Your search keyword '"Mauri Aikio"' showing total 4 results

1. Digital spatial wavelength domain multiplexing (DSWDM) using a prism-grating-prism (PGP) and a CMOS imager: implementation and initial testing

Author

Harri Kopola, John B. Niemczuk, Steven G. Buckley, Pekka Suopajärvi, Jason S. Kiddy, Steve Chen, Christopher S. Baldwin, Martin B. Christiansen, Mauri Aikio, and Peter C. Chen

Subjects

CMOS sensor, Signal processing, Engineering, Spectrometer, business.industry, Physics::Optics, Grating, Multiplexing, Optics, CMOS, Fiber Bragg grating, Electronic engineering, Prism, business

Abstract

A CMOS imager-based spectrometer is used to interrogate a network containing a large number of Bragg grating sensors on multiple fibers as part of a proprietary structural health monitoring system. The spectrometer uses a Prism-Grating-Prism (PGP) to spectrally separate serially multiplexed Bragg reflections on a single fiber. As a result, each Bragg grating produces a discrete spot on the CMOS imager that shifts horizontally as the Bragg grating experiences changes in strain or temperature. The reflected wavelength of the Bragg grating can be determined by finding the center of the spot produced. The use of a random addressing CMOS imager enables a flexible sampling rate. Some fibers can be interrogated at a high sampling rate while others can be interrogated at a lower sampling rate. However, the use of a CMOS camera brings several specific problems in terms of signal processing. These include a logarithmic pixel response, a low signal-to-noise ratio, the long pixel time constant, obtaining sufficient process priority for the control program, and proper selection of the window of interest. In this paper we investigate computer algorithms and hardware solutions to address these problems. We also present experimental data to validate these solutions including calibration data and initial field-testing data with 24 sensors on 4 fibers.

Published

2001

2. Advanced prism-grating-prism imaging spectrograph in online industrial applications

Author

Tapio Vaarala, Heimo Keraenen, and Mauri Aikio

Subjects

Engineering, Optics, Remote sensing application, Fiber optic sensor, business.industry, Optical engineering, Prism, Grating, Color space, Optical filter, business, Spectrograph

Abstract

Imaging spectrographs have traditionally been utilized in aerial and remote sensing applications. A novel, compact and inexpensive imaging spectrograph developed by VTT Electronics is now available. It contains a multichannel fiber optic sensor head, a dispersive prism-grating-prism (PGP) component and digital CCD matrix camera capable of area integration. In rolled steel manufacturing, a protective oil film is applied on steel to resist corrosion while in transport and storage. The main problems in the oiling machine are film thickness control and jet failures. In this application, the spectrum of fluorescence of an oil film was measured simultaneously with parallel fibers. A relatively simple calibration and analysis procedure was used to calculate the oil film thickness. On-line color control for color reproduction is essential in both consumer and industrial products. The instrument was tested and analyzed for measuring differences in color by multivariate analysis of the spectra and by color space coordinate estimation. In general, a continuous spectrum is not absolute requirement. In these two examples, filter-based measurement would probably cost less thana PGP spectrograph solution. On the other hand, by measuring the spectrum and using an advanced signal processing algorithm one production version will cover all installations in both applications. In practice, only the fiber sensor mechanics need to be modified.© (1997) COPYRIGHT SPIE--The International Society for Optical Engineering. Downloading of the abstract is permitted for personal use only.

Published

1997

3. Imaging spectrometer for process industry applications

Author

Jorma Lammasniemi, Timo Hyvärinen, Mauri Aikio, Jukka Okkonen, and Esko Herrala

Subjects

Engineering, Spectrometer, business.industry, Image quality, Detector, Imaging spectrometer, Holography, law.invention, Imaging spectroscopy, Optics, law, Spectral resolution, business, Spectrograph

Abstract

This paper presents an imaging spectrometer principle based on a novel prism-grating-prism (POP) element as thedispersive component and advanced camera solutions for on-line applications. The PGP element uses a volume typeholographic plane transmission grating made of dichromated gelatin (DCG). Currently, spectrographs have been realized for 400-1050 nm region but applicable spectral region of the PGP is 380 - 1800 nm. Spectral resolution is typically between1.5 and 5 nm.The on-axis optical configuration and simple rugged tubular optomechanical construction of the spectrograph provide a good image quality and resistance to harsh environmental conditions. Spectrograph optics is designed to beinterfaced to any standard CCD camera. Special camera structures and operating modes can be used for applications requiring on-line data interpretation and process control. 1. INTRODUCTIONImaging spectroscopy is a new versatile and powerful method for simultaneous, efficient measurement of spatial andspectral maps of various two dimensional objects13. In the advanced form of this technology a dispersive stationaryspectrograph module is connected to a matrix detector to form a fixed imaging spectrometer. One dimension of the arraydetector constitutes a spatial line image through the entrance slit and the other dimension is used to register the spectrumfor every line element. In many applications the movement of the object (process stream, web) forms the other spatialdimension of the image automatically. Imaging spectroscopy has emerged mainly due to a rapid evolution of charge-cou-pled devices (CCD), digital signal processing (DSP) components and new imaging spectrographs. By the use of imagingfiber bundles or multiple, distributed fiber systems, multipoint spectroscopy can also be applied to many hazardous or not

Published

1994

4. Novel spectroscopic techniques for biomedical applications

Author

Esko Herrala, Jouko Malinen, Timo Hyvärinen, and Mauri Aikio

Subjects

Materials science, Spectrometer, business.industry, Resolution (electron density), Near-infrared spectroscopy, law.invention, Linear array, Optics, Tissue optics, law, Optoelectronics, business, Spectroscopy, Monochromator, Light-emitting diode

Abstract

This paper describes two new spectroscopic techniques which are utilizing hybrid integrated optoelectronics particularly suitable for field and hand-held use. First, the LED module is based on a linear array of light emitting diodes and a fixed monochromator, and provides a solid-state electrically scanned source for pre-dispersive spectrometers. A prototype module operating from 810 to 1060 nm with resolution of 10 nm scans one spectrum in 19 ms and has a solid glass construction with dimensions of 4 X 4 X 7 cm. Potential applications include miniature, rugged and low cost instruments for transcutaneous blood and tissue spectroscopy in the near infrared (NIR) region.

Published

1994