348 research outputs found
LifeCLEF 2016: Multimedia Life Species Identification Challenges
International audienceUsing multimedia identification tools is considered as one of the most promising solutions to help bridge the taxonomic gap and build accurate knowledge of the identity, the geographic distribution and the evolution of living species. Large and structured communities of nature observers (e.g., iSpot, Xeno-canto, Tela Botanica, etc.) as well as big monitoring equipment have actually started to produce outstanding collections of multimedia records. Unfortunately, the performance of the state-of-the-art analysis techniques on such data is still not well understood and is far from reaching real world requirements. The LifeCLEF lab proposes to evaluate these challenges around 3 tasks related to multimedia information retrieval and fine-grained classification problems in 3 domains. Each task is based on large volumes of real-world data and the measured challenges are defined in collaboration with biologists and environmental stakeholders to reflect realistic usage scenarios. For each task, we report the methodology, the data sets as well as the results and the main outcom
Plasticity induced by pairing brain stimulation with motor-related states only targets a subset of cortical neurones
Movement-related brain stimulation (MRBS) interventions associate endogenously generated movement-related brain states with external brain stimuli to induce targeted plastic changes in the motor cortex (M1) [[1], [2], [3], [4]]. These studies have emphasised the importance of the timing of stimulation relative to movement onset. However, none has examined whether the effects are specific to the cortical circuits activated by the stimuli.
The question arises because previous work has shown that different sets of inputs to corticospinal neurones can be activated using TMS. Stimulation with a posterior-anterior (PA) direction activates a set of neurones that have a shorter latency connection to corticospinal neurones than those activated with an anterior-posterior (AP) current [5]. Previous MRBS studies have paired movement onset with PA pulses [1]. The present work tests whether the after-effects of MRBS are specific to PA-sensitive neurones, or whether those activated by AP pulses are also affected.
Here we applied AP or PA TMS pulses applied just prior to the onset of volitional index finger movements in two experiments conducted on separate days in the same group of individuals [3]. Corticospinal excitability changes induced by these interventions were assessed using AP and PA TMS pulses in the effector muscle and in a control muscle
Global and Regional IUCN Red List Assessments: 9
In this contribution, the conservation status assessment of three vascular plants according to IUCN categories and criteria are presented. It includes the assessment of Soldanella calabrella Kress at global level, and the regional assessment of Luzula pindica (Hausskn.) Chrtek & KÅ™Ãsa and Romulea variicolor Mifsud (Italy)
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A laser scanning system for metrology and viewing in ITER
The construction and operation of a next-generation fusion reactor will require metrology to achieve and verify precise alignment of plasma-facing components and inspection in the reactor vessel. The system must be compatible with the vessel environment of high gamma radiation (10{sup 4} Gy/h), ultra-high-vacuum (10{sup {minus}8} torr), and elevated temperature (200 C). The high radiation requires that the system be remotely deployed. A coherent frequency modulated laser radar-based system will be integrated with a remotely operated deployment mechanism to meet these requirements. The metrology/viewing system consists of a compact laser transceiver optics module which is linked through fiber optics to the laser source and imaging units that are located outside of a biological shield. The deployment mechanism will be a mast-like positioning system. Radiation-damage tests will be conducted on critical sensor components at Oak Ridge National Laboratory to determine threshold damage levels and effects on data transmission. This paper identifies the requirements for International Thermonuclear Experimental Reactor metrology and viewing and describes a remotely operated precision ranging and surface mapping system
Turbulence, instream wood and fish: ecohydraulic interactions under field conditions
This is the pre-peer reviewed version of the following article: Trinci, G, Harvey, GL, Henshaw, AJ, Bertoldi, W, Hölker, F. Turbulence, instream wood and fish: Ecohydraulic interactions under field conditions. Ecohydrology. 2020;e2211. https://doi.org/10.1002/eco.2211
, which has been published in final form at https://doi.org/10.1002/eco.2211. This article may be used for non-commercial purposes in accordance with Wiley Terms and Conditions for Use of Self-Archived Versions
Magma emission rates fromshallow submarine eruptions using airborne thermal imaging
The effusion rate is the most important parameter to gatherwhen a volcanic eruption occurs, because it controls
the way inwhich a lava body grows, extends and expands, influencing its dimensional properties. Calculation of
lava flow volume from thermal images collected by helicopter surveys has been largely used during the last
decade for monitoring subaerial effusive eruptions. However, due to the depths where volcanic activity occurs,
monitoring submarine volcanic eruptions is a very difficult task. The 2011–2012 submarine volcanic eruption
at El Hierro, Canary Islands, has provided a unique and excellent opportunity to monitor eruptive processes
occurring on the seabed. The use of a hand-held thermal camera during daily helicopter flights allowed us to
estimate for the first time the daily and total erupted magma volumes from a submarine eruption. The volume
of magma emitted during this eruption has been estimated at 300 Mm3, giving an average effusion rate
of ~25 m3 s−1. Thermal imagery by helicopter proved to be a fast, inexpensive, safe and reliable technique of
monitoring volcanic eruptions when they occur on the shallow seabed.This research was financially supported by the projects MAKAVOL
(MAC/3/C161) from the European Union MAC 2007–2013 Transnational
Cooperation Program as well as from the Cabildo Insular de Tenerife. We
are also grateful to the staff of El Hierro airport (AENA) for providing
logistical support.Published219-2255V. Sorveglianza vulcanica ed emergenzeJCR Journalrestricte
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The Merit(nTOF-11) High Intensity Liquid Mercury Target Experiment at the CERN PS
The MERIT(nTOF-11) experiment is a proof-ofprinciple test of a target system for a high power proton beam to be used as front-end for a neutrino factory or a muon collider. The experiment took data in autumn 2007 with the fast-extracted beam from the CERN Proton Synchrotron (PS) to a maximum intensity of per pulse. The target system, based on a free mercury jet, is capable of intercepting a 4-MW proton beam inside a 15-T magnetic field required to capture the low energy secondary pions as the source for intense muon beams. Partice detectors installed around the target setup measure the secondary particle flux out of the target and can probe cavitation effects in the mercury jet when excited by an intense proton beam.Preliminary results of the data analysis will be presented here
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