RibbonDynamics: Difference between revisions
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= GTOSS = | = GTOSS Simulation of the Space Elevator = | ||
== Overview == | |||
GTOSS is a tether simulation code developed by David Lang to study the dynamics of a wide variety of tethered object configurations, both terrestrial and in space. This code was first used for flight certification of the Shuttle TSS experiments, and is capable of simulating many aspects of the space elevator system dynamics. The source has been made freely available to those interested and capable of pursuing similar studies. | GTOSS is a tether simulation code developed by David Lang to study the dynamics of a wide variety of tethered object configurations, both terrestrial and in space. This code was first used for flight certification of the Shuttle TSS experiments, and is capable of simulating many aspects of the space elevator system dynamics. The source has been made freely available to those interested and capable of pursuing similar studies. | ||
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You can learn more about GTOSS's general and detailed attributes at the [http://home.comcast.net/~GTOSS/ GTOSS description web site]. | You can learn more about GTOSS's general and detailed attributes at the [http://home.comcast.net/~GTOSS/ GTOSS description web site]. | ||
== Download == | == Download == | ||
The code is made available via a source sharing facility http://sharesource.org and is based on the Mercurial source management software system; Make sure you have Mercurial and relevant fortran compilers, etc. installed. Using a Unix or Linux type shell-terminal interface ( | |||
'''Those interested in working with GTOSS please contact [mailto:seattledl@comcast.net David Lang]. The GTOSS program is being made available to individuals with the background knowledge to use it. The code is large and extremely complex as are the engineering input parameters and interpretation of the output results.''' | |||
The GTOSS source code is made available via a source sharing facility http://sharesource.org and is based on the Mercurial source management software system; Make sure you have Mercurial and relevant fortran compilers, etc. installed. Using a Unix or Linux type shell-terminal interface (for instance, "Terminal" on Mac OSX or Ubuntu, etc), | |||
Type: | Type: | ||
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hg clone http://hg.sharesource.org/gtoss | hg clone http://hg.sharesource.org/gtoss | ||
Note: Inside the "SE Dynamics Exploration Runs" directory there are 35 GTOSS input-run streams that produce a wide variety of space elevator analyses. | Note: Inside the "SE Dynamics Exploration Runs" ''directory'' there are 35 GTOSS input-run streams that produce a wide variety of space elevator analyses. | ||
== GTOSS Documentation == | == GTOSS Documentation == | ||
Getting | |||
''Getting Started'' documentation is here: | |||
[[Image:Getting_Started_with_GTOSS.pdf]] | [[Image:Getting_Started_with_GTOSS.pdf]] | ||
Full | ''Full User Guides and Reference Manuals'' are located here: | ||
http://keithcu.com/GTOSS%20Reference%20Docs.zip | http://keithcu.com/GTOSS%20Reference%20Docs.zip | ||
== | == Ribbon Dynamics Simulation == | ||
The space elevator is a challenging dynamics problem, characterized by: | |||
- A topology that spans a significant portion of a ''gravity-well'', | |||
- A Unique aspect ratio, | |||
- A perturbing environment that includes; wind, passing gravity wells, solar wind pressure, solar heating, ascending climbers and a moving anchor. | |||
''' | An extensive study was undertaken by David Lang using GTOSS to simulate space elevator dynamics from deployment through operation. These studies have resulted in ''Papers'', a Space Elevator Dynamics Handbook, and numerous illustrative engineering animations of GTOSS simulated dynamic behaviors. | ||
Some results of those studies are shown below. | |||
== Space Elevator Dynamics Handbook == | |||
This handbook covers many of the dynamic attributes and responses of the space elevator (note: in addition, the papers listed below also expand upon and extend the contents of the handbook). | |||
[[ | [[Image:Dyn_HB_Final_pdf.pdf]]: Large compilation of David Lang's Space Elevator dynamics work. (10.2Meg PDF) - This large document will soon be segmented and referenced. | ||
= Papers and Related Explanatory Animations = | = Papers and Related Explanatory Animations = | ||
Note: Following each paper below is a link to a page that presents animations of GTOSS simulations specifically related each paper's subject; these animations will clarify, supplement and expand upon the contents of each paper. | |||
== Paper on Aerodynamic Response to Atmospheric Wind (PDF) == | |||
[[image:Paper_Lang_Aero.pdf ]] | |||
See '''''animations''''' pertaining to [[Aerodynamic Response]] | See '''''animations''''' pertaining to [[Aerodynamic Response]] | ||
== Paper on Dynamic Response to Climber Transits (PDF) == | |||
[[image:Paper_Lang_Climber_Transit.pdf ]] | |||
See '''''animations''''' pertaining to [[Climber Dynamics Response]] | See '''''animations''''' pertaining to [[Climber Dynamics Response]] | ||
== Paper on GEO-Based Construction Deployment Dynamics (PDF) == | |||
[[image:Paper_Lang_GEO_Deploy.pdf ]] | |||
See '''''animations''''' pertaining to [[Construction Deployment]] | |||
= Selected GTOSS Simulation Animations = | |||
== Selected Wave Propagation Animations == | |||
'''Many aspects of the propagation of transverse (ie horizontal) waves along the space elevator ribbon are presented here''' | |||
[[Wave Propagation Animations]] | |||
Revision as of 21:40, 23 December 2008
GTOSS Simulation of the Space Elevator
Overview
GTOSS is a tether simulation code developed by David Lang to study the dynamics of a wide variety of tethered object configurations, both terrestrial and in space. This code was first used for flight certification of the Shuttle TSS experiments, and is capable of simulating many aspects of the space elevator system dynamics. The source has been made freely available to those interested and capable of pursuing similar studies.
GTOSS addresses most of the unique space elevator dynamics attributes. An enumeration of these challenges and how GTOSS addresses them is found at Space Elevator Dynamic Challenges.
You can learn more about GTOSS's general and detailed attributes at the GTOSS description web site.
Download
Those interested in working with GTOSS please contact David Lang. The GTOSS program is being made available to individuals with the background knowledge to use it. The code is large and extremely complex as are the engineering input parameters and interpretation of the output results.
The GTOSS source code is made available via a source sharing facility http://sharesource.org and is based on the Mercurial source management software system; Make sure you have Mercurial and relevant fortran compilers, etc. installed. Using a Unix or Linux type shell-terminal interface (for instance, "Terminal" on Mac OSX or Ubuntu, etc),
Type:
hg clone http://hg.sharesource.org/gtoss
Note: Inside the "SE Dynamics Exploration Runs" directory there are 35 GTOSS input-run streams that produce a wide variety of space elevator analyses.
GTOSS Documentation
Getting Started documentation is here: File:Getting Started with GTOSS.pdf
Full User Guides and Reference Manuals are located here: http://keithcu.com/GTOSS%20Reference%20Docs.zip
Ribbon Dynamics Simulation
The space elevator is a challenging dynamics problem, characterized by:
- A topology that spans a significant portion of a gravity-well,
- A Unique aspect ratio,
- A perturbing environment that includes; wind, passing gravity wells, solar wind pressure, solar heating, ascending climbers and a moving anchor.
An extensive study was undertaken by David Lang using GTOSS to simulate space elevator dynamics from deployment through operation. These studies have resulted in Papers, a Space Elevator Dynamics Handbook, and numerous illustrative engineering animations of GTOSS simulated dynamic behaviors.
Some results of those studies are shown below.
Space Elevator Dynamics Handbook
This handbook covers many of the dynamic attributes and responses of the space elevator (note: in addition, the papers listed below also expand upon and extend the contents of the handbook).
File:Dyn HB Final pdf.pdf: Large compilation of David Lang's Space Elevator dynamics work. (10.2Meg PDF) - This large document will soon be segmented and referenced.
Papers and Related Explanatory Animations
Note: Following each paper below is a link to a page that presents animations of GTOSS simulations specifically related each paper's subject; these animations will clarify, supplement and expand upon the contents of each paper.
Paper on Aerodynamic Response to Atmospheric Wind (PDF)
See animations pertaining to Aerodynamic Response
Paper on Dynamic Response to Climber Transits (PDF)
File:Paper Lang Climber Transit.pdf
See animations pertaining to Climber Dynamics Response
Paper on GEO-Based Construction Deployment Dynamics (PDF)
File:Paper Lang GEO Deploy.pdf
See animations pertaining to Construction Deployment
Selected GTOSS Simulation Animations
Selected Wave Propagation Animations
Many aspects of the propagation of transverse (ie horizontal) waves along the space elevator ribbon are presented here
