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In this critical decade and century of climate chaos, ecocide and interconnected crises, a public policy approach is needed based on the primacy of compassionate action and…
Abstract
In this critical decade and century of climate chaos, ecocide and interconnected crises, a public policy approach is needed based on the primacy of compassionate action and ecological regeneration. Ecological regeneration focuses on the health of the Earth's planetary systems of water, soil, air, minerals, microbes, plants, insects and animals. Compassionate action is concerned with relieving the suffering and enhancing the happiness of the entire human population, present and future. An integral process is needed that brings these two priority concerns into the creation of new individual mindsets and behaviours and collective cultures and policies. The innovative leadership methods needed to realize these changes include mindfulness taught by Thich Nhat Hanh, group facilitation as formulated by the Institute of Cultural Affairs in its Technology of Participation (ToP), social artistry as developed by Jean Houston and four-quadrant thinking, planning and acting as expounded by Ken Wilber in his Integral Quadrants.
In this chapter, we will first identify some of the dimensions of humanity's systemic suffering. Next, we will review how the principles and practices of engaged Buddhism and compassionate action might help relieve that suffering. Then, we will explore some of the visions, obstacles, strategies and actions of compassionate policies that can help relieve systemic suffering.
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Rafal Perz, Kacper Wronowski, Roman Domanski and Igor Dąbrowski
Observation of the animal world is an important component of nature surveys. It provides a number of different information concerning aspects such as population sizes, migration…
Abstract
Purpose
Observation of the animal world is an important component of nature surveys. It provides a number of different information concerning aspects such as population sizes, migration directions, feeding sites and many other data. The paper below presents the results from the flights of an unmanned aerial vehicle (UAV) aimed at detecting animals in their natural environment.
Design/methodology/approach
The drone used in the research was equipped with RGB and thermal infrared (TIR) cameras. Both cameras, which were mounted on the UAV, were used to take pictures showing the concentration of animals (deer). The overview flights were carried out in the villages of Podlaskie Voivodeship: Szerokie Laki, Bialousy and Sloja. Research flights were made in Bialousy and Sloja. A concentration of deer was photographed during research flights in Sloja. A Durango unmanned platform, equipped with a thermal imaging camera and a Canon RGB camera, was used for research flights. The pictures taken during the flights were used to create orthomaps. A multicopter, equipped with a GoPro camera, was used for overview flights to film the flight locations. A flight control station was also used, consisting of a laptop with MissionPlanner software.
Findings
Analysis of the collected images has indicated that environmental, organisational and technical factors influence the quality of the information. Sophisticated observation precision is ensured by the use of high-resolution RGB and TIR cameras. A proper platform for the cameras is an UAV provided with advanced positioning systems, which makes it possible to create high-quality orthomaps of the area. When observing animals, the time of day (temperature contrast), year season (leaf ascent) or flight parameters is important.
Originality/value
The paper introduces the conclusions of the research flights, pointing out useful information for animal observation using UAVs.
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