How can I publish a research paper for free?

On Researchia, you can publish research papers, preprints, and science projects instantly and for free — no paywall and no submission fee. Create a free account, go to Explorer, and click "Publish Instantly" to share your work with a global audience.

Where can I find trending research papers?

Researchia Explorer aggregates the latest and most-discussed research papers across AI, Biology, Physics, Engineering, and more. New papers are added daily and ranked by community engagement.

What is a good free alternative to ResearchGate for publishing papers?

Researchia is a free, modern alternative to ResearchGate. You can publish papers instantly, connect with researchers, collaborate on projects, and access an open library of 200M+ scientific records — all without paywalls.

Learning Adaptive Force Control for Contact-Rich Sample Scraping with Heterogeneous Materials

The increasing demand for accelerated scientific discovery, driven by global challenges, highlights the need for advanced AI-driven robotics. Deploying robotic chemists in human-centric labs is key for the next horizon of autonomous discovery, as complex tasks still demand the dexterity of human scientists. Robotic manipulation in this context is uniquely challenged by handling diverse chemicals (granular, powdery, or viscous liquids), under varying lab conditions. For example, humans use spatulas for scraping materials from vial walls. Automating this process is challenging because it goes beyond simple robotic insertion tasks and traditional lab automation, requiring the execution of fine-granular movements within a constrained environment (the sample vial). Our work proposes an adaptive control framework to address this, relying on a low-level Cartesian impedance controller for stable and compliant physical interaction and a high-level reinforcement learning agent that learns to dynamically adjust interaction forces at the end-effector. The agent is guided by perception feedback, which provides the material's location. We first created a task-representative simulation environment with a Franka Research 3 robot, a scraping tool, and a sample vial containing heterogeneous materials. To facilitate the learning of an adaptive policy and model diverse characteristics, the sample is modelled as a collection of spheres, where each sphere is assigned a unique dislodgement force threshold, which is procedurally generated using Perlin noise. We train an agent to autonomously learn and adapt the optimal contact wrench for a sample scraping task in simulation and then successfully transfer this policy to a real robotic setup. Our method was evaluated across five different material setups, outperforming a fixed-wrench baseline by an average of 10.9%.

Source: arXiv:2603.10979v1 - http://arxiv.org/abs/2603.10979v1 PDF: https://arxiv.org/pdf/2603.10979v1 Original Link: http://arxiv.org/abs/2603.10979v1

Learning Adaptive Force Control for Contact-Rich Sample Scraping with Heterogeneous Materials

Abstract

Discussion (0)