{"payload":{"pageCount":1,"repositories":[{"type":"Public","name":"olsen-randerson","owner":"psu-inversion","isFork":false,"description":"Functions to perform the carbon dioxide flux temporal downscaling described in Olsen and Randerson (2004) and modifications from Fisher et al. (2016)","allTopics":["python","carbon-dioxide","carbon-flux"],"primaryLanguage":{"name":"Python","color":"#3572A5"},"pullRequestCount":1,"issueCount":0,"starsCount":1,"forksCount":1,"license":"BSD 3-Clause \"New\" or \"Revised\" License","participation":null,"lastUpdated":{"hasBeenPushedTo":true,"timestamp":"2023-12-23T04:25:09.951Z"}},{"type":"Public","name":"ameriflux-postprocessing","owner":"psu-inversion","isFork":false,"description":"Reformat AmeriFlux data files into NetCDF and add quality flags for outliers and low-turbulence conditions","allTopics":["quality-control","ameriflux","eddy-covariance","data-formatting"],"primaryLanguage":{"name":"Python","color":"#3572A5"},"pullRequestCount":0,"issueCount":0,"starsCount":1,"forksCount":0,"license":"BSD 3-Clause \"New\" or \"Revised\" License","participation":null,"lastUpdated":{"hasBeenPushedTo":true,"timestamp":"2023-12-23T03:17:59.817Z"}},{"type":"Public","name":"co2_flux_error_correlation_analysis","owner":"psu-inversion","isFork":false,"description":"Codes for calculation of temporal correlations in model-data differences, creating and fitting mathematical models, and cross-validating the fits.","allTopics":["mathematical-modelling","carbon-flux","autocorrelation-function"],"primaryLanguage":{"name":"Python","color":"#3572A5"},"pullRequestCount":0,"issueCount":0,"starsCount":0,"forksCount":1,"license":"BSD 3-Clause \"New\" or \"Revised\" License","participation":null,"lastUpdated":{"hasBeenPushedTo":true,"timestamp":"2023-12-22T23:22:30.550Z"}},{"type":"Public","name":"atmospheric-inverse-methods-for-flux-optimization","owner":"psu-inversion","isFork":false,"description":"Functions for optimizing surface fluxes of some tracer to be consistent with atmospheric measurements of that tracer.","allTopics":["python","carbon-emissions","inverse-problems"],"primaryLanguage":{"name":"Python","color":"#3572A5"},"pullRequestCount":3,"issueCount":0,"starsCount":4,"forksCount":1,"license":"BSD 3-Clause \"New\" or \"Revised\" License","participation":null,"lastUpdated":{"hasBeenPushedTo":true,"timestamp":"2020-08-27T14:12:54.996Z"}},{"type":"Public","name":"LPDM-postprocessing","owner":"psu-inversion","isFork":false,"description":"Utilities for postprocessing the output of the Uliasz (1994) LPDM into forms more useful for inversions.","allTopics":["postprocessing","lpdm","python"],"primaryLanguage":{"name":"Python","color":"#3572A5"},"pullRequestCount":0,"issueCount":0,"starsCount":1,"forksCount":1,"license":"BSD 3-Clause \"New\" or \"Revised\" License","participation":null,"lastUpdated":{"hasBeenPushedTo":true,"timestamp":"2020-07-30T12:24:24.332Z"}},{"type":"Public","name":"WRF_boundary_coupling","owner":"psu-inversion","isFork":false,"description":"Fortran code to couple global model passive tracer fields to WRF boundaries","allTopics":["wrf-boundary-conditions","fortran","geos-chem"],"primaryLanguage":null,"pullRequestCount":2,"issueCount":0,"starsCount":3,"forksCount":1,"license":"GNU General Public License v3.0","participation":null,"lastUpdated":{"hasBeenPushedTo":true,"timestamp":"2020-06-08T21:04:42.004Z"}},{"type":"Public","name":"git-cheatsheet","owner":"psu-inversion","isFork":false,"description":"A cheat sheet for Git","allTopics":[],"primaryLanguage":null,"pullRequestCount":0,"issueCount":0,"starsCount":0,"forksCount":5,"license":null,"participation":null,"lastUpdated":{"hasBeenPushedTo":true,"timestamp":"2017-10-30T15:32:37.626Z"}}],"repositoryCount":7,"userInfo":null,"searchable":true,"definitions":[],"typeFilters":[{"id":"all","text":"All"},{"id":"public","text":"Public"},{"id":"source","text":"Sources"},{"id":"fork","text":"Forks"},{"id":"archived","text":"Archived"},{"id":"template","text":"Templates"}],"compactMode":false},"title":"Repositories"}