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

Ronchi, Diego; Limongiello, Marco; Barba, Salvatore

doi:10.3390/drones4040072

Cited by 22 publications

(13 citation statements)

References 42 publications

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“…This may be due to the fact that they are underground anomalies or have been backfilled (in the case of concave-shaped remains) or eroded (in the case of convex-shaped remains) over time. Examples of (B) include human remains and clandestine mass graves (if no burial mounds are visible on site) [ 45 , 46 ] or other buried historical evidence like earthwork anomalies [ 13 ] and remains of objects embedded in the ground [ 40 ].…”

Section: Methodsmentioning

confidence: 99%

“…For instance, Ronchi et al [ 13 ] showed that LiDAR outperforms RGB or multispectral approaches in the context of terrain anomaly identification. A LiDAR system generally consists of a single-wavelength laser that typically operates at a near-infrared wavelength.…”

Section: Introductionmentioning

confidence: 99%

“…For example, it could be that flight parameters are set unfavorably with respect to the conditions in the particular study area, so that certain terrain anomalies cannot be detected by the system. However, the flexibility of UAV-LiDAR, e.g., the possibility of adapting the flight planning individually and adjusting the flight parameters depending on the application and research question, is one of the advantages of this technique compared to airplane-based LiDAR [ 13 , 31 , 35 ].…”

Section: Introductionmentioning

confidence: 99%

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Systematic Approach for Remote Sensing of Historical Conflict Landscapes with UAV-Based Laserscanning

Storch

Jarmer

Adam

et al. 2021

Sensors

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In order to locate historical traces, drone-based Laserscanning has become increasingly popular in archaeological prospection and historical conflict landscapes research. The low resolution of aircraft-based Laserscanning is not suitable for small-scale detailed analysis so that high-resolution UAV-based LiDAR data are required. However, many of the existing studies lack a systematic approach to UAV-LiDAR data acquisition and point cloud filtering. We use this methodology to detect anthropogenic terrain anomalies. In this study, we systematically investigated different influencing factors on UAV-LiDAR data acquisition. The flight parameters speed and altitude above ground were systematically varied. In addition, different vegetation cover and seasonal acquisition times were compared, and we evaluated three different types of filter algorithms to separate ground from non-ground. It could be seen from our experiments that for the detection of subsurface anomalies in treeless open terrain, higher flight speeds like 6m/s were feasible. Regarding the flight altitude, we recommend an altitude of 50–75m above ground. At higher flight altitudes of 100–120m above ground, there is the risk that terrain characteristics smaller than 50cm will be missed. Areas covered with deciduous forest should only be surveyed during leaf-off season. In the presence of low-level vegetation (small bushes and shrubs with a height of up to 2m), it turned out that the morphological filter was the most suitable. In tree-covered areas with total absence of near ground vegetation, however, the choice of filter algorithm plays only a subordinate role, especially during winter where the resulting ground point densities have a percentage deviation of less than 6% from each other.

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Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Systematic Approach for Remote Sensing of Historical Conflict Landscapes with UAV-Based Laserscanning

Storch

Jarmer

Adam

et al. 2021

Sensors

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“…The combination of UAV and LiDAR provides excellent data [21]. Data from LiDARs are able to produce earthworks information [119], whereas images from UAVs provide a clear picture of the study area [120,121]. Apart from that, the issue of limited budget allocation is raised in the small and medium-scale designs for using airborne LiDAR [19].The use of UAVs is considered as another good alternative for this situation [122].…”

Section: Limitationsmentioning

confidence: 99%

Perceived Usefulness of Airborne LiDAR Technology in Road Design and Management: A Review

et al. 2021

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Airborne light detection and ranging (LiDAR) surveying technology plays an important role in road design, and it is increasingly implemented in the design stage. The ability of LiDAR as a remote sensing technology to be used in non-accessible places (i.e., hilly terrain, steep slope) makes it a powerful tool, and it has the potential to provide benefits that simplify existing design processes for designers and practitioners. This paper reviews the application of airborne LiDAR in road design and factors including items from the perceived usefulness of technology. The context of the future direction of LiDAR technology is highlighted in civil engineering road design, roadway inspection and as-built documentation. The implementation of this technology is expected to assist the end-users in developing more manageable planning for road construction and thus to ensure the usage of LiDAR technology is enhanced from time to time, especially in Malaysia.

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“…To the best of the authors' knowledge, the only multirotor UAS capable of flying for more than 60 min, thanks to an exquisite aerodynamic design, a light carbon-fibre cell and the use of Lithium-Ion cells, is CONDOR™, manufactured by the Spanish company Dronetools™ (Gelves-Seville) [7] Although a maximum flight time on the verge of an hour for a multirotor UAS is an exceptional achievement, it is clearly not sufficient when reasonably large payloads, such as Light Detection and Ranging Systems (LiDAR), must be used [8], or when lower weight payloads are installed but the operation involves the inspection of large expanses of terrain [9][10][11]. The market for H-UAS and hybrid generators is very limited.…”

Section: Introduction and Review Of The Main Hybrid Generators Available In The Marketmentioning

confidence: 99%

Preliminary Results of a Hybrid Thermoelectric Propulsion System for a Multirotor UAS with Active Rectifying, Electronic Throttle Control and Supercapacitors

et al. 2021

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The main drawback of unmanned aerial systems (UAS) is that almost their entire field of application is autonomous in terms of energy. Flights beyond 50 min are nearly impossible when using conventional energy storage systems (lithium-ion polymer or lithium-ion batteries). Several commercial products have been developed using hybrid systems (H-UAS). Although the improvement they have provided is undeniable, H-UAS in the present market are strongly limited by their low thrust vs. weight ratio, which is caused by limited electrical power generation and a non-optimal energy conversion with relatively low efficiencies. This paper reviews these systems to show the preliminary results of a prototype of hybrid generator which state-of-the-art electronics as well as a new approach using a supercapacitor (SC) array are used to save fuel, increase the thrust vs. weight ratio, optimize losses during conversion and prevent the overheating of the internal combustion unit (ICU). Whereas current generators mostly operate with the ICU at a constant speed, delivering maximum power, the presented prototype includes a throttle control system, and the engine works with a variable regime according to the power demand. Thus, fuel consumption is reduced, as well as heating and wear. The lifespan of the engine is also increased, and the time between maintenance operations is lengthened. The designed system provides almost twice the power of the hybrid current generators. The reduction in the RPM regime of the engine is achieved by means of a supercapacitor array that provides the necessary energy to keep the DC output power constant during the engine acceleration when the flight envelope experiences a perturbation or a sudden manoeuvre is performed by the pilot. To obtain maximum efficiency, the diode rectifiers and conventional converters used in the reviewed products are replaced by synchronous converters and rectifiers. The whole system is controlled by means of a FPGA where a specific control loop has been implemented for every device: ICU’s throttle, DC bus converter, charge and discharge of the SC’s array, cooling and monitoring of temperature for the cylinders heads, and on-line transmission, by means of a XBEE™ module, of all the monitored data to the flight ground station.

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

Cited by 22 publications

References 42 publications

Systematic Approach for Remote Sensing of Historical Conflict Landscapes with UAV-Based Laserscanning

Systematic Approach for Remote Sensing of Historical Conflict Landscapes with UAV-Based Laserscanning

Perceived Usefulness of Airborne LiDAR Technology in Road Design and Management: A Review

Preliminary Results of a Hybrid Thermoelectric Propulsion System for a Multirotor UAS with Active Rectifying, Electronic Throttle Control and Supercapacitors

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