SPACECRAFT DATABASE STANDARDISATION: AN OMG INITIATIVE - PowerPoint PPT Presentation

1 / 14
About This Presentation
Title:

SPACECRAFT DATABASE STANDARDISATION: AN OMG INITIATIVE

Description:

SPACECRAFT DATABASE STANDARDISATION: AN OMG INITIATIVE. Mario Merri - ESA/ESOC ... More at http://space.omg.org/ReferenceArchitecture.htm. Produced Requests ... – PowerPoint PPT presentation

Number of Views:104
Avg rating:3.0/5.0
Slides: 15
Provided by: bryanm9
Category:

less

Transcript and Presenter's Notes

Title: SPACECRAFT DATABASE STANDARDISATION: AN OMG INITIATIVE


1
SPACECRAFT DATABASE STANDARDISATION AN OMG
INITIATIVE
  • Mario Merri - ESA/ESOC
  • Roger Thompson - Science Systems (Space) Ltd.
  • Janice Champion - Boeing Satellite Systems
  • Gerry Simon - Lockheed Martin, USAF SMC Det 12 VO
  • Peter Shames - Jet Propulsion Laboratory
  • Mike Rackley NASA/GSFC
  • Jim Wetherbee - OMG Space Domain Task Force

2
Agenda
  • Introduction
  • The need of spacecraft database standardisation
  • Approach to work
  • Packaging database
  • Telemetry database
  • Command database
  • Conclusions

3
Object Management Group (OMG) and Space
  • OMG
  • Founded in April 1989
  • international not-for-profit software consortium
    aiming at setting standards in the area of
    distributed object computing
  • Vendor-neutral membership-driven organisation
  • About 800 members
  • Fast track standardisation process
  • More at http//www.omg.org
  • OMG Space Domain Task Force (DTF)
  • Established in September of 2000
  • Aimed at fostering the emergence of cost
    effective, timely, commercially available and
    interoperable space, satellite and ground system
    domain software components through object
    technology
  • More at http//space.omg.org

4
Space DTF Main Activities
  • Developed reference architecture
  • More at http//space.omg.org/ReferenceArchitecture
    .htm
  • Produced Requests for Proposals
  • RFP-1 Telemetric and Command Data Specification
  • RFP-2 Monitor and Control Data Access
  • Evaluated submissions to RFP-1

5
TM/TC Data Exchange
6
RFP-1 Problem Statement
  • TM and TC definitions must be exchanged
  • within/across organisations
  • within across systems
  • but
  • single mission supported by different systems and
    organisations
  • multiple heterogeneous missions supported by
    common ground segment infrastructure
  • implying that TM and TC exchange
  • is difficult, costly and error-prone
  • requires custom translation and ingestion of the
    TM and TC data
  • requires revalidation at each step
  • Solution
  • transparent transition from one ground system to
    another
  • standardization of the TM and TC data definition
    format

7
RFP-1 Objectives
  • Standardised information model for TM data
    definitions
  • Allow exchange of TM/TC Definitions
  • between Mission Phases
  • between Organisations
  • between Systems
  • without need for re-implementation or
    re-validation
  • Broad Scope within Space Data Systems
  • All Phases of Mission Lifecycle
  • All Segments of Mission Infrastructure
    (Spacecraft, Payload Ground)
  • Limited to Definition and not Transfer of TM/TC
    data
  • As Inclusive as Possible
  • Support Legacy Missions
  • Support Existing Standards
  • Extensible Mission Specific and Future Standards

8
RFP-1 Status
  • 3 submissions received describing in XML the
    current structure of their Telemetry and Command
    databases
  • European Space Agency (ESA)
  • Boeing
  • Lockheed Martin
  • Agreed way forward merge forces and work towards
    a single, combined, XML-based, response
  • NASA/GSFC and JPL support single submission
  • Organisation-specific software to be used to
    convert from the generic format to its own
    specific one

9
Approach to RFP-1 Integration
  • The submission integration work was split as
    follows
  • Boeing Telemetry
  • Lockheed Martin Command, Stream and Algorithm
  • ESA Packaging
  • NASA (GSFC JPL) Analysis and review
  • Coordination by e-mail, telecon and (some)
    meetings
  • Extremely challenging task
  • Different organisations backgrounds and culture
  • Different technologies used (e.g. ESA mainly
    CCSDS packet TM/TC, Boeing and Lockheed Martin
    mainly TDM TM/TC)

10
Data Description Context
11
Packaging Schema
12
Telemetry Schema
13
Command Schema
14
Conclusions
  • Standardisation of TM and TC definition is
    possible
  • for a broad range of common spacecraft operating
    modes and communication link designs
  • for a variety of different signaling and data
    structuring modes (i.e. packetised and TDM data)
  • for a variety of different commanding approaches
  • XML seems to be the right technology
  • Organisations might develop tools to convert TM
    and TC definition from the XML common format to
    their own proprietary format
  • The eventual publication of this standard will
    provide a common approach for the exchange of
    this data
  • significant reduction of cost and risk in
    development and validation expected
Write a Comment
User Comments (0)
About PowerShow.com