Geneva, Switzerland, June 23, 2025 (Globe Newswire) –
With the permission of Spacex
SealsQ and Wiseat prepares the basis for a new generation of electronic surveillance space systems, redefining global digital confidence from orbit
SEALSQ Corp (Nasdaq: Laes) (“Sealsq” or “Company”), a company that focuses on developing and selling semiconductor, PKI, and technology products after that, which is announced today, Suven Stuff, and Wised.Sed, the latest generation of satellite Wiseat 3 aboard Spacex’s Falcon 9 Transport-14 Mission, June 23 at 23:18 CEST from Vanderberg, California. This task represents a breakthrough in space -based cybersecurity and decentralized infrastructure, which represents the first satellite to include the SEALSQ quantum root key.
The new satellite includes an advanced technology that allows Sealcoin symbolic exchanges directly from space, in cooperation with HEDERA. It should be noted that Sealcoin AG, a subsidiary of Wisekey, focuses on decentralized material internet with DePin technology and sheltering the development of the Sealcoin platform. This innovation establishes the first decentralized physical infrastructure network (DePin) launched from orbit, which transforms the role of satellites in decentralized financing and safe digital identity.
At the same time, the task is a pivotal step forward in securing space communications by carrying out the pillars (PQC). PQC is very important to protect satellite communications from the future threats posed by quantum computers, which are expected to make current encryption methods like RSA outdated. Data integrity and confidential guarantee is necessary in the space environment, and PQC provides quantitative algorithms that can be combined into existing systems, allowing smooth transition and protection from both current and emerging risks.
This satellite structure supports PQC integration within a hybrid frame that allows safe communication between tropical and basic infrastructure. By including PQC algorithms directly in satellite devices, encoding treatment is isolated from critical systems, thus enhancing security and reducing weaknesses. This approach also allows the generation of safe keys, distribution and management, and the basic functions of the exchange of reliable data between satellites and Earth stations.
The encryption algorithms that are tested on board the latest standards under development by the National Institute for Standards and Technology (NIST) follow, ensuring that technology is in line with global efforts to future digital infrastructure. With this task, Wiseat and Sealsq explains how PQC can not only be published on Earth networks, but also extended to orbit, and critical contact protection for years to come.
