Add to ORKGNext-generation hydrologic science and monitoring requires real-time, spatially distributed measurements of key variables including: soil moisture, air/soil temperature, snow depth, and air relative humidity. The SierraNet project provides these measurements by deploying low-power mesh networks across the California Sierra Nevada. This demo presents a replica of the end-to-end SierraNet monitoring system deployed in the Southern Sierra. This system is a highly reliable, low-power turn-key solution for environmental monitoring
Accurate water-balance measurements in the seasonal, snow-dominated Sierra Nevada are important for ...
We strategically placed spatially distributed sensors to provide representative measures of changes ...
Wolverton basin in Sequoia National Park is instrumented with four instrument clusters (site 1 throu...
Monitoring the snow pack is crucial for many stakeholders, whether for hydro-power optimization, wat...
[1] A wireless sensor network (WSN) was deployed as part of a water balance instrument cluster acros...
California relies extensively on two pieces of natural infrastructure for water storage and conveyan...
International audienceMonitoring the snow pack is crucial for many stakeholders, whether for hydro-p...
Water shortages, particularly evident in the state of California, emphasize the need for a better hy...
Snow depth, soil moisture and soil temperature are measured at lower Providence South facing (LowMet...
The Sierra Nevada winter snowpack is the major water resource for the state of California. To better...
Monitoring the snowpack is crucial for water management, flood control and hydropower optimization. ...
The design of sensor networks for measuring the mean and spatial distribution of snow depth at the s...
International audienceHistorically, the study of mountain hydrology and the water cycle has been lar...
We leverage the frontiers of the Internet of Things technology in a recently developed end-to-end wi...
The use of wireless sensor networks(WSN) to study the mountain hydrologic cycle has been proposed as...
Accurate water-balance measurements in the seasonal, snow-dominated Sierra Nevada are important for ...
We strategically placed spatially distributed sensors to provide representative measures of changes ...
Wolverton basin in Sequoia National Park is instrumented with four instrument clusters (site 1 throu...
Monitoring the snow pack is crucial for many stakeholders, whether for hydro-power optimization, wat...
[1] A wireless sensor network (WSN) was deployed as part of a water balance instrument cluster acros...
California relies extensively on two pieces of natural infrastructure for water storage and conveyan...
International audienceMonitoring the snow pack is crucial for many stakeholders, whether for hydro-p...
Water shortages, particularly evident in the state of California, emphasize the need for a better hy...
Snow depth, soil moisture and soil temperature are measured at lower Providence South facing (LowMet...
The Sierra Nevada winter snowpack is the major water resource for the state of California. To better...
Monitoring the snowpack is crucial for water management, flood control and hydropower optimization. ...
The design of sensor networks for measuring the mean and spatial distribution of snow depth at the s...
International audienceHistorically, the study of mountain hydrology and the water cycle has been lar...
We leverage the frontiers of the Internet of Things technology in a recently developed end-to-end wi...
The use of wireless sensor networks(WSN) to study the mountain hydrologic cycle has been proposed as...
Accurate water-balance measurements in the seasonal, snow-dominated Sierra Nevada are important for ...
We strategically placed spatially distributed sensors to provide representative measures of changes ...
Wolverton basin in Sequoia National Park is instrumented with four instrument clusters (site 1 throu...