The Intelligent Payload Experiment (IPEX) is a cubesat manifested for launch in October 2013 that will flight validate autonomous operations for onboard instrument processing and product generation for the Intelligent Payload Module (IPM) of the Hyperspectral Infra-red Imager (HyspIRI) mission concept. We first describe the ground and flight operations concept for HyspIRI IPM operations. We then describe the ground and flight operations concept for the IPEX mission and how that will validate HyspIRI IPM operations. We then detail the current status of the mission and outline the schedule for future development
The PicSat mission is based on a 3U Cubesat architecture, with a payload specifically designed for h...
In the recent years, CubeSat’s are evolving from purely educational tools to a standard platform for...
The development and testing of next generation Environmental Control and Life Support Systems (ECLSS...
This presentation lays out the evolution of the Intelligent Payload Module (IPM) vision given that t...
The IPOS approach recognizes that the real problems in achieving schedule, cost, and science return ...
Assembly, Integration, and Verification/Testing (AIV or AIT) is a standardized guideline for project...
The Australian Centre for Space Engineering Research (ACSER) at the University of New South Wales ha...
NASA\u27s Earth Science Technology Office (ESTO) has been supporting the development of multiple Cub...
The majority of today's CubeSat fleet consists of Earth-orbiting missions that mostly use existing g...
CubeSats are rapidly becoming one of the easiest and cheapest ways to exploit space. At the same tim...
Ground systems have historically been large installations consisting of massive infrastructure and c...
A set of automated planning algorithms is the current operations baseline approach for the Intellige...
CubeSats are becoming an important reality in space exploration both in academia and industry. The i...
CubeSats have evolved from simple technology demonstrators to important assets for space utilization...
CubeSpec is an in-orbit demonstration CubeSat mission in the ESA technology programme, developed and...
The PicSat mission is based on a 3U Cubesat architecture, with a payload specifically designed for h...
In the recent years, CubeSat’s are evolving from purely educational tools to a standard platform for...
The development and testing of next generation Environmental Control and Life Support Systems (ECLSS...
This presentation lays out the evolution of the Intelligent Payload Module (IPM) vision given that t...
The IPOS approach recognizes that the real problems in achieving schedule, cost, and science return ...
Assembly, Integration, and Verification/Testing (AIV or AIT) is a standardized guideline for project...
The Australian Centre for Space Engineering Research (ACSER) at the University of New South Wales ha...
NASA\u27s Earth Science Technology Office (ESTO) has been supporting the development of multiple Cub...
The majority of today's CubeSat fleet consists of Earth-orbiting missions that mostly use existing g...
CubeSats are rapidly becoming one of the easiest and cheapest ways to exploit space. At the same tim...
Ground systems have historically been large installations consisting of massive infrastructure and c...
A set of automated planning algorithms is the current operations baseline approach for the Intellige...
CubeSats are becoming an important reality in space exploration both in academia and industry. The i...
CubeSats have evolved from simple technology demonstrators to important assets for space utilization...
CubeSpec is an in-orbit demonstration CubeSat mission in the ESA technology programme, developed and...
The PicSat mission is based on a 3U Cubesat architecture, with a payload specifically designed for h...
In the recent years, CubeSat’s are evolving from purely educational tools to a standard platform for...
The development and testing of next generation Environmental Control and Life Support Systems (ECLSS...