Accelerating the Industrial Internet of Things
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Valarm Case Studies Remotely Monitor Pollution & Gases with Alphasense Industrial IoT Sensors

Remotely Monitor Pollution & Gases with Alphasense Industrial IoT Sensors

Valarm
Remotely Monitor Pollution & Gases with Alphasense Industrial IoT Sensors
Remotely Monitor Pollution & Gases with Alphasense Industrial IoT Sensors
Remotely Monitor Pollution & Gases with Alphasense Industrial IoT Sensors
Remotely Monitor Pollution & Gases with Alphasense Industrial IoT Sensors
Remotely Monitor Pollution & Gases with Alphasense Industrial IoT Sensors
Smart City
Environmental Health & Safety
To implement air quality monitoring of Ozone / O3, VOCs, Nitrogen Oxides / NO2, Dust Particulates, PM1, PM2.5, PM10.

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Blue Tomorrow, LLC is a California-certified small business based out of Santa Barbara, where it was founded in the summer of 2013.
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Blue Tomorrow deployed Valarm air quality monitoring units in the Central Valley in California near Kern County.

These boxes integrated Industrial IoT hardware from all over the world to effectively measure air quality sensor factors like:

• Dust and Particulate Matter, PM1, PM2.5, PM10
• Ozone a.k.a. O3
• NO2 a.k.a. Nitrogen Dioxide
• Volatile Organic Compounds a.k.a. VOCs

Examples of VOCs were things like alcohols, aldehydes, aliphatic hydro-carbons, amines, aromatic hydro-carbons (e.g., gasoline vapors), carbon oxides, methane, LPG, ketones, and organic acids.

These solar powered units sent real-time air quality sensor measurements to Tools.Valarm.net using this key sensor hardware from Shop.Valarm.net:

• GSM 3G Sensor Hubs
• TTL Serial Sensor Adapters
• Meteo Sensors – Temperature, Humidity, and Pressure
• SPI Serial Sensor Adapters
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Real-time air quality sensor measurements
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IOT
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Emerging (technology has been on the market for > 2 years)
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Hardware
Sensors transform energy into electrical data; they are the eyes and ears of IoT. Actuators transform electrical data into energy; they are the muscle of IoT.
IoT power supplies include traditional, thin-film and printed batteries, energy harvesting modules, flexible photovoltaic panels and thermoelectric sources.
Technologies that enable legacy devices and other systems to connect to the IoT. They integrate technologies and protocols for networking.
Products used by end users that contain IoT technologies. Examples include enabled equipment, wearables, hand-held scanners, and tracking devices.
Software
Horizontal applications are standardized (e.g., asset tracking). Vertical applications are tailored to specific needs (e.g., delivery fleet management).
APIs are the market enabler for IoT. They allow users to manage devices, enable data transfer between software, and provide access capabilities.
Middleware integrates the diverse components of an IoT application by structuring communication, workflows, and business rules.
IoT analytics includes real-time or edge computing and batch analysis. Analytics can be behavioral, descriptive, predictive, or prescriptive.
Visualization solutions use dashboards, alerts, events, maps, and other tools to present easily comprehensible data to end users.
Data management solutions capture, index and store data in traditional database, cloud platforms, and fog systems for future use.
Security software provides encryption, access control, and identity protection to IoT solutions from data collection through end-user applications.
Services
System integrators link IoT component subsystems, customize solutions, and ensure that IoT systems communicate with existing operational systems.
IoT data management consultancies help to make sense of big data, decide which data to maintain and for how long, and troubleshoot IT issues.
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