Development and application of real-time magnetic coordinate mapping system in the Large Helical Device

“Air population” refers to the total number of people flying above the earth at any point in time. The total number of passengers can then be estimated by multiplying the number of seats for each aircraft by the current seat occupancy rate. Using this method, the estimated air population is determined by state for the airspace over the United States. In the interactive, real-time mapping system, maps are provided to show total air population, the density of air population (air population / area of state), and the ratio of air population to ground population.

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A VERSATILE UAV NEAR REAL-TIME MAPPING SOLUTION FOR DISASTER RESPONSE – CONCEPT, IDEAS AND IMPLEMENTATION

ISPRS - International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences ◽

10.5194/isprs-archives-xliii-b1-2020-429-2020 ◽

2020 ◽

Vol XLIII-B1-2020 ◽

pp. 429-435

Author(s):

P. Fanta-Jende ◽

D. Steininger ◽

F. Bruckmüller ◽

C. Sulzbachner

Keyword(s):

Real Time ◽

Disaster Response ◽

Cost Effective ◽

Semantic Segmentation ◽

Sensor Technology ◽

Mapping System ◽

Stakeholder Perspective ◽

Time Critical ◽

Mapping Solution ◽

Further Development

Abstract. In recent years, the proliferation and further development of unmanned aerial vehicles (UAVs) led to a great number of key technologies, advances and opportunities especially in the realm of time-critical applications. UAVs as a platform provide a unique combination of flexibility, affordability and sensor technology which enables the design of cost-effective and intriguing services particularly for disaster response. This contribution presents a concept for UAV-based near real-time mapping system for disaster relief to provide decision-making support for first responders particularly for possible disaster scenarios in Austria. We outline our system concept and its respective architecture, discuss requirements from a stakeholder perspective as well as legal regulations and initiatives at an EU level. In the methodology section of this paper, the preliminary data processing pipeline with respect to the near real-time orthomosaic generation and the semantic segmentation network are presented. Lastly, first experimental results of the pipeline are shown, and further advances are discussed.

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AN INTEGRATED RAPID MAPPING SYSTEM FOR DISASTER MANAGEMENT

ISPRS - International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences ◽

10.5194/isprs-archives-xlii-1-w1-499-2017 ◽

2017 ◽

Vol XLII-1/W1 ◽

pp. 499-504 ◽

Cited By ~ 3

Author(s):

D. Hein ◽

S. Bayer ◽

R. Berger ◽

T. Kraft ◽

D. Lesmeister

Keyword(s):

Real Time ◽

Disaster Management ◽

Large Scale ◽

Software Tool ◽

Aerial Images ◽

Sensor Data ◽

Camera System ◽

Rapid Mapping ◽

Mapping System ◽

Effective Assessment

Natural disasters as well as major man made incidents are an increasingly serious threat for civil society. Effective, fast and coordinated disaster management crucially depends on the availability of a real-time situation picture of the affected area. However, in situ situation assessment from the ground is usually time-consuming and of limited effect, especially when dealing with large or inaccessible areas. A rapid mapping system based on aerial images can enable fast and effective assessment and analysis of medium to large scale disaster situations. This paper presents an integrated rapid mapping system that is particularly designed for real-time applications, where comparatively large areas have to be recorded in short time. The system includes a lightweight camera system suitable for UAV applications and a software tool for generating aerial maps from recorded sensor data within minutes after landing. The paper describes in particular which sensors are applied and how they are operated. Furthermore it outlines the procedure, how the aerial map is generated from image and additional gathered sensor data.

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