Your search keyword '"PUNCHED card systems"' showing total 7 results

1. Terrestrial Laser Scanner Two-Face Measurements for Analyzing the Elevation-Dependent Deformation of the Onsala Space Observatory 20-m Radio Telescope's Main Reflector in a Bundle Adjustment.

Author

Holst, Christoph, Schunck, David, Nothnagel, Axel, Haas, Rüdiger, Wennerbäck, Lars, Olofsson, Henrik, Hammargren, Roger, and Kuhlmann, Heiner

Subjects

*GEODESY, *RADIO telescopes, *ASTRONOMICAL instruments, *PUNCHED card systems, *DEFORMATIONS (Mechanics)

Abstract

For accurate astronomic and geodetic observations based on radio telescopes, the elevation-dependent deformation of the radio telescopes' main reflectors should be known. Terrestrial laser scanning has been used for determining the corresponding changes of focal lengths and areal reflector deformations at several occasions before. New in this publication is the situation in which weminimize systematicmeasurement errors by an improvedmeasurement and data-processing concept: Sampling the main reflector in both faces of the laser scanner and calibrating the laser scanner in situ in a bundle adjustment. This concept is applied to the Onsala Space Observatory 20-m radio telescope: The focal length of the main reflector decreases by 9.6 mm from 85° to 5° elevation angle. Further local deformations of the main reflector are not detected. [ABSTRACT FROM AUTHOR]

Published

2017

2. Impact of Data Processing and Antenna Frequency on Spatial Structure Modelling of GPR Data.

Author

De Benedetto, Daniela, Quarto, Ruggiero, Castrignanò, Annamaria, and Palumbo, Domenico A.

Subjects

*SOIL moisture, *QUANTITATIVE research, *PUNCHED card systems, *GROUND penetrating radar, *ELECTRONIC data processing

Abstract

Over the last few years high-resolution geophysical techniques, in particular ground-penetrating radar (GPR), have been used in agricultural applications for assessing soil water content variation in a non-invasive way. However, the wide use of GPR is greatly limited by the data processing complexity. In this paper, a quantitative analysis of GPR data is proposed. The data were collected with 250, 600 and 1600 MHz antennas in a gravelly soil located in south-eastern Italy. The objectives were: (1) to investigate the impact of data processing on radar signals; (2) to select a quick, efficient and error-effective data processing for detecting subsurface features; (3) to examine the response of GPR as a function of operating frequency, by using statistical and geostatistical techniques. Six data processing sequences with an increasing level of complexity were applied. The results showed that the type and range of spatial structures of GPR data did not depend on data processing at a given frequency. It was also evident that the noise tended to decrease with the complexity of processing, then the most error-effective procedure was selected. The results highlight the critical importance of the antenna frequency and of the spatial scale of soil/subsoil processes being investigated. [ABSTRACT FROM AUTHOR]

Published

2015

3. Fault Diagnosis of Planetary Gearbox Based on Adaptive Order Bispectrum Slice and Fault Characteristics Energy Ratio Analysis.

Author

Shen, Zhaoyang, Shi, Zhanqun, Zhen, Dong, Zhang, Hao, and Gu, Fengshou

Subjects

*GEARBOXES, *RATIO analysis, *FEATURE extraction, *SPECTRUM analysis, *PUNCHED card systems

Abstract

The vibration of a planetary gearbox (PG) is complex and mutually modulated, which makes the weak features of incipient fault difficult to detect. To target this problem, a novel method, based on an adaptive order bispectrum slice (AOBS) and the fault characteristics energy ratio (FCER), is proposed. The order bispectrum (OB) method has shown its effectiveness in the feature extraction of bearings and fixed-shaft gearboxes. However, the effectiveness of the PG still needs to be explored. The FCER is developed to sum up the fault information, which is scattered by mutual modulation. In this method, the raw vibration signal is firstly converted to that in the angle domain. Secondly, the characteristic slice of AOBS is extracted. Different from the conventional OB method, the AOBS is extracted by searching for a characteristic carrier frequency adaptively in the sensitive range of signal coupling. Finally, the FCER is summed up and calculated from the fault features that were dispersed in the characteristic slice. Experimental data was processed, using both the AOBS-FCER method, and the method that combines order spectrum analysis with sideband energy ratio (OSA-SER), respectively. Results indicated that the new method is effective in incipient fault feature extraction, compared with the methods of OB and OSA-SER. [ABSTRACT FROM AUTHOR]

Published

2020

4. Electronic Tongues for Inedible Media.

Author

Kirsanov, Dmitry, Correa, Daniel S., Gaal, Gabriel, Riul, Antonio, Braunger, Maria L., Shimizu, Flavio M., Oliveira, Osvaldo N., Liang, Tao, Wan, Hao, Wang, Ping, Oleneva, Ekaterina, and Legin, Andrey

Subjects

*ELECTRONIC tongues, *CHEMICAL detectors, *SYSTEM analysis, *LIQUID analysis, *PUNCHED card systems, *HYPOGLOSSAL nerve

Abstract

"Electronic tongues", "taste sensors", and similar devices (further named as "multisensor systems", or MSS) have been studied and applied mostly for the analysis of edible analytes. This is not surprising, since the MSS development was sometimes inspired by the mainstream idea that they could substitute human gustatory tests. However, the basic principle behind multisensor systems—a combination of an array of cross-sensitive chemical sensors for liquid analysis and a machine learning engine for multivariate data processing—does not imply any limitations on the application of such systems for the analysis of inedible media. This review deals with the numerous MSS applications for the analysis of inedible analytes, among other things, for agricultural and medical purposes. [ABSTRACT FROM AUTHOR]

Published

2019

5. Survey of Deep-Learning Approaches for Remote Sensing Observation Enhancement.

Author

Tsagkatakis, Grigorios, Aidini, Anastasia, Fotiadou, Konstantina, Giannopoulos, Michalis, Pentari, Anastasia, and Tsakalides, Panagiotis

Subjects

*REMOTE sensing, *DEEP learning, *SUPERVISED learning, *IMAGING systems, *PUNCHED card systems, *SIGNAL processing

Abstract

Deep Learning, and Deep Neural Networks in particular, have established themselves as the new norm in signal and data processing, achieving state-of-the-art performance in image, audio, and natural language understanding. In remote sensing, a large body of research has been devoted to the application of deep learning for typical supervised learning tasks such as classification. Less yet equally important effort has also been allocated to addressing the challenges associated with the enhancement of low-quality observations from remote sensing platforms. Addressing such channels is of paramount importance, both in itself, since high-altitude imaging, environmental conditions, and imaging systems trade-offs lead to low-quality observation, as well as to facilitate subsequent analysis, such as classification and detection. In this paper, we provide a comprehensive review of deep-learning methods for the enhancement of remote sensing observations, focusing on critical tasks including single and multi-band super-resolution, denoising, restoration, pan-sharpening, and fusion, among others. In addition to the detailed analysis and comparison of recently presented approaches, different research avenues which could be explored in the future are also discussed. [ABSTRACT FROM AUTHOR]

Published

2019

6. Precise Point Positioning Using World's First Dual-Frequency GPS/GALILEO Smartphone.

Author

Elmezayen, Abdelsatar and El-Rabbany, Ahmed

Subjects

*AUTOMOTIVE navigation systems, *PUNCHED card systems, *COMPUTER software

Abstract

The release of the world's first dual-frequency GPS/Galileo smartphone, Xiaomi mi 8, in 2018 provides an opportunity for high-precision positioning using ultra low-cost sensors. In this research, the GNSS precise point positioning (PPP) accuracy of the Xiaomi mi 8 smartphone is tested in post-processing and real-time modes. Raw dual-frequency observations are collected over two different time windows from both of the Xiaomi mi 8 smartphone and a Trimble R9 geodetic-quality GNSS receiver using a short baseline, due to the lack of a nearby reference station to the observation site. The data sets are first processed in differential modes using Trimble business center (TBC) software in order to provide the reference positioning solution for both of the geodetic receiver and the smartphone. An in-house PPP software is then used to process the collected data in both of post-processing and real-time modes. Precise ephemeris obtained from the multi-GNSS experiment (MGEX) is used for post-processing PPP, while the new NAVCAST real-time GNSS service, Germany, is used for real-time PPP. Additionally, the real-time PPP solution is assessed in both of static and kinematic modes. It is shown that the dual-frequency GNSS smartphone is capable of achieving decimeter-level positioning accuracy, in both of post-processing and real-time PPP modes, respectively. Meter-level positioning accuracy is achieved in the kinematic mode. [ABSTRACT FROM AUTHOR]

Published

2019

7. Enhancing the Isolation and Performance of Control Planes for Fog Computing.

Author

Lee, Kyungwoon, Lee, Chiyoung, Hong, Cheol-Ho, and Yoo, Chuck

Subjects

*SOFTWARE-defined networking, *SWITCHING systems (Telecommunication), *MATHEMATICAL optimization, *PUNCHED card systems

Abstract

Fog computing, which places computing resources close to IoT devices, can offer low latency data processing for IoT applications. With software-defined networking (SDN), fog computing can enable network control logics to become programmable and run on a decoupled control plane, rather than on a physical switch. Therefore, network switches are controlled via the control plane. However, existing control planes have limitations in providing isolation and high performance, which are crucial to support multi-tenancy and scalability in fog computing. In this paper, we present optimization techniques for Linux to provide isolation and high performance for the control plane of SDN. The new techniques are (1) separate execution environment (SE2), which separates the execution environments between multiple control planes, and (2) separate packet processing (SP2), which reduces the complexity of the existing network stack in Linux. We evaluate the proposed techniques on commodity hardware and show that the maximum performance of a control plane increases by four times compared to the native Linux while providing strong isolation. [ABSTRACT FROM AUTHOR]

Published

2018