Space Components and infra

Lulav Space is a robotics company that specializes in space applications. They develop vision-aided autonomous navigation and robotics systems for the aerospace industry.
Their sensors provide the same high performance as current space-qualified sensors, at a fraction of the size, weight, and power.
Lulav Space's work on advanced robotics has also led them to develop CITROS – a unified robotics DevOps SaaS platform, designed to support the entire development lifecycle of robotics software, significantly shortening the software validation process from years to months.

NewRocket is developing proprietary gel technology that enables a stable and non-toxic engine propellant, without sacrificing performance or control. NewRocket's gel propellant combines the advantages of liquid and solid propellants. Safe to use and transport, the propellant will improve rocket performance, offering a powerful thrust that can be controlled and extinguished when needed. NewRocket's gel propulsion technology is designed to meet the strictest industry regulations.

The company has successfully completed a proof of concept for the proprietary technology and identified key applications for the aviation, space, and power generation markets. NewRocket is associated with the Technion Israel Institute of Technology.

Ramon.Space specializes in the development of compact, lightweight space computer systems with integrated power capabilities. These systems utilize AI, ML, and DSP processors, offering programmable features and adaptability. Their focus lies in optimizing power consumption, allowing for potential software updates while in orbit.

These systems exhibit robustness against the challenges of space, including radiation, extreme temperatures, zero gravity, and vacuum. They encompass various functionalities, such as space-tailored computer vision, pre-trained AI and machine learning models, modems, routers, and diverse application building blocks.

Ramon.Space's technology has already demonstrated its effectiveness through deployment in space and utilization in numerous satellites and over 50 space missions across the solar system, all without any failures.

Sim Dot Space offers a powerful simulation framework for aerospace development, supporting digital twins and hybrid HIL labs. Used in Earth and lunar missions by both government and private programs, it provides tools like a C/C++ SDK, Open API, aerospace models, code generation, 3D visualization, and training. Its microservices-based design improves flexibility and integration while making updates easier.
The platform is available under various licenses, including developer, runtime, and HIL, to meet different needs in aerospace testing and verification.

SPX Space Plasmatics develops and manufactures plasma thrusters for nanosatellites

SPX's thrusters are based on a patented plasma technology that is more efficient and lightweight than traditional chemical thrusters. This makes SPX's thrusters ideal for nanosatellites, which are small and have limited power and weight budgets.

SPX's thrusters have been successfully tested in space on the RAKIA nanosatellite, which was launched to the International Space Station (ISS) in February 2022. RAKIA is the first nanosatellite to use plasma thrusters for propulsion.

SPX is currently developing a new generation of plasma thrusters that are even more efficient and lightweight. These thrusters will be used on a variety of nanosatellite missions, including Earth observation, communications, and scientific research

Tehiru is building a cost-efficient hybrid modular air-launched rocket propulsion system. The company’s rocket infrastructure is reusable and sustainable and facilitates electric landing.

Opti-Defense specializes in laser-based anti-UAV systems, providing advanced solutions for detecting, tracking, and neutralizing drone threats. Their technology ensures precise and effective defense for military, security, and critical infrastructure protection