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.

Research PaperResearchia:202606.10095

Resilient Navigation for Autonomous Farm Robots by Leveraging Jerk-Augmented Models with IMU-Only Disturbance Rejection

Batu Candan

Abstract

Precise state estimation for navigation of autonomous agricultural robots is often compromised by sensor outages (GNSS/LiDAR/Visual) and high-frequency vibrations inherent in off-road environments. This paper proposes a robust navigation algorithm based on a jerk-augmented Extended Kalman Filter (EKF) integrated with a Multiple Tuning Factor (MTF) adaptation method. Unlike standard EKF approaches that assume constant measurement noise, our method dynamically adjusts the measurement covariance ma...

Submitted: June 10, 2026Subjects: Robotics; Robotics

Description / Details

Precise state estimation for navigation of autonomous agricultural robots is often compromised by sensor outages (GNSS/LiDAR/Visual) and high-frequency vibrations inherent in off-road environments. This paper proposes a robust navigation algorithm based on a jerk-augmented Extended Kalman Filter (EKF) integrated with a Multiple Tuning Factor (MTF) adaptation method. Unlike standard EKF approaches that assume constant measurement noise, our method dynamically adjusts the measurement covariance matrix in real-time, allowing the system to cope with sudden disturbances and sensor outliers. We evaluate the algorithm using real-world data from a Salin247 autonomous robot. Results demonstrate that jerk-augmentation combined with MTF adaptation significantly reduces 3D position Root Mean Square Error (RMSE) compared to baseline EKF models, providing superior dead-reckoning capabilities.

Source: arXiv:2606.10971v1 - http://arxiv.org/abs/2606.10971v1 PDF: https://arxiv.org/pdf/2606.10971v1 Original Link: http://arxiv.org/abs/2606.10971v1

Please sign in to join the discussion.

No comments yet. Be the first to share your thoughts!