The internet of things turned every device in your house into a smart something. Now it’s coming for nature—to track forest fires and tree h

#football#world cup#jude bellingham#soccer#england nt#world cup 2026




seen from United States
seen from India

seen from United States
seen from China
seen from Australia
seen from Philippines
seen from United Kingdom
seen from United States
seen from China

seen from Singapore

seen from United Kingdom
seen from Côte d’Ivoire
seen from Yemen

seen from United States

seen from Singapore

seen from United States

seen from Indonesia

seen from New Zealand
seen from China

seen from Singapore
The internet of things turned every device in your house into a smart something. Now it’s coming for nature—to track forest fires and tree h

Anya is live and ready to show you everything. Watch her strip, dance, and perform exclusive shows just for you. Interact in real-time and make your fantasies come true.
Free to watch • No registration required • HD streaming
Citizen Sensor | DIY Environmental Monitoring — Development Blog
Citizen Sensor is DIY, wearable, reconfigurable sensor pack and data contextualization system that allows users to collect, share, and understand data using sensors recording environmental conditions such as carbon monoxide, light, noise pollution, and methane gas exposure among others. Users choose what to sense, and then connect with others around the world to share knowledge and experience. We want to empower the general public to learn more about their own personal space and measure where we live and play on a daily basis.Â
Wireless sensor network monitors microclimate in the forest
What effect does climate change have on our local forests? What types of trees will be suitable for which geographic location? And how great is the pollution level here? Forestry scientists are conducting „forest monitoring" procedures: They continuously record parameters such as soil humidity or pollutant penetration at permanently installed monitoring stations. The results of such examinations contribute to maintaining the ecological stability of the forests over the long term. The problem: Not only are the wired measuring devices complex to install and maintain, they also hinder silvicultural work in the forest. In the future, technologies from the Fraunhofer Institute for Microelectronic Circuits and Systems IMS could enable differentiated analysis without any bothersome cables. Scientist from the institute in Duisburg installed a new type of system for microclimatic monitoring on the grounds of the Northwest German Forestry Testing Facility in Göttingen, Germany. "We are using a wireless sensor network so we can measure relevant parameters within an area at many sites simultaneously," explains Hans-Christian Müller, group manager at the IMS. This way, we receive a very detailed picture about the environmental conditions on site, without much installation effort. Depending on which values they are to measure – for example, soil moisture content, air temperature or the moisture in the leaves – different sensor nodes are inserted into the soil or affixed to branches. If required, the measuring positions can be changed without much effort. The intelligent mini-computers automatically form a network and control the transmission of measurement data within this network. The results are transmitted by cellular radio to a central tree stock database. To facilitate this, a mobile cellular modem is connected directly to the sensor network. Â