The Optical Communications and Sensor Demonstration (OCSD) project addresses two cross-cutting capabilities of value to many future small spacecraft missions: high-speed optical transmission of data and small spacecraft proximity operations. Optical data rates demonstrated by OCSD are expected to be 200 megabits persecond (Mbs) or higher, a factor of 100 increase over current high-end CubeSat communications systems. The proximity sensors developed for this mission enable relative position measurement between two small satellites - a capability not previously demonstrated
The increasing use of CubeSats (small satellites) for scientific and commercial applications has led...
Free space optical communication (FSO) overcomes the challenges of traditional RF-communication in s...
NASA's Exploration and Space Communications projects division recently completed an investigative st...
Small, inexpensive, satellite platforms offer opportunities for pathfinder experiments, space qualif...
NASA’s Optical Communications and Sensors Demonstration (OCSD) program and described in previous pre...
The Aerospace Corporation was selected by the NASA Small Spacecraft Technology Program in 2012 to co...
The Optical Communication and Sensor Demonstration Program was one of three projects selected by the...
The CubeSat Laser Infrared CrosslinK (CLICK) mission will demonstrate technology to advance the stat...
The NASA Optical Communications and Sensors Demonstration program was initiated in 2012 to demonstra...
An opportunity arose to demonstrate optical crosslink pointing between two CubeSats in LEO using spa...
With the increasing need for higher data rates on small LEO spacecraft, highly compact laser communi...
Small satellites and cubesats often have low data transmission rates due to the use of low-gain radi...
CubeSats are excellent platforms to rapidly perform simple space experiments. Several hundreds of Cu...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Aeronautics and Astronautics, 2...
Miniaturized satellites such as CubeSats continue to improve their capabilities to enable missions t...
The increasing use of CubeSats (small satellites) for scientific and commercial applications has led...
Free space optical communication (FSO) overcomes the challenges of traditional RF-communication in s...
NASA's Exploration and Space Communications projects division recently completed an investigative st...
Small, inexpensive, satellite platforms offer opportunities for pathfinder experiments, space qualif...
NASA’s Optical Communications and Sensors Demonstration (OCSD) program and described in previous pre...
The Aerospace Corporation was selected by the NASA Small Spacecraft Technology Program in 2012 to co...
The Optical Communication and Sensor Demonstration Program was one of three projects selected by the...
The CubeSat Laser Infrared CrosslinK (CLICK) mission will demonstrate technology to advance the stat...
The NASA Optical Communications and Sensors Demonstration program was initiated in 2012 to demonstra...
An opportunity arose to demonstrate optical crosslink pointing between two CubeSats in LEO using spa...
With the increasing need for higher data rates on small LEO spacecraft, highly compact laser communi...
Small satellites and cubesats often have low data transmission rates due to the use of low-gain radi...
CubeSats are excellent platforms to rapidly perform simple space experiments. Several hundreds of Cu...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Aeronautics and Astronautics, 2...
Miniaturized satellites such as CubeSats continue to improve their capabilities to enable missions t...
The increasing use of CubeSats (small satellites) for scientific and commercial applications has led...
Free space optical communication (FSO) overcomes the challenges of traditional RF-communication in s...
NASA's Exploration and Space Communications projects division recently completed an investigative st...