Three-dimensional Survey Research Articles

Hydrochemical-geophysical study of saline paleo-water contamination in alluvial aquifers

An integrated hydrochemical and geophysical study of the saline paleo-water uprising into the alluvial aquifer of the Oltrepò Pavese plain sector (Po Plain, northern Italy) is presented. This study involved hydrochemical analysis of groundwater, assessment of well logs, and one-, two- and three-dimensional electrical geophysical surveys. The studied area was selected for its characteristic hydrogeological setting. The alluvial aquifer is strongly conditioned by the presence of a buried tectonic discontinuity along which the saline waters are mainly distributed. These waters rise along the discontinuities in the bedrock and flow into the overlying alluvial aquifer. Contamination from saline waters is not spatially and vertically homogeneous within the aquifer. The spatial distribution of Na–Cl waters suggests the existence of plumes of highly mineralized waters that locally reach the aquifer, diffuse and mix with freshwaters. The saline waters show a dilution during upward migration, which is due to mixing with the shallow fresh groundwater. Highly mineralized groundwater is identified even at very shallow depth in correspondence with each plume. On the other hand, there is a lower degree of contamination in those sectors of the aquifer that are further away from the structural discontinuities and this lesser contamination generally only involves the deeper parts of the aquifer.

World Settlement Footprint 3D - A first three-dimensional survey of the global building stock

Settlements, and in particular cities, are at the center of key future challenges related to global change and sustainable development. Widely used indicators to assess the efficiency and sustainability of settlement development are the compactness and density of the built-up area. However, at global scale, a temporally consistent and spatially detailed survey of the distribution and concentration of the building stock – meaning the total area and volume of buildings within a defined spatial unit or settlement, commonly referred to as building density – does not yet exist. To fill this data and knowledge gap, an approach was developed to map key characteristics of the world's building stock in a so far unprecedented level of spatial detail for every single settlement on our planet. The resulting World Settlement Footprint 3D dataset quantifies the fraction, total area, average height, and total volume of buildings for a measuring grid with 90 m cell size. The World Settlement Footprint 3D is generated using a modified version of the World Settlement Footprint human settlements mask derived from Sentinel-1 and Sentinel-2 satellite imagery at 10 m spatial resolution, in combination with 12 m digital elevation data and radar imagery collected by the TanDEM-X mission. The underlying, automated processing framework includes three basic workflows: one estimating the mean building height based on an analysis of height differences along potential building edges, a second module determining the building fraction and total building area within each 90 m cell, and a third part combining the height information and building area in order to determine the average height and total built-up volume at 90 m gridding. Optionally, a simple 3D building model (level of detail 1) can be generated for regions where data on the building footprints is available. A comprehensive validation campaign based on 3D building models obtained for 19 regions (~86,000 km2) and street-view samples indicating the number of floors for >130,000 individual buildings in 15 additional cities documents that the novel World Settlement Footprint 3D data provides valuable and, for the first time, globally consistent information on key characteristics of the building stock in both, large urban agglomerations as well as small-scale rural settlements. Thus, the new dataset represents a promising baseline dataset for a wide range of previously impossible environmental, socioeconomic, and climatological studies worldwide.

Medieval Mining Centre of Buchberg in the Bohemian-Moravian Highlands. Metal Production in the Kingdom of Bohemia (13th–14th Centuries)

The study presents the results of a wide range of research approaches and surveys of the defunct mining centre at Buchberg in the region of Havlíčkův Brod, which was involved in silver production in the 13th and 14th centuries. Burchberg is exceptional in its size and well-advanced community infrastructure. Its significance is also reflected in written sources. Surveys and trial diggings focused on the residential area, and especially on the adjoining metallurgical facilities providing unique spatial information, as well as a wealth of valuable data obtained by analysing archaeometallurgical materials, representing the links in the operational chain, staring with the raw ore extraction and ending with the final production of the desired metals. The current deforestation of mining field relics enabled their three-dimensional survey, and, thus, providing a hitherto unknown view of the spatial structure of historical mining activities.

Vertical Mixing and Heat Fluxes Conditioned by a Seismically Imaged Oceanic Front

The southwest Atlantic gyre connects several distinct water masses, which means that this oceanic region is characterized by a complex frontal system and enhanced water mass modification. Despite its significance, the distribution and variability of vertical mixing rates have yet to be determined for this system. Specifically, potential conditioning of mixing rates by frontal structures, in this location and elsewhere, is poorly understood. Here, we analyze vertical seismic (i.e., acoustic) sections from a three-dimensional survey that straddles a major front along the northern portion of the Brazil-Falkland Confluence. Hydrographic analyses constrain the structure and properties of water masses. By spectrally analyzing seismic reflectivity, we calculate spatial and temporal distributions of the dissipation rate of turbulent kinetic energy, ε, of diapycnal mixing rate, K, and of vertical diffusive heat flux, FH. We show that estimates of ε, K, and FH are elevated compared to regional and global mean values. Notably, cross-sectional mean estimates vary little over a 6 week period whilst smaller scale thermohaline structures appear to have a spatially localized effect upon ε, K, and FH. In contrast, a mesoscale front modifies ε and K to a depth of 1 km, across a region of O(100) km. This front clearly enhances mixing rates, both adjacent to its surface outcrop and beneath the mixed layer, whilst also locally suppressing ε and K to a depth of 1 km. As a result, estimates of FH increase by a factor of two in the vicinity of the surface outcrop of the front. Our results yield estimates of ε, K and FH that can be attributed to identifiable thermohaline structures and they show that fronts can play a significant role in water mass modification to depths of 1 km.

THE ARAGONESE CASTLE OF PIAZZA ARMERINA, SICILY: NEW SURVEYS FOR THE CONSERVATION AND THE VALORISATION OF A CULTURAL RESOURCE

Abstract. Sicily owns a vast heritage consisting of manors, strongholds, coastal towers and city fortifications that reflect its long history and strategic role in the Mediterranean Sea. Most of these assets are now in poor condition and abandoned, affected by both aging and the lack of preservation and maintenance activities. Their knowledge is often incomplete because of a lack of archival sources and the quasi-absence of accurate surveys and stratigraphic analyses. A systematic research programme on the most important castles in central Sicily, was then launched. In this context, this paper presents the case study of the Aragonese castle in Piazza Armerina. It shows the first results of a multidisciplinary study based on the integrated use of technologies for three-dimensional survey and supported by new critical interpretations of the morphological and material peculiarities of such an important cultural good. An operational practice aimed at correctly orienting future restoration and reuse activities, based on both scientific criteria and respectful approach to the monument.

Survey Solutions for 3D Acquisition and Representation of Artificial and Natural Caves

A three-dimensional survey of natural caves is often a difficult task due to the roughness of the investigated area and the problems of accessibility. Traditional adopted techniques allow a simplified acquisition of the topography of caves characterized by an oversimplification of the geometry. Nowadays, the advent of LiDAR and Structure from Motion applications eased three-dimensional surveys in different environments. In this paper, we present a comparison between other three-dimensional survey systems, namely a Terrestrial Laser Scanner, a SLAM-based portable instrument, and a commercial photo camera, to test their possible deployment in natural caves survey. We presented a comparative test carried out in a tunnel stretch to calibrate the instrumentation on a benchmark site. The choice of the site is motivated by its regular geometry and easy accessibility. According to the result obtained in the calibration site, we presented a methodology, based on the Structure from Motion approach that resulted in the best compromise among accuracy, feasibility, and cost-effectiveness, that could be adopted for the three-dimensional survey of complex natural caves using a sequence of images and the structure from motion algorithm. The methods consider two different approaches to obtain a low resolution complete three-dimensional model of the cave and ultra-detailed models of most peculiar cave morphological elements. The proposed system was tested in the Gazzano Cave (Piemonte region, Northwestern Italy). The obtained result is a three-dimensional model of the cave at low resolution due to the site’s extension and the remarkable amount of data. Additionally, a peculiar speleothem, i.e., a stalagmite, in the cave was surveyed at high resolution to test the proposed high-resolution approach on a single object. The benchmark and the cave trials allowed a better definition of the instrumentation choice for underground surveys regarding accuracy and feasibility.

Short-term geomorphological evolution of the Poggio Baldi landslide upper scarp via 3D change detection

On 19 March 2010, a 4 million m3 landslide occurred at Poggio Baldi, a small village in the Santa Sofia municipality, central Apennines (Forlì-Cesena, Italy). The landslide caused severe damages to some homes and obstructed both the SS310 national road and the Bidente river. The Poggio Baldi landslide arose in the “Marnoso-Arenacea Romagnola” formation composed of a pelitic-arenaceous turbiditic sequence. The landslide was classified as a rotational landslide, evolving into a partially confined flow-like landslide and causing the reactivation of the deposit of a previous landslide that took place in 1914. This paper reports a study of the phenomena currently occurring on the 100-m high main scarp of this landslide complex. The aim of the study was to assess ground changes that occurred on the upper scarp from 2015 to 2018 and to infer a preliminary evolutionary model capable of supporting short-term landslide scenarios. For this purpose, multi-station terrestrial laser scanner surveys were performed in 2015, 2016, 2017, and 2018. Additionally, an unmanned aerial vehicle three-dimensional photogrammetric survey was carried out in 2016. Analyses of the three-dimensional digital models of the main scarp made it possible to carry out several exhaustive multi-temporal investigations and to derive a detailed three-dimensional change detection scheme for it. The results showed an active geomorphological evolution of the rock scarp area due to frequent rockfalls and topples (of the order of a few m3), with significant local volume changes (a few thousand m3/year) and with potential implications for the long-term evolution of the entire slope.

Dagli archivi al restauro virtuale. Il progetto ‘Tracce in Luce’ per la Rocca di Vignola

A project of reconstruction and investigation about the external decorations of Rocca di Vignola has been made possible by the archival research, a three-dimensional survey campaign and the realization of architectural video projections, creating a synergic dialogue between methodological research and digital technologies.

Perspectives for a public space. Visualizations visions images.

The research investigates the contemporary urban space structuring through the Drawing and the Survey methods, as places for experimentation and control of the city transformation dynamics. Is assumed as an example the 19th century foundation orthogonal grid of the Bari city which reveals the dynamism of changes taking place on the historical settlement. Starting from the city representation, the visual qualities are analyzed of some main roads that originally constituted the perceptive support of the city spatial unity. The graphic reconstruction, obtained from the street fronts two-dimensional representation and from the public spaces three-dimensional survey, with the use of photomodeling tools and laser scanner technologies, has allowed a deep reading of the visual described aspects. The knowledge process, implemented in the representation space, drives the environment projects towards conscious choices that protect the fragile historic city.

Application of Housing History Courses by Experiential Learning Method: An Example of Housing Course in Anatolia from Past to Present

Tasarım öğrenimi sürecinde yer alan birçok kuramsal ders, somut nesneler üzerinden örneklenerek açıklanır. Öğren-ciler kuramsal derslerde soyut kavramları daha kolay anlayabilmekte, ancak somut görsellerde ki nesne veya mekânı algılamakta zorlanmaktadır. Bu doğrultuda yapılan çalışma; Mimarlık Tarihi derslerinin eğitimi için sık kullanılan yön-temler dahilinde anlatım, sunum, tartışma ve maket yapımı döngüsü kullanılarak, öğrencilerin öğrenme sürecine olan katkısını ve mesleki ilgilerini arttırmadaki etkisini ortaya koymak amacıyla gerçekleştirilmiştir. Çalışma; Akdeniz Üniversitesi Mimarlık Fakültesi, İç Mimarlık Bölümü seçmeli dersi (Geçmişten Günümüze Anadolu’da Konut) kapsamın-da üçüncü sınıfa devam eden 34 öğrencinin katılımı ile hayata geçirilmiştir. Çalışma kapsamında, öğrenciler 6 gruba ayrılmış; Anadolu coğrafyasında yer alan bölge ya da dönemlere ait konutların özelliklerini araştırarak rapor düzenlemişler ve bu raporlar doğrultusunda seçtikleri konut tipinin ölçekli maketini yaparak ders sürecini tamamlamışlardır. Yapılan bu çalışma sonucunda öğrenci kazanımlarını belirlemek üzere dersi alan 34 öğrenciye, 5’li likert şeklinde hazırlanmış olan motivasyon etkisi, eğitime olan katkısı ve mesleki deneyim gibi 3 boyutu olan bir anket uygulanmıştır. Elde edilen veriler ışığında, Mimarlık Tarihi derslerinin eğitiminde teorik bilginin maket etkinliği ile desteklenmesinin, öğrencinin öğrenme sürecine katkı sağladığı ve mesleki eğilimini arttırdığı tespit edilmiştir.

Correlation among Earthwork and Cropmark Anomalies within Archaeological Landscape Investigation by Using LiDAR and Multispectral Technologies from UAV

This project aimed to systematically investigate the archaeological remains of the imperial Domitian villa in Sabaudia (Italy), using different three-dimensional survey techniques. Particular attention in the research was paid to the identification and documentation of traces that buried structures left on the surface occupied by the villa, which extended for 46 hectares, an area that was fully covered with structures. Since a dense pine forest was planted during the 1940s and is currently covering the site, this contribution investigates particularly the correlation among the presence of cropmarks, identifiable with the processing of multispectral maps and vegetation indices from RGB images, and earthwork anomalies identified in a Digital Terrain Model (DTM) built, by utilizing a light detection and ranging (LiDAR) flight from an Unmanned Aerial Vehicle (UAV). The study demonstrates how the use of vegetation maps—calculated starting from RGB and multispectral aerial photos—can provide a more expeditious preliminary analysis on the position and extension of areas characterized by the presence of buried structures, but also that, in order to investigate in-depth a context in similar conditions, the most effective approach remains the one based on LiDAR technology. The integration between the two techniques may prove fruitful in limiting the extension of the areas to be investigated with terrestrial survey techniques.

Ground penetrating radar for assessment of reinforced concrete wastewater treatment plant

During their long-term service, wastewater treatment plants deteriorate due to rebar corrosion in concrete structures. This paper presents a case study of ground penetrating radar (GPR) survey performed on a reinforced concrete (RC) structure in sieving unit of the wastewater treatment plant in the City of Fortaleza, Brazil. The RC structure was subjected to both the sulfuric acid attack from the oxidation of hydrogen sulfide present in the wastewater gas and the cyclic dry–wet salt-fog environment due to its proximity to the ocean. The survey results suggest that the amplitude of electromagnetic waves from a GPR scan and the determined dielectric permittivity values can be used to monitor steel rebar corrosion in a concrete structure by rapidly detecting any growth of inherent faults. The results indicate that the rebar condition can be assessed through slices at different times/depths obtained from a three-dimensional (3D) survey. Based on this study, it is recommended that the upper RC slabs in sieving unit of the plant be demolished and the lower slabs be preserved.

Origins Space Telescope integration and testing

I describe the plans, flows, key facilities, test beds, pathfinders, simulators, and ground support equipment that could be used to fully integrate, functionally test, and qualify the Origins Space Telescope (Origins). The Origins observatory consists of the spacecraft bus module and the cryogenic payload module, which comprises the telescope and three science instruments. The telescope is a three-mirror anastigmat and is composed of four mirrors: three with optical power (the elliptical primary, hyperbolic secondary, and elliptical tertiary mirrors) and a flat field-steering mirror. The three science instruments spanning the wavelength range 2.8 to 588 μm provide the powerful new spectroscopic and imaging capabilities required to achieve the scientific objectives. The Origins Survey Spectrometer uses six gratings in parallel to take multibeam spectra simultaneously across the 25- to 588-μm window through long slits enabling deep three-dimensional extragalactic surveys. The far-IR imager/polarimeter provides imaging and polarimetric measurement capabilities at 50 and 250 μm. Its fast mapping enables rapid follow-up of transient or variable sources and efficient monitoring campaigns. The mid-infrared spectrometer simultaneously provides spectroscopy over 2.8 to 20 μm with exquisite stability and precision (<5 ppm between 2.8 and 10 μm, <20 ppm between 11 to 20 μm). All the instruments are delivered for integration and test fully qualified and calibrated. The integration and test program implemented at each level of assembly is discussed as well as the separation of thermal vacuum testing between the hot and cold zones of the observatory.

Seismic characteristics of polygonal fault systems in the Great South Basin, New Zealand

Abstract A well-developed multi-tier polygonal fault system is located in the Great South Basin offshore New Zealand’s South Island. The system has been characterised using a high-quality three-dimensional seismic survey tied to available exploration boreholes using regional two-dimensional seismic data. In this study area, two polygonal fault intervals are identified and analysed, Tier 1 and Tier 2. Tier 1 coincides with the Tucker Cove Formation (Late Eocene) with small polygonal faults. Tier 2 is restricted to the Paleocene-to-Late Eocene interval with a great number of large faults. In map view, polygonal fault cells are outlined by a series of conjugate pairs of normal faults. The polygonal faults are demonstrated to be controlled by depositional facies, specifically offshore bathyal deposits characterised by fine-grained clays, marls and muds. Fault throw analysis is used to understand the propagation history of the polygonal faults in this area. Tier 1 and Tier 2 initiate at about Late Eocene and Early Eocene, respectively, based on their maximum fault throws. A set of three-dimensional fault throw images within Tier 2 shows that maximum fault throws of the inner polygonal fault cell occurs at the same age, while the outer polygonal fault cell exhibits maximum fault throws at shallower levels of different ages. The polygonal fault systems are believed to be related to the dewatering of sedimentary formation during the diagenesis process. Interpretation of the polygonal fault in this area is useful in assessing the migration pathway and seal ability of the Eocene mudstone sequence in the Great South Basin.

THE ROLE OF 3D DOCUMENTATION FOR RESTORATION INTERVENTIONS. THE CASE STUDY OF VALFLORES IN LOURES, PORTUGAL

Abstract. The house and farm of Valflores, located near Lisbon, are an important evidence of the Portuguese Renaissance civil architecture from the first half of 16th century, built by Jorge de Barros, the overseer of the Portuguese king, D. João III, in Flanders. Its style has its roots in Italian villas. As was common at that time, the property was a villeggiatura site. In 1982 the house and the farm were listed as property of public interest. In 2000 the property was inserted in a Portuguese list of heritage at risk and in 2001 the property was in a state of pre-ruin. It was bought by the municipality in 2006. After 2007 a partnership between a Local Heritage Association (ADPAC), the Municipality of Loures and the Lisbon School of Architecture developed a series of initiatives for the safeguard and restoration of this Heritage. Several studies were performed, including multiple three-dimensional surveys on several occasions. Ultimately, these studies led to the development of a restoration project in 2016 for European funds application. At the present date, the restoration works are going on. The objective of this paper is the discussion of how three-dimensional documentation played a fundamental role on the several stages of this process, namely after 2007, permitting to gain insights about metrics, space and form distributions, deformations, structural condition, state of conservation, history, and allowing dissemination and public engagement.

Some Experiences of Resistivity and Induced Polarization Methods on the Exploration of Sulfide: A Review

Sulfide minerals are a group of compounds with the presence of sulfur. This group’s most abundant and economically members are pyrites, pyrrhotite, chalcocite, galena, sphalerite, and the group of copper sulfides minerals. Resistivity and Induced Polarization (IP) methods, which play an essential role in mineral exploration, showed great success in sulfide exploration. This paper started on reviewing sulfide formation by giving details which help to understand their genesis better. To make the reader understand the procedures and appropriate mineral exploration methods, we have briefly covered the theory, the basic principles of resistivity and IP methods, and different investigation techniques using one, two, and three-dimensional surveys. Based on many electrical surveys, we discussed with examples of resistivity and IP methods applied to the exploration of sulfide deposits: the data inversion and interpretation of the geophysical signatures of most of the sulfide deposits in various geological environments were analyzed and end by showing both successful surveys and limitations of the methods.

Digital models and the effect of error when shooting terrain for high-speed traffic

The article discusses general information about Ukraine and the possibility of introducing high-speed traffic using modern technologies for surveying the area. This step makes it possible to work out more detailed options in the design. Surveying using electronic total stations and GPS devices allows you to accurately determine the spatial position of the site, but because of errors in determining the coordinates of individual points, it does not give a real ratio of the curvature of neighboring track points when they are close. Railways require constant and accurate monitoring of the structural state of objects this data can be obtained using mobile laser scanning, which allows you to collect a high-resolution three-dimensional survey of all objects in the visibility range of the scanning system in a short period of time. Having an extensive transport infrastructure and at the crossroads of the most important areas of world trade between Europe and Asia, Ukraine has all the prerequisites for the development of the transport industry within the framework of a balanced state policy. Today, all countries are faced with the task of further expanding the space of non-power scenarios for the transformation of the financial and economic order in the world.

THE SANSEVERO CHAPEL, A THREE-DIMENSIONAL POINT OF VIEW

Abstract. In this article, the importance of the three-dimensional survey in architectural spaces will be studied, taking special relevance in the study of the perception of perspective, since three-dimensional space would not be understood from a two-dimensional representation of space. The project aims to develop a comparison between the representation systems based on the automatic acquisition of various data by different 3D survey techniques. In particular, the document reports the results of an analysis based on the Sansevero Chapel in Naples.

Monitoring earthen archaeological heritage using multi-temporal terrestrial laser scanning and surface change detection

Abstract Terrestrial laser scanning (TLS) is a three-dimensional survey technique proven successful for in-field stratigraphic and site-wide documentation or damage assessment of archaeological heritage. This study explores the potential utility of TLS and the Multiscale Model to Model Cloud Comparison (M3C2) surface change detection method for monitoring and preserving ancient earthen architecture, and for creating comprehensive site monitoring programs in compliance with UNESCO periodic reporting guidelines. The proposed methodology was tested using 3-D TLS datasets spanning a period of six years to assess the decay of mud brick structures at Catalhoyuk, Turkey in order to understand material loss in walls and buildings, identify potential underlying causes, and create a plan for physical interventions. This paper explains how a multi-temporal laser scanning workflow using the M3C2 method can be leveraged successfully to quantify – with millimeter-level accuracy – the decay of large earthen sites and inform future conservation interventions. This approach allows for the identification of the wall features with the most immediate risk of deterioration based on the detection of patterns of change and calculation of its significance as a preventative measure. Results presented in this paper suggest that the proposed method can be used effectively to enhance site monitoring and perform preventative on-site interventions at large earthen sites earthen sites in the Middle East, Africa, Europe, and the Americas.

Photogrammetric survey and 3D model as experimental tool for mapping of polychrome marbles in artworks: the case of two Baroque altars in Bari (Italy)

ABSTRACTThis paper focuses on the use of the photogrammetric method to obtain 3D model of artworks for their characterisation and conservation. The high-resolution reproduction of a piece of art allows both the identification of constituent materials, decorative elements and detailed features and its digitalisation and enjoyment and then enhancement. In this study the approach was applied to the polychrome marble altars in the crypt of the St. Sabino’s cathedral and in the St. Giacomo’s church, both in Bari (Italy), significant evidences of virtuosity of Baroque sculptors and of use and reuse of precious Roman marbles combined with more recent and local stones. For this purpose, firstly, a three-dimensional model and high definition survey were performed by collection of numerous photographs and their processing using photogrammetric method and digital survey software; in addition, identification of Roman marbles and other decorative stones was carried out in terms of lithological classification, provenance locality, the historical period of employ. Results, obtained through an inexpensive, fast and complete survey, allowed to produce a high definition representation of the altars for a complete mapping of used material and decorative features and to guarantee their conservation, sharing and enhancement.