act_slow_v2 is an open source imitation learning model for robotics, implementing action chunking with transformers. Below are 12 other ai apps with similar functionality to Act Slow, matched by what each product actually does — not ranked or scored. Explore each to find the closest fit for your use case.
act_slow is an open-source robotics model that implements action chunking with transformers for imitation learning. It is designed for robotics researchers and developers who want to train and deploy advanced policies for robotic control tasks.
act_DS3_1B1O_FV_removeidle_rand20 is an open-source model for robotic action chunking using imitation learning. It enables robotics researchers to implement and evaluate action chunking policies for efficient robot control.
act_task1_v2 is an open-source imitation learning policy for robotics, trained to predict action chunks from teleoperated data. It is designed for use with LeRobot and supports local inference and further training by robotics researchers and engineers.
This Hugging Face model provides an imitation-learning policy for robotics, predicting action chunks from teleoperated data. It is open source and can be integrated into robotics workflows via API or CLI, supporting research and development in robotics automation.
Act DS3 1B1O FV Removeidle Rand80 is a model available on Hugging Face that implements Action Chunking with Transformers (ACT), an imitation learning approach for robotics. Unlike methods that predict single action steps, this model is designed to predict short sequences of actions, referred to as action chunks. According to the provided information, it is trained using teleoperated data and aims to achieve high success rates in its tasks. The model is associated with the LeRobot library and can be used in conjunction with platforms such as Google Colab and Kaggle. It is distributed in the Safetensors format, and users are provided with instructions for using the model with various libraries, inference providers, notebooks, and local applications. The evidence also references an arXiv paper (arxiv: 2304.13705) for further context on the method, though no details from the paper are included in the excerpt. Act DS3 1B1O FV Removeidle Rand80 is released under the Apache 2.0 license, making it available for open-source use. The model is suitable for those interested in robotics and imitation learning, particularly in scenarios where learning from teleoperated demonstrations is required. Further documentation and guides are mentioned as available through the LeRobot documentation and training guide.
act_DS3_1B1O_FV_removeidle_rand40 is an open-source imitation learning model for robotics, focusing on action chunking using transformer architectures. It is designed for robotics researchers and developers working on teleoperated data and policy learning.
heongyu/act_so101_t1_v2 is a model hosted on Hugging Face that implements Action Chunking with Transformers (ACT), an imitation-learning approach designed for robotics. The method focuses on predicting short sequences of actions, called action chunks, rather than individual steps. This enables the model to learn from teleoperated data and, as described, often results in high success rates for the tasks it is trained on. The model is associated with the LeRobot library, which provides instructions for using, training, and evaluating the policy. Users can train the model from scratch, evaluate its performance, or run inference, with further guidance available through linked documentation and training guides. The model card references an academic paper (arxiv: 2304.13705) for those seeking additional technical details. heongyu/act_so101_t1_v2 is distributed under the Apache 2.0 license, allowing for open-source use and modification. The model is delivered through the Hugging Face platform, with support for integration into workflows using libraries, inference providers, notebooks, and local applications. Specific instructions are available for use with platforms such as Google Colab and Kaggle. This tool is intended for applications in robotics, particularly where imitation learning from teleoperated demonstrations is relevant. The evidence does not specify particular user roles or industries beyond this context. Pricing information is not mentioned, but the Apache 2.0 license indicates it is available for open-source use. No further details about integrations, user interface, or additional features are provided.
act_DS3_1B1O_FV_removeidle_rand60 is an open-source transformer-based imitation learning model for robotics. It predicts action chunks from teleoperated data, helping researchers and developers build advanced robotic control systems.
act_DS1_1B1O_FF_removeidle_rand60 is an open-source imitation learning model for robotics, trained to predict action chunks from teleoperated data. It is designed for robotics researchers seeking to implement advanced policy learning and action chunking in robotic systems.
act_dryrun is an open-source imitation learning model for robotics, enabling prediction of action chunks from teleoperated data. It is designed for robotics researchers and developers to train, evaluate, and deploy advanced policies using the LeRobot library. The model is available on Hugging Face under an open license.
act_DS1_1B1O_FF_removeidle_rand40 is an open-source imitation learning model designed for robotics applications. It predicts short action chunks from teleoperated data, enabling more efficient and robust policy learning. The model integrates with LeRobot and is suitable for robotics researchers and developers.
act_so101_grasp_50_v2 is an open-source robotics model implementing Action Chunking with Transformers (ACT) for imitation learning. It predicts short action chunks from teleoperated data, helping robotics researchers and developers train and evaluate robotic policies efficiently. The model is available for use via Hugging Face and integrates with tools like LeRobot.