modes detected by Gaussian fits

Use this Forum to find information on, or ask a question about, NASA Earth Science data.
Post Reply
meiyuanchen
Posts: 4
Joined: Wed Jul 27, 2022 5:12 am America/New_York
Answers: 0

modes detected by Gaussian fits

by meiyuanchen » Wed Oct 26, 2022 10:58 pm America/New_York

I'm also interested in the waveform decomposition results in the L2A data product. Two key data layers are "num_detectedmodes" and "selected_mode", the latter being the lowest-elevation mode that is considered "non-noise". When subtract selected_mode from num_detectedmodes, almost always get "1", indicating there is only one valid mode in the waveform. And Is the 'selected_mode' which is considered the "non-noise" and lowest-elevation mode in "num_detectedmodes" ?

Is this process meant to capture all modes in the waveform or is this simply a method of identifying the ground return?

Thanks,
Maye

Tags:

LP DAAC - dgolon
User Services
User Services
Posts: 283
Joined: Mon Sep 30, 2019 10:00 am America/New_York
Answers: 0
Has thanked: 15 times
Been thanked: 2 times
Contact:

Re: modes detected by Gaussian fits

by LP DAAC - dgolon » Fri Oct 28, 2022 10:09 am America/New_York

@meiyuanchen Hi Maye, thank you for your question. I have passed it on to our GEDI experts. We will post when we have an answer.
Subscribe to the LP DAAC listserv by sending a blank email to lpdaac-join@lists.nasa.gov.

Sign up for the Landsat listserv to receive the most up to date information about Landsat data: https://public.govdelivery.com/accounts/USDOIGS/subscriber/new#tab1.

LP DAAC - lien
User Services
User Services
Posts: 170
Joined: Thu Jun 25, 2020 9:51 am America/New_York
Answers: 0
Been thanked: 4 times

Re: modes detected by Gaussian fits

by LP DAAC - lien » Tue Jan 24, 2023 10:35 am America/New_York

Hi Maye,
Sorry for the delay, we needed to get direction from the GEDI Science team on this, fowwlowing is their response:
The two data layers that you have indicated, “num_detectedmodes” and “selected_mode”, are only part of the bigger picture here. The “num_detectedmodes” layer is simply a count of how many modes were detected in the rxwaveform by a specific algorithm. The “selected_mode” layer contains the index location of the lowest non-noise mode within the rx_modelocs/rx_modeamps/rx_modewidths arrays which are located within each of the “rx_processing_a<n>” subgroups. Each granule contains multiple “rx_processing_a<n>” subgroups in each beam where “<n>” represents the algorithm settings used to interpret the rxwaveform. To determine which “rx_processing_a<n>” subgroup the “selected_mode” and “num_detectedmodes” refer to, use the “selected_algorithm” data layer which will indicate which algorithm detected the lowest non-noise mode. For more information on “selected_mode” layer see section 4.3.6 in the GEDI L2A Algorithm Theoretical Basis Document.
Generally, the mode indicated in “selected_mode” is going to be the lowest (rightmost) mode within the rxwaveform but can be different after further processing. If the selected mode is not the lowest mode, a flag for the reason for why that mode was selected can be found in the “selected_mode_flag” layer. The explanation of the flags contained within “selected_mode_flag” can be found in Table 6 in the GEDI L2A Algorithm Theoretical Basis Document.
While all modes within the waveform as determined by each algorithm are captured in these data, the “selected_mode” and “selected_algorithm” can be used to indicate what the lowest non-noise mode is within the rxwaveform. A thorough read of the GEDI L2A Algorithm Theoretical Basis Document is recommended for more details on how these data layers, in combination with other data layers, are used to determine the ground return.

Thanks,
LPDAAC

Post Reply