Overview

Workshop objective

To better direct the research and development in robotics towards the achievement of the SDGs, we need evaluate its impacts. This is a challenging task, as many types of expertise are needed, and it important to have a thorough overview of the different impactful robotic applications. This workshop will therefore leverage the collective experience and intelligence of the robotics community as well as multidisciplinary experts to identify the opportunities and challenges brought by robots with respect to achieving the SDGs.

This workshop aims to build upon the preliminary work Automating the Achievement of SDGs: Robotics Enabling & Inhibiting the Accomplishment of the SDGs, published in the United Nations Interagency Task Team on Science, Technology and Innovation for the Sustainable Development Goals (IATT) report for the STI Forum 2021.

Context

In 2015, 193 countries agreed on the United Nations Sustainable Development Goals (SDGs). They are a framework of recommendations and principles to achieve a better and more sustainable future for all. After the Millennium Development Goals (MDGs), they address the global challenges, such as poverty, inequality, climate, environmental degradation, prosperity, peace and justice. To achieve these standards, member states will rely on the development of new technologies, such as robotics. The ever-increasing importance of robots could have a significant impact on our society in the coming years, as highlighted during the COVID crisis. Robots will also have a role within international strategies (e.g. the Great Reset initiative of the World Economic Forum) to shape the recovery and to rebuild society and the economy in a more sustainable manner. However, Robotics also comes with major systemic, environmental, and social challenges.

Symbolic representation of the impact of robotics on the SDGs

Robots as enablers for the SDGs

Robots offer a wide range of tools to enable the SDGs. By using drones for search and rescue missions in case of natural disasters, or by delivering food in war zones with self-driving trucks, robots could reduce the impact of such catastrophes. Robots can be used to monitor environmental changes in air, land and water, and may allow a better understanding and preservation of ecosystems. Precision agriculture can increase productivity and reduce waste of food, thus helping to provide food security. Similarly, robots will increase the overall productivity in many industries by automating tedious tasks, thus reducing the price of goods and the risk of work-related injuries. They could improve access to transportation and healthcare and improve the quality of life of people living with disabilities.

Robots as inhibitors of the SDGs

Robots can also inhibit this progress. Robotization of industries will cause job losses. This will primarily affect workers with low education and countries who do not have the means to invest in such technology or to educate a workforce able to benefit from this process. Similar inequalities can be seen in the use of robots in agriculture, which can prevent small farmers from competing with multinationals, thus enhancing urban exodus and threatening food sovereignty. Robots are also often made of rare-earth materials and produce e-waste, which causes an inherent danger to the environment if not dealt with properly. They may also ease the feasibility of projects which may have damaging consequences on the ecosystems, or delay structural changes needed to address global warming (e.g. with the rise of individual autonomous cars).