Low altitude unmanned aerial vehicle for characterising remediation effectiveness following the FDNPP accident

Martin, Peter; Payton, Oliver D; Fardoulis, John; Richards, David A.; Yamashiki, Yosuke; Scott, Tom

doi:10.1016/j.jenvrad.2015.09.007

Cited by 82 publications

(51 citation statements)

References 8 publications

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“…This section includes ground‐based on‐the‐go investigations together with airborne gamma spectrometric surveys, because many conditions apply for both procedures. The detection frequency is commonly 1 Hz, sometimes higher frequencies are applied ( Martin et al., ). Appropriate velocities depend on demanded resolution, next to signal intensity, detector, and crystal size.…”

Section: Fundamentalsmentioning

confidence: 99%

Gamma‐ray spectrometry as versatile tool in soil science: A critical review

Reinhardt

Herrmann

2018

J. Plant Nutr. Soil Sci.

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Gamma‐ray spectrometry is an established method in geo‐sciences. This article gives an overview on fundamentals of gamma‐ray spectrometry that are relevant to soil science including basic technical aspects, and discusses influencing factors, inconsistencies, limitations, and open questions related to the method. Gamma‐ray spectrometry relies on counting gamma quanta during radionuclide decay of 40K, 238U, and 232Th, but secular equilibrium for the decay series of U and Th must be given as decays of their respective daughter radionuclides are used for determination. Secular equilibrium for U and Th decay series, however, is not always given leading to, e.g., anomalies in U concentration measurements. For soil science, gamma‐ray spectrometry is of specific value since it does not only detect a signal from the landscape surface, but integrates information over a certain volume. Besides, different spatial scales can be covered using either ground‐based or airborne sensing techniques. Together with other remote sensing methods, gamma signatures can provide completive information for understanding land forming processes and soil properties distributions. At first, signals depend on bedrock composition. The signals are in second order altered by weathering processes leading to more interpretation opportunities and challenges. Due to their physico‐chemical properties, radionuclides behave differently in soils and their properties can be distinguished via the resulting signatures. Hence, gamma signatures of soils are specific for local environments. Processes like soil erosion can superimpose gamma signals from in situ weathering. Soil mappings, available K and texture determination, or peat and soil erosion mapping are possible applications being discussed in this review.

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Section: Fundamentalsmentioning

confidence: 99%

Gamma‐ray spectrometry as versatile tool in soil science: A critical review

Reinhardt

Herrmann

2018

J. Plant Nutr. Soil Sci.

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“…As non-military unmanned aerial vehicle (UAV) technology has advanced in recent years, interest in potential humanitarian and development use cases for UAVs have proliferated due to their ability to traverse difficult terrains, reduce labor, and replace fleets of vehicles. UAVs have already been successfully deployed for surveillance and aid delivery in humanitarian sectors and commercial systems are currently being developed to transport medical samples and supplies, including vaccines [3–5]. …”

Section: Introductionmentioning

confidence: 99%

The economic and operational value of using drones to transport vaccines

Haidari

Brown

Ferguson

et al. 2016

Vaccine

235

124

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Background Immunization programs in low and middle income countries (LMICs) face numerous challenges in getting life-saving vaccines to the people who need them. As unmanned aerial vehicle (UAV) technology has progressed in recent years, potential use cases for UAVs have proliferated due to their ability to traverse difficult terrains, reduce labor, and replace fleets of vehicles that require costly maintenance. Methods Using a HERMES-generated simulation model, we performed sensitivity analyses to assess the impact of using an unmanned aerial system (UAS) for routine vaccine distribution under a range of circumstances reflecting variations in geography, population, road conditions, and vaccine schedules. We also identified the UAV payload and UAS costs necessary for a UAS to be favorable over a traditional multi-tiered land transport system (TMLTS). Results Implementing the UAS in the baseline scenario improved vaccine availability (96% versus 94%) and produced logistics cost savings of $0.08 per dose administered as compared to the TMLTS. The UAS maintained cost savings in all sensitivity analyses, ranging from $0.05 to $0.21 per dose administered. The minimum UAV payloads necessary to achieve cost savings over the TMLTS, for the various vaccine schedules and UAS costs and lifetimes tested, were substantially smaller (up to 0.40 L) than the currently assumed UAV payload of 1.5 L. Similarly, the maximum UAS costs that could achieve savings over the TMLTS were greater than the currently assumed costs under realistic flight conditions. Conclusion Implementing a UAS could increase vaccine availability and decrease costs in a wide range of settings and circumstances if the drones are used frequently enough to overcome the capital costs of installing and maintaining the system. Our computational model showed that major drivers of costs savings from using UAS are road speed of traditional land vehicles, the number of people needing to be vaccinated, and the distance that needs to be traveled.

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“…Aerostack has a fully distributed swarm design with no-coordination between robotic agents. A full description of Aerostack architecture and its components is out of 1 Fig. 1: Aerostack architecture diagram with Swarm Mission Coordinator.…”

Section: A General Architecturementioning

confidence: 99%

“…Advances in sensor, computation and communication technologies have made the Unmanned Aerial Vehicles (UAVs) indispensable in areas where manned vehicles are too risky or in hazardous environments where the presence of human operators is limited, such as exploring areas with radioactivity risks [1], inspecting the interior of an entire building hit by an earthquake [2], image data acquisition in disaster areas [3], etc.…”

Section: Introductionmentioning

confidence: 99%

A flexible and dynamic mission planning architecture for UAV swarm coordination

Sampedro

Bavle

Sánchez-López

et al. 2016

2016 International Conference on Unmanned Aircraft Systems (ICUAS)

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Abstract-In this paper a scalable and flexible Architecture for real-time mission planning and dynamic agent-to-task assignment for a swarm of Unmanned Aerial Vehicles (UAV) is presented. The proposed mission planning architecture consists of a Global Mission Planner (GMP) which is responsible of assigning and monitoring different high-level missions through an Agent Mission Planner (AMP), which is in charge of providing and monitoring each task of the mission to each UAV in the swarm. The objective of the proposed architecture is to carry out high-level missions such as autonomous multiagent exploration, automatic target detection and recognition, search and rescue, and other different missions with the ability of dynamically re-adapt the mission in real-time. The proposed architecture has been evaluated in simulation and real indoor flights demonstrating its robustness in different scenarios and its flexibility for real-time mission re-planning and dynamic agent-to-task assignment.

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Low altitude unmanned aerial vehicle for characterising remediation effectiveness following the FDNPP accident

Cited by 82 publications

References 8 publications

Gamma‐ray spectrometry as versatile tool in soil science: A critical review

Gamma‐ray spectrometry as versatile tool in soil science: A critical review

The economic and operational value of using drones to transport vaccines

A flexible and dynamic mission planning architecture for UAV swarm coordination

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