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FreeFlyer® Software License Agreement
PLEASE READ BEFORE USE
Effective Date: 03/27/15
Revision: 11

Agreement
Please read this license carefully.

This Software License Agreement (the “Agreement”) is a legal agreement between a.i. solutions, Inc. and the original user (“Licensee”). By continuing the installation of this application, by loading or running the application, or by placing or copying the application onto your computer hard drive, you are agreeing to be bound by the terms of this Agreement. If you do not agree to the terms of this Agreement, promptly return the application and the accompanying items (including all written materials) to a.i. solutions, Inc.

1. Grant of Software License. a.i. solutions, Inc. grants to you the right to use the enclosed FreeFlyer® application (the “Software”) in accordance with this agreement. For the purposes of this agreement, “use” means loading the Software into RAM, as well as installation on a hard disk or other storage device. You may not: rent, lease, modify, translate, disassemble, decompile, reverse engineer, or create derivative works based upon the Software.

2. Installation and Use. Specific rights, obligations, and restrictions apply to each license option as defined below. Licensee’s right to install and use the Software is determined by the license option acquired, including the permitted activation type with respect to such license option. By accepting the terms and conditions of the agreement, Licensee also accepts the license option acquired.

3. License Options:
A. Node Locked. Individual license option. Standalone license for a single computer tied to the computer’s Disk Serial Number or other unique identifier.
B. Network License. Multiple license option tied to named server.
C. Dongle License. Single license option tied to named hardware dongle key.

4. Activation Types
A. Node Locked. The Software may only be installed and operated on a single, designated computer, provided the computer is not a network server and the Software is only operated from that computers console by only one licensed user at any given time. Licensee may re-designate the license to a different computer, whether temporarily or not as per the FreeFlyer software license transfer agreement (SLTA) AIS-FFSLTA-101.
B. Network Named Server. Software may only be installed in a central location on a single designated network server and any number of client computers as desired. However, Licensee may have only as many licensed users simultaneously operating the software as the number of network licenses acquired.
C. Dongle. Software may be installed on any number of designated computers as desired, and may only be accessed when a secure USB or parallel port dongle provided by a.i. solutions, Inc. is connected to the computer. Licensee may have only as many licensed users simultaneously operating the software as the number of dongles acquired.

5. Export. This agreement shall be subject to any and all applicable laws, regulations, orders, or other restrictions on exports of U.S. origin items or services that may be enacted from time to time by the United States of America Government or any agency thereof, including, but not limited to, the U.S. Export Administration Regulations (EAR), 15 C.F.R. Parts 730-774 (all such laws, orders, and regulations referred to herein as “U.S. Export Control Laws”). Licensee hereby agrees and assures a.i. solutions, Inc. that Licensee shall not export, ship, transmit, assign, transfer control, transfer registration, or disclose (directly or indirectly) the Software (including any technology and information in connection therewith), except in a manner consistent with U.S. Export Control Laws. Moreover, Licensee agrees that they shall not use the Software in any way or for any purpose that requires an export license or other governmental approval, without: (i) receiving prior written consent of a.i. solutions, Inc, which consent may be withheld in the exclusive discretion of a.i. solutions, Inc.; (ii) obtaining any and all applicable export licenses and government approvals; and (iii) paying any and all fees and expenses associated therewith. Licensee shall prevent and promptly report to a.i. solutions, Inc. any and all unauthorized exports, shipments, transmissions, assignments, deemed exports, transfers of control, transfers of registration, disclosures, or uses of the Software (including any technology and information in connection therewith) of which Licensee has knowledge or suspicion. Licensee warrants that it is not currently the subject of: (i) any law, regulation, or executive order imposed by the United States, including but not limited to, those enforced by the U.S. Treasury Department’s Office of Foreign Assets Control and the U.S. Department of State, which subjects any person – individual or entity – to any asset freezes, prohibition on engaging in transactions with U.S. persons, prohibition on the export from the United States (or re-export) of goods or services, or any other restriction; or (ii) any law, directive, or regulation of the European Union or any of its Member States related to similar subject matter, (all such laws, regulations, orders, or other restrictions referred to herein as “Economic Sanctions”). Licensee further warrants that it is not (i) 50 percent or more owned, directly or indirectly, by any persons (individuals or entities) that are the subject of any Economic Sanctions; or (ii) owned or controlled in any manner by any person (individual or entity) that is the subject of any Economic Sanctions. Licensee will give written notice to a.i. solutions, Inc. as soon as it becomes aware of any changes to Licensee’s warrants under this Section. a.i. solutions may in its sole discretion determine that Export Control Laws or Economic Sanctions restrict specific activities contemplated pursuant to this Agreement, and may suspend performance of this Agreement as may be required to comply with Export Control Laws or Economic Sanctions. Any act or refusal to act by a.i. solutions that is required for compliance with the Export Control Laws or Economic Sanctions shall not be considered a breach of this Agreement.

6. Copyright. The Software is owned by a.i. solutions, Inc. and is protected by United States copyright laws and international treaty provisions. You must treat the Software like any other copyrighted material, except that you may make one copy of the Software solely for back-up or archival purposes. You may not otherwise reproduce, copy or disclose to others, in whole or in part, the Software. You may not copy the written materials accompanying the Software. You agree to use your good faith efforts to see that any user of the Software licensed thereunder complies with this Agreement.

7. Limited Warranty. a.i. solutions, Inc. warrants that if properly installed and operated on the computer for which it is designed, the Software will perform substantially in accordance with the accompanying written materials for a period of ninety (90) days from the date of receipt. a.i. solutions, Inc.’s entire liability and your exclusive remedy shall be, at a.i. solutions, Inc.’s option, either (a) return of the price paid or (b) repair or replacement of the Software that does not meet a.i. solutions, Inc.’s Limited Warranty. To make a warranty claim, return the Software to a.i. solutions, Inc. along with a description of the problem. This Limited Warranty is void if failure of the Software has resulted in whole or in part from accident, abuse, misapplication or violation of this Agreement. Any replacement Software will be warranted for the remainder of the original warranty period or thirty (30) days, whichever is longer. This warranty allocates risks of product failure between Licensee and a.i. solutions, Inc. a.i. solutions, Inc.’s product pricing reflects this allocation of risk and the limitations of liability contained in this warranty.

8. NO OTHER WARRANTIES. a.i. solutions, Inc. DISCLAIMS ALL OTHER WARRANTIES, EITHER EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO, IMPLIED WARRANTIES OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE WITH RESPECT TO THE SOFTWARE AND THE ACCOMPANYING WRITTEN MATERIALS. THIS LIMITED WARRANTY GIVES YOU SPECIFIC LEGAL RIGHTS. YOU MAY HAVE OTHERS WHICH VARY FROM JURISDICTION TO JURISDICTION. a.i. solutions, Inc. DOES NOT WARRANT THAT THE OPERATION OF THE SOFTWARE WILL BE UNINTERRUPTED, ERROR FREE OR MEET LICENSEE’S SPECIFIC REQUIREMENTS. THE WARRANTY SET FORTH ABOVE IS IN LIEU OF ALL OTHER EXPRESS WARRANTIES WHETHER ORAL OR WRITTEN.

9. Exclusive Remedies. You agree that your exclusive remedy against a.i. solutions, Inc., its affiliates, contractors, suppliers, and agents for loss or damage caused by any defect or failure in the Software regardless of the form of action, whether in contract, tort, including negligence, strict liability or otherwise, shall be the return of the purchase price paid or replacement of the Software. This Agreement shall be construed in accordance with and governed by the laws of the State of Maryland. Copyright and other proprietary matters will be governed by United States laws and international treaties. IN ANY CASE, a.i. solutions, Inc. SHALL NOT BE LIABLE FOR LOSS OF DATA, LOSS OF PROFITS, LOST SAVINGS, SPECIAL, INCIDENTAL, CONSEQUENTIAL, INDIRECT OR OTHER SIMILAR DAMAGES ARISING FROM BREACH OF WARRANTY, BREACH OF CONTRACT, NEGLIGENCE, OR OTHER LEGAL THEORY EVEN IF a.i. solutions, Inc. HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES, OR FOR ANY CLAIM BY ANY OTHER PARTY. Some jurisdictions do not allow the exclusion or limitation of incidental or consequential damages, so the above limitation or exclusion may not apply to you.

10. General Provisions. Neither this Agreement nor any part or portion hereof shall be assigned, sublicensed or otherwise transferred by you. Should any provision of this Agreement be held to be void, invalid, unenforceable or illegal by a court, the validity and enforceability of the other provisions shall not be affected thereby. If any provision is determined to be unenforceable, you agree to a modification of such provision to provide for enforcement of the provision’s intent, to the extent permitted by applicable law. Failure of a party to enforce any provision of this Agreement shall not constitute or be construed as a waiver of such provision or of the right to enforce such provision. If you fail to comply with any terms of this Agreement, YOUR LICENSE IS AUTOMATICALLY TERMINATED.

YOU ACKNOWLEDGE THAT YOU HAVE READ THIS AGREEMENT, THAT YOU UNDERSTAND THIS AGREEMENT, AND UNDERSTAND THAT BY CONTINUING THE INSTALLATION OF THE SOFTWARE, BY LOADING OR RUNNING THE SOFTWARE, OR BY PLACING OR COPYING THE SOFTWARE ONTO YOUR COMPUTER HARD DRIVE, YOU AGREE TO BE BOUND BY THIS AGREEMENT’S TERMS AND CONDITIONS. YOU FURTHER AGREE THAT, EXCEPT FOR WRITTEN SEPARATE AGREEMENTS BETWEEN a.i. solutions, Inc. AND YOU, THIS AGREEMENT IS A COMPLETE AND EXCLUSIVE STATEMENT OF THE RIGHTS AND LIABILITIES OF THE PARTIES. THIS AGREEMENT SUPERSEDES ALL PRIOR ORAL AGREEMENTS, PROPOSALS OR UNDERSTANDINGS, AND ANY OTHER COMMUNICATIONS BETWEEN a.i. solutions, Inc. AND YOU RELATING TO THE SUBJECT MATTER OF THIS AGREEMENT.

*Required field

FreeFlyer® 6.10 new features, NASA GPM mission launches, JWST contract analysis, The FreeFlyer API and GPU computing for space mission operations

Introducing FreeFlyer 6.10

a.i. solutions is pleased to announce that FreeFlyer 6.10 is now available for download!  Like all major releases of FreeFlyer, version 6.10 contains numerous enhancements and new capabilities.

New Propagation and Modeling Capabilities

  • Added new VisibilitySegment and VisibilityCalculator objects for computing visibility from an observer to a target
  • Added new Spacecraft.ParticleFlux and Spacecraft.ParticleFluxTimes methods for calculating flux of electrons and protons during solar minimum or maximum
  • Added new Spacecraft.CardinalPoints interval method for computing the times when the Spacecraft crosses the four cardinal points of its orbit with respect to any celestial object
  • Enhancements to Spacecraft.PassData algorithm for identifying the maximum elevation of a pass
  • Added option to control reporting of partial interval method events
  • Added new setting to control the relative error threshold for several integrators
  • Improved covariance interpolation with ephemerides

Output Enhancements

  • Added a new GridWindow Object to display a grid of data
    • Ability to display any number of rows and columns and update the values of each cell dynamically
    • Ability to control font typeface, size, color, and alignment
    • Ability to set color rules to automatically change cell text or background color
    • Ability to define cells that span multiple rows or columns
    • Ability to easily view a Matrix in grid format
  • Added a new profiling capability, which reports information about how much time is spent in different sections of a Mission Plan

Orbit Determination Enhancements

  • Improved the Tracking Data Editor
    • Ability to display multiple measurement types simultaneously
    • Ability to set the default data type and measurement types to view
    • Ability to view scaled measurements and residuals
    • Added ability to perform sigma-threshold editing
    • Ability to use a List of Observations as the input data source instead of a tracking data file
    • Added ability to report the number of observations in a tracking data file
  • Improved processing speed for the Batch Least Squares estimation process

 Miscellaneous Enhancements

  • Improved LoadNoradTLE robustness
  • Various improvements to the FreeFlyer Ephemeris Version 2
  • New Sample Mission Plans
  • New syntax examples throughout Help File
  • Updated Station Locations file

FreeFlyer 6.10 – A Closer Look at Two New Features

The VisibilityCalculator and VisibilitySegment Objects

FreeFlyer 6.10 introduces two new objects for visibility calculations:  the VisibilitySegment object and the VisibilityCalculator object.  The VisibilitySegment object allows the user to define an observer and a target, manage occulting bodies, configure models for refraction, configure target and occulting body shapes, and compute visibility at a specified time or over a time interval. The VisibilityCalculator object lets you combine multiple VisibilitySegments in order to determine the times when any or all of the segments have visibility.

These two objects also utilize advanced new refraction models and options added to FreeFlyer 6.10.  Users now have access to five refraction models:

  • Numeric – Single Chapman Profile
  • Numeric – Multiple Chapman Profiles
  • Numeric – Exponential
  • Analytic – Chapman
  • Analytic – Tracking and Orbit Determination (TRORD)

In addition, refraction modeling is no longer limited to groundstation-to-spacecraft.  FreeFlyer 6.10 allows users to use any of the above models to compute refraction from any object to any object, including spacecraft-to-spacecraft.

Picture 1

The Grid Window Object

FreeFlyer 6.10 introduces a new GridWindow object for displaying real-time data on output windows.  One or more GridWindows can be added to any Mission Plan and be completely customized to display any desired data or status messages in a unique grid format.

The screenshot above is from a new Sample Mission Plan included with FreeFlyer 6.10 called “VisibilityCalculator”, which computes coverage analysis of six GPS satellites (targets) with three different groundstations (observers) and reports the coverage analysis to a GridWindow.  “Visible” or “Not Visible” is reported in real-time for each target and observer in a dedicated cell in the GridWindow, and color-coded according to user-specified parameters.

Success story: James Web Space Telescope (JWST) Contact Analysis

a.i. solutions’ flight dynamics engineers and software developers on the JWST mission collaborated to develop and prototype a novel Contact Analysis tool. The tool, based on the Polaris framework developed by a.i. solutions, automates FreeFlyer-based communication analysis, reads in FreeFlyer ephemerides and contact statistics,  and plots the results in a Java-based GUI. The Polaris Contact Analysis tool extends FreeFlyer’s ability by allowing capabilities such as zooming and free-hand markup.

By using the Contact Analysis tool, the JWST engineers were able to improve on an unwieldy and time-consuming process that involved importing contact data into a spreadsheet and then manually creating shapes and graphics to match the contact times. In addition to speeding up the workflow, the Contact Analysis tool leverages FreeFlyer to provide greater insight and flexibility into the dynamics of the JWST system. Finally, the “dashboard” view also enables mission managers to understand a systems-perspective of the analysis.

Picture5

NASA/JAXA GPM Mission Launches

The Global Precipitation Measurement (GPM) Mission, an international partner mission between NASA and JAXA, successfully launched on February 27, 2014 from Tanegashima Space Center, Japan. GPM will take regular measurements of rain and snow levels around the world and builds on the highly successfully Tropical Rainfall Measuring Mission (TRMM).

a.i. solutions is proud to say that GPM is utilizing FreeFlyer for its operational Flight Dynamics System (FDS).  FreeFlyer will be used daily for orbit propagation, contact analysis and event predictions, orbit determination, and maneuver planning for the life of the mission.

a.i. solutions on the ISS

a.i. solutions engineers at NASA KSC recently helped develop an experiment that flew on the International Space Station.  The a.i. solutions logo is visible in this great picture of NASA astronaut Rick Mastracchio as he performs the SPHERES-Slosh experiment as part of the day’s science activities.

Picture4

Coming Soon –  the FreeFlyer API

Application Programming Interfaces (APIs) are powerful means for applications to communicate directly with each other. We are excited to announce that a FreeFlyer API will be available in a future release, allowing users to call FreeFlyer directly from programs written in other languages, such as C# or Java, without having to make system calls or run each program individually. This API will increase FreeFlyer’s flexibility and interoperability for use in custom applications – stay tuned for more information!

GPU Computing for Massive Parallel Propagation

GPU computing has garnered much attention in recent years as an alternative to CPU computing, due to the efficient nature of its parallel processing capabilities.

a.i. solutions engineers Dr. Abel Brown, Michael Demoret, and Jason Tichy have implemented a GPU computing approach for two vital space domain problems: conjunction assessment (CA) and spacecraft/debris propagation on massive scales (i.e. millions of objects).  Utilizing commercial grade graphics cards and the CUDA programming language, a custom application was made to perform massive parallel propagation and CA.  Users can also visualize and interact with the outputs (created using OpenGL) much as they would with FreeFlyer.  The screenshot below captures the GPU pushed to its limits – propagating and visualizing 5,000,000 objects simultaneously.

The conditions of this simulation were as follows:  Gravitational effects from Earth zonals J2-J6 along with solar/lunar perturbations, and an RK4 fixed-step integrator with a 5-second step size.  This 5,000,000 object catalog was created by taking a representative sampling of the existing unclassified space catalog and expanding it to massive scale.  At full speed, this simulation is propagating 5,000,000 objects x 15 frames/second x 6 steps/frame = 450,000,000 propagation steps/second! 

 “All of this was accomplished with two Tesla K20X GPU processors, which cost less than $5,000 each”, Demoret said.  “Running an equivalent simulation on a CPU system would require hundreds to thousands of traditional processing cores.”

Picture6

a.i. solutions has moved past the proof-of-concept phase for GPU computing and is putting it to operational use on the NASA Magnetospheric Multiscale (MMS) mission. MMS is comprised of 4 spacecraft flying in a tightly spaced tetrahedron.  At times, the sides of the tetrahedron are only 10 km long – tight quarters even in space. The a.i. solutions MMS Flight Dynamics team required a means to simulate a huge number of possible formation evolution cases (100,000+) due to environmental forces and formation maintenance maneuvers.  Furthermore, this analysis needed to be run daily or as needed and fit into a rigorous operations schedule.  To accomplish this, a.i. solutions developed custom code to execute numerical propagation of the MMS formation on a GPU card in the MMS MOC.  This GPU solution reduced computational run-times for each run from two weeks down to 20 minutes or less. Click here to see this video in HD!

NSS 2014

The 30th annual National Space Symposium is rapidly approaching and a.i. solutions is excited to showcase our latest technologies, including our Polaris development platform and our GPU computing capabilities that are discussed in this newsletter.  Be sure to stop by booth #304 and check them out!

“Success is a science; if you have the conditions, you get the results.”
– Oscar Wilde


“Pleasure in the job puts perfection in the work.”
– Aristotle

 

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