Astrocast SA has launched its commercially available cost-effective, bidirectional satellite IoT (SatIoT) service, to connect IoT devices globally when outside of cell-based terrestrial networks at a comparable cost.
Accessibility to Astrocast’s Satellite IoT service has the potential to transform the business model for global IoT, opening the door to a raft of new, powerful applications that will accelerate change and deliver tangible value to business, individuals and the environment.
Utilising its own recently launched nanosatellite constellation in Low Earth Orbit, Astrocast offers affordable connectivity for all and supports applications in asset tracking, telemetry and telematics; as it fosters innovation across sectors including maritime, agriculture & livestock, environment & utilities, land, transport, freight & storage, mining, oil & gas. By default, IoT solutions implemented in many of these situations are deployed in remote locations – from mines to farmland, ships to oil platforms. Astrocast’s solution minimises the need for human intervention and repair, wherever possible, safeguarding the business case.
Device size and power consumption is key
In any remote IoT deployment, device size, power consumption and reliability are priority concerns. Astrocast’s small-sized devices offer low power consumption and a long battery life (up to 10 years). These considerations become vital as organisations embark upon deploying a strategic SatIoT initiative. Just by combining good quality battery technology with an intelligent approach to data transmission, the lifecycle of an IoT solution is significantly extended.
Astrocast’s devices only transmit data when satellites are in range, instead of continuously. This radically increases battery life, especially in applications that do not require constant information updates. In addition this reduces the price of data for end users.
Bidirectional IoT and effective system integration is important
Bidirectional IoT has a significant role to play. The ability to send commands back to assets, rather than just receive data, is hugely powerful and enables an array of new use cases, including remote management of equipment. For example, it enables farmers to command silos to release food, open gates or manage irrigation systems, without any need for expensive and often hard-to-source human interaction. Utilities companies can remotely control water management systems in line with flood prevention strategies. With information seamlessly integrated with existing analytics, AI, or machine learning solutions, organisations have the power to use this data to improve understanding, and direct actions of remote assets.
Fabien Jordan, CEO of Astrocast says, “So far, organisations have struggled to create a business case for deploying IoT solutions that can offer comprehensive global coverage, as well as efficient and reliable connectivity. There is now an opportunity to use satellite IoT to increase visibility, transparency, and control over assets globally – and the potential for use cases across an array of sectors is almost limitless. What is more, in the past, these solutions have been too complex, costly, or simply unavailable. But, thanks to developments in satellite IoT technology, this is changing; and organisations that recognise the potential of going beyond terrestrial IoT will be able to create new competitive advantages too.
“For example, in New Zealand there is a drive to remotely track cattle to identify individual animals that are unwell, allowing immediate intervention and removal from the herd, to reduce the spread of disease – and, in the process, minimise the need for medication. The ability to rapidly capture and analyse this information through SatIoT not only fast tracks the adoption of this model, but also provides rapid insights into the success of the approach.
“Even at-risk animals are playing a role in combatting climate change. Using tiny sensors attached to an array of sea creatures, including turtles, is not just providing scientists insight into the behaviour and travel patterns of the animals, but is also capturing vital information regarding sea health, including salinity. From mapping sea temperatures to the depth turtles are swimming, to capturing information about sea water quality, the information provided by these creatures is automatically transmitted via SatIoT as they surface. Possibility is endless.”