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2. On a conjecture in second-order optimality conditions

Author

Behling, R., Haeser, G., Ramos, A., and Viana, D. S.

Subjects
Mathematics - Optimization and Control, 90C46, 90C30
Abstract

In this paper we deal with optimality conditions that can be verified by a nonlinear optimization algorithm, where only a single Lagrange multiplier is avaliable. In particular, we deal with a conjecture formulated in [R. Andreani, J.M. Martinez, M.L. Schuverdt, "On second-order optimality conditions for nonlinear programming", Optimization, 56:529--542, 2007], which states that whenever a local minimizer of a nonlinear optimization problem fulfills the Mangasarian-Fromovitz Constraint Qualification and the rank of the set of gradients of active constraints increases at most by one in a neighborhood of the minimizer, a second-order optimality condition that depends on one single Lagrange multiplier is satisfied. This conjecture generalizes previous results under a constant rank assumption or under a rank deficiency of at most one. In this paper we prove the conjecture under the additional assumption that the Jacobian matrix has a smooth singular value decomposition, which is weaker than previously considered assumptions. We also review previous literature related to the conjecture., Comment: Extended Technical Report

Published
2017

3. Precision measurement of the $\beta$-asymmetry in spin-polarized $^{37}\mathrm{K}$ decay

Author

Fenker, B., Gorelov, A., Melconian, D., Behr, J. A., Anholm, M., Ashery, D., Behling, R. S., Cohen, I., Craiciu, I., Gwinner, G., McNeil, J., Mehlman, M., Olchanski, K., Shidling, P. D., Smale, S., and Warner, C. L.

Subjects
Nuclear Experiment
Abstract

Using TRIUMF's neutral atom trap, TRINAT, for nuclear $\beta$ decay, we have measured the $\beta$ asymmetry with respect to the initial nuclear spin in $^{37}\mathrm{K}$ to be $A_\beta=-0.5707(13)_\mathrm{syst}(13)_\mathrm{stat}(5)_\mathrm{pol}$, a 0.3% measurement. This is the best relative accuracy of any $\beta$-asymmetry measurement in a nucleus or the neutron, and is in agreement with the standard model prediction $-0.5706(7)$. We compare constraints on physics beyond the standard model with other $\beta$-decay measurements, and improve the value of $V_\mathrm{ud}$ measured in this mirror nucleus by a factor of 4.

Published
2017
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4. Progress towards precision measurements of beta-decay correlation parameters using atom and ion traps

Author

Melconian, D., Behling, R. S., Fenker, B., Mehlman, M., Shidling, P. D., Anholm, M., Ashery, D., Behr, J. A., Gorelov, A., Gwinner, G., Olchankski, K., and Smale, S.

Subjects
Physics - Instrumentation and Detectors, Nuclear Experiment
Abstract

The correlations of the decay products following the beta decay of nuclei have a long history of providing a low-energy probe of the fundamental symmetries of our universe. Over half a century ago, the correlation of the electrons following the decay of polarized 60Co demonstrated that parity is not conserved in weak interactions. Today, the same basic idea continues to be applied to search for physics beyond the standard model: make precision measurements of correlation parameters and look for deviations compared to their standard model predictions. Efforts to measure these parameters to the 0.1% level utilizing atom and ion trapping techniques are described., Comment: 10 pages, 5 figures, presented at the X Latin American Symposium on Nuclear Physics and Applications, 1-6 December 2013, Montevideo, Uruguay

Published
2014

5. How robust are landslide susceptibility estimates?

Author

Ozturk, U., Pittore, M., Behling, R., Roessner, S., (0000-0002-5916-155X) Andreani, L., Korup, O., Ozturk, U., Pittore, M., Behling, R., Roessner, S., (0000-0002-5916-155X) Andreani, L., and Korup, O.

Abstract

Much of contemporary landslide research is concerned with predicting and mapping susceptibility to slope failure. Many studies rely on generalised linear models with environmental predictors that are trained with data collected from within and outside of the margins of mapped landslides. Whether and how the performance of these models depends on sample size, location, or time remains largely untested. We address this question by exploring the sensitivity of a multivariate logistic regression—one of the most widely used susceptibility models—to data sampled from different portions of landslides in two independent inventories (i.e. a historic and a multi-temporal) covering parts of the eastern rim of the Fergana Basin, Kyrgyzstan. We find that considering only areas on lower parts of landslides, and hence most likely their deposits, can improve the model performance by >10% over the reference case that uses the entire landslide areas, especially for landslides of intermediate size. Hence, using landslide toe areas may suffice for this particular model and come in useful where landslide scars are vague or hidden in this part of Central Asia. The model performance marginally varied after progressively updating and adding more landslides data through time. We conclude that landslide susceptibility estimates for the study area remain largely insensitive to changes in data over about a decade. Spatial or temporal stratified sampling contributes only minor variations to model performance. Our findings call for more extensive testing of the concept of dynamic susceptibility and its interpretation in data-driven models, especially within the broader framework of landslide risk assessment under environmental and land-use change.

Published
2021

6. V. 1.0

Author

Behling, R. and Roessner, S.

Published
2020

7. Omongwa Salt Pan, Namibia - An EnMAP Preparatory Flight Campaign

Author

Milewski, R., Eichstaedt, H., Brell, M., Behling, R., and Chabrillat, S.

Abstract

The dataset is composed of Neo HySpex (VNIR/SWIR) hyperspectral imagery acquired during the GFZ/DIMAP Geoarchive airborne campaign on June 6th, 2015 covering the Omongwa salt pan located in the South-West Kalahari, Namibia. The dataset includes 9 merged cloud-free flight lines with 408 spectral bands ranging from VNIR to SWIR wavelength regions (0.4-2.5 μm). The dataset also includes Level 2A EnMAP-like imagery simulated using the end-to-end Simulation tool (EeteS). The overall goal of the campaign was to test the potential of advanced optical hyperspectral remote sensing, or imaging spectroscopy, for the analysis of surface processes in the Omongwa salt pan and for the quantification of surface sediments. Specifically, the mineralogical composition of exposed evaporites such as halite, gypsum and calcite were investigated at the airborne and spaceborne scale, associated with comprehensive field campaigns, ich which spectral reflectance and ground-truth chemical data of field samples have been collected. The data are highly novel and can be used as testbeds for the development and validation of retrieval algorithms based on air- and space-borne hyperspectral imagery for estimation of surface sediment properties in a highly saline and dynamic environment.

Published
2020

8. The colors of heath flowering – quantifying spatial patterns of phenology in Calluna life‐cycle phases using high‐resolution drone imagery

Author

Neumann, C., Behling, R., Schindhelm, A., Itzerott, S., Weiss, G., Wichmann, M., and Müller, J.

Subjects
fungi, food and beverages
Abstract

Recent developments in high‐resolution ecosystem mapping using unmanned aerial vehicles (UAV) open up promising perspectives for the monitoring of fine‐scale vegetation patterns and ecological functioning. In this study, we examine the potential of UAV imagery to track the structural composition and related phenological traits of the dwarf shrub Calluna vulgaris on a former military training area. On a European Natura 2000 heathland site, habitat management is shown to be evaluated on the basis of flowering dynamics and reproductive recovery as a proxy of functional changes that are generated after fire destruction. In particular, we utilize true color camera information and digital surface models to determine the spatiotemporal evolution of Calluna life‐cycle phases and flowering phenology 2 years after controlled burning. A stepwise methodological framework is presented that extracts Calluna pixels, spatially separates juvenile and mature life‐cycle phases, differentiates between generative and vegetative shoot extension and finally quantifies proportions of flowers, fruits and vegetative growth in two consecutive peak flowering periods. We show that Calluna life‐cycle phases can be spatially differentiated in pioneer, building and mature phases in UAV imagery. In the juvenile phase, regeneration from germination is low (

Published
2020

9. Omongwa Pan, Namibia (June 2015) - an EnMAP Preparatory Flight Campaign

Author

Milewski, R., Chabrillat, S., Brell, M., Behling, R., and Eichstaedt, H.

Abstract

The dataset is composed of Neo HySpex (VNIR/SWIR) hyperspectral imagery acquired during airplane overflights on June 6th, 2015 covering the Omongwa Pan located in the South-West Kalahari, Namibia. The dataset includes three cloud-free flight lines with 408 spectral bands ranging from VNIR to SWIR wavelength regions (0.4-2.5 µm). The dataset also includes Level 2A EnMAP-like imagery simulated using the end-to-end Simulation tool (EeteS). The overall goal of the campaign was to acquire imagery over the Omongwa Pan and use the spectral reflectance for the analyses of surface sediments, specifically the mineralogical composition of exposed surface evaporites / salts on the airborne and spaceborne scale. The data are highly novel and can be used to test estimation of surface sediment properties in a highly saline and dynamic environment.

Published
2020

10. Spatiotemporal analysis of extensive landslide occurrence in Iran related to the 2019 extreme rainfall and flood events using optical and radar remote sensing

Author

Motagh, M., Roessner, S., Akbari, B., Behling, R., Stefanova Vassileva, M., Haghshenas Haghighi, M., and Wetzel, H.

Abstract

The combined effects of climate change and human land use activities are increasing the occurrence of extreme events, such as floods and landslides worldwide. Between mid-March and the beginning of April 2019, almost the whole Iran was affected by intense record rainfall leading to widespread flash flooding. Starting in the northern province of Golestan and moving to the South and the West of the country, heavy rains have poured on 28 out of the 31 provinces. Approximately, 1900 cities and villages across the country were damaged with half a million people displaced at the peak of the disaster. The intense rainfall not only caused more than 140 rivers to burst their banks, but also triggered thousands of landslides. The presented work makes use of high resolution - spatial and temporal - optical and radar satellite remote sensing with the goal of performing large-area and at the same time detailed spatiotemporal analysis of landslide occurrence related to the main hydro-meteorological triggering events. Besides detection of rainfall and flood triggered landslides, pre- and post-failure landslide evolution has been analyzed including the first observed onset of landslide activation in February 2019 resulting from already increased precipitation in late fall and winter of 2018/19. Large-area landslide detection has been performed in a semi-automated way using time series of optical Planet Scope and Sentinel-2A/B data. For assessing the kinematics of pre- and post-failure slope motions, radar remote sensing based image correlation and differential interferometric synthetic aperture radar (DInSAR) methods have been applied using Sentinel-1A/B data. The obtained satellite remote sensing based results have been evaluated by field surveys conducted in cooperation between the GFZ Potsdam and the Forest, Range and Watershed Management Organization of Iran (FRWM) being responsible for landslide hazard and risk assessment as well as the design and implementation of mitigation measures. In this context, emphasis has been put on the potential of multi-sensor satellite remote sensing for improving large-area process monitoring and understanding, especially in relation to extreme triggering events of so far unprecedented magnitude which are likely to occur more frequently in the future because of ongoing climate change.

Published
2019

11. The Diversity of Heath Flowering Phenology– Revealing Fine Scale Patterns of Heterogeneity by High Resolution Drone Cameras

Author

Neumann, C., Behling, R., Itzerott, S., Weiss, G., Wichmann, M., Müller, J., Gaikwad, J., König-Ries, B., and Recknagel, F.

Subjects
habitat management, Calluna vulgaris, unmanned aerial vehicles, phenology, dwarf shrub heath
Abstract

Unmanned aerial vehicles (UAV) open up new perspectives for the repetitive spatial monitoring of vegetation stands and possibly even for fine scale analyses of individual plants. The potentials of recent UAV camera systems for integrating high spatial resolution (< 10 cm per image pixel) and area wide mapping are undergoing research. In particular, robust algorithms are needed for a spatially explicit characterization of individual plants, their structural composition and related functional traits. Such information can be used to examine ecological interdependencies that determine habitat establishment, and in general, to evaluate the habitat quality for nature conservation purposes [1]. In our study we developed a UAV-based methodological procedure to analyse open heathland areas that are protected in the European Natura 2000 network, and therefore, need to be managed to preserve a favourable conservation status [2]. We mapped the flowering phase of regenerated dwarf shrub heath (Calluna vulgaris) stands 2 years after burning and of unmanaged old stands using a standard RGB drone camera. From the UAV imaging point cloud a digital orthophoto and a digital surface model was generated with 2 cm pixel resolution. A method was developed that extracts every individual plant on the basis of RGB-colour value classification, texture filtering and local maxima estimation on a normalized digital surface model. For every plant the maximum plant height as well as the RGB colour distribution could be extracted and related to field surveys of plant traits. On that basis, a colour model was constructed that statistically predicts the phenological heath plant status with regard to fractional cover of flowers, fruits, vegetative shoots and senescent plant components. Our study reveals that the flowering phase of Calluna vulgaris is spatially much more divers than expected. Colour models from simple RGB imagery show that phases of completely vegetative, withered, fruit and full flowering plants spatially coexist in heterogeneous alternations of individual plants, in fact, independent of growth age after burning (height < 40cm). Only unmanaged old stands (height > 40 cm) exhibit significantly lower fractions of fruit and flowers while senescence is increased. However, the high phenological diversity after fire management shows that driving factors of shoot extension and flower productions, thus, are triggered by additional mechanisms that are not affected by habitat management practice. UAV-based imagery can help to observe such effects for a more detailed evaluation of management effects. REFERENCES: 1. Neumann C, Weiss G, Schmidtlein S, Itzerott S, Lausch A, Doktor D, Brell M., 2015. Gradient-based assessment of habitat quality for spectral ecosystem monitoring. Remote Sensing. 7(3), 2871-98. 2. Habitat Directive, 1992. Council Directive 92/43/EEC of 21 May 1992 on the conservation of natural habitats and of wild fauna and flora. Official Journal of the European Union. 206, 7-50.

Published
2018
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12. 12 November 2017 Mw 7.3 Sarpol-e Zahab, Iran, earthquake: Results from combining radar and optical remote sensing measurements with geophysical modeling and field mapping

Author

Motagh, M., Vajedian, S., Behling, R., Haghshenas Haghighi, M., Scheffler, D., Roessner, S., Akbari, B., Wetzel, H., and Darabi, A.

Abstract

On November 12, 2017, a large earthquake (Mw = 7.3) hit Kermanshah province of Iran near the border of Iran and Iraq. At least 600 people were killed, 9000 injured and thousands left homeless. In this study we integrated observations from radar and optical remote sensing, seismology and field mapping to investigate source parameters, coseismically triggered slope failures and secondary faulting related to the Mw 7.3, Sarpol-e Zahab earthquake in Iran. Coseismic surface deformation was constrained by interferometric synthetic aperture radar (InSAR) analysis from SAR images obtained by L-band ALOS-2 and C-band Sentinel-1 satellites. ALOS-2 wide-swath (WS) interferograms were derived from ascending and descending orbits covering 09.08.2016-14.11.2017 and 04.10.2017-15.11.2017 time periods, respectively. Sentinel-1 TOPS coseismic interferograms were derived from ascending and descending orbits covering 11.11.2017-17.11.2017 and 12.11.2017-18.11.2017, respectively. Source parameters and slip models of the earthquake were then obtained by the Bayesian inversion of interferometric results using elastic dislocation modeling, considering the seismic parameters as a priori information. Preliminary results of geodetic source modeling suggests that the 12 November 2017 Sarpol-e Zahab earthquake was generated by blind ENE oblique thrust faulting with an average slip of approximately 4 m at a depth between 17 and 22 km. The 2017 Sarpol-e Zahab event also triggered a lot of coseismic slope failures including landslides and rock falls, and secondary faulting. Their potential locations were initially assessed by identifying local phase changes and areas affected by loss of coherence in the interferograms. Moreover, large-scale analysis of horizontal surface displacements was performed by pixel-offset tracking using Sentinel-1 SAR images. The results were evaluated by expert interpretation based on optical Sentinel-2 data in combination with geological information and field investigations. Largest horizontal deformation was observed for a co-seismically triggered landslide which was further analyzed using optical PlanetScope data acquired one day apart right before and after the earthquake (12th and 13th of November). Pixel-based change detection allowed exact spatial delineation of the displaced block covering an area of about 4 km2. Cross-correlation analysis resulted in a spatially detailed derivation of horizontal movement vectors indicating displacements in the range from about 5 to 30 m. The results of this study have shown that a combination of various remote sensing methods with modelling and field investigations is required for gaining an improved understanding of surface processes caused by the Mw 7.3, Sarpol-e Zahab earthquake. Complementary analysis of radar and optical remote sensing has led to a more comprehensive assessment of various types of co-seismically induced surface changes occurring at different spatial scales. Such information can contribute to an improved spatial characterization of co-seismically activated geological structures. This is especially important in the context of seismic hazard assessment for scarcely investigated areas like the one affected by the Sarpol-e Zahab earthquake in the border region between Iran and Iraq.

Published
2018

13. Evaluation of Remote-Sensing-Based Landslide Inventories for Hazard Assessment in Southern Kyrgyzstan

Author

Golovko, D., Roessner, S., Behling, R., Wetzel, H., and Kleinschmit, B.

Subjects
landslide hazard, multi-temporal landslide inventory, Science, automated landslide mapping, ddc:550, southern Kyrgyzstan
Abstract

Large areas in southern Kyrgyzstan are subjected to high and ongoing landslide activity; however, an objective and systematic assessment of landslide susceptibility at a regional level has not yet been conducted. In this paper, we investigate the contribution that remote sensing can provide to facilitate a quantitative landslide hazard assessment at a regional scale under the condition of data scarcity. We performed a landslide susceptibility and hazard assessment based on a multi-temporal landslide inventory that was derived from a 30-year time series of satellite remote sensing data using an automated identification approach. To evaluate the effect of the resulting inventory on the landslide susceptibility assessment, we calculated an alternative susceptibility model using a historical inventory that was derived by an expert through combining visual interpretation of remote sensing data with already existing knowledge on landslide activity in this region. For both susceptibility models, the same predisposing factors were used: geology, stream power index, absolute height, aspect and slope. A comparison of the two models revealed that using the multi-temporal landslide inventory covering the 30-year period results in model coefficients and susceptibility values that more strongly reflect the properties of the most recent landslide activity. Overall, both susceptibility maps present the highest susceptibility values for similar regions and are characterized by acceptable to high predictive performances. We conclude that the results of the automated landslide detection provide a suitable landslide inventory for a reliable large-area landslide susceptibility assessment. We also used the temporal information of the automatically detected multi-temporal landslide inventory to assess the temporal component of landslide hazard in the form of exceedance probability. The results show the great potential of satellite remote sensing for deriving detailed and systematic spatio-temporal information on landslide occurrences, which can significantly improve landslide susceptibility and hazard assessment at a regional scale, particularly in data-scarce regions such as Kyrgyzstan.

Published
2017

14. Analyses of the soil surface dynamic of South African Kalahari salt pans based on hyperspectral and multitemporal data

Author

Milewski, R., Chabrillat, S., Behling, R., Mielke, C., Schleicher, A., and Guanter, L.

Abstract

The consequences of climate change represent a major threat to sustainable development and growth in Southern Africa. Understanding the impact on the geo- and biosphere is therefore of great importance in this particular region. In this context the Kalahari salt pans (also known as playas or sabkhas) and their peripheral saline and alkaline habitats are an ecosystem of major interest. They are very sensitive to environmental conditions, and as thus hydrological, mineralogical and ecological responses to climatic variations can be analysed. Up to now the soil composition of salt pans in this area have been only assessed mono-temporally and on a coarse regional scale. Furthermore, the dynamic of the salt pans, especially the formation of evaporites, is still uncertain and poorly understood. High spectral resolution remote sensing can estimate evaporite content and mineralogy of soils based on the analyses of the surface reflectance properties within the Visible-Near InfraRed (VNIR 400-1000 nm) and Short-Wave InfraRed (SWIR 1000-2500 nm) regions. In these wavelength regions major chemical components of the soil interact with the electromagnetic radiation and produce characteristic absorption features that can be used to derive the properties of interest. Although such techniques are well established for the laboratory and field scale, the potential of current (Hyperion) and upcoming spaceborne sensors such as EnMAP for quantitative mineralogical and salt spectral mapping is still to be demonstrated. Combined with hyperspectral methods, multitemporal remote sensing techniques allow us to derive the recent dynamic of these salt pans and link the mineralogical analysis of the pan surface to major physical processes in these dryland environments. In this study we focus on the analyses of the Namibian Omongwa salt pans based on satellite hyperspectral imagery and multispectral time-series data. First, a change detection analysis is applied using the Iterative-reweighted Multivariate Alteration Detection (iMAD) method to identify and investigate surface changes based on Landsat archive imagery covering the period 1984-2015. For the complete Landsat time series, a total of 130 bi-temporal change maps have been derived and are compiled to produce a change magnitude map, which indicates different regions of activity and stability of the pan surface. Then radiometric geometric and atmospheric correction of Hyperion data were performed using the pre-processing chain of Rogass et al. (2014). Based on field spectroscopy and XRD analysis of soil samples, one of the main evaporite minerals of the pan soil could be identified as gypsum. Different approaches based on spectral features were tested and validated against reference samples to find the most suitable approach for estimating the gypsum content from the Hyperion data. Major challenges were the influence of water vapour absorption bands close to major gypsum absorption feature as well as low signal-to-noise ratio of Hyperion in the SWIR wavelength. A best method was determined that allow to determine Gypsum content with R² of 0.7 and relative RMSE of 0.14. Results reveal a variable spatial distribution of different mineralogy and in particular gypsum content within the pan, which seems to be associated with varying dynamic of the pan surface.

Published
2016

15. Nutzung von langfristigen Datenzeitreihen mehrerer Satellitensensoren zur Erfassung von großräumigen raumzeitlichen Hangrutschungsaktivitätsmustern

Author

Behling, R., Kleinschmit, Birgit, Technische Universität Berlin, Kaufmann, Herrmann, and Guanter, Luis

Subjects
ddc:550
Abstract

The main principle in landslide hazard and risk assessment is that conditions of past and present landslide activity indicate future landslide occurrence. Hence, the probabilistic assessment of landslide hazard and risk requires a profound knowledge about spatiotemporal landslide activity over longer time spans and large areas. However, for most parts of the world such information is largely missing, because the identification of landslide activity still mainly relies on time-consuming and resource-intensive conventional methods (i.e. visual interpretation of optical data supported by comprehensive field surveys) and because all efforts to automate this landslide mapping procedure are hitherto limited to small areas and/or very short time periods or even single events. This thesis presents the development of an automated approach for efficient multi-temporal identification of landslides based on optical satellite-based remote sensing time series data. The developed approach allows for retrospective analysis of long-term landslide occurrence and for monitoring recent landslide activity for large areas. For this purpose, a comprehensive optical remote sensing database has been created. To achieve best temporal resolution, data of multiple optical sensors are used simultaneously. In total, the database consists of 729 datasets acquired by Landsat-(E)TM, SPOT 1 & 5, IRS-1C (LISS3), ASTER, and RapidEye between 1986 and 2013 for a landslide-affected area of 12000 km² in Southern Kyrgyzstan, Central Asia. The developed approach comprises automated multi-sensor pre-processing as well as knowledge-based and uncertainty-related multi-temporal change detection methods to enable efficient and robust spatiotemporal identification of landslides in a highly heterogeneous multi-sensor time series database. The change detection builds on the analysis of temporal NDVI-trajectories, representing footprints of vegetation changes over time. Landslide-specific trajectories are characterized by abrupt vegetation cover destruction and longer-term revegetation rates resulting from landslide-related disturbance and dislocation of the fertile soil cover. In combination with DEM-derivatives the developed approach enables automated identification of landslides of different sizes, shapes and in different stages of development under varying natural conditions. The approach is applied to two scenarios. Firstly, the recent landslide activity (2009 – 2013) is identified by a RapidEye-based application of the approach in a 7500 km² area. Secondly, a long-term analysis (1986 - 2013) is performed on the basis of the multi-sensor database in a highly landslide-affected region of 2500 km². In both cases, the number of automatically mapped landslides exceeds the existing landslide records of the Kyrgyz authorities by more than a factor of ten. In total, almost 2000 landslides are mapped, whereas the size of the landslides ranges from 50 m² to 2.8 km². The identified landslide occurrence shows clear spatial patterns with highest activity along the foothills of the Tien-Shan mountain ranges. Temporally, the long-term analysis reveals a peak of landslide activity for the years 2003 and 2004. In these years, the annual landslide rate was more than five times higher than the identified long-term average rate of 57 landslides per annum. These spatiotemporal activity patterns are evaluated against the morphological setting (predisposing factor) and the temporal variations of the precipitation (triggering factor), exemplarily showing the suitability of the achieved results to determine the individual or combined influence of specific landslide-causing factors in an analyzed region. For the derivation of the recent landslide activity, the approach takes advantage of the high spatial (5 m) and temporal resolution (acquisition intervals of up to several days/weeks) of the RapidEye data, allowing identification of small landslides that are often pre-cursors of subsequent more hazardous landslides. Thus, the approach can also provide valuable information for early warning applications in the context of a regular landslide monitoring system. Overall, the presented approach identifies spatiotemporal landslide activity patterns to improve the regional landslide process understanding. This builds an important step to realize probabilistic landslide hazard and risk assessments in order to contribute to the mitigation of the landslide consequences for the local population of remote mountainous regions such as Southern Kyrgyzstan. Moreover, the multi-sensor applicability and uncertainty-related landslide change detection of the approach provides a great potential to be applied to other global landslide hotspots (e.g. South-East Asia and South America) as well as to new optical sensors (e.g. Sentinel-2), opening up new opportunities to establish a widely applicable large area landslide monitoring system. Zur Gefahreneinschätzung von Hangrutschungen greift man auf das grundlegende Prinzip zurück, dass zukünftige Hangrutschungen den gleichen Bedingungen unterliegen wie vergangene und gegenwärtige. Eine Voraussetzung für solche probabilistischen Gefährdungseinschätzungen sind daher fundierte Kenntnisse der raumzeitlichen Hangrutschungsaktivität über möglichst lange Zeiträume und große Gebiete. Allerdings fehlt solches Wissen in den meisten Regionen der Erde, da die Erfassung der Hangrutschungsaktivität nach wie vor meistens durch zeit- und arbeitsaufwendige Methoden erfolgt (d. h. visuelle Interpretation von optischen Fernerkundungsdaten und umfassenden Geländearbeiten) und weil Ansätze diese Hangrutschungsidentifizierung zu automatisieren sich bisher auf kleine Untersuchungsgebiete und/oder auf kurze Zeiträume beschränken. In dieser Dissertation wird eine automatische Methode zur effizienten Hangrutschungsidentifizierung auf Basis von Zeitreihen optischer Satellitenfernerkundungsdaten entwickelt. Diese Methode erlaubt großflächig eine rückwirkende Analyse langzeitlichen Hangrutschungsvorkommens und ein Monitoring rezenter Hangrutschungsaktivität. Zu diesem Zweck wurde eine umfangreiche Datenbank optischer Fernerkundungsdaten erstellt, die, um eine möglichst hohe zeitliche Auflösung zu erreichen, Daten mehrerer optischer Sensoren einschließt. Insgesamt enthält die Datenbank 729 Datensätze sieben verschiedener optischer Satellitensysteme (Landsat-(E)TM, SPOT 1 & 5, IRS-1C (LISS3), ASTER und RapidEye). Die Aufnahmen erstrecken sich über einen Zeitraum von 1986 bis 2013 und über ein 12000 km² großes von Hangrutschungen betroffenes Gebiet im südlichen Kirgisistan (Zentralasien). Die entwickelte Methode umfasst automatische multisensorale Vorverarbeitungsschritte sowie wissensbasierte und Unsicherheiten einbeziehende Algorithmen der multitemporalen Veränderungsdetektion um eine effiziente und robuste raumzeitliche Identifizierung von Hangrutschungen auf Basis einer stark heterogenen multisensoralen Datenzeitreihe zu ermöglichen. Die Algorithmen zur Veränderungsdetektion basieren auf der Analyse von zeitlichen NDVI-Trajektorien, welche ein Abbild zeitlicher Vegetationsveränderungen darstellen. Hangrutschungstypische Muster sind gekennzeichnet durch abrupte Vegetationszerstörung und einen langsamen Wieder-bewuchs, da durch die Hangrutschungen fruchtbarer Oberboden gestört oder gar verlagert worden ist. In Verbindung mit reliefbeschreibenden Parametern erlaubt der entwickelte Ansatz somit die automatische Identifizierung von Hangrutschungen unterschiedlicher Größe, Form und Entwicklungsstadien unter verschiedenen natürlichen Bedingungen. Die Methode wird auf zwei Szenarien angewendet. Zunächst wird die rezente Hangrutschungsdynamik auf Basis der RapidEye-Daten für ein Gebiet von 7500 km² untersucht. Anschließend erfolgt eine langzeitliche Analyse (1986-2013) eines 2500 km² großen stark von Hangrutschungen betroffenen Gebietes mittels der multisensoralen Datenbank. In beiden Fällen übersteigt die Anzahl der automatisch identifizierten Hangrutschungen jene offizieller kirgisischer Berichte um mehr als das Zehnfache. Insgesamt sind annähernd 2000 Hangrutschungen mit einer Größe von 50 m² bis 2.8 km² identifiziert worden. Das erfasste Hangrutschungsvorkommen zeigt deutliche räumliche Muster mit höchster Aktivität entlang der Hänge des Tien-Shan Gebirgsvorlandes. Zeitlich betrachtet hat die langzeitliche Analyse ein Aktivitätsmaximum in den Jahren 2003 und 2004 ergeben. Diese Jahre waren durch eine mehr als fünffach erhöhte Hangrutschungsaktivität gegenüber dem langjährigen Mittel von 57 Hangrutschungen gekennzeichnet. Diese raumzeitlichen Hangrutschungsaktivitätsmuster werden in der Dissertation der morphologischen Beschaffenheit (ursächlicher Faktor) und den zeitlichen Variationen des Niederschlages (auslösender Faktor) gegenübergestellt. So wird exemplarisch die Eignung der erzielten Identifizierungsergebnisse gezeigt, einzelne oder zusammenhängende Einflüsse von Hangrutschungen verursachenden Faktoren für ein Untersuchungsgebiet quantitativ zu bewerten. Für die Ableitung rezenter Hangrutschungsaktivität wird auf die RapidEye-Daten zurückgegriffen, die durch ihre hohe räumliche (5 m) und zeitliche Auflösung (Datenwiederholungsrate von bis zu wenigen Tagen und Wochen) eine Identifizierung von kleinen Rutschungen als Vorboten von größeren gefährlicheren Hangrutschungen zu ermöglichen. Dadurch kann die Methode innerhalb eines regelmäßigen Monitorings auch für Frühwarnsysteme nützliche Informationen liefern. Die entwickelte Methode erlaubt die Identifizierung von raumzeitlichen Hangrutschungsaktivitätsmustern, welche zur Verbesserung die des regionalen Hangrutschungsprozessverständnis beitragen. Damit ist ein wichtiger Beitrag geschaffen zur Realisierung von Hangrutschungsgefährdungseinschätzungen, und damit zur potentiellen Reduzierung des Hangrutschungsrisikos für die lokale Bevölkerung von abgelegenen Gebirgsregionen wie im Falle Südkirgistans. Des Weiteren hat die Methode durch ihre sensorübergreifenden und Unsicherheiten einbeziehenden Analysealgorithmen ein großes Potential auf weitere hangrutschungsgefährdete Gebiete (wie bspw. Südostasien oder Südamerika) sowie auf neue optische Sensoren (z. B. Sentinel-2) angewandt zu werden, was Möglichkeiten für ein vielseitig und großflächig anwendbares Monitoringsystem eröffnet.

Published
2016

20. Precision measurement of the nuclear polarization in laser-cooled, optically pumped37K

Author

Fenker, B, primary, Behr, J A, additional, Melconian, D, additional, Anderson, R M A, additional, Anholm, M, additional, Ashery, D, additional, Behling, R S, additional, Cohen, I, additional, Craiciu, I, additional, Donohue, J M, additional, Farfan, C, additional, Friesen, D, additional, Gorelov, A, additional, McNeil, J, additional, Mehlman, M, additional, Norton, H, additional, Olchanski, K, additional, Smale, S, additional, Thériault, O, additional, Vantyghem, A N, additional, and Warner, C L, additional

Published
2016
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26. Reduction of radiometric miscalibration-applications to pushbroom sensors

Author

Rogass, C., Spengler, D., Bochow, M., Segl, K., Lausch, Angela, Doktor, Daniel, Roessner, S., Behling, R., Wetzel, H.-U., Kaufmann, H., Rogass, C., Spengler, D., Bochow, M., Segl, K., Lausch, Angela, Doktor, Daniel, Roessner, S., Behling, R., Wetzel, H.-U., and Kaufmann, H.

Abstract

The analysis of hyperspectral images is an important task in Remote Sensing. Foregoing radiometric calibration results in the assignment of incident electromagnetic radiation to digital numbers and reduces the striping caused by slightly different responses of the pixel detectors. However, due to uncertainties in the calibration some striping remains. This publication presents a new reduction framework that efficiently reduces linear and nonlinear miscalibrations by an image-driven, radiometric recalibration and rescaling. The proposed framework—Reduction Of Miscalibration Effects (ROME)—considering spectral and spatial probability distributions, is constrained by specific minimisation and maximisation principles and incorporates image processing techniques such as Minkowski metrics and convolution. To objectively evaluate the performance of the new approach, the technique was applied to a variety of commonly used image examples and to one simulated and miscalibrated EnMAP (Environmental Mapping and Analysis Program) scene. Other examples consist of miscalibrated AISA/Eagle VNIR (Visible and Near Infrared) and Hawk SWIR (Short Wave Infrared) scenes of rural areas of the region Fichtwald in Germany and Hyperion scenes of the Jalal-Abad district in Southern Kyrgyzstan. Recovery rates of approximately 97% for linear and approximately 94% for nonlinear miscalibrated data were achieved, clearly demonstrating the benefits of the new approach and its potential for broad applicability to miscalibrated pushbroom sensor data.

Published
2011

30. Conformation of acetylcholine bound to the nicotinic acetylcholine receptor.

Author

Behling, R W, Yamane, T, Navon, G, and Jelinski, L W

Abstract

We report here the biologically active conformation of acetylcholine when bound to the high-affinity state of the receptor from Torpedo californica. The acetylcholine conformation was determined in the free and bound states by proton NMR two-dimensional nuclear Overhauser effects. In agreement with x-ray crystallographic data, acetylcholine in solution has an extended conformation with an average distance between the acetyl methyl and choline methyl protons of approximately equal to 5 A. When bound to the acetylcholine receptor, acetylcholine adopts a conformation where the acetyl methyl group is close (3.3 A) to the methyl groups of the choline moiety. This bent conformation places the oxygens adjacent to one another and allows the methyl groups to form an uninterrupted hydrophobic surface over the rest of the acetylcholine molecule. The significant difference between the free- and bound-state conformations implies that structure-activity studies based solely on molecular modeling strategies must be approached with caution.

Published
1988
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34. Interrelations of vegetation growth and water scarcity in Iran revealed by satellite time series.

Author

Behling R, Roessner S, Foerster S, Saemian P, Tourian MJ, Portele TC, and Lorenz C

Subjects
Time Factors, Iran, Desert Climate, Water Insecurity, Agricultural Irrigation
Abstract

Iran has experienced a drastic increase in water scarcity in the last decades. The main driver has been the substantial unsustainable water consumption of the agricultural sector. This study quantifies the spatiotemporal dynamics of Iran's hydrometeorological water availability, land cover, and vegetation growth and evaluates their interrelations with a special focus on agricultural vegetation developments. It analyzes globally available reanalysis climate data and satellite time series data and products, allowing a country-wide investigation of recent 20+ years at detailed spatial and temporal scales. The results reveal a wide-spread agricultural expansion (27,000 km[Formula: see text]) and a significant cultivation intensification (48,000 km[Formula: see text]). At the same time, we observe a substantial decline in total water storage that is not represented by a decrease of meteorological water input, confirming an unsustainable use of groundwater mainly for agricultural irrigation. As consequence of water scarcity, we identify agricultural areas with a loss or reduction of vegetation growth (10,000 km[Formula: see text]), especially in irrigated agricultural areas under (hyper-)arid conditions. In Iran's natural biomes, the results show declining trends in vegetation growth and land cover degradation from sparse vegetation to barren land in 40,000 km[Formula: see text], mainly along the western plains and foothills of the Zagros Mountains, and at the same time wide-spread greening trends, particularly in regions of higher altitudes. Overall, the findings provide detailed insights in vegetation-related causes and consequences of Iran's anthropogenic drought and can support sustainable management plans for Iran or other semi-arid regions worldwide, often facing similar conditions., (© 2022. The Author(s).)

Published
2022
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35. Sonochemical oxidation of vanillyl alcohol to vanillin in the presence of a cobalt oxide catalyst under mild conditions.

Author

Behling R, Chatel G, and Valange S

Subjects
Catalysis, Hydroxyl Radical chemistry, Oxidation-Reduction, Benzaldehydes chemistry, Benzyl Alcohols chemistry, Cobalt chemistry, Oxides chemistry, Ultrasonic Waves
Abstract

The heterogeneous oxidation of vanillyl alcohol to vanillin was investigated on new grounds under eco-friendly conditions in the presence of hydrogen peroxide as an oxidant and water as solvent, coupled with low frequency ultrasonic irradiation. The sono-Fenton-like-assisted vanillyl alcohol oxidation was performed with a high-surface area nanostructured spinel cobalt oxide catalyst exhibiting small crystallites size. The catalytic reaction was also carried out under conventional heating conditions for comparison purposes. The influence of the reaction parameters, namely catalyst loading and hydrogen peroxide concentration was studied with the aim of determining the optimum yield and selectivity to the desired vanillin product. The chemical effects of ultrasound (ability to generate hydroxyl radicals) along with increased mass transfer appeared to be key prerequisites for enhancing the efficiency of the process, while decreasing the overall energy consumption., (Copyright © 2016 Elsevier B.V. All rights reserved.)

Published
2017
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36. Reduction of radiometric miscalibration--applications to pushbroom sensors.

Author

Rogass C, Spengler D, Bochow M, Segl K, Lausch A, Doktor D, Roessner S, Behling R, Wetzel HU, and Kaufmann H

Subjects
Algorithms, Automation, Calibration, Equipment Design, Image Processing, Computer-Assisted, Models, Statistical, Models, Theoretical, Reproducibility of Results, Spectrophotometry methods, Radiometry instrumentation, Radiometry methods
Abstract

The analysis of hyperspectral images is an important task in Remote Sensing. Foregoing radiometric calibration results in the assignment of incident electromagnetic radiation to digital numbers and reduces the striping caused by slightly different responses of the pixel detectors. However, due to uncertainties in the calibration some striping remains. This publication presents a new reduction framework that efficiently reduces linear and nonlinear miscalibrations by an image-driven, radiometric recalibration and rescaling. The proposed framework-Reduction Of Miscalibration Effects (ROME)-considering spectral and spatial probability distributions, is constrained by specific minimisation and maximisation principles and incorporates image processing techniques such as Minkowski metrics and convolution. To objectively evaluate the performance of the new approach, the technique was applied to a variety of commonly used image examples and to one simulated and miscalibrated EnMAP (Environmental Mapping and Analysis Program) scene. Other examples consist of miscalibrated AISA/Eagle VNIR (Visible and Near Infrared) and Hawk SWIR (Short Wave Infrared) scenes of rural areas of the region Fichtwald in Germany and Hyperion scenes of the Jalal-Abad district in Southern Kyrgyzstan. Recovery rates of approximately 97% for linear and approximately 94% for nonlinear miscalibrated data were achieved, clearly demonstrating the benefits of the new approach and its potential for broad applicability to miscalibrated pushbroom sensor data.

Published
2011
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37. Glyburide-reversible cardioprotective effects of BMS-180448: functional and energetic considerations.

Author

Grover GJ, Sleph PG, Dzwonczyk S, Malone HJ, and Behling RW

Subjects
Adenosine Triphosphate analysis, Adenosine Triphosphate metabolism, Animals, Calcium Channel Blockers pharmacology, Depression, Chemical, Diltiazem pharmacology, Dose-Response Relationship, Drug, Heart physiopathology, In Vitro Techniques, Magnetic Resonance Spectroscopy, Male, Myocardial Contraction drug effects, Myocardial Ischemia metabolism, Myocardial Ischemia physiopathology, Oxygen Consumption drug effects, Phosphocreatine analysis, Phosphocreatine metabolism, Rats, Rats, Sprague-Dawley, Benzopyrans pharmacology, Cardiotonic Agents pharmacology, Glyburide pharmacology, Guanidines pharmacology, Heart drug effects, Myocardial Ischemia prevention & control, Potassium Channels drug effects
Abstract

Adenosine triphosphate (ATP)-sensitive potassium channel openers as a class exert cardioprotective effects, and we can separate vasodilator from glyburide-reversible cardioprotective activity in cromakalim analogs (e.g., BMS-180448). The purpose of this study was to determine the relation between cardiac function, energy status, and cardioprotective effects for BMS-180448 in isolated rat hearts compared with diltiazem. BMS-180448 (1-30 microM) or 0.1-1 microM diltiazem were given 10 min before 25-min global ischemia in rat hearts followed by 30 min of reperfusion. Both compounds significantly increased time to the onset of contracture during ischemia and improved postischemic recovery of contractile function in a concentration-dependent manner. At equivalent cardioprotective concentrations, BMS-180448 depressed preischemic cardiac function significantly less than did diltiazem. During ischemia, diltiazem significantly accelerated the functional decline observed in vehicle-treated hearts, whereas BMS-180448 attenuated the net rate of decline of function. Despite these different effects on preischemic and ischemic cardiac function, diltiazem and BMS-180448 conserved cardiac ATP during ischemia to a similar degree. BMS-180448 enhanced the recovery of ATP (also seen for diltiazem, but not to the same magnitude) and creatine phosphate during reperfusion compared with vehicle-treated hearts. For BMS-180448, this enhanced ATP recovery was accompanied by a significant improvement in the efficiency of oxygen use, which was profoundly reduced in reperfused vehicle-treated hearts. BMS-180448 also significantly enhanced the functional reserve after the 25-min period of global ischemia. Thus BMS-180448 protects ischemic myocardium and conserves ATP with less reduction in cardiac function compared with diltiazem.

Published
1997
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38. Stroboscopic nuclear magnetic resonance microscopy of arterial blood flow.

Author

Behling RW, Tubbs HK, Cockman MD, and Jelinski LW

Subjects
Animals, Diastole, Female, Magnetic Resonance Spectroscopy methods, Models, Biological, Rats, Rats, Inbred Strains, Systole, Blood Flow Velocity, Carotid Arteries physiology, Muscle, Smooth, Vascular physiology, Regional Blood Flow
Abstract

NMR microscopy was used to obtain transverse flow profiles of arterial blood flow in the rat carotid artery at 33 microns resolution. The images were gated to the EKG and correspond to identified regions of diastole. The profiles show that flow is laminar during this part of the heart cycle. These results provide the first direct view of blood flow profiles in arteries of submillimeter diameter and suggest that animals as small as juvenile rodents will serve as valuable models for hemodynamic studies. Extensions to flow during systole, stenoses, and flow in the vicinity of the carotid bifurcation are discussed.

Published
1990
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39. Measuring relative acetylcholine receptor agonist binding by selective proton nuclear magnetic resonance relaxation experiments.

Author

Behling RW, Yamane T, Navon G, Sammon MJ, and Jelinski LW

Subjects
Animals, Binding, Competitive, Cell Membrane metabolism, Electric Organ metabolism, Magnetic Resonance Spectroscopy methods, Torpedo, Acetylcholine metabolism, Carbachol metabolism, Muscarine metabolism, Nicotine metabolism, Receptors, Cholinergic metabolism
Abstract

A method is presented that uses selective proton Nuclear Magnetic Resonance (NMR) relaxation measurements of nicotine in the presence of the acetylcholine receptor to obtain relative binding constants for acetylcholine, carbamylcholine, and muscarine. For receptors from Torpedo californica the results show that (a) the binding constants are in the order acetylcholine greater than nicotine greater than carbamylcholine greater than muscarine; (b) selective NMR measurements provide a rapid and direct method for monitoring both the specific and nonspecific binding of agonists to these receptors and to the lipid; (c) alpha-bungarotoxin can be used to distinguish between specific and nonspecific binding to the receptor; (d) the receptor--substrate interaction causes a large change in the selective relaxation time of the agonists even at concentrations 100x greater than that of the receptor. This last observation means that these measurements provide a rapid method to monitor drug binding when only small amounts of receptor are available. Furthermore, the binding strategies presented here may be useful for the NMR determination of the conformation of the ligand in its bound state.

Published
1988
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40. Stroboscopic NMR microscopy of the carotid artery.

Author

Behling RW, Tubbs HK, Cockman MD, and Jelinski LW

Subjects
Animals, Carotid Arteries anatomy & histology, Diastole, Female, Jugular Veins anatomy & histology, Jugular Veins physiology, Magnetic Resonance Spectroscopy methods, Rats, Rats, Inbred Strains, Reference Values, Systole, Blood Pressure, Carotid Arteries physiology
Abstract

The non-invasive measurement of vascular dynamics and elasticity is critical in understanding haemodynamic conditions of cardiovascular diseases such as hypertension and atherosclerosis. Although there are numerous invasive and in vitro techniques for such measurements, until now non-invasive methods have been limited. We have now obtained stroboscopic NMR images of the carotid arteries of 80-g rats. The change in the cross-sectional area of arteries of diameter approximately 600-800 microns was correlated with the change in absolute blood pressure. These are the first microimages of a dynamic system and enable the direct visualization of compliance, the non-invasive measurement of Young's modulus, the direct determination of the local effects of vasoconstrictors and vasodilators and the mapping of the entire cardiac cycle.

Published
1989
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41. Ringworm of the scalp.

Author

BEHLING RT and MARKEL IJ

Subjects
Dermatitis, Contact, Scalp, Tinea
Published
1948

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