Experimental channel response to tectonic uplift

In this work, we propose a general framework to design a signal classification algorithm over time selective channels for wireless communications applications. We derive an upper bound on the maximum number of observation samples over which the channel response is an essential invariant. The proposed framework relies on dividing the received signal into blocks, and each of them has a length less than the mentioned bound. Then, these blocks are fed into a number of classifiers in a parallel fashion. A final decision is made through a well-designed combiner and detector. As a case study, we employ the proposed framework on a space-time block-code classification problem by developing two combiners and detectors. Monte Carlo simulations show that the proposed framework is capable of achieving excellent classification performance over time selective channels compared to the conventional algorithms.

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The tectonic uplift of the Hua Shan in the Cenozoic

Chinese Science Bulletin ◽

10.1007/bf02900632 ◽

2001 ◽

Vol 46 (19) ◽

pp. 1665-1668 ◽

Cited By ~ 17

Author(s):

Gongming Yin ◽

Yanchou Lu ◽

Hua Zhao ◽

Wanlun Li ◽

Li Li ◽

...

Keyword(s):

Tectonic Uplift

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Channel response to a dam‐removal sediment pulse captured at high‐temporal resolution using routine gage data

Earth Surface Processes and Landforms ◽

10.1002/esp.5083 ◽

2021 ◽

Author(s):

Matthew J. Cashman ◽

Allen Gellis ◽

Eric Boyd ◽

Mathias Collins ◽

Scott Anderson ◽

...

Keyword(s):

Temporal Resolution ◽

Dam Removal ◽

High Temporal Resolution ◽

Channel Response

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Performance of the SoLid reactor neutrino detector

EPJ Web of Conferences ◽

10.1051/epjconf/201921908003 ◽

2019 ◽

Vol 219 ◽

pp. 08003

Author(s):

Maja Verstraeten

Keyword(s):

Quality Control ◽

Energy Resolution ◽

Neutrino Detector ◽

Channel Response ◽

In Situ Calibration ◽

Reactor Neutrino ◽

Li Isotope ◽

Better Than

The SoLid Collaboration is currently operating a 1.6 ton neutrino detector near the Belgian BR2 reactor. Its main goal is the observation of the oscillation of electron antineutrinos to previously undetected flavour states. The highly segmented SoLid detector employs a compound scintillation technology based on PVT scintillator in combination with LiF-ZnS(Ag) screens containing the 6Li isotope. The experiment has demonstrated a channel-to-channel response that can be controlled to the level of a few percent, an energy resolution of better than 14% at 1 MeV, and a determination of the interaction vertex with a precision of 5 cm. This contribution highlights the major outcomes of the R&D program, the quality control during component manufacture and integration, the current performance and stability of the full-scale system, as well as the in-situ calibration of the detector with various radioactive sources.

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