![]() ![]() Take a gander at Web Dashboards you can view on any device with a web browser, like a phone or tablet! Your dashboard is customized with your organization’s logo and the specific information you need for your Industrial IoT, remote monitoring, and sensor telemetry applications. Have a look at our Customer Stories Page to learn more on how Valarm’s Industrial IoT applications are deployed by customers in industries like water resources management, high-tech transport, chemical distribution, fleet vehicle tracking, wildfire risk, tank level monitoring, mining, oil&gas, water well telemetry, agriculture, and governments. Please don’t hesitate to contact us at if you’ve got any questions. The sensors hubs and other sensor hardware you see in the video are available at. If you and your teams need to monitor Particulate Matter ( PM1, PM2.5, PM10) then see here how you can do that with a SPI sensor adapter and .Īnd since is an open platform, your organization can integrate air quality, water, or any sensors made by just about any manufacturer around the world like Flowline, Dylos, Eno Scientific, Vaisala, Campbell Scientific, McCrometer, In-Situ, and AirBeam. ![]() We recommend this method for monitoring Alphasense gas sensors. UPDATE: See here for step-by-step instructions on using with Alphasense circuit boards (ISBs). We put together this video tutorial to show you how rapidly you, your teams, organization or business can deploy software with air quality sensors made by Alphasense. That’s 1 of the most critical areas to monitor air quality for your and everyone else’s health! We’re excited to be working together with AQMD to monitor particle and gaseous pollutants in the south coast air basin. The South Coast Air Quality Management District ( SC-AQMD) is the air pollution control agency for all of Orange County and urban Los Angeles, Riverside, and San Bernardino counties. You need a quick, easy + cost-effective way to remotely monitor air for gases, chemicals, + particulate matter?.This was a great learning opportunity for us at the Agency to know what some of the concerns and interests the community has and how we can support those efforts in the future. Overall, the conclusion was that the air was cleaner than previously expected. This showed the community group the importance of the scientific method and hypothesis testing for future monitoring studies. The community members looked at their data at a high level, and then downloaded raw data to create graphs and summary statistics. These sensors will remain property of the community even after their monitoring study ends, which is critical as it gives the community their own resources to communicate how air pollution impacts their community and keeps tools within the community itself.Īfter the community members completed their study we worked them to help analyze and understand the data collected from the sensors. Over the next few months, the community group used the sensors to monitor the air quality in their neighborhoods. In the first workshop, staff members from our planning, analysis and forecasting teams taught the group about air quality and how to use three different types of particulate sensors (PurpleAir, Dylos, and AirBeam 2). The Agency worked with the group in two different workshops to teach the group more about air quality and how to analyze data. The community received a grant from the Port of Seattle for neighborhood air quality monitoring using portable, relatively inexpensive air sensors. The Puget Sound Clean Air Agency recently had an opportunity to work with a small group of community scientists from the South Park and Georgetown neighborhoods in Seattle, WA. ![]()
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