Solar Lander Mac OS

Solar Lander Mac OS

May 29 2021

Solar Lander Mac OS

This page contains information about the sixth beta release, version 0.15.1, of OpenSpace as released on February 19, 2020.

The Logitech K750 Wireless Solar Keyboard comes in either silver or black and has all of the keys you would expect including a number pad on the right side. You can configure your Mac OS X to send system to logs to Loggly. We use fluentd to send the OS X system log over our HTTP/S endpoint. This is because OS X has an older syslog daemon that does not support the newer RFC 5424 format that Loggly requires. For alternatives, please see the Advanced Options section. Automatic Script 1.

A complete changelog is available on our Wiki page. In case of any questions or issues, send us an email or join our Slack channel.

Precompiled binaries for Windows and Macintosh operating systems are available, and the source code is freely available on GitHub to peruse and compile for missing platforms or to get the newest version directly from the source. The commit hash of this released version is 9c34a55e50d7039c4408d2d0f8f9b0e73fc93bdc.

Download Links

These download links include the OpenSpace application and all necessary data for the default scene. If another scene is loaded, the required datasets will download on startup. See below for the light-weight build that does not come with any data.

For all downloads, see below for installation instructions.

Solar Lander Mac Os Catalina

Windows users will also need to install Microsoft Visual C++ Redistributable for Visual Studio 2019. The download is available for 32-bit and 64-bit.

Optional Light-Weight Download

Mac Os Catalina

Use this download link if you are upgrading an existing installation of OpenSpace and already have a working sync folder that you do not want to replace. The application behind this link is identical to the download above with the exception of the sync folder.

Optional Planetary Datasets

Mars Download: Extra downloads of high resolution HiRISE patches (images and terrain model) on Mars.
Mercury Download: Extra downloads of terrain patches created by the MESSENGER mission.
Moon Download: Extra downloads of terrain patches for the Apollo missions to the Moon.

Installation

Windows

We recommended the latest Windows operating system (Windows 10).

After downloading the .zip file, Windows users should unzip the file and choose where you would like to install. You will also need to install Microsoft Visual C++ Redistributable for Visual Studio 2019. The download is available for 32-bit and 64-bit.

Windows 10 users who experience the error “VCRUNTIME140_1.dll was not found” will also need to download and install this file.

Mac

We recommended the latest Mac operating system (Mojave 10.14).

After downloading the .cfg file, Macintosh users should open the file and run the installer. An OpenSpace folder will be installed in your applications folder. This folder contains everything you need to get started.

Mac users who experience errors may need to change the permissions of the OpenSpace folder so all users can Read & Write the enclosed folders’ content.

Additional datasets

Optional planetary datasets (see above) can be downloaded separately. These show high-resolution images and digital terrain patches on the surface of Mars, Mercury, and Moon. The zip files can be extracted at any location, though an SSD is recommended for a smoother experience.

While it is possible to change the location in which these are stored (by editing the OpenSpace/data/assets/customization/globebrowsing.asset file), a good location is a sister directory to the OpenSpace folder named OpenSpaceData (for example, if you installed OpenSpace in C:OpenSpace0.15.0, the folder for the optional planetary datasets would be C:OpenSpaceDataMars, C:OpenSpaceDataMercury, etc.) This should enable the additional datasets to be loaded into the Layers list. If you are editing the globebrowsing.asset manually, please note not to use in the paths and only use / as otherwise error messages will be generated at startup.

Instructions

There are two ways to open OpenSpace: By opening the OpenSpace application (OpenSpace.exe) in the bin folder, or opening the OpenSpace Launcher. See Scenes below for instructions on how to open different visualizations.

Visit Resources for a basic user guide, and see our YouTube for tutorial videos that explain the usage of OpenSpace in greater detail.

Scenes

This version of OpenSpace comes with 17 prepackaged scenes, with an additional variant of the default called Default_full with more optional content.

If you open OpenSpace from the OpenSpace Launcher, you will be able to select your scene from a dropdown menu.

If you open OpenSpace from the .exe file, you will need to edit the openspace.cfg file, which is found in the base directory. In this file, the Asset parameter points to a .scene file in the data/asset folder that is executed and defaults to default, which means that data/asset/default.scene is loaded. This can be changed to, for example, newhorizons or rosetta, before starting OpenSpace. The scene file describes all the assets that are loaded for that particular scene.

Default

This scene is enabled on default and provides the ability to look at detailed terrain models of the Earth, Moon, Mars, other planets, and the Digital Universe extrasolar catalog. The view defaults on Earth at the current time with the ESRI VIIRS Combo enabled. This uses the Suomi VIIRS daily images when viewing the whole Earth, but switches to high-detail imagery from ESRI when zooming in. Additional Overlays are also available for the Earth, Moon, and Mars.

The currently displayed terrain can be changed by selecting Scene in the GUI and navigating to the selected object -> Renderable -> Layers -> ColorLayers, or selecting the menu structure from the top of the window of the currently selected item. A layer can be enabled by opening the tree view of the object and selecting the Enabled checkbox or by ticking the checkbox next to the layer. If a layer is enabled, its name is shown in green.

New Horizons

This scene shows the acquisition of NASA New Horizons’ images of the Plutonian system in July 2015. The scene starts at around 10:00 on July 14th, around 10 minutes before a new image campaign starts. By selecting Pluto as the Origin and moving time faster, you can see the imprint of the instrument’s field-of-view on the planetary surface and see the images being projected. A timer on the top left of the screen shows when the next image is being taken.

Additional keybindings:
A: Focus the camera on the New Horizons spacecraft
S: Focus the camera on Pluto
D: Focus the camera on Charon
L: Toggle the visibility of the labels of New Horizons’ instruments
J: Toggle the visibility of the labels for Pluto and its moons
Shift+T: Toggle the visibility of Pluto’s and Charon’s shadows
F7: Toggles the image projections
F8: Remove the already projected images from the surface
F9: Jump to the start time and remove all image projections
Keypad 8, Keypad 2: Increase and decrease the height exaggeration on Pluto to show the terrain structure
Keypad 9, Keypad 3: Increase and decrease the height exaggeration on Charon to show the terrain structure

Rosetta

The Rosetta scene shows the entire mission of ESA’s Rosetta spacecraft around comet 67P, also known as Churyumov-Gerasimenko. The spacecraft’s images are projected onto the comet and the separation of the Philae lander is visible as well.

Additional keybindings:
A: Focus the camera on the 67P comet
S: Focus the camera on the Rosetta spacecraft
I: Toggle the visibility of the free-floating image plane
P: Toggles the image projection of Rosetta; useful if making long time jumps and not wanting to wait for the image projections to occur
F: Toggles the visibility of Philae’s trail
F5: Jumps to the initial approach of Rosetta to 67P
F6: Jumps to the time when the Philae lander is released
F8: Removes all image projections from 67P

Osiris-Rex

This scene demonstrates the entire lifetime of the NASA OSIRIS-REx spacecraft on its way to the asteroid Bennu and its subsequent journey back to Earth. The scene starts at Earth around the time of the spacecraft’s launch and has information throughout the entire mission until its landing back on Earth in Utah. The models of OSIRIS-REx and Bennu are available, as well as a preliminary instrument timing, which uses the same image projection technique as employed in New Horizons and Rosetta.

Additional keybindings:
A: Focus the camera on OSIRIS-REx
S: Focus the camera on Bennu
F6: Sets the time to the launch time
F7: Sets the time to the Earth gravity assist
F8: Sets the time to the approach time at Bennu
F9: Sets the time to the preliminary survey of Bennu
F10: Sets the time to the orbital Bennu event
F11: Sets the time to the recon event

Solar Lander Mac Os X

Voyager

This scene contains the NASA Voyager 1 and Voyager 2 missions as they were launched from Earth in the 1970s and observed the gas giants in the Solar System. The spacecraft models are included and are pointed accurately throughout the mission. Position and orientation information are available until the second half of the 21st century.

Apollo

This scene contains models and trajectories for the NASA Apollo 8 mission circling the Moon. It also contains additional datasets showing the landing sites of Apollo 11 and 17.

Additional keybindings:
E: Jump to the time of the Apollo 8 Earthrise picture
U: Jump to the launch time of Apollo 8
K: Toggles the visibility of the Kaguya layer on the Moon; useful when viewing the high-resolution inset of Apollo 17
T: Toggles visibility of the Apollo 8 trail around the moon
Shift+T: Toggles the visibility of the Apollo 8 launch trail
Ctrl+T: Toggles the visibility of the entire Apollo 8 trail
S: Toggles shading for the Moon
Page Up: Focus on Apollo 8
Page Down: Focus on the Moon
Home: Focus on Earth

Gaia

Solar Lander Mac OS

This scene contains a new rendering method to show the massive ESA Gaia stars dataset. By default, it loads the few million stars of the Gaia DR2 that contain radial velocities.

Insight

This scene shows the landing of the NASA InSight lander on Mars. The final minutes of the approach are shown with the lander finishing on the surface of Mars.

Additional keybindings:
I: Setup the layers for the InSight landing
Shift+I: Undo the layer setup for the InSight landing

Juno

This scene shows the approach of the NASA Juno space probe to the Jupiter system and its initial orbits around the gas planet.

Messenger

This scene contains model and trajectory of the NASA MESSENGER spacecraft with craft pointing data from 2011-03 to 2011-06. In addition, a rendering of Mercury’s magnetosphere based on data recorded by MESSENGER can be enabled and viewed around the planet. Along with the mission data, additional maps were added to Mercury showing mineral abundances on the surface and a multi-color mosaic from the MDIS instrument.

Solar Lander Mac OS

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