Jaycon Systems Llc
CAGE Code: 7CG47
NCAGE Code: 7CG47
Status: Active
Type: Commercial Supplier
Summary
Jaycon Systems Llc is an Active Commercial Supplier with the Cage Code 7CG47.
Address
2300 Commerce Park Dr Ne 09
Suite 8 & 9
Palm Bay FL 32905-2619
United States
Points of Contact
No Points of Contact...
Related Information
No Related Information...
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Frequently Asked Questions (FAQ) for CAGE 7CG47
- What is CAGE Code 7CG47?
- 7CG47 is the unique identifier used by NATO Organizations to reference the physical entity known as Jaycon Systems Llc located at 2300 Commerce Park Dr Ne 09, Suite 8 & 9, Palm Bay FL 32905-2619, United States.
- Who is CAGE Code 7CG47?
- 7CG47 refers to Jaycon Systems Llc located at 2300 Commerce Park Dr Ne 09, Suite 8 & 9, Palm Bay FL 32905-2619, United States.
- Where is CAGE Code 7CG47 Located?
- CAGE Code 7CG47 is located in Palm Bay, FL, USA.
Contracting History for CAGE 7CG47 Most Recent 25 Records
- 80NSSC19C0009
- Eo14042 The Proposed Phase Ii Supports Completion Of The Rings Science Missions On Iss Using Svgs As Real-Time Sensor For The Emff Maneuver. During Phase I, Svgs-Based Navigation Of Rings Was Developed And Tested On A 3Dof Ground-Based Platform, And Mechanical And Electrical Integration Of Rings With The Free-Flying Robotic Platforms On Iss (Astrobee) Was Designed In Detail. Svgs Was Deployed And Tested On A Platform Equivalent To The Guest Scientist Module (Hlp) On Astrobee, Which Facilitates Direct Deployment Of Svgs On Astrobee With Minimal Additional Hardware. The Phase Ii Effort Will Support The Deployment And Completion Of The Emff And Wpt Science Sessions Of Rings Onboard Iss, Using Svgs As Gn&C Sensor. Ground Testing Of The Rings-Astrobee Assembly Will Including Formation Flight In Both Open And Closed Loop Maneuvers. Rings Is Currently Unutilized On Board Iss. The Rings Science Missions Are An Important Step To Demonstrate And Assess The Feasibility Of Electromagnetic Formation Flight And Wireless Power Transfer. The Proposed Research Would Enable To Leverage The Substantial Expenditures And Effort Already Invested In The Development Of Rings To Serve As Demonstration Of Emff And Wpt - Technology Areas Of Great Promise For Future Small Spacecraft. The Proposed Phase Ii Will Also Help Demonstrate And Assess Svgs As Stand-Alone Sensor For Proximity Operations Between Small Satellites. Svgs Is An Attractive Alternative As Real-Time Sensor For Rendezvous, Docking And Proximity Operations. Key Factors That Make Svgs Attractive To Small Satellite Applications (Small Form Factor, Low Cost, Platform Independence) Also Makes It Appealing To Human Exploration Missions, Where Crew Vehicles Need To Dock With A Variety Of Platforms. The Niche For A Proximity Operations Sensor For Smallsat Applications Is Currently Open The Deployment Of Svgs On Iss And Its Application To Complete The Rings Mission Will Illustrate Svgs Ability To Fill That Role.
- 14 Oct 2021
- Eo14042 The Proposed Phase Ii Supports Completion Of The Rings Science Missions On Iss Using Svgs As Real-Time Sensor For The Emff Maneuver. During Phase I, Svgs-Based Navigation Of Rings Was Developed And Tested On A 3Dof Ground-Based Platform, And Mechanical And Electrical Integration Of Rings With The Free-Flying Robotic Platforms On Iss (Astrobee) Was Designed In Detail. Svgs Was Deployed And Tested On A Platform Equivalent To The Guest Scientist Module (Hlp) On Astrobee, Which Facilitates Direct Deployment Of Svgs On Astrobee With Minimal Additional Hardware. The Phase Ii Effort Will Support The Deployment And Completion Of The Emff And Wpt Science Sessions Of Rings Onboard Iss, Using Svgs As Gn&C Sensor. Ground Testing Of The Rings-Astrobee Assembly Will Including Formation Flight In Both Open And Closed Loop Maneuvers. Rings Is Currently Unutilized On Board Iss. The Rings Science Missions Are An Important Step To Demonstrate And Assess The Feasibility Of Electromagnetic Formation Flight And Wireless Power Transfer. The Proposed Research Would Enable To Leverage The Substantial Expenditures And Effort Already Invested In The Development Of Rings To Serve As Demonstration Of Emff And Wpt - Technology Areas Of Great Promise For Future Small Spacecraft. The Proposed Phase Ii Will Also Help Demonstrate And Assess Svgs As Stand-Alone Sensor For Proximity Operations Between Small Satellites. Svgs Is An Attractive Alternative As Real-Time Sensor For Rendezvous, Docking And Proximity Operations. Key Factors That Make Svgs Attractive To Small Satellite Applications (Small Form Factor, Low Cost, Platform Independence) Also Makes It Appealing To Human Exploration Missions, Where Crew Vehicles Need To Dock With A Variety Of Platforms. The Niche For A Proximity Operations Sensor For Smallsat Applications Is Currently Open The Deployment Of Svgs On Iss And Its Application To Complete The Rings Mission Will Illustrate Svgs Ability To Fill That Role.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $680,837.00
- National Aeronautics And Space Administration (Nasa)
- 80NSSC19C0009
- Eo14042 The Proposed Phase Ii Supports Completion Of The Rings Science Missions On Iss Using Svgs As Real-Time Sensor For The Emff Maneuver. During Phase I, Svgs-Based Navigation Of Rings Was Developed And Tested On A 3Dof Ground-Based Platform, And Mechanical And Electrical Integration Of Rings With The Free-Flying Robotic Platforms On Iss (Astrobee) Was Designed In Detail. Svgs Was Deployed And Tested On A Platform Equivalent To The Guest Scientist Module (Hlp) On Astrobee, Which Facilitates Direct Deployment Of Svgs On Astrobee With Minimal Additional Hardware. The Phase Ii Effort Will Support The Deployment And Completion Of The Emff And Wpt Science Sessions Of Rings Onboard Iss, Using Svgs As Gn&C Sensor. Ground Testing Of The Rings-Astrobee Assembly Will Including Formation Flight In Both Open And Closed Loop Maneuvers. Rings Is Currently Unutilized On Board Iss. The Rings Science Missions Are An Important Step To Demonstrate And Assess The Feasibility Of Electromagnetic Formation Flight And Wireless Power Transfer. The Proposed Research Would Enable To Leverage The Substantial Expenditures And Effort Already Invested In The Development Of Rings To Serve As Demonstration Of Emff And Wpt - Technology Areas Of Great Promise For Future Small Spacecraft. The Proposed Phase Ii Will Also Help Demonstrate And Assess Svgs As Stand-Alone Sensor For Proximity Operations Between Small Satellites. Svgs Is An Attractive Alternative As Real-Time Sensor For Rendezvous, Docking And Proximity Operations. Key Factors That Make Svgs Attractive To Small Satellite Applications (Small Form Factor, Low Cost, Platform Independence) Also Makes It Appealing To Human Exploration Missions, Where Crew Vehicles Need To Dock With A Variety Of Platforms. The Niche For A Proximity Operations Sensor For Smallsat Applications Is Currently Open The Deployment Of Svgs On Iss And Its Application To Complete The Rings Mission Will Illustrate Svgs Ability To Fill That Role.
- 20 Apr 2022
- Eo14042 The Proposed Phase Ii Supports Completion Of The Rings Science Missions On Iss Using Svgs As Real-Time Sensor For The Emff Maneuver. During Phase I, Svgs-Based Navigation Of Rings Was Developed And Tested On A 3Dof Ground-Based Platform, And Mechanical And Electrical Integration Of Rings With The Free-Flying Robotic Platforms On Iss (Astrobee) Was Designed In Detail. Svgs Was Deployed And Tested On A Platform Equivalent To The Guest Scientist Module (Hlp) On Astrobee, Which Facilitates Direct Deployment Of Svgs On Astrobee With Minimal Additional Hardware. The Phase Ii Effort Will Support The Deployment And Completion Of The Emff And Wpt Science Sessions Of Rings Onboard Iss, Using Svgs As Gn&C Sensor. Ground Testing Of The Rings-Astrobee Assembly Will Including Formation Flight In Both Open And Closed Loop Maneuvers. Rings Is Currently Unutilized On Board Iss. The Rings Science Missions Are An Important Step To Demonstrate And Assess The Feasibility Of Electromagnetic Formation Flight And Wireless Power Transfer. The Proposed Research Would Enable To Leverage The Substantial Expenditures And Effort Already Invested In The Development Of Rings To Serve As Demonstration Of Emff And Wpt - Technology Areas Of Great Promise For Future Small Spacecraft. The Proposed Phase Ii Will Also Help Demonstrate And Assess Svgs As Stand-Alone Sensor For Proximity Operations Between Small Satellites. Svgs Is An Attractive Alternative As Real-Time Sensor For Rendezvous, Docking And Proximity Operations. Key Factors That Make Svgs Attractive To Small Satellite Applications (Small Form Factor, Low Cost, Platform Independence) Also Makes It Appealing To Human Exploration Missions, Where Crew Vehicles Need To Dock With A Variety Of Platforms. The Niche For A Proximity Operations Sensor For Smallsat Applications Is Currently Open The Deployment Of Svgs On Iss And Its Application To Complete The Rings Mission Will Illustrate Svgs Ability To Fill That Role.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $680,837.00
- National Aeronautics And Space Administration (Nasa)