The future of the global economy lies in space. As the economic and scientific benefits from space become more accessible and apparent to the public, the demand for more spacecrafts will only increase. However, simply using the current space architecture to sustain any major activities past low Earth orbit is infeasible. The limiting factor of relying on ground operators via the Deep Space Network will blunt future growth in cislunar space traffic as the bandwidth is insufficient to satisfy the needs of every spacecraft in this domain. For this reason, spacecrafts must begin to operate autonomously or semi-autonomously for operators to be able to manage more missions at a given time. This thesis focuses on the guidance and navigation polici...
This electronic version was submitted by the student author. The certified thesis is available in th...
This study develops an integrated guidance, navigation and control system for use in autonomous prox...
In this article, we propose a novel concept for rendezvous to a geostationary target spacecraft. For...
Future space activities are likely to include frequent missions toward Moon and Mars. The exploitati...
Crewed navigation in certain regions of the Earth-Moon system provides a unique challenge due to the...
The word 'rendezvous' implies a pre-arranged meeting between two entities for a specific purpose. Th...
Curiosity and discovery are vital elements for the future of human space exploration. Starting from ...
Growing interest has been lately put into proximity operations with non-cooperative targets, such as...
This electronic version was submitted by the student author. The certified thesis is available in th...
Autonomous navigation capabilities for spacecraft are useful for decreasing operational costs, incre...
Autonomous navigation in the satellite world is at best, a semi-autonomous solution. All systems cur...
The analysis of optical navigation in an Earth–Moon libration point orbit is examined. Missions to l...
Autonomous orbit determination could help reducing the growing load on ground-based deep space netwo...
The current plans of returning to the Moon involve rendezvous and docking/berthing operations with ...
One of the main difficulties in designing a micro satellite lunar mission deals with navigation issu...
This electronic version was submitted by the student author. The certified thesis is available in th...
This study develops an integrated guidance, navigation and control system for use in autonomous prox...
In this article, we propose a novel concept for rendezvous to a geostationary target spacecraft. For...
Future space activities are likely to include frequent missions toward Moon and Mars. The exploitati...
Crewed navigation in certain regions of the Earth-Moon system provides a unique challenge due to the...
The word 'rendezvous' implies a pre-arranged meeting between two entities for a specific purpose. Th...
Curiosity and discovery are vital elements for the future of human space exploration. Starting from ...
Growing interest has been lately put into proximity operations with non-cooperative targets, such as...
This electronic version was submitted by the student author. The certified thesis is available in th...
Autonomous navigation capabilities for spacecraft are useful for decreasing operational costs, incre...
Autonomous navigation in the satellite world is at best, a semi-autonomous solution. All systems cur...
The analysis of optical navigation in an Earth–Moon libration point orbit is examined. Missions to l...
Autonomous orbit determination could help reducing the growing load on ground-based deep space netwo...
The current plans of returning to the Moon involve rendezvous and docking/berthing operations with ...
One of the main difficulties in designing a micro satellite lunar mission deals with navigation issu...
This electronic version was submitted by the student author. The certified thesis is available in th...
This study develops an integrated guidance, navigation and control system for use in autonomous prox...
In this article, we propose a novel concept for rendezvous to a geostationary target spacecraft. For...