Distance measurement using the change in junction voltage across a laser diode due to the self-mixing effect

Conventional detection scheme for self-mixing sensors uses an integrated photodiode within the laser package to monitor the self mixing signal. This arrangement can be simplified by directly obtaining the self-mixing signals across the laser diode itself and omitting the photodiode. This work reports on a Vertical-Cavity Surface-Emitting Laser (VCSEL) based selfmixing sensor using the laser junction voltage to obtain the selfmixing signal. We show that the same information can be obtained with only minor changes to the extraction circuitry leading to potential cost saving with reductions in component costs and complexity and significant increase in bandwidth favoring high speed modulation. Experiments using both photo current and voltage detection were carried out and the results obtained show good agreement with the theory.

Applying A Normalized Compression Metric To The Measurement Of Dialect Distance

The paper discusses the application of a similarity metric based on compression to the measurement of the distance among Bulgarian dia- lects. The similarity metric is de ned on the basis of the notion of Kolmo- gorov complexity of a le (or binary string). The application of Kolmogorov complexity in practice is not possible because its calculation over a le is an undecidable problem. Thus, the actual similarity metric is based on a real life compressor which only approximates the Kolmogorov complexity. To use the metric for distance measurement of Bulgarian dialects we rst represent the dialectological data in such a way that the metric is applicable. We propose two such representations which are compared to a baseline distance between dialects. Then we conclude the paper with an outline of our future work.

Measurement systems in wall production applications

Tässä tutkimuksessa kehitettiin prototyyppi betonielementin dimension mittaus järjestelmästä. Tämä järjestelmä mahdollistaa kolmiulotteisen kappaleen mittauksen. Tutkimuksessa kehitettiin myös stereonäköön perustuva kappaleen mittaus. Prototyyppiä testailin ja tulokset osoittautuivat luotettaviksi. Tutkimuksessa selvitetään ja vertaillaan myös muita lähestymistapoja ja olemassa olevia järjestelmiä kappaleen kolmiuloitteiseen mittaukseen, joita Suomalaiset yhtiöt käyttävät tällä alalla.

Multivariate measurement error models based on scale mixtures of the skew-normal distribution

Scale mixtures of the skew-normal (SMSN) distribution is a class of asymmetric thick-tailed distributions that includes the skew-normal (SN) distribution as a special case. The main advantage of these classes of distributions is that they are easy to simulate and have a nice hierarchical representation facilitating easy implementation of the expectation-maximization algorithm for the maximum-likelihood estimation. In this paper, we assume an SMSN distribution for the unobserved value of the covariates and a symmetric scale mixtures of the normal distribution for the error term of the model. This provides a robust alternative to parameter estimation in multivariate measurement error models. Specific distributions examined include univariate and multivariate versions of the SN, skew-t, skew-slash and skew-contaminated normal distributions. The results and methods are applied to a real data set.

Symmetry and order parameter dynamics of the human odometer

Bipedal gaits have been classified on the basis of the group symmetry of the minimal network of identical differential equations (alias cells) required to model them. Primary bipedal gaits (e.g., walk, run) are characterized by dihedral symmetry, whereas secondary bipedal gaits (e.g., gallop-walk, gallop- run) are characterized by a lower, cyclic symmetry. This fact has been used in tests of human odometry (e.g., Turvey et al. in P Roy Soc Lond B Biol 276:4309–4314, 2009, J Exp Psychol Hum Percept Perform 38:1014–1025, 2012). Results suggest that when distance is measured and reported by gaits from the same symmetry class, primary and secondary gaits are comparable. Switching symmetry classes at report compresses (primary to secondary) or inflates (secondary to primary) measured distance, with the compression and inflation equal in magnitude. The present research (a) extends these findings from overground locomotion to treadmill locomotion and (b) assesses a dynamics of sequentially coupled measure and report phases, with relative velocity as an order parameter, or equilibrium state, and difference in symmetry class as an imperfection parameter, or detuning, of those dynamics. The results suggest that the symmetries and dynamics of distance measurement by the human odometer are the same whether the odometer is in motion relative to a stationary ground or stationary relative to a moving ground.

Maximized Utility of the Global Positioning System, HR-316, 1991

This report describes a project begun in January 1989 and completed December 1990, with the primary objective of obtaining sufficiently accurate horizontal and vertical control by using Global Positioning System (GPS) for highway applications. The ISU research group studied the operations of the Ashtech GPS receiver in static, pseudo-static, kinematic, and pseudo-kinematic modes. By using the Electronic Distance Measuring Instrument (EDMI) Calibration Baseline at ISU, the GPS receiver was tested for distance measurement accuracy. It was found that GPS measurements differed from the baseline distance by about 5.3 mm. Four projects were undertaken to further evaluate and improve the horizontal as well as the vertical accuracies of the GPS receiver -- (1) The Campus Project: with all points concentrated within a one-mile radius; (2) The Des Moines Project: a typical DOT project with all the points within a five-mile radius; (3) The Iowa Project: with all points within a 100-mile radius in the state of Iowa; and (4) The Mustang Project: an extension of the Iowa project, including a typical DOT project of about 10 miles within the inner 30 mile radius of the Iowa project.

Performance of an ultrasonic ranging sensor in apple tree canopies

Electronic canopy characterization is an important issue in tree crop management. Ultrasonic and optical sensors are the most used for this purpose. The objective of this work was to assess the performance of an ultrasonic sensor under laboratory and field conditions in order to provide reliable estimations of distance measurements to apple tree canopies. To this purpose, a methodology has been designed to analyze sensor performance in relation to foliage ranging and to interferences with adjacent sensors when working simultaneously. Results show that the average error in distance measurement using the ultrasonic sensor in laboratory conditions is ±0.53 cm. However, the increase of variability in field conditions reduces the accuracy of this kind of sensors when estimating distances to canopies. The average error in such situations is ±5.11 cm. When analyzing interferences of adjacent sensors 30 cm apart, the average error is ±17.46 cm. When sensors are separated 60 cm, the average error is ±9.29 cm. The ultrasonic sensor tested has been proven to be suitable to estimate distances to the canopy in field conditions when sensors are 60 cm apart or more and could, therefore, be used in a system to estimate structural canopy parameters in precision horticulture.

Link-16 -järjestelmän käyttö puolustusvoimissa

Kehitys tietotekniikan puolella on viime vuosina ollut huimaa. Tämä on näkynyt kaikkialla yhteiskunnassa, muun muassa digitelevision esiinmarssina. Myös ilmailussa, sekä siviili- että sotilasilmailussa, on ryhdytty kartoittamaan uuden tekniikan hyväksikäyttömahdollisuuksia. Tämän työn tarkoituksena on tarkastella, miten NATO:n käyttämää datalinkkijärjestelmää, Link-16 -järjestelmää, voitaisiin käyttää Suomen Puolustusvoimien yhteisoperaatioissa sekä ilmavoimien omissa operaatioissa. Yhteisoperaation datalinkkijärjestelmälle asettamia vaatimuksia on pyritty kartoittamaan sovelletun vaatimusmäärittelyn menetelmin. Näin ollen työssä on pureuduttu vähän myös yhteisoperaatioihin ja niiden perusteisiin. Link-16 - järjestelmän ominaisuuksia on verrattu vaatimusmäärittelyn tuottamiin vaatimuksiin, minkä kautta on saatu kuva järjestelmän käyttökelpoisuudesta. Työssä on pohdittu myös, millaisia ongelmia Link-16 -järjestelmän käyttöönotto Suomessa saattaisi aiheuttaa. Tuloksia tarkasteltaessa korostuu Link-16 -järjestelmän vaatima suunnittelu- ja hallinnointityö. Järjestelmän tarjoaman joustavan verkkosuunnittelun avulla voidaan luoda haluttuja verkkoja, mutta suunnittelussa pitää pyrkiä ottamaan huomioon kaikki mahdollisesti eteen tulevat tilanteet. Eri operaatioille pitää myös suunnitella eri viestiverkot. Ilmavoimien omille operaatioille saattaa muodostua ongelmaksi järjestelmän käyttömahdollisuusmoodeista johtuva varakoneen hankala käyttöönotto. Link-16 -järjestelmä käyttää samaa taajuuskaistaa kuin ilmailussa käytettävä Distance Measurement Equipment (DME) -järjestelmä. Tästä johtuen maailmalla on luotu tiettyjä sääntöjä, joiden puitteissa Link-16 -järjestelmien päätelaitteiden on toimittava, jotta ne eivät häiritsisi DME-laitteiden toimintaa. Kyseiset säännöt lisäävät entisestään Link-16 -käyttäjien hallinnollista työmäärää. Rajoituksista johtuen kaikkia operaatioita on suunniteltava ja johdettava tarkasti, jotta Link-16 -järjestelmälle asetetut EMC-rajoitukset eivät ylittyisi. Link- 16 -järjestelmän käyttö vaatii siis huomattavasti hallinnollista työtä. Suomen Ilmavoimat tutkii tällä hetkellä, minkälaisia organisatorisia muutoksia Link-16 -järjestelmän käyttöönotto ilmavoimille merkitsisi. Mikäli halutaan osallistua kansainvälisiin kriisinhallintaoperaatioihin yhdessä muiden NATO -maiden kanssa, Link-16 -järjestelmä on käytännössä pakollinen.

Análise de redes em procedimentos de cooperação indireta: utilização no sistema de recomendações da Biblioteca Karl A. Boedecker

Sistemas de recomendação baseados cooperação indireta podem ser implementados em bibliotecas por meio da aplicação de conceitos e procedimentos de análise de redes. Uma medida de distância temática, inicialmente desenvolvida para variáveis dicotômicas, foi generalizada e aplicada a matrizes de co-ocorrências, permitindo o aproveitando de toda a informação disponível sobre o comportamento dos usuários com relação aos itens consultados. Como resultado formaram-se subgrupos especializados altamente coerentes, para os quais listas-base e listas personalizadas foram geradas da maneira usual. Aplicativos programáveis capazes de manipularem matrizes, como o software S-plus, foram utilizados para os cálculos (com vantagens sobre o software especializado UCINET 5.0), sendo suficientes para o processamento de grupos temáticos de até 10.000 usuários.

Primary tooth length determination in direct digital radiography: An in vivo study

Purpose: the purpose of this in vivo study was to compare the accuracy of primary incisor length determined by direct digital radiography (straight-line measurement and grid superimposition) and measurement of the actual tooth length. Methods. Twenty-two primary maxillary incisors that required extractions were selected from 3- to 5-year-old children. The teeth were radiographed with an intraoral sensor using the long cone technique and a sensor holder (30-cm focus-to-sensor distance). The exposure time was 03 seconds. Tooth length was estimated by using straight-line and grid measurements provided by the distance measurement feature of the Computed Dental Radiography digital dental imaging system. The actual tooth length was obtained by measuring the extracted tooth with G digital caliper. Data were analyzed statistically by Pearson's correlation coefficient and a paired t test. Results: There were statistically significant differences (P=.007) between the 2 measurement techniques and between the actual tooth lengths and grid measurements. There was no statistically significant difference (P=38) between straight-line measurements and actual tooth lengths, showing that the straight-line measurements were more accurate. Underestimation of the actual tooth length, however, occurred in 45% of the straight-line measurements and in 73% of the grid measurements. Conclusion: It is possible to determine primary tooth length in digital radiographs using onscreen measurements with 0 reasonable degree of accuracy.

Digital versus conventional radiography for determination of primary incisor length

Aim: This in vitro study evaluated the accuracy of primary incisor lengths determined by digital and conventional radiography compared to the actual tooth length. Methods: Twenty extracted primary maxillary incisors were mounted in acrylic blocks. Tooth length was estimated by using a straight-line measurement provided by the distance measurement tool of a digital dental imaging system (Computed Dental Radiography, Schick Technologies Inc.) and conventional E-speed film radiographs by using a digital caliper. Two operators familiar with both radiographic methods performed the estimates. The estimated tooth lengths were compared to the actual tooth lengths measured with the digital caliper. Data were statistically analyzed by Dahlberg's equation, paired t test, Pearson's correlation coefficient and ANOVA at 5% significance level. Results: There were no statistically significant differences (p = 0.85) between tooth length estimated on digital and conventional radiographs. Admitting as clinically acceptable a 0.5-mm discrepancy between the actual tooth lengths and the radiographically estimated lengths, 60% of the radiographic measurements were considered as accurate. When the acceptable difference range was 1.0 mm, the accuracy of the radiographic measurements increased to 100%. Conclusions: Digital and conventional radiography provided similar tooth length measurements and were equivalent to the actual tooth lengths.

Avaliação e implementação de métodos de estimação de tempo de atraso de sinais de ultra-som

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)

Desenvolvimento de um sistema de aquisição de dados georreferenciados e de telemetria para monitoramento de parâmetros físicos em sistemas de irrigação

Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)

Verhaltensphysiologische Analyse der visuellen Wahrnehmung räumlicher Tiefe beim Goldfisch

Die Frage, wie es zur visuellen Wahrnehmung räumlicher Tiefe kommt, wenn das Retinabild nur zweidimensional ist, gehört zu den grundlegenden Proble-men der Hirnforschung. Für Tiere, die sich aktiv in ihrer Umgebung bewegen, herrscht ein großer Selektionsdruck Entfernungen und Größen richtig einzu-schätzen. Ziel der vorliegenden Arbeit war es, herauszufinden, ob und wie gut Goldfische Objekte allein aufgrund des Abstandes unterscheiden können und woraus sie Information über den Abstand gewinnen. Hierzu wurde ein Ver-suchsaufbau mit homogen weißem Hintergrund entworfen, in dem die Akkom-modation als Entfernungsinformationen verwendet werden kann, weniger je-doch die Bewegungsparallaxe. Die Goldfische lernten durch operante Konditio-nierung einen Stimulus (schwarze Kreisscheibe) in einem bestimmten Abstand zu wählen, während ein anderer, gleichgroßer Stimulus so entfernt wie möglich präsentiert wurde. Der Abstand zwischen den Stimuli wurde dann verringert, bis die Goldfische keine sichere Wahl für den Dressurstimulus mehr treffen konnten. Die Unterscheidungsleistung der Goldfische wurde mit zunehmendem Abstand des Dressurstimulus immer geringer. Eine Wiederholung der Versuche mit unscharfen Stimu¬lus¬kon¬turen brachte keine Verschlechterung in der Unter-scheidung, was Akkommodation wenig wahrscheinlich macht. Um die Größen-konstanz beim Goldfisch zu testen, wurden die Durchmesser der unterschiedlich entfernten Stimuli so angepasst, dass sie für den Goldfisch die gleiche Retina-bildgröße hatten. Unter diesen Bedingungen waren die Goldfische nicht in der Lage verschieden entfernte Stimuli zu unterscheiden und somit Größenkonstanz zu leisten. Es fand demnach keine echte Entfernungsbestimmung oder Tiefen-wahrneh¬mung statt. Die Unterscheidung der verschieden entfernten Stimuli erfolgte allein durch deren Abbildungsgröße auf der Retina. Dass die Goldfische bei diesem Experiment nicht akkommodieren, wurde durch Infrarot-Photoretinoskopie gezeigt. Somit lässt sich Akkommodation für die Entfer-nungsbestimmung in diesen Versuchen ausschließen. Für diese Leistung und die Größenkonstanz ist vermutlich die Bewegungsparallaxe entscheidend.

Basistests Suisse Sport Test Konzept: Validierung einer sportmotorischen Basistestbatterie für den Schul- und Nachwuchssport

Physical fitness can be evaluated in competitive and school sports with different field tests under different conditions and goals. To produce valid results, a field test must be practical and reach high standards of test criteria (objectivity, reliability, validity). The purpose of this study was to investigate the test criteria and the practicability of a group of field tests called «SUISSE Sport Test Konzept Basis Feldtestbatterie». For 20-m sprint, ventral trunk muscle test, standing long jump, 2-kg medicine ball shot, obstacle course and cooper-test, test quality and practicability were evaluated. 221 children and adolescents from competitive sports and different school levels took part in the study. According to school level, they were divided into 3 groups (P: 7–11.5 y, S1: 11.6–15.5 y, S2: 15.6–21.8 y). Objectivity was tested for time or distance measurement in all tests as well as for error rating in obstacle test. For reliability measurement, 162 subjects performed the field tests twice within a few weeks. For validity results of standing long jump were compared with counter movement jump performance on a force plate. Correlation analysis was performed and level of significance was set for p < 0.05. For accuracy standard error was calculated. All tests achieved sufficient to excellent objectiv - ity with correlation-coefficient (r) lying between 0.85 and 0.99. Reliability was very good (r = 0.84–0.97). In cooper- and trunk test, reliability was higher for athletes than for pupils (trunk test: r = 0.95 vs. r = 0.62, cooper-test: r = 0.90 vs. r = 0.78). In those tests the reliability decreases with increasing age (cooper-test: P: r = 0.84, S1: r = 0.69, S2: r = 0.52; trunk-test: P: r = 0.69, S1: r = 0.71; S2: r = 0.39). Validity for standing long jump was good (r = 0.75–0.86). The standard error of the mean was between 4–8%, with the exception for cooper-test (athletes: 6%, pupils: 11%) and trunk test (athletes: 14%, pupils: 46%). The results show that the evaluated group of field tests is a practicable, objective and reliable tool to determine physical skills in young athletes as well as in a scholar setting over a broad age range. Most of the tests achieved the test criteria with the grades good to excellent. The lower coefficient of reliability for cooper- and trunk test by the pupils could be explained by motivational problems in this setting. For up to 20 subjects, a tester can accomplish the tests within 3 h. Finally, age-dependent grades were elaborated