systems with application to both interior and exterior lighting. Optical signaling systems for automobile industry and special applications. Image forming optics applied to improve proyection systems, panoramic cameras for video surveillance (both visible and IR) and compact telephoto lenses. Research in sub-lambda high resolution systems. Development of next generation optical sensors (predictive maintenance of electrical networks)
The Optical engineering research line is divided into four main investigation fields:
- Advanced illumination optical systems. We design and develop illumination systems based on Light Emitting Diodes (LEDs). Signalling systems and indoor illumination devices are designed and measured with the purpose of obtaining a maximum efficiency and a perfect adaptation to our environment. The car industry is strongly related to illumination optics due to a wide range of optical products are developed within this field such as headlights, rear lights and other inside light systems.
- Optical systems for non-guided optical communications. We design optical devices that not only have a specific angular response (for both LEDs and Photodiodes) but also produce a extremely coherent and collimated light within the predefined area.
- Photovoltaic concentration systems to optimize the performance of different solar cells.
- Projection systems. A wide range of highly efficient and ultracompact optical systems are designed and tested in order to elaborate projection systems for home automation applications. These systems are specially focused on home cinema technology.
The objective of the Project is to design and manufacture a first prototype of a hybrid visualization system for Virtual and Augmented Reality. It will have large field of view, high resolution,...
The objective of the project is the generation of new concepts of advanced optics for Virtual Reality Headsets, paying special attention to the optical problems related to the...
The objective of the project is the development of a Head Mounted Display (HMD) system, compact and with large field of view.
This project aims to develop optical sensors to optimize management of electrical utility networks. The main differentiator compared to similar projects is the predictive...
The mission of SMETHODS project is to strengthen Europe's optics and photonics industry by providing trainings and hands-on practice in optical design and simulation.
This project proposes the development of a manufacturing centre in order to produce polymeric prototypes of different optical systems.
Study of the experimental development of a new infrared panoramic camera. The use of infrared sensors not only makes it possible to use these in systems in surveillance devices...
Desarrollo de un sistema de simulación orientado a los sectores de arquitectura e iluminación que permita resolver el cálculo lumínico con el grado de complejidad requerido en...
The main aim of this Project is to develop new on-board sensors for multispectral visualization by means of increasing the number of individual sensors and Implementing real-...
Research on novel light bulb devices based on Light Emitting Diodes (LEDs) in order to improve the efficiency and illumination pattern.
Diseño y desarrollo de un nueva generación de concentradores fotovoltaicos de alta eficiencia basados en el principio de lentes Fresnel.
Research on the field of metamaterials.
Development and analysis of a novel method for the design of anamorphic optical surfaces in the field of imaging optics. This method is based on the SMS3D design process.
Creation of an innovative model for transferring concepts and knowledge about several technologies related to the optical field.
Study of XR concentrators with a high level of solar light concentration (1000x) and high angular tolerance, all of that will be done in order to obtain high efficiency optical...
Viability study of a backlight system for digital TV displays based on LED technology.
Research on advanced optical devices in order to improve the resolution of panoramic sensors used in surveillance and security applications.
The aim of PRV project is to design and develop novel external optical systems in order to obtain projection systems that generate big images. These systems are suitable for...
Design and development of a solar concentrator prototype which makes use of high efficiency solar cells. The aim is to improve the efficiency of the current photovoltaic...
|Sistemas avanzados de iluminación||
Development of an optical system whose light source is a group of LEDs. The idea is to create a backlight system which can be applied in several illumination systems.
Development of a prototype of an optical system that later will be connected to a HDTV projector in order to reduce the distance between the projector and the image projected...
Development of an optical device which, once it is connected to a conventional projector, permits to project an image with both high resolution and size from an extraordinary...
Developement of an innovative manufacturing technology to produce a new generation of headlamps for vehicles, which will be the basis for a future car-to-car or car-to-...