Managing Supply Chain and Infrastructure With Earth Observation Data

Managing Supply Chain and Infrastructure With Earth Observation Data

Global supply chains and the complex logistics operations that support them are the backbone of today’s economy. Responding quickly to disruptions is critical to minimising costs and delays. Better still, predict and prevent them.

Black Sky offers BlackSky Spectra®, a proactive Early Warning System (EWS) for managing supply chains and logistics infrastructure such as ports, by combining space-based monitoring with AI-powered predictive analytics. To achieve this, they have developed and combined Spectra™ AI and & Spectra™ Tasking. These technologies fuse data from BlackSky’s own high-resolution Low Earth Orbit (LEO) satellite constellation and other third-party sensors to develop critical insights and analytics for decision makers in real time.

By leveraging this secure, low-latency tasking to deliver high-resolution, time-varying imagery and analysis, decision makers can draw on space assets to inform the full spectrum of strategic planning through tactical missions worldwide.

Benefits:

  • High-frequency monitoring of the world’s most important strategic locations, economic assets and events
  • Actionable intelligence from capture to delivery in less than 90 minutes, up to 15 times a day
  • Easily accessible platform for all users, optimised for agility
  • No geospatial expertise required for the application user

BlackSky Global LLC
Matt Wood
mwood@blacksky.com

Ubiquitous Broadband Connectivity on the Move

Ubiquitous Broadband Connectivity on the Move

Internet access on Europe’s highways is pretty poor. This doesn’t just annoy passengers, it also hampers mobility applications that rely on connectivity, preventing European carmakers from realising the full potential of automotive digitalisation.

Stellar is a deep-tech company that aims to revolutionise connectivity in mobility through hybrid telecommunications. The company’s ambition is to bring seamless connectivity to all vehicles, enabling reliable internet access at all times and on all roads. Stellar has therefore developed its Car-as-a-Service software, STEER, which enables seamless switching between cellular, Wi-Fi and satellite networks- while ensuring maximum service availability, packet loss free switching and aggregation of multiple networks for optimal throughput. STEER is designed to meet automotive-grade requirements for safety, reliability and cybersecurity, and can be seamlessly integrated into new car ranges. It can also be retrofitted to existing car models or even trains through a hardware module.

Benefits:

  • Reliable and secure Internet access in moving vehicles such as cars and trains
  • Seamless switching between cellular, Wi-Fi and satellite networks
  • Integration into new models and retrofitting to existing car and train models

Stellar Telecommunications SAS
Anela Boese
anela@stellar.tc

Connecting Bluetooth to Space

Connecting Bluetooth to Space

Device connectivity is the holy grail of our digital age: By allowing physical devices to connect and communicate with each other, we have been able to increase economic output. Examples include the Internet, satellite communications or, more recently, the Internet of Things (IoT). But all existing networks share some fundamental shortcomings: They are often proprietary, expensive, power-hungry, unscalable and, worst of all, lacking in coverage.

The Hubble Network aims to change that. Hubble is building a constellation of Low Earth Orbit (LEO) satellites to enable a global, low-cost, low-power network that can scale to billions of devices – using Bluetooth Low Energy (BLE). Using their patented innovative satellite antenna design, Hubble have demonstrated that they can connect any Bluetooth device directly to satellites in LEO – without any additional infrastructure. This level of connectivity has the potential to revolutionise many different industries, including agriculture, logistics, mobility and defence.

Benefits:

  • Enables data exchange directly with satellites by connecting any Bluetooth device directly to space
  • Enables an unprecedented level of connectivity while using existing commercial-of-the-shelf Bluetooth chips
  • Easy integration with any existing BLE chip – no additional infrastructure required

Hubble Network
Alex Haro
alex@hubblenetwork.com

QuSSat: Quantum Sensor Satellite-Based Simulator for Earth Observation and Inertial Navigation

QuSSat: Quantum Sensor Satellite-Based Simulator for Earth Observation and Inertial Navigation

Quantum sensors based on cold atoms make it possible to measure gravitational and inertial forces with unprecedented accuracy and precision. Their drift-free operation promises breakthroughs in satellite gravimetry and inertial navigation – without in-flight calibration. Making this technology operational will require long-term investment from key space stakeholders. However, this requires specific domain knowledge that is difficult to obtain. In addition, a lack of instrument standardisation and comprehensive design tools make it difficult to overcome deployment barriers due to the harsh environment in a spacecraft.

The QuSSat project is developing a simulator for space-based cold atom sensors. It will provide reliable performance estimates, including the integration of realistic platform noise, as well as unique numerical models to improve mission design and streamline the development process of space-based cold atom sensors by integrating industry-standard development software. This will help to properly assess the potential of using cold atom sensors in space, enabling more accurate satellite orbit predictions, the ability to navigate in space without GNSS, and dramatically improved models of the Earth’s climate.

Benefits:

  • Provision of reliable performance estimates for space-based cold atom sensors
  • Numerical models to improve mission design and streamline the engineering process for space-based cold atom sensors.
  • QuSSat is working: The team supported the design of the new SM3B science module installed on the ISS.

QuSSat
Leibniz University Hannover, Institute of Quantum Optics
Dr Jan-Niclas Kirsten-Siemß
kirsten-siemss@iqo.uni-hannover.de

Land2Energy – A Platform for Site Assessment and Marketing of Properties for Renewable Energy

Land2Energy – A Platform for Site Assessment and Marketing of Properties for Renewable Energy

The green energy transition is progressing very slowly, jeopardising Europe’s goal of a decarbonised future. One reason is the lack of new projects to install wind or solar power. At the same time, farmers are faced with increasing areas of non-arable land due to climate change, resulting in large financial losses.

Agrario Energy addresses this critical challenge of balancing energy production and environmental sustainability by helping to transform fallow land into renewable energy production sites. The innovative software enables landowners to assess the renewable energy potential of their land and facilitates lease agreements with project developers through a simple app. The software considers factors such as planning restrictions, infrastructure and environmental conditions, derived from satellite and geospatial data, and streamlines the process for both parties. By finding the best project developer for each landowner – and vice versa – Agrario Energy is able to offer its service on a commission basis.

The benefits

  • Makes large-scale renewable energy projects as easy as hiring a car online
  • Independent, technology neutral and simple
  • Meeting the needs of landowners and developers for best results
  • Landowners are able to compare and transparently choose the developer that best fits their need

Agrario Energy
Alexander von Breitenbach
info@land2energy.de

Helios LITE – A First Thruster Model Based on the Ttwo-Stage Ionization Concept of Helios

Helios LITE – A First Thruster Model Based on the Ttwo-Stage Ionization Concept of Helios

Current methods for sending spacecraft to Mars require carrying all the necessary fuel for the entire journey, from launch to the distant final orbit. Without the option of refuelling en route, this significantly increases the spacecraft’s total mass, which, in turn, demands even more fuel to overcome Earth’s gravitational forces.

A spacecraft bound for Mars, that needs just enough fuel to reach low Earth orbit for a refuelling stop, would drastically reduce the launch mass of a spacecraft. Helios is capable of paving the way for this new vision of space exploration by offering a completely new technological approach to spaceflight: high-thrust continuous electric propulsion.

In contrast to traditional electric propulsion, Helios uses a unique two-stage ionisation system, tailored to ionise a neutral gas under higher pressure conditions .This provides the technological foundation for generating high thrust with an electric propulsion system. The all-new Helios concept has been developed “without baggage”, focusing only on the desired performance outcome: the generation of high thrust.

Helios LITE is onlythe first version of the Helios thruster family, a first step in creating a new class of thrusters: Electric, highly fuel efficient and capable of generating higher thrust levels. The far-reaching, spiral trajectories that a thruster like Helios can enable for spacecraft unlock new possibilities for in-space transportation.

Benefits:

  • Electric and highly fuel-efficient thrusters
  • Use of a neutral gas to generate high thrust
  • Reduction of the ground-to-space segment trajectory
  • Continuous high-thrust electric propulsion as the basis for a space transportation ecosystem

Helios LITE
The Plasma Rocket Company GmbH
Dr Danny Kirmse
danny.kirmse05@gmail.com

Miura Nexus: Physics-Informed Machine Learning Technology: A Use Case in Optimal Process Design.

Miura Nexus: Physics-Informed Machine Learning Technology: A Use Case in Optimal Process Design.

Physical simulation is a powerful but time-consuming tool for engineers. Both data generation and analysis are time intensive – the iterative process requires many cycles to define a viable solution.

The rgenerated results are difficult to evaluate, visualise and communicate. In addition, physical simulations in aerospace industrial processes, especially with complex engineering components and advanced materials, lead to significant variations that make it difficult to predict production quality prior to implementation.

Miura aims to overcome these challenges in development and high-end manufacturing processes by using PIML technology to develop a predictive quality analysis tool. This tool supports simulation engineers and factory operators in making informed decisions.

By using this technology, Miura provides an in-depth and physically based simulation of part quality that is particularly suited to manufacturing processes that involve complex physical transformations.

Benefits:

  • Physics-informed machine learning (PIML) technology to help simulation engineers make improved decisions
  • Proprietary technology to accelerate design exploration and improve process design
  • Real-time tablet performance
  • Engineers and operators can use the generated models as predictive components integrated into their workstations
  • These models not only predict part quality, but also provide recommendations for optimal process parameters for each part

Miura Nexus
Miura Simulation
Jordi Gómez Silla
jgomez@miurasimulation.com

Imaging Technology (PAIS) That Allows Very High Resolution Visable Imagery (10cm) from Low-Cost Satellites

Imaging Technology (PAIS) That Allows Very High Resolution Visable Imagery (10cm) from Low-Cost Satellites

Satellite imagery with a resolution of 10 cm is currently not commercially available. Such a high resolution can only be achieved with very expensive satellites, which cannot be scaled up to a cost-effective constellation with global monitoring capabilities.

Remondo is developing an innovative imaging technology that can achieve this very high resolution (10 cm) using low-cost satellites in LEO. While the best commercial satellites currently have a resolution of 30 cm and exceed costs of several hundred million EUR, the cost of a single satellite in this case is 2 orders of magnitude lower. This makes it possible to build a large constellation that can provide global, persistent monitoring for multiple applications. This will break the current boundaries of the entire Earth observation market and thus enables new applications.

Benefits:

  • High-resolution satellite imagery (10 cm) at a cost saving of 2 orders of magnitude per satellite compared to current approaches
  • Enabling the cost-efficient establishment of a global satellite constellation for daily coverage of high-accuracy Earth observation data
  • Facilitation of new applications and use cases with Earth observation data

Remondo
Ido Priel
priel.ido@remondo.com

eClypse: Onboard, Tamper-Proof Cyber Security Intrusion Detection for Satellites with Ground Segment Telemetry

eClypse: Onboard, Tamper-Proof Cyber Security Intrusion Detection for Satellites with Ground Segment Telemetry

Satellites are an essential part of our critical infrastructure, providing services such as navigation, communication and Earth Observation. Recent cybersecurity challenges in the telecom supply chain and a rising number of criminal and state-sponsored actors are seeking to disrupt communications demonstrate: There is no secure communications infrastructure without adequate cyber defences.

DISC has developed a hardware-based intrusion detection module for satellites called eClypse. It requires no processing or storage resources on the satellite and cannot be manipulated by an attacker. The development of this TRL6 prototype was supported by innovation funding from the Canadian Department of National Defence. It has been proven in a Magellan Aerospace laboratory and, as a result of our development and security design process, can be integrated into any satellite platform.

The next step for DISC is to create a secure satellite prototype ready for a space mission. This will take eClypse to TRL8, ready for a subsequent mission at TRL9.

Benefits

  • Enhanced cyber-security and privacy for all users of satellite services
  • Can be integrated into any satellite platform
  • Enables platform operators to continuously monitor the internal security status of their platform
  • Does not require processing or storage resources
  • Hardware-based approach enables protection against remote tampering by 3rd party actors

eClypse
Dominant Information Solutions Canada (DISC)
Marc Kneppers
marc@dominantisc.ca

RegONE – A Modular Regolith Transportation System for Lunar Surface Operations

RegONE – A Modular Regolith Transportation System for Lunar Surface Operations

Humanity is on the brink of returning to the moon – with the intention to stay. This time with commercial actors alongside national space agencies, which makes it necessary to use locally available resources, such as lunar regolith (“moon dust”). It is 10 times finer than a grain of sand, extremely abrasive, electrostatically charged and floats for an exceptionally long time, making it difficult to handle.

Space Team Aachen – a team of students from RWTH Aachen University – offers a unique approach to this problem: the RegONE transport system. The students developed this transport system with the vision of reliably transporting regolith in a variety of lunar terrains and conditions. RegONE is vibration-based, modular and has no moving parts to minimise long-term wear and tear.

The goal of Space Team Aachen is to develop a TRL-6 prototype of regONE to prove its feasibility for operation on the Moon. This will require further research into interactions with the lunar soil and the design of a support structure that can be attached to the lunar surface.

Benefits:

  • Optimises the entire lunar value chain: higher efficiency, higher safety, lower operating costs (e.g. insurance and planning costs)
  • Enables the construction of a lunar outpost
  • Facilitates further technological development with regard to In-Situ Resource Utilisation (ISRU) and the handling of hazardous materials

MoonAixperts e.V.
Johann Flach
j.flach@moonaixperts.rwth-aachen.de