All verified mentions of this organization in source documents.
The SGAC, UK Space Agency, BryceTech, and HEO partnered with Secure World Foundation to support the scholarships for the 6th Summit for Space Sustainability.
This agreement is the second between HEO and Sidus Space, with Sidus Space’s LizzieSat-2 hosting HEO’s HOLMES-004 on the same Bandwagon-2 launch.
HEO will provide the HOLMES-006 NEI imager to be hosted onboard Sidus Space’s LizzieSat-3.
Sidus Space and HEO have an ongoing partnership to host NEI sensors and provide NEI imagery and data from Sidus’ LizzieSat spacecraft.
LizzieSat-3 carrying HEO’s HOLMES-006 is scheduled to launch on SpaceX Bandwagon-2 in November 2024.
Sidus Space will host HEO’s NEI imager HOLMES-006 onboard LizzieSat-3 as part of the Bandwagon-2 launch scheduled for November 2024.
HEO’s Holmes Imager is a telescopic space camera designed and developed to be hosted as a secondary payload on spacecraft.
Sidus Space’s LizzieSat-2 will host HEO’s HOLMES-004 on the same Bandwagon-2 launch.
ALL.SPACE’s platform delivers multi-satellite, multi-orbit connectivity from a single mobile device across LEO, MEO, HEO, and GEO orbits.
HEO raised $8,000,000 from investors in August to support its in-orbit inspection business that will use images from Droid.001.
Australian space imagery provider HEO supplied the imager for Droid.001 and is a customer for Droid.001.
ThinAir GT 2517 and GT 1717 Ka-band systems are approved on operational commercial and government networks including LEO, MEO, GEO, and HEO constellations.
The ARC-M4-Block 1 is designed for operation on LEO, GEO, HEO, and MEO satellite orbits and features military-spec standards for environmental and EMI performance.
The GAT-5530 terminal supports multi-orbit communications architectures including GEO, MEO, LEO, and HEO.
The mission will deploy two satellites, ASBM-1 and ASBM-2, into a highly elliptical orbit (HEO).
The mission will deploy two satellites, ASBM-1 and ASBM-2, into a highly elliptical orbit (HEO).
The RLS-2100 can model geostationary, LEO, MEO, and HEO satellite constellations as well as combinations of these constellation types.
The RLS-2100 can model all types of satellite constellations, including geostationary satellites as well as LEO, MEO, and HEO satellites or combinations of those types.
ThinKom's VICTS antennas provide high beam agility that enables operation with LEO, MEO, GEO, and HEO satellite constellations, creating a multi-constellation, multi-orbit in-flight connectivity solution for airlines.
HEO Inspect was unveiled in August 2022.