A key factor for responsive space operations is the availability of standardized payload accommodations that can simplify integration tasks and reduce costs. Several such standards are beginning to emerge in the very small end of the payload market that is characterized by the so-called CubeSat class of spacecraft. These also happen to be compatible with proposed nanosat launch vehicle (NLV) concepts that are intended to enable dedicated CubeSat missions that are free from the operational constraints associated with traditional secondary payload manifest opportunities. The Poly-Picosatellite Orbital Deployer (P-POD) under development by California Polytechnic State University, San Luis Obispo is one such system that is now transitioning to ...
The growing number of dedicated small launch vehicles will lower the cost of space access in the com...
A collaborative effort between Stanford University and the National Aeronautics and Space Administra...
The CubeSat Project was developed by California Polytechnic State University (CalPoly) and Stanford ...
One candidate approach for providing regular access to space for very small satellites is through th...
Over the past few years there has been a renascence in the CubeSat community. This insurgence has le...
Since the creation of the NASA CubeSat Launch Initiative (NCSLI), the need for CubeSat rideshares ha...
The CubeSat has progressively evolved from a platform for student projects to become a viable spacec...
n response to our U.S. government sponsors ’ needs for smaller spacecraft that will more effectively...
CubeSats are rapidly becoming one of the easiest and cheapest ways to exploit space. At the same tim...
It is critical for cost effective growth of CubeSats and other canisterized satellites to standardiz...
The number of CubeSats and small satellites placed in orbit has been growing exponentially since 199...
To meet the challenge of improving CubeSat access to space, a team of graduate students at the Naval...
This paper addresses the objectives and preliminary development of a Nanosat Launch Vehicle, with at...
CubeSats are currently required to follow the traditional secondary payload model. In this model, se...
The increasing number of space-related applications and the development of miniaturized satellites (...
The growing number of dedicated small launch vehicles will lower the cost of space access in the com...
A collaborative effort between Stanford University and the National Aeronautics and Space Administra...
The CubeSat Project was developed by California Polytechnic State University (CalPoly) and Stanford ...
One candidate approach for providing regular access to space for very small satellites is through th...
Over the past few years there has been a renascence in the CubeSat community. This insurgence has le...
Since the creation of the NASA CubeSat Launch Initiative (NCSLI), the need for CubeSat rideshares ha...
The CubeSat has progressively evolved from a platform for student projects to become a viable spacec...
n response to our U.S. government sponsors ’ needs for smaller spacecraft that will more effectively...
CubeSats are rapidly becoming one of the easiest and cheapest ways to exploit space. At the same tim...
It is critical for cost effective growth of CubeSats and other canisterized satellites to standardiz...
The number of CubeSats and small satellites placed in orbit has been growing exponentially since 199...
To meet the challenge of improving CubeSat access to space, a team of graduate students at the Naval...
This paper addresses the objectives and preliminary development of a Nanosat Launch Vehicle, with at...
CubeSats are currently required to follow the traditional secondary payload model. In this model, se...
The increasing number of space-related applications and the development of miniaturized satellites (...
The growing number of dedicated small launch vehicles will lower the cost of space access in the com...
A collaborative effort between Stanford University and the National Aeronautics and Space Administra...
The CubeSat Project was developed by California Polytechnic State University (CalPoly) and Stanford ...