{"payload":{"pageCount":1,"repositories":[{"type":"Public","name":"policy-based-self-competition","owner":"grimmlab","isFork":false,"description":"Official implementation of the ICLR 2023 paper \"Policy-Based Self-Competition for Planning Problems\"","allTopics":["gumbel-alphazero"],"primaryLanguage":{"name":"Python","color":"#3572A5"},"pullRequestCount":0,"issueCount":0,"starsCount":3,"forksCount":2,"license":null,"participation":null,"lastUpdated":{"hasBeenPushedTo":true,"timestamp":"2024-07-26T07:10:13.471Z"}},{"type":"Public","name":"step-and-reconsider","owner":"grimmlab","isFork":true,"description":"Variant of gumbeldore for the ECAI paper \"Take a Step and Reconsider: Sequence Decoding for Self-Improved Neural Combinatorial Optimization\"","allTopics":[],"primaryLanguage":{"name":"Python","color":"#3572A5"},"pullRequestCount":0,"issueCount":0,"starsCount":6,"forksCount":1,"license":null,"participation":[0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,2,0,1,0,0,0,0,0,0,0,0,0,1,0,0,0,0,0,2,2,0,0,0],"lastUpdated":{"hasBeenPushedTo":true,"timestamp":"2024-07-25T11:47:44.388Z"}},{"type":"Public","name":"gumbeldore","owner":"grimmlab","isFork":false,"description":"Official repository for the TMLR paper \"Self-Improvement for Neural Combinatorial Optimization: Sample Without Replacement, but Improvement\"","allTopics":[],"primaryLanguage":{"name":"Python","color":"#3572A5"},"pullRequestCount":0,"issueCount":0,"starsCount":12,"forksCount":1,"license":null,"participation":null,"lastUpdated":{"hasBeenPushedTo":true,"timestamp":"2024-07-19T12:42:00.388Z"}},{"type":"Public","name":"permGWAS","owner":"grimmlab","isFork":false,"description":"Efficient Permutation-based GWAS for Normal and Skewed Phenotypic Distributions","allTopics":["gwas","gpu-acceleration","permutations","linear-mixed-models","skewed-data","westfall-young"],"primaryLanguage":{"name":"Python","color":"#3572A5"},"pullRequestCount":0,"issueCount":0,"starsCount":24,"forksCount":3,"license":"MIT License","participation":null,"lastUpdated":{"hasBeenPushedTo":true,"timestamp":"2024-06-18T11:49:18.034Z"}},{"type":"Public","name":"ProLaTherm","owner":"grimmlab","isFork":false,"description":"Protein Language Model-based Protein Thermophilicity Prediction","allTopics":["bioinformatics","computational-biology","protein","protein-sequences","machine-learning-models"],"primaryLanguage":{"name":"Python","color":"#3572A5"},"pullRequestCount":0,"issueCount":0,"starsCount":2,"forksCount":0,"license":"MIT License","participation":[0,0,0,0,1,0,0,0,0,0,0,1,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,5,0,0,0,0,0,0,0,0,1,0,0,0,0,0,0,0,0,0],"lastUpdated":{"hasBeenPushedTo":true,"timestamp":"2024-06-13T10:45:42.905Z"}},{"type":"Public","name":"MFWD","owner":"grimmlab","isFork":false,"description":"Code repository for the manuscript \"Manually annotated and curated dataset of diverse weed species in maize and sorghum for computer vision\"","allTopics":[],"primaryLanguage":{"name":"Python","color":"#3572A5"},"pullRequestCount":0,"issueCount":0,"starsCount":6,"forksCount":1,"license":"MIT License","participation":null,"lastUpdated":{"hasBeenPushedTo":true,"timestamp":"2024-04-03T13:09:33.359Z"}},{"type":"Public","name":"drl4procsyn","owner":"grimmlab","isFork":false,"description":"Deep reinforcement learning uncovers processes for separating azeotropic mixtures without prior knowledge","allTopics":[],"primaryLanguage":{"name":"Python","color":"#3572A5"},"pullRequestCount":0,"issueCount":0,"starsCount":1,"forksCount":1,"license":"Other","participation":null,"lastUpdated":{"hasBeenPushedTo":true,"timestamp":"2024-03-25T19:52:52.867Z"}},{"type":"Public","name":"cem","owner":"grimmlab","isFork":false,"description":"Convex Envelope Method for determining liquid multi-phase equilibria in systems with arbitrary number of components","allTopics":[],"primaryLanguage":{"name":"Python","color":"#3572A5"},"pullRequestCount":0,"issueCount":0,"starsCount":1,"forksCount":0,"license":null,"participation":null,"lastUpdated":{"hasBeenPushedTo":true,"timestamp":"2024-02-09T06:17:06.594Z"}},{"type":"Public","name":"ForeTiS","owner":"grimmlab","isFork":false,"description":"Time Series Forecasting in Python","allTopics":["time-series-analysis","time-series-prediction","time-series-forecasting","python","machine-learning","deep-learning"],"primaryLanguage":{"name":"Python","color":"#3572A5"},"pullRequestCount":0,"issueCount":0,"starsCount":10,"forksCount":0,"license":"GNU General Public License v3.0","participation":null,"lastUpdated":{"hasBeenPushedTo":true,"timestamp":"2023-10-18T11:49:20.163Z"}},{"type":"Public","name":"easyPheno","owner":"grimmlab","isFork":false,"description":"easyPheno: a model agnostic phenotype prediction framework","allTopics":["machine-learning","deep-learning","genomic-selection","phenotype-prediction"],"primaryLanguage":{"name":"Python","color":"#3572A5"},"pullRequestCount":0,"issueCount":0,"starsCount":10,"forksCount":5,"license":"GNU General Public License v3.0","participation":null,"lastUpdated":{"hasBeenPushedTo":true,"timestamp":"2023-10-10T07:18:21.370Z"}},{"type":"Public","name":"ForeTiS-HortiCo","owner":"grimmlab","isFork":false,"description":"","allTopics":[],"primaryLanguage":{"name":"Python","color":"#3572A5"},"pullRequestCount":0,"issueCount":0,"starsCount":2,"forksCount":0,"license":"MIT License","participation":null,"lastUpdated":{"hasBeenPushedTo":true,"timestamp":"2023-09-05T12:44:59.236Z"}},{"type":"Public","name":"DeBlurWeedSeg","owner":"grimmlab","isFork":false,"description":"Improved weed segmentation in UAV imagery of sorghum fields with a combined deblurring segmentation model","allTopics":["deblurring","precision-agriculture","smart-farming","weed-segmentation","deep-learning"],"primaryLanguage":{"name":"Python","color":"#3572A5"},"pullRequestCount":0,"issueCount":0,"starsCount":1,"forksCount":0,"license":"MIT License","participation":null,"lastUpdated":{"hasBeenPushedTo":true,"timestamp":"2023-08-23T13:52:58.411Z"}},{"type":"Public","name":"UAVWeedSegmentation","owner":"grimmlab","isFork":false,"description":"Deep Learning-based Early Weed Segmentation using Motion Blurred UAV Images of Sorghum Fields","allTopics":["precision-agriculture","uav-images","weed-detection","weed-segmentation","deep-learning"],"primaryLanguage":{"name":"Python","color":"#3572A5"},"pullRequestCount":0,"issueCount":0,"starsCount":16,"forksCount":3,"license":"MIT License","participation":null,"lastUpdated":{"hasBeenPushedTo":true,"timestamp":"2023-07-24T13:05:41.966Z"}},{"type":"Public","name":"GerminationPrediction","owner":"grimmlab","isFork":false,"description":"Accurate Machine Learning Based Germination Detection, Prediction and Quality Assessment of Different Seed Cultivars","allTopics":["seed-germination","germination-detection","machine-learning","deep-learning","object-detection"],"primaryLanguage":{"name":"Python","color":"#3572A5"},"pullRequestCount":0,"issueCount":0,"starsCount":13,"forksCount":4,"license":"MIT License","participation":null,"lastUpdated":{"hasBeenPushedTo":true,"timestamp":"2023-07-24T13:01:48.503Z"}},{"type":"Public","name":"HorticulturalSalesPredictions","owner":"grimmlab","isFork":false,"description":"Machine Learning Outperforms Classical Forecasting on Horticultural Sales Predictions","allTopics":["horticulture","demand-forecasting","sales-forecasting","multivariate-time-series-prediction"],"primaryLanguage":{"name":"Python","color":"#3572A5"},"pullRequestCount":0,"issueCount":0,"starsCount":9,"forksCount":5,"license":"MIT License","participation":null,"lastUpdated":{"hasBeenPushedTo":true,"timestamp":"2022-10-26T07:27:53.024Z"}},{"type":"Public","name":"HeliantHome","owner":"grimmlab","isFork":false,"description":"HeliantHOME: a public and centralized database Home of a comprehensive collection of phenotypes for different Sunflower species","allTopics":["gwas","images","phenotype","population-genetics"],"primaryLanguage":{"name":"Python","color":"#3572A5"},"pullRequestCount":0,"issueCount":0,"starsCount":2,"forksCount":0,"license":"MIT License","participation":null,"lastUpdated":{"hasBeenPushedTo":true,"timestamp":"2022-10-16T11:23:51.688Z"}},{"type":"Public","name":"transcriptional-translational-coupling","owner":"grimmlab","isFork":false,"description":"Systematic analysis of the underlying genomic architecture for transcriptional-translational coupling in prokaryotes","allTopics":["transcriptional-translational","bioinformatics"],"primaryLanguage":{"name":"Python","color":"#3572A5"},"pullRequestCount":0,"issueCount":0,"starsCount":0,"forksCount":0,"license":"MIT License","participation":null,"lastUpdated":{"hasBeenPushedTo":true,"timestamp":"2022-07-29T09:26:28.717Z"}},{"type":"Public","name":"evars-gpr","owner":"grimmlab","isFork":false,"description":"EVARS-GPR: EVent-triggered Augmented Refitting of Gaussian Process Regression for Seasonal Data","allTopics":["data-augmentation","gaussian-process-regression","change-point-detection","seasonal-time-series","online-time-series-forecasting"],"primaryLanguage":{"name":"Python","color":"#3572A5"},"pullRequestCount":0,"issueCount":0,"starsCount":3,"forksCount":1,"license":"MIT License","participation":null,"lastUpdated":{"hasBeenPushedTo":true,"timestamp":"2022-03-22T15:29:56.980Z"}},{"type":"Public","name":"Pathogenicity-Prediction","owner":"grimmlab","isFork":true,"description":"The evaluation of tools used to predict the impact of missense mutations is hindered by two types of circularity – Grimm et. al. 2015, Human Mutation (https://bit.ly/2ERhf4q)","allTopics":[],"primaryLanguage":{"name":"Python","color":"#3572A5"},"pullRequestCount":0,"issueCount":0,"starsCount":0,"forksCount":4,"license":"GNU General Public License v3.0","participation":null,"lastUpdated":{"hasBeenPushedTo":true,"timestamp":"2016-05-05T13:48:55.913Z"}}],"repositoryCount":19,"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":"grimmlab repositories"}