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Kultur als Eigentum: Instrumente, Querschnitte und Fallstudien (2021)

Groth, Stefan, ; Bendix, Regina F., ; Spiller, Achim,

Universitätsverlag Göttingen

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Publication Date: 2024-03-28

Description: Im Zeitalter verknappender Ressourcen ist Kultur – beispielsweise in Form von traditionellem Wissen oder Kulturerbe – in den Brennpunkt wirtschaftlicher, politischer wie ideeller Interessen gerückt. Die Rechte an Eigentum oder Nutzung solcher Kulturgüter werden von internationalen Bühnen bis zu lokalen Schauplätzen verhandelt und implementiert. Nach sechs Jahren intensiver, interdisziplinärer Zusammenarbeit legt die DFG-Forschergruppe 772 („Die Konstituierung von Cultural Property: Akteure, Diskurse, Kontexte, Regeln“) einen mehrgliedrigen Ergebnisband zu diesem wichtigen, spätmodernen Phänomen der Konstituierung kulturellen Eigentums vor. Ein erster Teil bietet griffige Vorstellungen verschiedener internationaler Instrumente und Arenen, in denen Handhabung von Schutz und Inwertsetzung von Kultur im Mittelpunkt stehen. Der zweite Teil versammelt Beiträge, die zentrale Handlungsmotive und Legitimationsweisen der Inwertsetzung von Kultur erörtern und Konzepte, die dabei von besonderer Relevanz sind, durchleuchten. Im dritten Teil werden Ergebnisse aus den verschiedenen Teilprojekten der Forschergruppe vorgestellt.

Keywords: cultural property ; cultural heritage ; culture ; Indigene Völker ; Konvention ; Kulturgut ; UNESCO ; UNESCO-Welterbe ; thema EDItEUR::J Society and Social Sciences

Language: German

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A surrogate-based strategy for analyzing post-fire debris flow inundation hazards (2023)

Spiller, E. ; McGuire, L. ; Patra, A. ; [et al.]

In: XXVIII General Assembly of the International Union of Geodesy and Geophysics (IUGG)

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Publication Date: 2023-07-12

Description: Wildfire is a catalyst for landcover change that can substantially increase the potential for devastating and destructive debris flow hazards. Debris flows initiate after fires when surface water runoff rapidly erodes sediment on steep slopes. Numerical models of post-fire debris flow bulking and runout are extremely computationally intensive. These models depend on poorly constrained and difficult to measure parameters related to fire-altered soil and vegetation, some of which change in time. Further, the development of debris flows (as opposed to clear flows) also depends on the rainfall intensity of potential storms. To date, modeling-based hazard analysis has focused on “if" a debris flow might be triggered on a given fire scared hillside, and not on the extent or footprint of potential debris flow runouts. We employ statistical emulators of debris flow model output to quantify uncertainties and aid in model-based hazard assessments of post-fire debris flow inundation. As a test case, we apply this methodology to the January 2018 Montecito debris flows which initiated after the Thomas Fire.

Language: English

Type: info:eu-repo/semantics/conferenceObject

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Improvements in storm surge surrogate modeling for synthetic storm parameterization, node condition classification and implementation to small size databases (2021)

Kyprioti, Aikaterini P. ; Taflanidis, Alexandros A. ; Plumlee, Matthew ; [et al.]

Springer

In: Natural Hazards. 2021; 109(2): 1349-1386. Published 2021 Jul 14. doi: 10.1007/s11069-021-04881-9.

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Publication Date: 2021-07-14

Print ISSN: 0921-030X

Electronic ISSN: 1573-0840

Topics: Energy, Environment Protection, Nuclear Power Engineering , Geography , Geosciences

Published by Springer

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Wildfire Detection Using Convolutional Neural Networks and PRISMA Hyperspectral Imagery: A Spatial-Spectral Analysis (2023)

Spiller, Dario ; Carbone, Andrea ; Amici, Stefania ; [et al.]

MDPI

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Publication Date: 2023-10-12

Description: The exacerbation of wildfires, attributed to the effects of climate change, presents substantial risks to ecological systems, infrastructure, and human well-being. In the context of the Sustainable Development Goals (SDGs), particularly those related to climate action, prioritizing the assessment and management of the occurrence and intensity of extensive wildfires is of utmost importance. In recent times, there has been a significant increase in the frequency and severity of widespread wildfires worldwide, affecting several locations, including Australia, Italy, and the United States of America. The presence of complex phenomena marked by limited predictability leads to significant negative impacts on biodiversity and human lives. The utilization of satellite-derived data with neural networks, such as convolutional neural networks (CNNs), is a potentially advantageous approach for augmenting the monitoring capabilities of wildfires. This research examines the generalization capability of four neural network models, namely the fully connected (FC), one-dimensional (1D) CNN, two-dimensional (2D) CNN, and three-dimensional (3D) CNN model. Each model’s performance, as measured by accuracy, recall, and F1 scores, is assessed through K-fold cross-validation. Subsequently, T-statistics and p-values are computed based on these metrics to conduct a statistical comparison among the different models, allowing us to quantify the degree of similarity or dissimilarity between them. By using training data from Australia and Sicily, the performances of the trained model are evaluated on the test dataset from Oregon. The results are promising, with cross-validation on the training dataset producing mean precision, recall, and F1 scores ranging between approximately 0.97 and 0.98. Especially, the fully connected model has superior generalization capabilities, whilst the 3D CNN offers more refined and less distorted classifications. However, certain issues, such as false fire detection and confusion between smoke and shadows, persist. The aforementioned methodologies offer significant perspectives on the capabilities of neural network technologies in supporting the detection and management of wildfires. These approaches address the crucial matter of domain transferability and the associated dependability of predictions in new regions. This study makes a valuable contribution to the ongoing efforts in climate change by assisting in monitoring and managing wildfires.

Description: Published

Description: 4855

Description: 5IT. Osservazioni satellitari

Description: JCR Journal

Keywords: wildfire ; PRISMA ; Convolutional Neural Networks ; hyperspectral

Repository Name: Istituto Nazionale di Geofisica e Vulcanologia (INGV)

Type: article

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Wildfires Temperature Estimation by Complementary Use of Hyperspectral PRISMA and Thermal (ECOSTRESS & L8) (2023)

Amici, Stefania ; Spiller, Dario ; Ansalone, Luigi ; [et al.]

Wiley-AGU

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Publication Date: 2023-05-24

Description: t This paper deals with detection and temperature analysis and of wildfires using PRISMA imagery. Precursore IperSpettrale della Missione Applicativa (Hyperspectral Precursor of the Application Mission, PRISMA) is a new hyperspectral mission by ASI (Agenzia Spaziale Italiana, Italian Space Agency) launched in 2019. This mission provides hyperspectral images with a spectral range of 400–2,500 nm and an average spectral resolution less than 12 nm and a spatial resolution of 30 m/pixel. This study focuses on the wildfire temperature estimation over the Bootleg Fire, US 2021. The analysis starts by considering the Hyperspectral Fire Detection Index (HFDI) which is used to analyze the informative content of the images, along with the analysis of some specific visible, near-infrared and shortwave-infrared bands. This first analysis is used as input to perform a temperature estimation of the areas with active wildfire. Surface temperature is retrieved using PRISMA radiance and a linear mixing model based on two background components (vegetation and burn scar) and two active fire components. PRISMA temperatures are compared with LST (Land Surface Temperature) products from NASA's ECOSTRESS and Landsat 8 which imaged the Bootleg Fire before and after PRISMA. A critical discussion of the results obtained with PRISMA is presented, followed by the advantages and limitation of the proposed approach.

Description: Published

Description: e2022JG007055

Description: 7A. Geofisica per il monitoraggio ambientale

Description: JCR Journal

Repository Name: Istituto Nazionale di Geofisica e Vulcanologia (INGV)

Type: article

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Autonomous Satellite Wildfire Detection Using Hyperspectral Imagery and Neural Networks: A Case Study on Australian Wildfire (2023)

Thangavel, Kathiravan ; Spiller, Dario ; Sabatini, Roberto ; [et al.]

MDPI

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Publication Date: 2023-05-24

Description: One of the United Nations (UN) Sustainable Development Goals is climate action (SDG-13), and wildfire is among the catastrophic events that both impact climate change and are aggravated by it. In Australia and other countries, large-scale wildfires have dramatically grown in frequency and size in recent years. These fires threaten the world's forests and urban woods, cause enormous environmental and property damage, and quite often result in fatalities. As a result of their increasing frequency, there is an ongoing debate over how to handle catastrophic wildfires and mitigate their social, economic, and environmental repercussions. Effective prevention, early warning, and response strategies must be well-planned and carefully coordinated to minimise harmful consequences to people and the environment. Rapid advancements in remote sensing technologies such as ground-based, aerial surveillance vehicle-based, and satellite-based systems have been used for efficient wildfire surveillance. This study focuses on the application of space-borne technology for very accurate fire detection under challenging conditions. Due to the significant advances in artificial intelligence (AI) techniques in recent years, numerous studies have previously been conducted to examine how AI might be applied in various situations. As a result of its special physical and operational requirements, spaceflight has emerged as one of the most challenging application fields. This work contains a feasibility study as well as a model and scenario prototype for a satellite AI system. With the intention of swiftly generating alerts and enabling immediate actions, the detection of wildfires has been studied with reference to the Australian events that occurred in December 2019. Convolutional neural networks (CNNs) were developed, trained, and used from the ground up to detect wildfires while also adjusting their complexity to meet onboard implementation requirements for trusted autonomous satellite operations (TASO). The capability of a 1-dimensional convolution neural network (1-DCNN) to classify wildfires is demonstrated in this research and the results are assessed against those reported in the literature. In order to enable autonomous onboard data processing, various hardware accelerators were considered and evaluated for onboard implementation. The trained model was then implemented in the following: Intel Movidius NCS-2 and Nvidia Jetson Nano and Nvidia Jetson TX2. Using the selected onboard hardware , the developed model was then put into practice and analysis was carried out. The results were positive and in favour of using the technology that has been proposed for onboard data processing to enable TASO on future missions. The findings indicate that data processing onboard can be very beneficial in disaster management and climate change mitigation by facilitating the generation of timely alerts for users and by enabling rapid and appropriate responses.

Description: Published

Description: 720

Description: 7A. Geofisica per il monitoraggio ambientale

Description: JCR Journal

Repository Name: Istituto Nazionale di Geofisica e Vulcanologia (INGV)

Type: article

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Transfer Learning Analysis For Wildfire Segmentation Using Prisma Hyperspectral Imagery And Convolutional Neural Networks (2023)

Spiller, Dario ; Amici, Stefania ; Ansalone, Luigi

IEEE

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Publication Date: 2023-05-24

Description: In this work we present a segmentation study of wildfire scenarios using PRISMA hyperspectral data and a methodology based on convolutional neural networks and transfer learning. PRISMA (Precursore IperSpettrale della Missione Applicativa, Hyperspectral Precursor of the Application Mission) is the hyperspectral mission by ASI (Agenzia Spaziale Italiana, Italian Space Agency) launched in 2019 providing images with a spectral range of 0.4−2.5μm and an average spectral resolution less than 10 nm. We used the PRISMA hypercube acquired during the Australian bushfires of December 2019 in New South Wales to train a one-dimensional convolutional neural network and perform a transfer learning in the Bootleg Fire of July 2021 in the Fremont-Winema National Forest in Oregon. The generalization ability of the network is discussed and potential future applications are presented.

Description: Published

Description: 22294623

Description: 7A. Geofisica per il monitoraggio ambientale

Description: N/A or not JCR

Repository Name: Istituto Nazionale di Geofisica e Vulcanologia (INGV)

Type: article

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Trusted Autonomous Operations of Distributed Satellite Systems Using Optical Sensors (2023)

Thangavel, Kathiravan ; Spiller, Dario ; Sabatini, Roberto ; [et al.]

MDPI

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Publication Date: 2023-05-24

Description: Recent developments in Distributed Satellite Systems (DSS) have undoubtedly increased mission value due to the ability to reconfigure the spacecraft cluster/formation and incrementally add new or update older satellites in the formation. These features provide inherent benefits, such as increased mission effectiveness, multi-mission capabilities, design flexibility, and so on. Trusted Autonomous Satellite Operation (TASO) are possible owing to the predictive and reactive integrity features offered by Artificial Intelligence (AI), including both on-board satellites and in the ground control segments. To effectively monitor and manage time-critical events such as disaster relief missions, the DSS must be able to reconfigure autonomously. To achieve TASO, the DSS should have reconfiguration capability within the architecture and spacecraft should communicate with each other through an Inter-Satellite Link (ISL). Recent advances in AI, sensing, and computing technologies have resulted in the development of new promising concepts for the safe and efficient operation of the DSS. The combination of these technologies enables trusted autonomy in intelligent DSS (iDSS) operations, allowing for a more responsive and resilient approach to Space Mission Management (SMM) in terms of data collection and processing, especially when using state-of-the-art optical sensors. This research looks into the potential applications of iDSS by proposing a constellation of satellites in Low Earth Orbit (LEO) for near-real-time wildfire management. For spacecraft to continuously monitor Areas of Interest (AOI) in a dynamically changing environment, satellite missions must have extensive coverage, revisit intervals, and reconfiguration capability that iDSS can offer. Our recent work demonstrated the feasibility of AI-based data processing using state-of-the-art on-board astrionics hardware accelerators. Based on these initial results, AI-based software has been successively developed for wildfire detection on-board iDSS satellites. To demonstrate the applicability of the proposed iDSS architecture, simulation case studies are performed considering different geographic locations.

Description: Published

Description: 3344

Description: 7A. Geofisica per il monitoraggio ambientale

Description: JCR Journal

Keywords: PRISMA; astrionics; bushfire; disaster management; distributed satellite systems (DSSs); edge computing; hyperspectral imagery; intelligent DSS (iDSS); mission management; optical sensors; trusted autonomous satellite operations (TASO); wildfire

Repository Name: Istituto Nazionale di Geofisica e Vulcanologia (INGV)

Type: article

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