BusinessHow technologies help to protect nature: five successful cases

Stanislav Naborshchikov
Stanislav Naborshchikov

Solutions Specialist

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Table of contents

Artificial intelligence, the Internet of Things, blockchain, and big data have proven practical solutions for the business sector and environmental problems. Due to mounting worries regarding the effects of climate change on the Earth, advanced technologies are employed to tackle these problems. With the help of these technologies, it is now possible to simulate the effects of climate change, regulate environmental pollution, and maintain the health of various ecosystems.

Our collection showcases several examples of how technology is currently being used to preserve and protect the environment. These innovative solutions demonstrate the potential for technology to play a significant role in mitigating the impacts of climate change and safeguarding our planet for future generations. Whether it's through AI algorithms to analyze large amounts of data or the integration of IoT devices to monitor and control pollution, these advancements can make a real impact.

The introduction of technological solutions already helps to protect nature more effectively. And it is most convenient to process information that will accumulate in such work using data analysis and machine learning services.

Blockchain helps slow down the process of climate change.

The impacts of climate change are far-reaching and can have devastating consequences. The average annual air temperature is rising, causing glaciers to melt, and extreme weather conditions are becoming more frequent. These changes can disrupt ecosystems severely, affect human communities, and alter the planet in ways that are difficult to predict. Many startups have turned to blockchain technology to mitigate these impacts and slow global warming.

The startups have developed a blockchain platform that aims to attract investments for environmental initiatives and the promotion of clean technologies. This platform acts as an ecological safeguard to manage the release of green bonds and exchange carbon emission units.

The blockchain platform has already been used in several projects to preserve the environment. For example, the platform has helped in the restoration of plant life, the implementation of energy-efficient technologies, and the construction of wind farms. The platform also contributes to the growth of renewable energy sources, which is crucial in the fight against climate change.

In conclusion, the blockchain platform is just one of the many innovative solutions developed to address the pressing environmental problems facing our planet. By attracting investment in ecological programs and promoting clean technologies. This platform has the potential to make a significant impact in the battle against climate change.

Machine learning controls the environmental situation.

The Department of Environmental Protection in Australia has initiated an ambitious project to collect comprehensive data on the state of the environment. To accomplish this, they have deployed a network of specialized sensors designed to transmit a wide range of information about the atmosphere and air pollution. These sensors measure vital indicators such as ozone levels, nitrogen dioxide, carbon monoxide, solid particles, and visibility.

The data collected from these fourteen different types of sensors is then transmitted to a prediction center. Sophisticated machine learning algorithms and advanced techniques are used to calculate the air quality index (AQI) from the data. This AQI provides an accurate representation of the current state of air pollution, and the results can be used to make predictions about air quality for the following day.

One of the key benefits of this project is the ability to compare air quality data from different areas across the state. This information can be used to identify areas that are experiencing elevated levels of pollution and to take appropriate measures to reduce the impact of pollution on the environment. The results of this project are easily accessible from any mobile device, making it convenient for a wide range of stakeholders to access and use the information. It is crucial for large industrial enterprises, which are often the most significant contributors to harmful emissions in the atmosphere.

Microsoft is working on launching an open computing platform, "Planetary Computer," for scientists and environmental specialists. It collects data on the state of the Earth. It allows you to monitor changes in the ecosystem: monitor forest areas, calculate the probability of flooding, and detect places of aggressive or illegal extraction of natural resources.

The Internet of Things protects rare animal species from extinction.

According to experts from the International Union for the Protection of Animals, the situation for endangered species of animals has grown increasingly dire in recent decades. Estimates in 2000 placed nearly 10,000 species near extinction. However, by 2020, this figure skyrocketed, increasing 2.5 times. The situation could become critical in the next 30 years if current trends continue.

One technology helping preserve rare species is the Internet of Things (IoT). This technology is particularly effective in preventing poaching by poachers. For example, it is already being used to protect the black rhino population, of which fewer than 5,000 individuals remain, with three rhinos being killed by poachers every day. Sensors are implanted to preserve the rhino's horns and monitor the animal's movements, sending its coordinates to a cloud server every 30 minutes. This information is then used to build digital maps covering several African national parks, which helps prevent poaching and preserve the species.

Similarly, scientists are working to preserve their genes, with the white rhino population decimated. IoT technology to protect rhinos is a prime example of how technology can be leveraged to help conserve threatened species and preserve biodiversity. By using digital tools to monitor the movements and behaviors of animals, we can gain a deeper understanding of their needs and work to protect them more effectively.

Video analytics prevents the spread of forest fires.

Huawei and Enbo have teamed up to tackle the problem of forest fires by developing an innovative solution distinguished by its intellectual component, which enables real-time fire forecasting. Early detection of fires is crucial in minimizing their impact, as the earlier, the smoke is detected, the easier it is to contain and extinguish the fire.

Unique cameras detect smoke and transmit the information to cloud services, achieving this goal. By analyzing the data from these cameras, the system can make accurate predictions about the likelihood of forest fires and determine their location in real time. It allows firefighters to respond quickly and effectively, reducing the extent of damage caused by the fire.

One of the critical features of this solution is its automation, which significantly reduces the need for human intervention. For example, in Guangdong Province in China, one operator can manage nearly a thousand cameras, making the system highly efficient and cost-effective. Overall, the Huawei and Enbo project represents a cutting-edge approach to preventing forest fires and highlights the importance of utilizing technology to tackle pressing environmental issues.

Artificial intelligence helps to save the Far Eastern leopard.

A technology company in Africa is partnering with a national park to automatically develop programs to recognize Far Eastern leopards on video recordings from cameras. The innovative solution, which is based on computer vision, is aimed at preserving the population and facilitating the study of the habits of the Far Eastern leopard, which is the rarest large cat in the world and is listed as a threatened species by the International Union for Conservation of Nature (IUCN). This system can recognize animals within the frame, accurately determine their species, and track their movements. With the help of 400 camera traps, park employees can monitor these rare cats' location and population changes. Before this work was done manually, specialists had to sort and process up to a million images each year.


As we move forward, it is evident that technology will continue to play a critical role in mitigating the effects of climate change and protecting our planet. With the help of cutting-edge solutions, we can make informed decisions, track environmental changes, and develop targeted strategies to improve sustainability. These technologies also provide a platform for collaboration and information sharing, allowing for a unified global effort to address environmental challenges. It is our responsibility to continue exploring and leveraging technology's power for the greater good and ensure a healthy and thriving planet for generations to come.

Technological advancements have already been shown to be a more efficient method of preserving and protecting the environment. The vast amounts of data collected during these efforts can be efficiently analyzed and processed using data analysis and machine learning services, making the process much more convenient and streamlined.

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Matt Sadowski

CEO of Mobile Reality

CEO of Mobile Reality

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