Last month, the IoT webinar "Climate Resilience and a Sustainable Future" took place, featuring Decentlab as a speaker.

The event highlighted the role of the Internet of Things (IoT) in addressing climate risks and promoting sustainable solutions. Decentlab showcased innovative IoT technologies and sensors for real-time environmental monitoring, applicable in areas such as water resource management and air quality monitoring. Case studies demonstrated the successful use of these technologies in enhancing climate resilience. The discussion concluded with insights on how IoT data can foster transparency and efficient resource management to support a more sustainable future.

Watch webinar

Soon we'll be in Munich! Visit our booth at LoRaWAN Live from June 19th to 20th.

LoRaWAN Live offers a vibrant two-day public event dedicated to all things LoRaWAN. Participants can anticipate immersive educational sessions, a bustling marketplace featuring a range of products and solutions, keynote presentations from esteemed industry leaders and VIP speakers, live demos spotlighting various use cases and market applications, as well as ample networking prospects to cultivate valuable business relationships.

Be also a part of the only LoRaWAN Live event of 2024!

Every day, an adult breathes in and out 12,000 to 15,000 liters of air. Along with vital oxygen, pollutants enter our lungs through the nose, throat, and trachea, demonstrably endangering health.

The sources of air pollution vary depending on the pollutant. Most relevant pollutants are particulate matter – which can be measured with the DL-PM | Particulate Matter, Temperature, Humidity and Barometric Pressure Sensor for LoRaWAN® – ozone, nitrogen dioxide, sulfur dioxide, and carbon monoxide. Major sources include transportation, heating systems, industry, commerce, and agriculture.

The Swiss Tropical and Public Health Institute has compiled and visualized the causal and likely causal health effects of major outdoor air pollutants in an interactive graphic.

Visit interactive graphic

Realtime demo of DL-PM

For the first time in history, over half of the world's population lives in cities, and by 2050, two-thirds could reside in urban areas. Cities are major contributors to climate change and simultaneously highly vulnerable to its impacts such as flooding and heat stress. Nature-based solutions like urban trees and forests are crucial for adapting to climate change.

That's why the United Nations Economic Commission for Europe (UNECE) launched the "Trees in Cities Challenge". This initiative invites mayors and local governments worldwide to commit to tree planting and set goals for making their cities greener, more resilient, and sustainable.

By monitoring soil moisture and temperature profiles, cities can ensure the health and resilience of urban trees. Sensors like our DL-SMTP | Soil Moisture and Temperature Profile for LoRaWAN® can be effectively used to accurately measure and monitor such soil conditions. This enables optimal irrigation and thus improves the tree's growth and cooling performance while minimizing maintenance.

Read more about "Trees in Cities Challenge"

Realtime demo of DL-SMTP

Next month, we're excited to be exhibiting at the IoT Solutions World Congress in Barcelona from May 21th to 23nd!

This congress is a major event that brings together professionals, innovators and enthusiasts from around the world in the field of the Internet of Things. Don't miss out on this opportunity to connect with industry leaders and discover the endless possibilities of IoT innovation. Visit our booth to engage in exciting discussions and discover our innovative solutions. We look forward to seeing you there!

More about the event

With spring around the corner, the issue of heat in our cities becomes particularly relevant once again. Over the next few months, we will focus more on this topic in our monthly newsletter.

In this article, we take a closer look at the importance of trees, as outlined in an informative report by the Swiss Federal Office for the Environment (BAFU). Trees are crucial not only in forests but also in urban and agricultural areas. They improve air quality, sequester CO2, and regulate temperature. They are also essential for the well-being of residents and play a central role in combating heat islands. They provide habitat for a wide range of animal and plant species, and contribute significantly to biodiversity.

In agriculture, trees help improve the carbon balance and increase the resilience of landscapes and crops. Agroforestry systems also provide economic benefits by reducing the risk of crop failure due to heat waves and droughts.

Despite challenges such as space constraints and administrative hurdles, creative solutions such as greening buildings and integrating agroforestry systems are gaining importance.

By using environmental sensors such as DL-SMTP, DL-SHT35, DL-ATM41, DL-LP8P or DL-PM, we can better understand these effects and take targeted measures to make our cities more livable.

Read full article in German, French, Italian

Climate change is leading to more frequent droughts, which can affect water management, such as agriculture. Our customer and partner WSL/SLF analyzed data from 70 river catchment areas to understand how drought simultaneously influences river levels and groundwater levels.

They examined whether precipitation deficits lead to runoff deficits and ultimately groundwater deficits, with a focus on spatial extent. Their study found that 30 percent of precipitation deficits lead to low river levels, which in turn have a negative impact on groundwater in 40 percent of cases. The expectation that droughts would become more widespread with increasing duration did not hold true for groundwater, which surprised the researchers. This can be explained by differences in soil structure. In addition, aquifers can store large amounts of water. Even when rivers dry up, neighboring groundwater reservoirs may still be partially filled.

Sensors such as Decentlab's DL-MBX, DL-PR26 and DL-PR36 can be effectively used for water management such as river and groundwater levels.

Read full article

Producing fine wines requires not only craftsmanship but also the right environment for the vines to thrive. Pfalzwerke has integrated Decentlab sensors into its customers' vineyards and produced an informative video report about it.

Decentlab's cost-efficient and energy-efficient sensors, such as the DL-LWS Leaf Wetness Sensor for LoRaWAN, the DL-LP8P CO₂, Temperature, Humidity and Barometric Pressure Sensor for LoRaWAN and the DL-SMTP Soil Moisture and Temperature Profile for LoRaWAN, capture important environmental data like temperature, soil moisture, air humidity, and air pressure.

The DL-LWS sensor is designed to mimic the behavior of a real leaf, allowing moisture to condense and evaporate as it would on a natural leaf surface. It detects leaf wetness using a capacitive measurement principle. All this information is highly advantageous for winemakers, as it allows for prediction when the onset of certain diseases or infections may occur.

For more insights, watch Pfalzwerke's informative video. 

LoRaWAN, short for Long Range Wide Area Network, enables efficient data transmission over long distances and through buildings. With LoRaWAN, hundreds of sensors within a network can be managed, and sensor data can be transmitted for up to 10 years without battery replacement.

A LoRaWAN network consists of three main components: a sensor device, a gateway, and a LoRa server. The sensor device sends data via LoRa to all gateways in its vicinity. These gateways receive the data and forward it to the server. From there, the data can be processed, visualized, and stored individually.

LoRaWAN offers many advantages compared to other wireless technologies. It has a high range of up to 15 kilometers outdoors and 2 kilometers in urban areas. Additionally, it can easily penetrate walls and floors.

It is the ideal technology for applications in the field of smart buildings, smart cities, agriculture and environmental monitoring.

More about Decentlab & LoRaWAN

The permafrost in the Alps is warming rapidly, at a rate of about one degree per decade, as detailed in an article by our client, the Swiss Federal Institute for Forest, Snow and Landscape Research WSL, SLF. This change has a direct impact on people and the economy. In high alpine regions with permafrost, there is an increased risk of rockslides and avalanches, which pose a threat to mountain enthusiasts, settlements and infrastructure such as mountain railways, masts, restaurants and more.

Over the past 27 years, researchers at the Institute have collected extensive data from 30 boreholes throughout the Swiss Alps. This data clearly shows a long-term trend of rising permafrost temperatures approaching the zero degree mark.

The observed changes in permafrost serve as another alarm signal of climate change, requiring heightened attention and action. Sensors such as our DL-TP | Temperature Profile for LoRaWAN can be effectively used to measure permafrost.

Read full article

Wood heating systems are often praised as an environmentally friendly choice, but their benefits depend on proper use. Negligent operation can result in smoke emissions and environmental pollution. A comprehensive dossier from the Federal Office for the Environment - FOEN (BAFU) provides valuable insights into the environmentally responsible use of wood heating systems.

Throughout the winter, wood heating systems play a significant role in particulate matter pollution. Despite this, they remain popular due to their lower CO2 emissions compared to oil and gas alternatives. However, burning wood exacerbates air pollution with pollutants such as particulate matter. Following basic wood-burning practices can mitigate these harmful effects on air quality. Environmentally sound operation of wood heating systems requires compliance with regulations, regular maintenance, proper operation, and the use of appropriate fuels.

Sensors like DL-PM | Particulate Matter, Temperature, Humidity and Barometric Pressure Sensor for LoRaWAN® provide accurate measurements of particulate matter. Sensors such as the DL-IAM | Indoor Ambiance Monitor including CO₂, TVOC and Motion Sensor for LoRaWAN® help monitor indoor temperature, comfort and indoor air quality.

Read full article in german, french, italian

The July newsletter featured Gunter Schobesberger with Loriot Verso's project, 'Forest Fire Risk Assessment in Salzburg', which aims to detect forest fire risks early through environmental sensor monitoring.

Datacake, our partner, has provided a detailed report on the interfaces involved in this project. Datacake collaborates with Ecosensors and Decentlab by offering innovative solutions for collecting and processing environmental data. As a project partner, Datacake facilitates the integration of sensor information into a user-friendly platform. 

The dashboards are user-friendly and configurations are customizable, making it easy for stakeholders like forest owners, managers, and emergency response decision-makers to access relevant information. The platform increases the efficiency of data analysis and reduces response times to potential environmental hazards.

The collaboration between Ecosensors, Decentlab, and Datacake provides a comprehensive solution for detecting and preventing forest fires and other environmental hazards. Ecosensors' environmental monitoring expertise, Decentlab's precise sensors, and Datacake's platform integration combine to create a holistic approach.

Thanks Datacake for the great article.

Our latest newsletter extensively covered the EU-funded DiVES project at the Kokkola University Consortium Chydenius, in collaboration with the University of Jyväskylä. The project aims to explore the advantages of automated measurement methods compared to manual field measurements. As part of the project, Decentlab's DL-PR26 & DL-PR36 sensors underwent comprehensive testing. Furthermore, the DL-PR21 | Pressure / Liquid Level and Temperature Sensor with G1/4'' Pipe Thread for LoRaWAN was recently tested, leading to significant insights.

The development of IoT technology enables the integration of monitoring devices into water production facilities. LoRaWAN-based devices, such as the DL-PR21, offer system-independent capabilities for flexible data collection.

The DiVES project focuses on pressure monitoring at the Veteli waterworks using the DL-PR21 sensor. The sensor transmits water temperature, pressure, and battery voltage every 10 minutes. Measurement intervals can be adjusted remotely via the LoRa network.

The data is sent through a LoRa connection to the project's network server, which then directs the information to the DiVES platform. Visualizations and alarms based on predefined limits are generated, enhancing monitoring efficiency and providing valuable insights for operators. This represents a significant step toward smarter and more effective water infrastructure!

Thanks to cinetcampus for the great work!

Read more about field test of DL-PR21.

As we approach the year-end, it's important to note that the upcoming New Year's Eve celebrations often come with an increase in fine dust pollution. The dazzling fireworks, while beautiful, contribute to the highest levels of particulate matter for the entire year.

Our DL-PM sensor allows us to measure real-time data, including particulate matter, temperature, humidity, and barometric pressure. This graphic clearly depicts peaks on December 31st each year. This year, once again, we'll be utilizing this sensor to precisely document the impact of the New Year's Eve festivities in 2023/2024.

Stay tuned for the results, which we'll be unveiling in our January newsletter! In the meantime, you can check out our current measurements on our realtime demo website. 

As the year winds down, we want to thank our customers, partners, and friends for your trust and collaboration.

Wishing you a festive season full of joy and great moments. Here's to an exciting New Year ahead with more innovation and continued partnerships.

Merry Christmas and a Happy New Year! 

Decentlab at AGU23 in San Francisco!
The AGU23 stands as one of the biggest conferences in the field of geosciences globally.

This significant event provided us with the opportunity to collaborate with leading experts, showcase innovative technologies, and gain insights into the latest developments in geosciences. 

At AGU23, participants immersed themselves in a diverse array of presentations, discussions, and workshops covering topics such as climate science, environmental monitoring, geophysics, and planetary sciences.

The conference served as a hub for groundbreaking research findings, fostering collaborations, and tracking emerging trends.

Our participation not only facilitated valuable discussions but also allowed us to present our latest solutions.

Here are some snapshots from our exciting journey at AGU23. Thanks to AGU and everyone who was part of this event!

For additional insights, engaging discussions, and more impressions, you can also tune in to AGU TV.

Next month, we have an exciting event on our calendar! Decentlab will be participating in the AGU Conference in San Francisco from December 11th to 15th.

The AGU (American Geophysical Union) is a globally renowned event that brings together leading scientists, researchers, and professionals from various fields of the geosciences. This conference provides a platform for the exchange of knowledge, ideas, and discoveries in the realm of the geosciences.

We are thrilled to be a part of this event, where we will showcase our latest developments and innovations in environmental monitoring. It's a great opportunity to gain insights into the latest trends and advancements in the geosciences and to connect with professionals from around the world.

If you're also attending the AGUConference, please visit our booth! We look forward to meeting you there and engaging in exciting discussions about the future of environmental monitoring.