WISeKey’s WISeSat.Space satellite scheduled to launch in Q3 of 2024 – SatNews – SatNews

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In recent years, space technology has become a critical asset in the global fight against climate change. Satellites are invaluable for monitoring, modeling, and understanding various aspects of the climate, biodiversity, and the changing states of oceans, forests, and glaciers. Additionally, they play a pivotal role in streamlining human activities to reduce greenhouse gas emissions, better manage ecosystems, and promote biodiversity.

WISeSat AG is creating an IoT satellite constellation aimed at climate change monitoring and other applications. In cooperation with FOSSA Systems, WISeSAT.Space has successfully launched 17 LEO satellites, mainly aboard the SpaceX Transporter Rideshare missions. The company is currently developing a constellation of 88 additional LEO satellites to optimize global coverage for SEALSQ Corp. (Nasdaq: LAES) IoT devices.

WISeSat AG has developed the first cost-effective and secure IoT connectivity solution using picosatellites and low-power sensors. This innovative approach aims to meet the needs of large IoT deployments in various sectors, including smart farming, energy, climate change monitoring, and logistics.

Key Features of WISeSat’s Solution:

  • Cost-Effective Deployment: Picosatellites are smaller and more affordable to launch compared to traditional satellites, making IoT connectivity more accessible.
  • Global Coverage: The constellation of picosatellites ensures IoT connectivity anywhere on Earth, providing a reliable network for data collection and transmission.
  • Low-Power Sensors: Designed to operate with minimal power consumption, these sensors can function in remote and off-grid locations, making them ideal for environmental monitoring.
  • Secure Communication: Leveraging WISeKey’s expertise in cybersecurity, WISeSat ensures that data transmitted through its network is secure and protected from unauthorized access.

WISeSat’s IoT satellite constellation offers numerous applications that contribute to climate change mitigation and adaptation:

  • Technology-Based Adaptation Solutions: These include early-warning systems for extreme weather events, which can save lives and reduce economic losses by providing timely alerts and accurate forecasts.
  • Environmental Monitoring: Continuous monitoring of environmental parameters enables the detection of changes in real-time, allowing for prompt action to address emerging issues.
  • Improved Forecasting: Enhanced forecasting capabilities help in planning and implementing measures to mitigate the impacts of climate change on vulnerable communities and ecosystems.
  • Data for Policy Making: High-quality data generated from WISeSat’s constellation and later analyzed by AI supports informed decision-making and policy formulation aimed at addressing climate change.

WISeKey and WISeSat AG are collaborating on plans to launch an enhanced WISeSat satellite in Q3 2024 using SpaceX. The upgraded WISeSAT.Space satellite will be equipped with SEALSQ semiconductor technology and WISeKey cryptographic keys to secure the new FOSSASAT-2E satellite. This satellite is designed to boost performance in space and communication capabilities with SEALSQ IoT microchips installed in devices.

WISeSAT.Space’s business model is centered on providing global satellite-based secure IoT connectivity as a service. This includes providing the satellite platform, launch, integration, ground station services, and all security architecture and components as part of a comprehensive SaaS solution for low-power, secure space-based IoT connectivity.

The commercial satellite industry, with its EO satellites, remote sensors, and real-time data analysis capabilities, is uniquely positioned to facilitate climate goals. EO satellites can capture detailed images and data that provide insights into environmental changes. For example, they can identify which energy providers emit the most CO2 or track the rapid melting of Arctic ice and illegal deforestation in Amazon. While the potential of EO satellites is vast, several challenges need to be addressed to maximize their impact on climate change:

  • Financial Barriers: Funding the development and deployment of satellite constellations is expensive. Collaborative efforts between governments, private sector stakeholders, and international organizations are crucial to secure necessary investments.
  • Communication Barriers: Ensuring that satellite data is accessible and understandable to all stakeholders, including policymakers, researchers, and the public, is essential for effective action.
  • Policy Barriers: Developing and enforcing policies that encourage the use of satellite data for climate action can drive more widespread adoption and integration of this technology.
  • Technology Barriers: Continuous advancements in satellite technology, data processing, and sensor capabilities are necessary to enhance the precision and utility of the data collected.

One of the most promising applications of WISeSat satellite data is the integration of geospatial data with global climate models. This combination can provide detailed estimates of the long-term effects of climate change on specific regions. For instance, soil carbon monitoring can estimate the carbon stored in soil, demonstrating the impact of regenerative agriculture practices like cover cropping, reduced tillage, and crop rotation. By using satellite data to monitor soil carbon, stakeholders can better understand the effectiveness of different agricultural practices in sequestering carbon and improving soil health. This information is critical for promoting sustainable farming practices that contribute to climate change mitigation.

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