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Due to predicted outage for Copernicus Sentinel-3A In-Plane Manoeuvre, SLSTR Products degradation is expected for sensing time from 27/07/2023T08:05:45 to 27/07/2023T08:15:35 UTC.

Due to predicted outage for Copernicus Sentinel-3B In-Plane Manoeuvre, SLSTR Products degradation is expected for sensing time from 27/07/2023T07:30:39 to 27/07/2023T07:40:44 UTC.

Part of the auxiliary data required for Sentinel-5P Methane (CH4) originates from Suomi-NPP, a satellite that is operated by NOAA. This satellite entered a non-nominal state on 2023-07-26. As a consequence, science data won't be available to the Sentinel-5P processing system. More updates about the recovery will be published as available.

In addition to a significant impact on the CH4 data, some impact should be expected for the aerosol layer height product. At the moment the offline aerosol layer height product is using the near-real time methods to mask clouds from the incoming data. The resulting aerosol layer height product is still considered to be of usable quality. The unavailability also causes a minor quality degradation for the CLOUD offline product and subsequently for all other products that use CLOUD offline data as input, namely the O3, HCHO, SO2, and the O3-TCL offline products. However this impact is not critical and the mentioned products can still be considered of good quality

Our apologies for any inconvenience caused to your activities.

As a consequence of an acquisition anomaly at the Inuvik Ground Station, all related S2 production is unavailable since sensing time 20 July 2023 16:30 for S2A and 20 July 2023 20:00 for S2B, corresponding to between 25% and 30% of the whole production.

We apologize for the inconvenience this may cause to your activities.

Further news will be provided as soon as the anomaly is investigated.

We are pleased to announce new processing baselines for Copernicus Sentinel-3 concerning the following products:

  • [OL_L1.003.03.00] = OL_1_EFR in NTC and OL_1_ERR in NTC timeliness, delivered by ESA

  • [SYN_L2_.002.18.01] = SY_2_SYN and SY_2_VGP in NTC and STC timeliness delivered by ESA

  • [SYN_L2V.002.09.01] = SY_2_VG1 and SY_2_V10 in NTC and STC timeliness delivered by ESA

  • [AOD_NTC.002.08.01] = SY_2_AOD in NTC timeliness delivered by ESA

This Processing Baseline includes major changes for both OLCI and SYNERGY :

  1. Concerning the definitions of OLCI L1B flag definitions, the detection and flagging of pixels that include partially saturated spectra, an update in geometric spatial regridding to improve image continuity between the OLCI cameras, and a routine revision of OLCI geometric and radiometric calibration.

  2. Concerning the Spectral response functions, used to transform OLCI/SLSTR radiometric information into VGT band information, now updated and aligned with PROBA-V; the inclusion of SLSTR calibration factors and OLCI offsets defined during tandem mission; a correction regarding MIR radiometric values and the handling of saturation AOD and NDVI values.

Detailed information about the changes and the characterisation of the new versions of all these products is available in the following product notices:

The new processing baseline should be deployed on 18/07/2023 for Sentinel-3B and on 25/07/2023 for Sentinel-3A.

Worse than usual orbit accuracies have been obtained in the Sentinel-1A POD predicted orbit file (AUX_PREORB) for the past months due to the high solar activity. The S-1 SAR Mission Performance Cluster (SAR MPC) has confirmed that the current levels of accuracy of the predicted orbit files are still good enough to support the SAR focusing. Restituted orbit files (AUX_RESORB) show no routine degradation, except for a few cases in which strong solar geomagnetic storms took place – these were reported as dedicated S1 Quality Disclaimers (ie https://sar-mpc.eu/disclaimer/167/). Precise orbit files (AUX_POEORB) are in principle not affected by the higher solar activity. 

In order to quantify the degradation in the predicted orbit files, the AUX_PREORBs are routinely compared against the combined solution, which is a weighted average of non-time critical precise orbit products generated by the members of the Copernicus POD Quality Working Group (CPOD QWG), and is taken as reference to assess the accuracy requirements. The comparisons since the AUX_PREORB are generated are shown below, together with the F10.7 solar flux index, where the strong correlation between the increasing solar activity and the reported degradation can be observed. We attach also the 1-sigma per year (the value below which 68% of the comparisons are) of the AUX_PREORB and the S-1A GPS on-board navigation solution (which was used before the AUX_PREORB to support SAR focusing). This illustrates that predicted orbits are still much better than the navigation solution, even considering the recent worsening.

For context, the solar activity varies with a 11-year cycle. When there is high solar activity, a combination of effects makes the orbit computation more challenging: on the one hand, GNSS observations on-board become noisier due to the effects of the solar flux on the receiver; on the other hand, and more relevant for Precise Orbit Determination (POD), the atmosphere becomes more difficult to model because it changes its state more rapidly. This is especially cumbersome in predicted and near-real time products because predicted solar coefficients are used which then may differ greatly from the observed ones. The impact is especially remarkable when there are strong solar geomagnetic storms, of which there have a few occurrences in the past few months (e.g. 23/03/2023 and 23/04/2023).

At the Copernicus POD Service we are taking action to mitigate the effects of the high solar activity in the two mentioned fronts:

  • The CPOD QWG has issued a recommendation to modify the tracking settings of the GPS receivers on-board the Copernicus Sentinel satellites to reduce the impact of the high solar flux on the observations.
  • The CPOD Service is carrying out analysis to find a more robust predicted orbit parametrization which allows to model better the atmosphere, and is also assessing the possibility to update more frequently the solar coefficients.

Any future update or noteworthy degradation will be properly communicated through this channel, and via dedicated Quality Disclaimers if it impacts any AUX_RESORB or AUX_POEORB products. In addition, further information and any status update will be reported at the FRINGE ’23 (11-15 September 2023, University of Leeds).

Following the unscheduled downtime of the International Access Hub, the Sentinel-5P PreOps and the Collaborative Data Hub Node 3 occurred on 14 July 2023 at 13:20 UTC due to a power grid failure in our Greek datacentre, the Sentinels data access services have been successfully restored at 18:30 UTC of the 16th of July.

Products publication backlog has been gradually restored and eventually completed on the 17th of July.

We apologise for the inconvenience that this might have caused to your activities.

An acquisition issue affecting Sentinel-2A/B occurred on 16 July 2023 and induced the following unrecoverable loss of data:

· Datatakes S2B-33216-1, S2B-33216-2 and S2B-33216-3 are lost

· Datatakes S2B-33216-4 and S2A-42122-1 are partially lost

 

We apologize for the inconvenience this may have caused.

Following a power failure in our Data Centre in Greece, the backup supply systems were not able to supply the demand due to the extreme heat wave and failed.

The infrastructure provider is currently working with its suppliers to fix the issue. The current estimate is that the issue will be resolved late on Sunday the 16th of July.
Affected Copernicus services are:
International Access Hub, Sentinel-5P PreOPs and ColHub Node3.

Sentinel-5P data can be alternatively retrieved from the Copernicus Data Space Ecosystem. Users are invited to access the new Data Access Service.


Our apologies for the inconvenience that this might cause to your activities.

An update of the Copernicus Sentinel-5 Precursor (S5p) operational ground-processing system is planned to start in the morning of 19 July 2023 and finish by 20 July in the afternoon. This includes the addition of new variables related to a new parameter ‘SO2 Layer Height’ into the SO2 product, as detailed in the news of 30 May 2023.

Full detailed information will be provided within the SO2 documentation after the operational switch.

Please note that NRT products for data acquired during the downtime period will be not generated. After the successful deployment of the new system, version numbers of the first orbit generated with the new version of the operational processor both, in NRT and OFFL, will be provided.

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