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Your search keyword '"Soylemezoglu, Ahmet"' showing total 37 results
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37 results on '"Soylemezoglu, Ahmet"'

1. Cooperative Modular Manipulation with Numerous Cable-Driven Robots for Assistive Construction and Gap Crossing

Author

Murphy, Kevin, Soares, Joao C. V., Yim, Justin K., Nottage, Dustin, Soylemezoglu, Ahmet, and Ramos, Joao

Subjects
Computer Science - Robotics
Abstract

Soldiers in the field often need to cross negative obstacles, such as rivers or canyons, to reach goals or safety. Military gap crossing involves on-site temporary bridges construction. However, this procedure is conducted with dangerous, time and labor intensive operations, and specialized machinery. We envision a scalable robotic solution inspired by advancements in force-controlled and Cable Driven Parallel Robots (CDPRs); this solution can address the challenges inherent in this transportation problem, achieving fast, efficient, and safe deployment and field operations. We introduce the embodied vision in Co3MaNDR, a solution to the military gap crossing problem, a distributed robot consisting of several modules simultaneously pulling on a central payload, controlling the cables' tensions to achieve complex objectives, such as precise trajectory tracking or force amplification. Hardware experiments demonstrate teleoperation of a payload, trajectory following, and the sensing and amplification of operators' applied physical forces during slow operations. An operator was shown to manipulate a 27.2 kg (60 lb) payload with an average force utilization of 14.5\% of its weight. Results indicate that the system can be scaled up to heavier payloads without compromising performance or introducing superfluous complexity. This research lays a foundation to expand CDPR technology to uncoordinated and unstable mobile platforms in unknown environments., Comment: 8 pages, 9 figures. Submit to IROS 2024

Published
2024

2. In Situ Soil Property Estimation for Autonomous Earthmoving Using Physics-Infused Neural Networks

Author

Wagner, W. Jacob, Soylemezoglu, Ahmet, Nottage, Dustin, and Driggs-Campbell, Katherine

Subjects
Computer Science - Robotics, I.2.9
Abstract

A novel, learning-based method for in situ estimation of soil properties using a physics-infused neural network (PINN) is presented. The network is trained to produce estimates of soil cohesion, angle of internal friction, soil-tool friction, soil failure angle, and residual depth of cut which are then passed through an earthmoving model based on the fundamental equation of earthmoving (FEE) to produce an estimated force. The network ingests a short history of kinematic observations along with past control commands and predicts interaction forces accurately with average error of less than 2kN, 13% of the measured force. To validate the approach, an earthmoving simulation of a bladed vehicle is developed using Vortex Studio, enabling comparison of the estimated parameters to pseudo-ground-truth values which is challenging in real-world experiments. The proposed approach is shown to enable accurate estimation of interaction forces and produces meaningful parameter estimates even when the model and the environmental physics deviate substantially., Comment: 10 pages, 6 figures, to be published in proceedings of 16th European-African Regional Conference of the International Society for Terrain-Vehicle Systems (ISTVS)

Published
2023
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3. A Robust Localization Solution for an Uncrewed Ground Vehicle in Unstructured Outdoor GNSS-Denied Environments

Author

Wagner, W. Jacob, Blankenau, Isaac, DeLaTorre, Maribel, Purushottam, Amartya, and Soylemezoglu, Ahmet

Subjects
Computer Science - Robotics, I.2.9
Abstract

This work addresses the challenge of developing a localization system for an uncrewed ground vehicle (UGV) operating autonomously in unstructured outdoor Global Navigation Satellite System (GNSS)-denied environments. The goal is to enable accurate mapping and long-range navigation with practical applications in domains such as autonomous construction, military engineering missions, and exploration of non-Earth planets. The proposed system - Terrain-Referenced Assured Engineer Localization System (TRAELS) - integrates pose estimates produced by two complementary terrain referenced navigation (TRN) methods with wheel odometry and inertial measurement unit (IMU) measurements using an Extended Kalman Filter (EKF). Unlike simultaneous localization and mapping (SLAM) systems that require loop closures, the described approach maintains accuracy over long distances and one-way missions without the need to revisit previous positions. Evaluation of TRAELS is performed across a range of environments. In regions where a combination of distinctive geometric and ground surface features are present, the developed TRN methods are leveraged by TRAELS to consistently achieve an absolute trajectory error of less than 3.0 m. The approach is also shown to be capable of recovering from large accumulated drift when traversing feature-sparse areas, which is essential in ensuring robust performance of the system across a wide variety of challenging GNSS-denied environments. Overall, the effectiveness of the system in providing precise localization and mapping capabilities in challenging GNSS-denied environments is demonstrated and an analysis is performed leading to insights for improving TRN approaches for UGVs., Comment: 15 pages, 9 figures, 2 tables, to be published in The Proceedings of the Institute of Navigation GNSS+ 2023 conference (ION GNSS+ 23)

Published
2023

4. Towards Modularity: Integration Strategy of Radar into a LiDAR Based Robotics Mapping Platform

Author

Murphy, Kevin, Charter, Dylan, Pasley, Dylan, Lopez-Toledo, Israel, Soylemezoglu, Ahmet, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Mazal, Jan, editor, Fagiolini, Adriano, editor, Vašík, Petr, editor, Bruzzone, Agostino, editor, Pickl, Stefan, editor, Neumann, Vlastimil, editor, Stodola, Petr, editor, and Lo Storto, Stefano, editor

Published
2023
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5. Modular Interface Framework for Advanced Soldier-Platform Interoperability

Author

Lopez-Toledo, Israel, Charter, Dylan, Ortiz, Raul, Schmitz, Evan, Cheng, Charles, Pasley, Dylan, Soylemezoglu, Ahmet, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Mazal, Jan, editor, Fagiolini, Adriano, editor, Vašík, Petr, editor, Bruzzone, Agostino, editor, Pickl, Stefan, editor, Neumann, Vlastimil, editor, Stodola, Petr, editor, and Lo Storto, Stefano, editor

Published
2023
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8. Robust Decision Making via Cooperative Estimation: Creating Data Saturated, Autonomously Generated, Simulation Environments in Near Real-Time

Author

Toledo-Lopez, Israel, Pasley, Dylan, Ortiz, Raul, Soylemezoglu, Ahmet, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Woeginger, Gerhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Mazal, Jan, editor, Fagiolini, Adriano, editor, Vasik, Petr, editor, Turi, Michele, editor, Bruzzone, Agostino, editor, Pickl, Stefan, editor, Neumann, Vlastimil, editor, and Stodola, Petr, editor

Published
2022
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9. High-Frequency Vibration Reduction for Unmanned Ground Vehicles on Unstructured Terrain

Author

El-Kebir, Hamza, Shafa, Taha, Purushottam, Amartya, Ornik, Melkior, Soylemezoglu, Ahmet, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Woeginger, Gerhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Mazal, Jan, editor, Fagiolini, Adriano, editor, Vasik, Petr, editor, Turi, Michele, editor, Bruzzone, Agostino, editor, Pickl, Stefan, editor, Neumann, Vlastimil, editor, and Stodola, Petr, editor

Published
2022
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14. Hierarchical Rule-Base Reduction-Based ANFIS With Online Optimization Through DDPG

Author

Juston, Marius F. R., Dekhterman, Samuel R., Norris, William R., Nottage, Dustin, and Soylemezoglu, Ahmet

Abstract

This article presents a comprehensive approach to designing and optimizing a hierarchical rule-base reduction-based adaptive-network-based fuzzy inference system (ANFIS) for symmetric linguistic variables. Specifically, the linguistic connected membership functions that underlie the ANFIS are defined, focusing on symmetrical inputs/outputs and jointly optimized trapezoid membership functions to reduce the number of training parameters. Further optimizations for the ANFIS were derived based on design assumptions, including training the membership functions on closed or single-sided domains. The optimal output membership weights based on mean square error optimization were also symbolically obtained. The online training of the ANFIS's input/output membership functions was performed using the deep deterministic policy gradient (DDPG) algorithm. A simulated skid-steered vehicle was used to validate the approach and performed waypoint-to-waypoint path following. Experimental results using the Clearpath Jackal demonstrated that the ANFIS model converged quickly, typically within 6 to 10 episodes of training, from an initial mean absolute error (MAE) and root mean squared error (RMSE) of 0.88 and 1.02 m, respectively, to a final MAE and RMSE of 0.087 and 0.10 m. The results highlight the effectiveness of the ANFIS approach for vehicular robotics applications and suggest promising avenues for future research and development.

Published
2024
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19. Robotics for Engineer Operations

Author

Soylemezoglu, Ahmet, Williams, Danielle M., Ellison, Charles C., Klein, Jordan D., Lopez, Israel J., Netchaev, Anton, Nottage, Dustin S., and Wagner, William "Jacob"

Subjects
United States. Army. Engineer Research and Development Center -- Powers and duties, Military maneuvers -- Methods -- Technology application, Robotics -- Usage, Technology application, Environmental issues, Military and naval science
Abstract

The U.S. Army Engineer Research and Development Center (ERDC), Vicksburg, Mississippi, Robotics for Engineer Operations (REO) project is developing unmanned engineer support capabilities to allow operations in global navigation satellite [...]

Published
2021

25. Mahalanobis Taguchi System (MTS) as a prognostics tool for rolling element bearing failures

Author

Soylemezoglu, Ahmet, Jaeannathan, S., and Saygin, Can

Subjects
Failure mode and effects analysis -- Methods, Failure mode and effects analysis -- Technology application, Taguchi methods (Quality control) -- Methods, Bearings (Machinery) -- Mechanical properties, Bearings (Machinery) -- Maintenance and repair, Technology application, Engineering and manufacturing industries, Science and technology
Abstract

In this paper, a novel Mahalanobis-Taguchi system (MTS)-based fault detection, isolation, and prognostics scheme is presented. The proposed data-driven scheme utilizes the Mahalanobis distance (MD)-based fault clustering and the progression of MD values over time. MD thresholds derived from the clustering analysis are used for fault detection and isolation. When a fault is detected, the prognostics scheme, which monitors the progression of the MD values, is initiated. Then, using a linear approximation, time to failure is estimated. The performance of the scheme has been validated via experiments performed on rolling element bearings inside the spindle headstock of a microcomputer numerical control (CNC) machine testbed. The bearings have been instrumented with vibration and temperature sensors and experiments involving healthy and various types of faulty operating conditions have been performed. The experiments show that the proposed approach renders satisfactory results for bearing fault detection, isolation, and prognostics. Overall, the proposed solution provides a reliable multivariate analysis and real-time decision making tool that (1) presents a single tool for fault detection, isolation, and prognosis, eliminating the need to develop each separately and (2) offers a systematic way to determine the key features, thus reducing analysis overhead. In addition, the MTS-based scheme is process independent and can easily be implemented on wireless motes and deployed for real-time monitoring, diagnostics, and prognostics in a wide variety of industrial environments. [DOI: 10.1115/1.4002545] Keywords: Mahalanobis-Taguchi system, real-time decision making, Mahalanobis distance-based fault detection, isolation and prognostics, rolling element bearings

Published
2010

26. RFID-based smart freezer

Author

Soylemezoglu, Ahmet, Zawodniok, Maciej J., and Jagannathan, S.

Subjects
Home freezers -- Design and construction, Home freezers -- Control, Electric controllers -- Design and construction, Radio frequency identification (RFID) -- Design and construction, Power controller, Radio frequency identification, Business, Computers, Electronics, Electronics and electrical industries
Abstract

This paper presents a novel radio-frequency identification (RFID)-based smart freezer using a new inventory-management scheme for extremely low temperature environments. The proposed solution utilizes backpressure inventory control, systematic selection of antenna configuration, and antenna power control. The proposed distributed-inventory-control (DIC) scheme dictates the amount of items transferred through the supply chain. When a high item visibility is ensured, the control scheme maintains the desired level of inventory at each supply-chain echelon. The performance of the DIC scheme is guaranteed using a Lyapunov-based analysis. The proposed RFID antenna-configuration design methodology coupled with locally asymptotically stable distributed power control ensures a 99% read rate of items while minimizing the required number of RFID antennas in the confined cold chain environments with non-RF-friendly materials. The proposed RFID-based smart-freezer performance is verified through simulations of supply chain and experiments on an industrial freezer testbed operating at -100[degrees]F. Index Terms--Inventory control, low-temperature chemical management, passive radio-frequency identification (RFID), power control.

Published
2009

35. Trade finance in crisis : should developing countries establish export credit agencies ?

Author

Chauffour, Jean-Pierre, Saborowski, Christian, and Soylemezoglu, Ahmet I.

Subjects
ComputingMilieux_LEGALASPECTSOFCOMPUTING, Debt Markets,Emerging Markets,Access to Finance,Banks&Banking Reform,Financial Intermediation
Abstract

New data on export insurance and guarantees suggest that publicly backed export credit agencies have played a role to prevent a complete drying up of trade finance markets during the current financial crisis. Given that export credit agencies are mainly located in advanced and emerging economies, the question arises whether developing countries that are not equipped with these agencies should establish their own agencies to support exporting firms and avoid trade finance shortages in times of crisis. This paper highlights a number of issues requiring attention in the decision whether to establish such specialized financial institutions. It concludes that developing countries should consider export credit agencies only when certain pre-requirements in terms of financial capacity, institutional capability, and governance are met.

Published
2010

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