Announcements archive

投稿日: Jul 23, 2014 3:8:52 AM

Previous announcements are archived on this page for the record.

Jun. 8, 2012: Version 0.10.1 has been released!

This is a minor update with a bug-fix.

Aug. 23, 2009: Version 0.10 has been released!

Now, released under GNU GPL version 3. See here for a list of changes. The user's guide is now on the Wiki site and can be edited by any registered member. Your help is greatly appreciated.

Jul. 4, 2009: Version 0.10 beta is available for tests.

This is beta version for tests. See here for a list of changes. The user's guide is now on the Wiki site and can be edited by any registered member. Your help is greatly appreciated.

Jun. 21, 2009: Several new examples are shown.

There are new visualization examples, which were created using a recent version (v0.10 alpha) under development.

Mar. 1, 2009: Version 0.9.5 has been released!

A new version, v0.9.5, has been released. See here for a list of changes. The user's guide is now on the Wiki site and can be edited by any registered member. Your help is greatly appreciated.

This is a moderate upgrade from the previous version and the final version with legacy Fortran 77 coding style. Please note that a release of the next version (v0.10) is coming soon (probably in a few months). Therefore, urgent upgrade to v0.9.5 is not highly recommended except in the case that it is really needed.

Jan. 25, 2009: MCARaTS Developer Wiki is open!

Please register from here if you could contribute the development project as a developer, tester, or manual writer.

Nov. 8, 2008: Version 0.9.1 has been released!

This is just a bug-fix release. See here for details of changes. There are a few known issues remaining in this version. The next version (v0.9.5) is in preparation. Beta-testers are invited to join. Possibly a few bugs should be fixed before the public release, so please inform the developer if you would like to join as a tester.

Sep. 15, 2008: Current status & future of the MCARaTS project

On another page, current status and future plan of the MCARsTS project and relationships to other projects are described. The developer hopes to speed up the development for the next release versions and the version 1.0 milestone.

Jun. 15, 2007: MCARaTS v0.9 is available!

The link to the package file is now fixed. The softwares are released under GNU general public license (GPL) version 2. Download the package from here. See the change log in the user's guide for features and changes.

Sep. 14, 2006: MCARaTS v0.9 has been released!

MCARaTS v0.9 has been released. The softwares are released under GNU general public license (GPL) version 2. Download the package from here. See the change log in the user's guide for features and changes.

Dec. 24, 2005

Added new features to MCARaTS v0.9. See here for details. There will not be further major change on v0.9 codes until public release. Next and subsequent versions will be released under GPL (GNU general public license).

June 18, 2005

MCARaTS v0.9 features were updated.

May 12, 2005: MCRS v3.4.1 update is released

MCRS v3.4.1 update has been released. A few small fixes resolves problems that can appear with some specific Fortran compilers, although no problem has been found for v3.4 with GNU's g77 compiler. Changes are so few that an updater that includes only differences from the previous version (v3.4) is provided.

MCARaTS v0.9 is now in beta-test phase. Please send an request mail to H.I. for a beta-test version. Testers will be greatly appreciated.

Dec. 20, 2004: MCRS v3.4 is released

New web site is open. MCRS v3.4 has been released! This version is a major upgrade and includes a lot of changes. Main features are infrared modeling including inertial emission, camera image simulation, improved speed, higher accuracy, realistic atmosphere and surface processes, and easy user interfaces. See here for details of changes.

MCRS was renamed as MCARaTS, and version number was reset. The next version will be MCARaTS v0.9, which is now in active development. This version will feature lidar signal simulation, numerical diffusion techniques and scaling techniques for optically-thin media. The accuracy of radiative transfer simulation will be improved without significant increase of computation time.