Detail publikace

Bezpilotní letadla v ochraně přírody: rostlinné invaze

Müllerová, J. Bartaloš, T. Brůna, J. Dvořák, P. Vítková, M.

Český název

Bezpilotní letadla v ochraně přírody: rostlinné invaze

Anglický název

Unmanned aircraft in nature conservation: an example from plant invasions

Typ

článek v časopise ve Web of Science, Jimp

Jazyk

en

Originální abstrakt

To successfully fight plant invasions, new methods enabling fast and efficient monitoring are needed, and remote sensing can make their management more efficient and less expensive. However, the data resolution, cost, and availability can be limiting. Optimal solution depends on the species characteristics, where the spectral and spatial resolution can compensate each other to some extent, and phenology plays an important role. Available high spatial resolution satellite data are sufficient for recognition of species that are distinct and either large or form uniform patches at size comparable to the data pixel size. For other species, higher spatial resolution is needed, and unmanned aircraft (UAV) provide data of extremely high spatial resolution (cm) at low cost and high flexibility. We assess its potential to map invasive black locust (BL, Robinia pseudoaccacia), testing imagery of different origin (satellite, UAV), spectral (multispectral, ​​red, green, and blue (RGB) + near-infrared (NIR)) and spatial resolution, and various technical approaches to choose the best strategy for the species monitoring balancing between precision of detection and economic feasibility. Using purposely designed low-cost UAV with tailless fixed wing design for two consumer cameras (RGB and modified NIR) ensures robustness and repeatable field performance while maintaining high aerodynamic efficiency, with resulting mapping capacity over 10 km2 per day. Several challenges exist in UAV application, such as lower spectral resolution, geometrical and radiometric distortions, and significant amount of data (necessity of automatic processing). In our study, we tested different options of UAV data processing and present comparison of resulting orthomosaic accuracies. For repeated measurements, it is extremely important to ensure spatial co-registration of pixels/objects from different phenological phases. Investment in GPS receiver in the UAV and GPS post-processing eliminated laborious collection of ground control points, while maintaining the co-registration of objects across multiple flights. In our study we provide evidence of benefit of the low cost unmanned system for species monitoring with high classification accuracies of target species from UAV orthomosaic outcompeting WorldView-2 satellite data, and describe methodology that can be used for practical management of invasions.

Český abstrakt

Příspěvek popisuje aplikaci bezpilotních leteckých prostředků pro detekci a monitoring invazních rostlinných druhů jako velmi účinnou metodu.

Anglický abstrakt

To successfully fight plant invasions, new methods enabling fast and efficient monitoring are needed, and remote sensing can make their management more efficient and less expensive. However, the data resolution, cost, and availability can be limiting. Optimal solution depends on the species characteristics, where the spectral and spatial resolution can compensate each other to some extent, and phenology plays an important role. Available high spatial resolution satellite data are sufficient for recognition of species that are distinct and either large or form uniform patches at size comparable to the data pixel size. For other species, higher spatial resolution is needed, and unmanned aircraft (UAV) provide data of extremely high spatial resolution (cm) at low cost and high flexibility. We assess its potential to map invasive black locust (BL, Robinia pseudoaccacia), testing imagery of different origin (satellite, UAV), spectral (multispectral, ​​red, green, and blue (RGB) + near-infrared (NIR)) and spatial resolution, and various technical approaches to choose the best strategy for the species monitoring balancing between precision of detection and economic feasibility. Using purposely designed low-cost UAV with tailless fixed wing design for two consumer cameras (RGB and modified NIR) ensures robustness and repeatable field performance while maintaining high aerodynamic efficiency, with resulting mapping capacity over 10 km2 per day. Several challenges exist in UAV application, such as lower spectral resolution, geometrical and radiometric distortions, and significant amount of data (necessity of automatic processing). In our study, we tested different options of UAV data processing and present comparison of resulting orthomosaic accuracies. For repeated measurements, it is extremely important to ensure spatial co-registration of pixels/objects from different phenological phases. Investment in GPS receiver in the UAV and GPS post-processing eliminated laborious collection of ground control points, while maintaining the co-registration of objects across multiple flights. In our study we provide evidence of benefit of the low cost unmanned system for species monitoring with high classification accuracies of target species from UAV orthomosaic outcompeting WorldView-2 satellite data, and describe methodology that can be used for practical management of invasions.

Klíčová slova česky

Detekce, invazní druhy, mapování, multispektrální data, objektově a pixelově orientovaná klasifikace, prostorové a temporální rozlišení, spektrální

Klíčová slova anglicky

Detection; Invasive species; Mapping; MSS imagery; Object- and pixel-based classification; Spatial and temporal resolution; Spectral

Vydáno

13.01.2017

Nakladatel

Taylor & Francis Ltd.

Místo

OXON, ENGLAND

ISSN

0143-1161

Ročník

38

Číslo

1

Strany od–do

1–22

Počet stran

22

BIBTEX


@article{BUT131849,
  author="Petr {Dvořák},
  title="Unmanned aircraft in nature conservation: an example from plant invasions",
  year="2017",
  volume="38",
  number="1",
  month="January",
  pages="1--22",
  publisher="Taylor & Francis Ltd.",
  address="OXON, ENGLAND",
  issn="0143-1161"
}