Tildesley Report

CEOS WGISS Subgroups and Task Teams Meeting

April 20-24, 1998

Bernried, Germany

Paul Tildesley
CSIRO Marine Research

Welcome by WGISS chair, Takashi Moriyama (copy of overheads available)

In his opening address, Mr Moriyama outlined his plans for WGISS for the next 2 years. He expressed the view that the subgroups & task teams have valuable technical expertise and apply considerable effort to the development of tasks. He wishes to utilise these to achieve a greater impact of WGISS activities on future agency programs through the increased adoption of WGISS efforts.

Mr. Moriyama's objectives for the next 2 years are:

to enable the output of WGISS efforts to be more clearly identified and the wider context of those results to be more clearly understood.
to achieve greater awareness of WGISS results, within member agencies, affiliates and observers and with external bodies, including more frequent and direct liaison with the user, industry and standards groups.
to improve the success in adoption of WGISS products and recommendations (especially by the funding agencies of WGISS itself as well as by others).

Achieving these objectives will require:

identifying which ISS topics are of strategic importance to the funding agency future programs and to the program data users.
at the WIGSS level, choosing which subgroup/task team tasks on which to focus adoption and promotion. Tasks may be adapted or evolved if necessary.
supporting effort on promotion and links for outreach.

In choosing which strategic areas and which tasks to concentrate on, it is recognised that the WGISS funding agencies and their data users are the main customers.

customer demand is the main criterion
consider the missions for the next 4-5 years as a suitable target for CEOS-WGISS effort.
how do the current efforts relate to the ISS programs of these missions? What output will be generated for their use?
which strategic needs do they have in common which we should be focussing on?

Subgroups and task teams are well placed to recognise the areas of strategic importance and identify the future value of our efforts for programs.

The discussion session on Tuesday afternoon will discuss the current status of adoption of WG/TT efforts, the needs of next generation programs, and the CEOS-WGISS future focus. There is to be a WGISS and WG/TT chair strategy session on Thursday afternoon to develop input for the WGISS-6

Meeting in Frascati on May 13-15.

Introduction to the data subgroup Gunter Schreier (copy of overheads available)

Subgroup will include presentations from the Global Mapping, Archive and Format task teams, agency reports and a discussion of future data subgroup activities.

CEOS was created by a G7 initiative with 3 subsections (see diagram in overheads)

CEOS WGISS
CEOS WGCV
CEOS IGOS

CEOS-WGISS has 3 subgroups (data, access and networks) and the data subgroup has a number of current task teams (team leaders and their affiliations are shown in the overheads):

1 km AVHRR TT (with IGBP-DIS)
GLOBE TT (with IGBP-DIS)
Auxiliary Reference and Guide TT
Format Guidelines TT (with CCSDS)
Data Interoperability TT
Global Mapping TT
Archive TT (with CCSDS)

The previous Data subgroup meeting was in Stresa, Italy on 24-26 September 1997. A list of action items from that meeting was briefly discussed.

The previous WGISS meeting was in Bangalore, India. A list of action items from that meeting was briefly discussed.

The 10th CEOS Plenary (Canberra, 13-15 November 1996) accepted the recommendations from the Seattle ad-hoc meeting on an Integrated Global Observation Strategy (IGOS). The 6 proposed initial IGOS implementation projects selected by the Strategic Implementation Team are:

global ocean data assimilation
upper air network & tropospheric winds
continuity of stratospheric ozone observations
global observation of forest cover
long term ocean colour measurements
disaster monitoring and management support

Lead agencies and points of contact are in the overheads.

CEOS WGISS in Ottawa was concerned with the IGOS activities (possible duplication of effort, should use WGISS developed systems & experience) and drafted a memorandum to be delivered to IGOS stating these concerns and offering support for technical infrastructure. There was an IGOS-WGISS-WGCV workshop in Ispra, Italy in March 1998 for the presentation of IGOS requirements and WGISS capabilities.

Gunther outlined CEOS activities with regard to developing countries (in particular CILS CEOS Information Locator Service) and tried to get discussion of what projects at the working group, subgroup or task team level could attract the interest of or could help developing countries.

Gunther then talked about the current structure of the Data Subgroup and its task teams and the possibility of restructuring it to get better user interaction, to get better visibility of CEOS projects and to strengthen the technical standardisation work by closer interaction with other standardisation bodies. Some ideas on restructuring were presented in diagram form (see the overheads). Gunther seemed to be suggesting that all 3 subgroups (data, access and networks) be involved in implementation tasks.

The next meeting of the Data Subgroup will be in Boulder, Colorado on 21-25 September 1998.

Global Mapping Task Team Mike Botts (University of Alabama at Huntsville)

Task team started in 1996, URL is http://vast.uah.edu/ceos/ceos.html. The task team is addressing the problem of there being no international recommendations or standards regarding map projections to allow presentation of global data in a manner suitable for data interchange or intercomparison. There is also the general problem that map projections used by projects are often not fully specified, often due to poor understanding of map projections. A major initiative of the task team is to write a book "Digital Mapping of Global Observation Data" to provide information on mapping to people working in the area. The chapters of the book are to be:

Part I.

1. Introduction to Global Mapping of Earth Observation data

2. Traditional Mapping Projections

3. Datum (vertical and horizontal)

4. Available Map Projection Algorithms and Software

5. Metadata for Map Projections

6. Distortions and Artifacts from Projection and Reprojection

7. Resampling and Interpolation Methods

8. Alternative Gridding Schemes

9. Multi-Dimensional Mapping Time and 3D

10. On-Demand Mapping of Dynamic Sensor Data

Part II

1. Promising Directions

2. Recommendations for Global Mapping in the Next Decade

Appendix A Current Use of Map Projections World Wide

Appendix B Contents of CD-ROM

Mike Botts and Peter Muller will be the editors of the book. Volunteers are being sought to write chapters or parts of chapters (about half of the chapters have volunteers already, see handout sheet). There was some discussion of how to find a publisher, what to do about royalties and the need to slightly separate this exercise from CEOS activities (because of copyright and non-free constraint).

Iridium Presentation (I did not catch the name of the presenter)

Iridium is a satellite-based global telephone system. It is 10% owned by Motorola. It has (will have?) 15 business centres throughout the world with a communication centre in Washington, D.C. There are currently different standards for mobile phones through the world, with GSM in Europe and IS41 in the Americas. A common standard (UMTS) is coming. The terrestrial coverage will be 8-10% and the rest will be available for satellite communication.

Iridium has 6 polar orbital planes, at an altitude of 780 km, with a total of 66 satellites, each with a 7 year lifetime. One third of the fuel will be used at the end of a satellites life to steer the satellite into the atmosphere to burn up. There are 6 spare satellites in orbit, one per orbital plane.

An Iridium satellite is basically a flying GSM tower. It has 3 antennae with 16 beams each. It has a circular footprint of 4700 km at the equator, made up of 48 cells. Inter-satellite links are at 23Ghz.

63 of the 66 satellites are now in orbit. 1 or 2 are not working. A new satellite can be assembled and tested in 1 week. (I have subsequently seen the launch schedule for Vandenberg Air Force Base. It includes 2 launches of 5 Iridium satellites each in May 1998 and a further launch of Iridium satellites in June 1998. This does not seem to be consistent with the information above).

Handsets are made by Motorola and Kyocera. GSM handset plugs into a docking station for satellite communication. GSM handset is about 100 grams, about 400g with docking station.

Terrestrial systems are partners Iridium helps them to cover the world.

Iridium need a direct connection between the handset and the satellite so the handset needs an antenna above the head. It folds out. Cannot use the handset inside of a building, you must go outside.

Can also use Iridium for a pager, either stand alone or with a phone. Messages up to 200 characters. Pager signal can be received inside a building (it is transmitted with a higher power).

Data and fax are 24Kbps links, voice is 3.5Kpbs.

Handset power is 0.82 watts, compared to 2 watts for GSM900, 1 watt for GSM1800.

Voice and pager start 23 September 1998.

Data and fax start early 1999 (up to June at worst).

Handset costs about $3000.

Call cost depends on distance but $2 - $10 per minute (based on competition).

AVHRR 1Km Project

This has been extended by NASA due to internal pressure and requests to overlap for 1 year with MODIS (AM1) and MERIS (EnviSat). Both of these projects are late MERIS is expected in mid-2000.

GLOBE (Dave Clark NOAA NGDC)

GLOBE is a project to create a global 1-km digital elevation map (DEM) by including the best available datasets and by encouraging specialists to participate in the production and review of the data. (See http://www.ngdc.noaa.gov/seg/globsys/globe.html for information on GLOBE). GLOBE version 1.0 was completed in January 1998 and is currently in internal review by GLOBE participants. Should be available on CD-ROM by mid-1998.

ETOPO30 is the best available at present.

Shuttle Radar Terrain Mapping (SRTM) spot validation of GLOBE using ERS1/2 interferometry (30 metres).

Kyoto / Montreal Protocol (Dave Clark NOAA NGDC)

Images of fires in Indonesia and Brazil fire detection using GOES, DMSP, POES. 75% of fires detected by each sensor are unique to that sensor. This is mostly due to time of overpass.

Overview of High-Resolution Imagery (R. Suresh, Ratheon STX contracted to NAA GSFC)

Suresh presented a list of planned earth observation satellites (see documentation). The list is incomplete and inaccurate due to the commercial nature of many satellites and the demise of some projects since the list was compiled. The increasing commercial nature of earth observation will have an impact on data interoperability.

Orbimage's strategy is to launch multiple satellites with fine resolution in order to get coverage.

Spot 4 & 5 will have vegetation bands with 1.125 km resolution.

EO-1 may be reconfigured to do some of what the Clark Project was supposed to do.

Radarsat-2 announced with 3m resolution.

SO the amount of information is rising fast and this raises these issues:

heterogeneous data archives will all data be archived?
storage media
protocols
data quality
scalability
commercial software
application software integration

His conclusion CEOS data subgroup needs to monitor the planned commercial launches. May need to encourage interaction between commercial data providers and others. Need to discuss and develop a plan for data interoperability.

The "CEOS Dossier" contains information on current and planned satellites.

Response to Suresh from Gunther Schreier

Current CEOS Dossier only recognises CEOS member satellites. A British company has a contract to update it every 2 years. It is available on the web for last year.

How to get an overview of planned systems

what parameters should be in?
putting together is easy, maintaining is harder (things change quickly).
maybe need a task team on commercial space so that agencies talk to their commercial industries.
is commercial data applicable to science? (yes eg SeaWiFS, SPOT, veg)
is commercial data calibrated (CEOS cal/val)
is commercial data needed for global change / IGOS projects eg Radarsat for cover of tropics. Yes probably wont be a Landsat 8 because data will be available from commercial satellites.
list of parameters roughed out much of this information could come from "Space News"

Subgroup on data recommendations to WGISS

consider extending CEOS Dossier to include commercial satellites.
consider expanding list of parameters in the dossier in order to better evaluate capabilities and potential gaps.
consider a workshop with industry to exchange and obtain information for the new dossier and explore issues of interoperability

consider establishing a CEOS member task team bringing together relevant CEOS (????) to create a forum for tracking commercial Earth Observation activities and give the commercial sector an interface to CEOS (there could be some political sensitivities here).

Global Datasets (Gunther Schreier)

Global AVHRR is a success

There are new opportunities for global datasets (MODIS, MERIS,) IGOS is active in this area (GOFS).

CEOS outreach activities (see Moriyama tomorrow) any ideas for the year 2000?

first image of 2000
"state of the earth" in 2000 eg Landsat mosaic of earth
a day in the life of Earth (CD-ROM in style of the books)
tubsat German satellite with video downlink can monitor one place on earth for 5 minutes
triana (Al Gore) satellite always in daylight resolution now looking like ~8km.

NOAA Report (David Clark) (see documentation)

Recent NOAA initiatives include

NOAA/NASA Pathfinder CD of climate data about to be released, containing

1. AVHRR land

2. AVHRR Ocean

3. TOVS A

4. TOVS C1

5. TOVS C2

6. SSM/I Precipitation

7. SSM/I Atmospheric moisture

ESRI Map Server
- Image spreadsheet (http://globe2.ngdc.noaa.gov.cgi-bin/wist/uawist.pl)

an interactive grid of graphics controlled by the user with a web browser for comparing and contrasting multiple data sets

DIAL (R. Suresh, Raytheon STX) (one page documentation)

DIAL Data and Information Access Link.
Earlier project "DAAC in a Box" evolved into DIAL
Package of software tools based on WWW technology
Data server to help small data provider to manage data and metadata
works with image and non-image data
can display and subset data and metadata
based on client-server model. Client side is web browser, server side is HTTP server, HDF library & administration tools.
metadata stored in binary files with linear search capability.
Java based user interface to define search area.
can download data as binary, ASCII or HDF.
code is Java, C and CGI scripts.
currently runs on SGI, Sun, HP. Windows 95 & NT will be running within a month.
DIAL is a prototype (funded by EOSDIS)
URL is http://hops.stx.com/dialhome.html

CILS (Steve Foley, DERA) (see documentation)

CILS is CEOS Information Locator System (for developing countries). Aim is to help users to find relevant sources of EO information.
CILS is a DLR initiative.
needs to withstand poor networks & unreliable machines.
there are CILS servers around the world, including Canberra (EOC).
synchronisation between servers, using NNTP.
DLR and JRC are the main servers, others try to talk to these first
information on & history of project available on web pages http://cils.dlr.de & http://cils.ceo.org.

Considerations to the future of WGISS (Takashi Moriyama, NASDA) (see documentation)

Mr. Moriyama wants to initiate a discussion on these areas:

to identify which EO ISS topics are of common strategic interest in the timeframe of our funding agencies' next generation missions.
to take stock of what WGISS is currently doing to support these missions in those areas and to consider what we could do to achieve more direct support of their needs.
to identify which of our current TTs should be the focus of our efforts in developing future projects.
to raise specific ideas for suitable projects in the strategic areas topics, partners, customer.

Mr. Moriyama wanted any comments on these areas before WGISS-6.

Proposal for WGISS Task Team Contribution to IGOS

to identify which TTs can contribute to WGISS 5-year plan
to propose a multi-TT effort to show how WGISS can contribute to IGOS pilot projects such as:
- Theme an integrated WGISS effort to support scientists by creating a single virtual pickup point for obtaining remote sensing data for IGOS pilot projects. Key points are network interconnectivity, catalogue interoperability & data interusability (interoperability).
- IGOS Pilot Project support team potential members are WGISS chair & vice-chair, SG chairs & vice-chairs. Functions are:
  - integrate the task team
  - coordinate with IGOS to define science requirements.
  - create schedules & work plans for IGOS pilot project demonstrations.
- anticipated participating Task Teams:
  - from Access subgroup
    - IDN TT/CILS TT to provide directory information.
    - PTT to provide catalog interoperability protocol (CIP).
    - CINTEX TT to provide catalog interoperability infrastructure using CIP or IMS V0.
    - browse TT to provide browse guidelines for ocean colour data.
    - WWW TT to be determined
  - from Data subgroup
    - data interoperability TT to provide ocean colour data access with WWW I/F
    - format guidelines TT to define format guidelines for ocean colour data.
  - from Network subgroup
    - network performance TT to confirm network reliability and capacity to do data and catalog interoperability.
    - network resources TT to confirm network capacity.
    - network architecture TT to be determined

(structure diagrams included in documentation)

IGOS Long Term Ocean Biology Pilot Project
target data
- existing data (OCTS & SeaWiFS)
- future data ( ADEOS-II/GLI, EOS-AM/MODIS, ENVISAT/MERIS)
milestones
- June 1998: create an integrated team to define the work plan for Ocean Biology EO data access via WWW.
- July 1998: initial demonstration using ocean colour data and information for IGOS - Long Term Ocean Biology Project.
- October 1999: publish an interim report about lessons learned in WGISS Task Team integration
- 2000: publish a final report.

Archive Task Team (Lars Alm) (see documentation)

EOS meeting on 15/16th October 1998 Endinburgh. First day is on archiving.
priority of the group is to work on archiving/interchange format. Have developed a Reference Model for an Open Archival Information System (OAIS) - see documentation.
CCSDS meeting in June ("Digital Archive Directions", Houston/Maryland??)- standard was supposed to become ISO draft standard and CCSDS ref book standard (CCSDS Panel 2).
model includes migration of data to other archives and other media.
model defines mandatory functions of each box, eg metadata: lists 7 kinds of metadata that must be supplied and gives standard names for these. model does not talk about implementation.
full document white book available in MS word 6 format at ftp://nssdc.gsfc.nasa.gov/pub/sfdu/isoas/us07/CCSDS-650.0-W-1.m51
related documents and other information related to the ISO-CCSDS activities in the archiving area (international & national workshops) are available at http://WWW.gsfc.nasa.gov/nost/isoas/overview.html.
once model is sorted out, panel will start to work on standards within the model
CCSDS documents available on-line (WWW) and on CD. The documents are coded as:
- white book working document
- red book draft standard
- green book tutorial on blue book
- blue book agreed standard

NASDA Agency report (Satoko Horiyama) (see documentation)

TRMM
- the TRMM satellite was launched successfully on November 27, 1997.
- the Precipitation Radar (PR) was powered on December 9, 1997.
- PR initial checkout was performed over a 2 month period specified performance (rain resolution of 0.7 mm/h) was confirmed.
- PR has been operating in a nominal observation mode since February 4, 1998.
- PR Level-1 product was calibrated by using a ground radar calibrator & will be distributed world wide around the end of May.
- PR level-2,3) CAL/VAL is now being performed by US/Japan joint science team members.
- Target for level-2,3 is August 1. Data will then be distributed by various media including Internet.
- TRMM users will be able to access TRMM catalog & browse & order TRMM data with EUS from August 1.
ADEOS-II
- Satellite Status
  - as a result of the ADEOS accident, NASDA are making efforts to improve the solar array paddle and tension control mechanism
  - launch of ADEOS-II still planned for fiscal year 1999 (Up to March 2000) but schedule being reconsidered.
  - the first critical design review (CDR) was completed in March 1998. In this CRD, parts whose design did not change were evaluated. The second CDR is planned for July 1998 & parts with design changes will be evaluated.
- Ground Segment Status
  - CDR for the receiving system was held in February 1998 & manufacturing phase is ongoing.
  - the other major mission subsystems are in the critical design phase. CDR will be held from this May to June.
  - due to COMETS launch failure, a data relay function between ADEOS-II and COMETS will not be available. NASDA will be able to acquire all mission data without the use of COMETS (except for GLI-250m data) by means of ground stations. Acquisition patterns for GLI-250 being studied. (COMETS is a data relay satellite launched February 1998. It is in the wrong orbit. May be able to use ESA ALTIMIS instead).
  - NASDA decided to use NCSA-HDF format for AMSR level 1A and 1B data. For GLI level 1A and 1B data, no decision yet which HDF (NCSA-HDF or HDF-EOS) should be used.
EOIS (Earth Observation data and Information System)
- EOIS was developed to manage & distribute each observation data processed at the EOC
- EOIS is now in operation
- NASDA & NASA are developing catalog, browse and order interoperability for the ADEOS-II timeframe.
- EOIS enhancements for ADESO-II started at the beginning of1997 and is now in the preliminary design phase. PDR is planned for July 1998 & CDR planned for January 1999.
there was some discussion here on archive policies and definitions

definitions
- raw data baseband signal from satellite(ie downlink)
- level 0 data digital data extracted by frame sync
- level 1 or more processed by standard sensor algorithms
- raw data should be permanently archived
- if there is a level 0 product, raw data do not have to be kept permanently only archived for a particular period.
- level 1 or higher should be archived to make processing time shorter.
- advantage of using L0 data easier for network transmission, handled by standard file systems, easy to be automated.
- question what kind of information should permanently archived data contain?
- lesson learned Viking mission archived processed data not raw data. Cannot go back for reprocessing now that they know about some processing errors.

ESA Archive (Gian Maria Pinn) (see documentation)

Archive started 1975 with Landsat. Currently about 400Tb (SeaSat, MOS, Nimbus, AEM, Landsat, Tiros/NOAA, Spot, ERS-1/2, JERS-1, SeaStar, IRS-P3).

mostly HDDTs 98000 currently, 118,700 have been copied.
transcription: high bit rate to Sony D1, low bit rate to DLT7000.
current project archive management system uses SGI Onyx to drive robotics.
low rate data archiving facility
- stations write data to Exabyte
- historical HDDTs can be read as well
- expect about 1000 DLT tapes for ERS-1/2 datasets.
- compression of data on DLT only about 10%.
want to use format description language (EAST? from CNES) in order to extract sub-scenes from HSM system (ie. read less than a full file).
Landsat 7 - data exchange format with NASA to be agreed (LTWG ?). NASA will archive Landsat7 in level 0R format cannot go back to level 0 but NASA has said it will exchange data in L0 format.
ENVISAT Archiving Facility (ARF)
1 or 2 IBM J40 symmetric multiprocessor.
IBM NTP tapes (10 Gbytes, 9Mbytes/sec).
IBM Magstar Storage Library (500 to 3000 tape capacity).
ATM LAN for connection to other systems.
180 Tbytes/year expected.
No HSM, archive in 'dd' format, user products in 'tar' format.

JPL Alaska SAR Development Project (David Cuddy, JPL) (see documentation)

JPL is working to define a new tape format for SAR data.
stating with 4 existing documents (from CEOS,JPL & MDA, see documentation).
CEOS SAR format is now a bit old and stale needs updating.

Norway Archiving at Tromso (did not catch name of speaker)

NOAA archived for ESA using SHARK
JERS-1 HDDTs send to ESA
Radarsat
- all raw data received since 1996 archived on DLT.
- data interchange with RSI using CEOS level 0 .
ERS
- raw data archival rolling archive on HDDT. Since 3/98 on DLT.
- image data archive processed to 100m & archived on Exabyte since 1994. TSS LRI format (image data & header)
ENVISAT will give wind data with standard deviation of 1m/sec in range 1-200 m/sec.

Storage and Archival Manager File System (SAM-FS). (see documentation)

presentation by Gunther Klix, LSC Inc.
high performance 64-bit file system (Solaris)
advanced storage and archival facility
complete robotics and robotics management
customers include DLR, NASA, Aerospatiale, Boeing.
tape written in tar compatible format (they don't write with tar for performance reasons but tape is in tar format).

Discussion

need to define a format for data interchange
first define what is baseband
- frame synchronised
- byte aligned
- PN code removed
- time forward order
- bad data
- downlink compression removed
metadata
- version id.
- station id.
- satellite id.
- data take time on/off
- acquisition quality data

Format Guidelines Task Team (Wyn Cutdlip, DERA)

Goal to improve access to information on format systems and make recommendations on the use of formats (initially made formats but now looks at formats of others).

Objectives

1. issue & maintain a format guidelines ..

2. maintain a repository of CEOS format documentation.

Final draft (2) of format guidelines is currently undergoing agency review

see http://www.space.dera.gov.uk/

Access to Atmospheric data at DLR's ATMOS User Centre (see documentation).

value added products from ERS-2 and ENVISAT
archiving centre for Atlas 1,2,3
all data put into HDF format
extractor to pull out data requests
converter to put data into other formats (eg ASCII)

Suggestion

compile information on translators written by the agencies eg HDF to ASCII or to Excel spreadsheet.
Suresh is working on a translator between HDF and GIS formats (he is using ArcInfo).
Spot use Geo-TIFF format to make data able to be ingested into GIS.
ESA Esrin have produced a translator P.E.A. (??)

Wyn Cudlip challenge is to get the data into the users application.

DLR Research Effort

SAR (ERS, X-SAR) stored in wavelet form
allows search of data on features rather than location/time (eg. find all images showing a city near a river).
this is a new paradigm.
there will be a presentation on this at the next WGISS meeting. Cannot answer some queries by looking only at the metadata.
an active area of research is data mining.

NASA Agency presentation (Vanessa Griffin) (see documentation)

Organisational changes:

NASA has changed the name of the program to the Earth Science Enterprise.
- headquarters component is called the office of Earth Science
- Program office at GSFC is renamed the Earth Science Systems Program Office (ESSPO).
new associate Administrator for Earth Science Dr. Ghassem Asrar
- a search is under way for a new Science Division Chief and a new Program Scientist.
Mr. Al Diaz has been appointed as the new GSFC Director
- GSFC is the lead centre for NASA Earth Science Enterprise.
- Mr. Bill Townsend is Deputy Center Director at Goddard.
- Mr. Townsend is conducting a search for a new ESSPO Director.
Mr. Rick Obenschain is the Project Manager for the ESDIS Project.
Recently Mr. Obenschain made several key moves of persons in his organisation
Dr. Ramapryian moved to Deputy Project Manager
Mr. Ken MacDonald is the new Science Office Chief
At the SSPO level, Dr. Mary Cleave (formerly the SeaWiFS Project Manager) has accepted a temporary assignment as the ESSPO to lead all Data Systems Program Management.
- Ms. Martha Maiden continues to lead the EOSDIS Federation and all external Data Systems activities.

Status of the Data and Information System

EOSDIS Core Systems NASA continues efforts to get the ECS development completed to support the upcoming EOS missions.
- while development is at least 2 years behind the original schedule, NASA remains confident that the ECS system will be able to support AM-1 and Landsat data processing at launch.
- full capability planned for the ECS system has been delayed until Fall of 1999.
Flight Operation Centre (of ECS)
- ÿ NASA is having serious problems with the EOS flight software
- ÿ following the failure of the latest drop of the EOS software, NASA has begun examining options for fixing or replacing the flight software.
Problems with the flight software development have resulted in a delay in the launch of the AM-1 satellite until no earlier than December 1998.

EOSDIS Federation

NASA selected two dozen proposals, in 2 categories, to develop working prototypes of innovative uses and applications of the Agency's Earth science data & related research.
these 24 Earth Science Information Partners will form & develop the EOSDIS Working Prototype Federation.
the NRC held a workshop on Federations last month & their report is due soon.
the first meeting of the Federation is set for next week in Washington DC.

Mission Status

Operating missions
- NASA continues to operate several Earth Science Missions including Topex Poseidon, UARS, TOMS, SeaWiFs and OLS (lightning sensor).
TRMM
- the TRMM satellite launched November 27, 1997.
- satellite & instruments have performed nearly flawlessly thus far, and very good science data has been returned & produced.
- data from the 2 EOS instruments, LIS and CERES, are being produced by the LIS Science Team and the Langley Research Centre DAAC (CERES).
- data from the remaining instruments is produced (for the US) at the TRMM Data and Information System at Goddard,
- TRMM data will soon be available to the public through the GSFC and LaRC DAACs.
AM-1
- problems encountered with both the MOPITT and the CERES instruments while in environment testing. Both sent back for further testing and correction.
- the S-band receivers were also sent back to the factory for additional work.
- the AM-1 satellite will be re-assembled and ready for launch by the end of July.
- earliest launch data has slipped to no earlier than December 1998 due to problems in the flight software development.
Landsat 7
- difficulties also with Landsat 7. The power supply failure required complete rework of the ETM+ instrument. It is back in environmental testing.
- earliest launch for ETM+ is also in the December 1998 timeframe but could be later.
Upcoming missions
- 1998
  - Quickscat (the replacement for NSCAT instrument that was on ADEOS-1) will be launched in November.
- 1999
  - EO-1, the first ESE New Millenium Initiative (NMI) mission, is scheduled for launch in May.
  - SAGE-III will be launched on board the METEOR-3M in July.
  - the Schuttle Radar Topology Mission (SRTM) is set a shuttle mission in September.
  - the EOS ACRIM mission launch is set for October.
- 2000
  - ADEOS-2 and the Seawinds instrument will be launched early in the year.
  - VCL (Vegetation Canopy LIDAR), the first Earth System Science Pathfinder (ESSP) mission will be launched in April.
  - JASON-1 is scheduled for launch in May.
  - PM-1 will e launched in December
- 2001
  - SPARCLE, the second NMI.
  - ICESAT, the NASA LASER Altimetry Mission, is scheduled for launch in July.
  - GRACE, the second of the ESSP missions is also scheduled for launch in July.
  - SciSat, a joint mission between NASA (Total Solar Irradiance Mission) and CSA (SciSat) is planned for launch readiness in December.

NASA Agency presentation continued (Ken McDonald)

JEST

Java based client for access to archives etc.
not available at launch (maybe Spring 1999)
use RPC, DCE, Sybase used by ECS, CORE and JEST.
translates requests to these - does not use JDBC (Java database call ?).

Discussion of the role of "Science Outreach" office - actually is science interaction, talks to users etc to determine future requirements for system.

NASDA Agency report (Takeshi Sasada) (see documentation)

TRMM

launched Nov 27, 1997.
Precipitation Radar (PR) powered on Dec 9, checked out over 2 month period, performance ok.
PR operating in nominal mode since Feb 4, 1998.
data will be available from August 1.

ADEOS II

as a result of the ADEOS accident, NASDA are making efforts to improve the solar array paddle and tension control mechanism.
launch still planned for 1999 (fiscal year, up to March 2000) but the schedule is being reconsidered.
first critical design review completed in March 1998 (evaluated parts that did not change). Second CDR in July 1998 for changed parts.

ADEOS-II Ground segment

CDR for receiving system held Feb 1998, manufacturing phase is ongoing.
other major mission subsystems in critical design phase. CDR will be held from May to June 1998.
due to COMETS launch failure, data relay function between ADEOS-II and COMETS will not be available. (COMETS - data relay satellite launched Feb 1998. Satellite is in wrong orbit. May be able to use ESA ALTIMIS instead).
will be able to acquire all mission data, except for GLI-250m, by means of ground stations (cannot downlink GLI-250 & simultaneously). NASDA are studying GLI-250 acquisition patterns.
will use NCSA-HDF format for AMSR level 1A and 1B data. For GLI level 1A and 1B data, no decision yet whether NCSA-HDF or HDF-EOS should be used.

EOIS

EOIS (Earth Observation data and Information System) was developed to manage & distribute earth observation data processed at the EOC.
EOIS is now in operation.
Inventory search of the ADEOS-II standard products will be available via the EUS (EOIS User Interface Software) client.
EUS is distributed only to PIs and appropriate agencies.
browse for the ADEOS-II products will be available via EUS.
NASDA and NASA are developing catalog, browse & order interoperability for the ADEOS-II time frame.
EOIS enhancement for ADEOS-II started at the beginning of 1997 and is now in the preliminary design phase PDR is planned in July 1998 & CDR is planned for Jan 1999.

Centre for Earth Observation (CEO) (Michael Ketselidis) (see documentation)

On-line user access: from metadata to data.

1996-1998 period - CEO effort went into user access to metadata.
1998-2002 period - CEO effort will also go into data access.

New CEO activity - ASTRON (Applications on the Synergy of satellite Telecommunications, eaRth Observations & Navigation).

synergy of EO with the other Space Applications (satellite communications and satellite positioning) because of the technology advance & heavy investments in the two other sectors.
announcing the 5th European Earth Observation System (EEOS) Workshop, organised by CEO, BNSC, RSS & ESRIN, 15th and 16th October, 1998 in Edinburgh (UK) with the title: "Data access: from archive to real-time".

WGISS meeting Bangalore

in response to revised strategy paper, subgroup chairs and task team leaders asked to revise their activities and refocus on demonstration projects in conjunction with users.
CEOS CD-ROM 97 distributed to WGISS (done by CNES, Jean-Pierre Antikinidis antikinidis@cnes.fr, text on earth observation by an Australian). Contents are also on the web.
CEOS CD-ROM 98 focuses on time series.
data subgroup working on list of acronyms and lexicons.

Disaster Management

NOAA Office of Significant Event Imagery (OSEI) - can put yourself on email list and receive daily email listing new images (duc9.wwb.noaa.gov).
software for orbit display (Pegasus, STK (SDK?), Marshall software (LIFTOFF?) is expensive. Mike Botts is writing Java to do this. Should be available by mid-summer. Should be free for academic/research areas.
information on ground stations could be collected by WGISS (to be used in orbital display software to identify possibilities to acquire data).
is disaster management a demonstration project?

Data Subgroup restructuring - Gunther Schreier

data subgroup task teams have different characters. Global datasets (1km AVHRR, 1km topography), technical standards for ground segments (archive) and in between. There are currently 7 task teams in data subgroup.
global data initiatives in joint collaboration with IGBP (user organisation) but funded and organised from others. Little visibility within CEOS.
task teams function at 3 levels: discussion level, design & standards, implementation. Most task teams have all 3 of these.
(Wyn Cutlip) - we should prototype the future rather than try to standardise the past.
CEOS is not a funding agency and so it cannot drive implementation, so sometimes CEOS discusses, leaves it to someone else to implement and then approves a standard.
fit of global datasets in data subgroup - could merge 2 tasks (1km AVHRR & 1km topography) into "monitoring global datasets".
could merge standards & formats tasks.

NEXT MEETING - 21-25 September 1998. Boulder Colorado, USA.

Spring 1999 - Osaka, Japan.

Fall 1999 - to be determined.

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