Your search keyword '"Robotic systems"' showing total 9,137 results

1. Enhancing Lean Robotics in Industrial Applications Through VPDT, Simulation, and TRIZ Integration

Author

Deeb, Eyas, Brad, Stelian, Rannenberg, Kai, Editor-in-Chief, Soares Barbosa, Luís, Editorial Board Member, Carette, Jacques, Editorial Board Member, Tatnall, Arthur, Editorial Board Member, Neuhold, Erich J., Editorial Board Member, Stiller, Burkhard, Editorial Board Member, Stettner, Lukasz, Editorial Board Member, Pries-Heje, Jan, Editorial Board Member, M. Davison, Robert, Editorial Board Member, Rettberg, Achim, Editorial Board Member, Furnell, Steven, Editorial Board Member, Mercier-Laurent, Eunika, Editorial Board Member, Winckler, Marco, Editorial Board Member, Malaka, Rainer, Editorial Board Member, Cavallucci, Denis, editor, Brad, Stelian, editor, and Livotov, Pavel, editor

Published

2025

2. Adaptive optimal observer for real-time state of charge estimation of lithium-ion batteries in robotic systems

Author

Zhao, Jun, Lu, Zhenguo, and Wang, Guang

Published

2024

3. Enhancing Grapevine Node Detection to Support Pruning Automation: Leveraging State-of-the-Art YOLO Detection Models for 2D Image Analysis.

Author

Oliveira, Francisco, da Silva, Daniel Queirós, Filipe, Vítor, Pinho, Tatiana Martins, Cunha, Mário, Cunha, José Boaventura, and dos Santos, Filipe Neves

Abstract

Automating pruning tasks entails overcoming several challenges, encompassing not only robotic manipulation but also environment perception and detection. To achieve efficient pruning, robotic systems must accurately identify the correct cutting points. A possible method to define these points is to choose the cutting location based on the number of nodes present on the targeted cane. For this purpose, in grapevine pruning, it is required to correctly identify the nodes present on the primary canes of the grapevines. In this paper, a novel method of node detection in grapevines is proposed with four distinct state-of-the-art versions of the YOLO detection model: YOLOv7, YOLOv8, YOLOv9 and YOLOv10. These models were trained on a public dataset with images containing artificial backgrounds and afterwards validated on different cultivars of grapevines from two distinct Portuguese viticulture regions with cluttered backgrounds. This allowed us to evaluate the robustness of the algorithms on the detection of nodes in diverse environments, compare the performance of the YOLO models used, as well as create a publicly available dataset of grapevines obtained in Portuguese vineyards for node detection. Overall, all used models were capable of achieving correct node detection in images of grapevines from the three distinct datasets. Considering the trade-off between accuracy and inference speed, the YOLOv7 model demonstrated to be the most robust in detecting nodes in 2D images of grapevines, achieving F1-Score values between 70% and 86.5% with inference times of around 89 ms for an input size of 1280 × 1280 px. Considering these results, this work contributes with an efficient approach for real-time node detection for further implementation on an autonomous robotic pruning system. [ABSTRACT FROM AUTHOR]

Published

2024

4. Event-triggered adaptive neural prescribed performance admittance control for constrained robotic systems without velocity measurements.

Author

Fan, Penghui, Peng, Jinzhu, Yu, Hongshan, Ding, Shuai, and Wang, Yaonan

Subjects

RADIAL basis functions, LYAPUNOV functions, VELOCITY measurements, VELOCITY

Abstract

In this paper, an event-triggered adaptive neural prescribed performance admittance control (ETANPPAC) scheme is proposed to control the constrained robotic systems without velocity sensors. To ensure compliance during human–robot interaction, the reference trajectory is obtained by reshaping the desired trajectory for the robotic systems based on the admittance relationship, where a saturation function is used to constrain the reference trajectory, avoiding excessive contact forces that could render the trajectory inexecutable. Moreover, a barrier Lyapunov function is used to constrain the tracking errors for prescribed performance, where a velocity observer and a radial basis function neural network are designed to estimate the velocity and the uncertainty of the robotic systems, respectively, to enhance control performance. To reduce the communication burden, an event-triggered mechanism is introduced and the Zeno behavior is avoided with the event-triggered condition. The stability of the whole control scheme is analyzed by the Lyapunov function. Simulation and experimental tests demonstrate that the proposed ETANPPAC scheme can track the desired trajectory well under constraints and reduce the communication burden, thereby achieving better efficiency for controlling the robotic systems compared with similar control schemes. • The ETANPPAC scheme achieves compliance and prescribed performance with constraints. • Barrier Lyapunov function constrains tracking errors, achieving desired performance. • Event-triggered method reduces the system burden and the Zeno behavior is avoided. • The proposed ETANPPAC scheme is tested on a numerical model and actual manipulator. [ABSTRACT FROM AUTHOR]

Published

2024

5. Towards a Holistic Workflow Optimization in the Operating Theater: Exploring Optimal Placements of Robotic Systems.

Author

Adiyaman, Cem, Hagenah, Jannis, Kundrat, Dennis, Keck, Tobias, and Männel, Georg

Subjects

WORKFLOW, THEATERS, SURGICAL robots, INDUSTRIAL efficiency, ABDOMINAL surgery

Abstract

The level of digitalization and automation, including robotic systems, is increasing in modern operating theaters. However, the integration of such systems within an already complex and limited environment creates challenges, such as collaboration with dynamic robots and thus potential collisions. Yet, the placements of robotic systems largely rely on empirical guidelines provided by manufacturers, which do not account for the specific requirements of operating theater layouts or individual surgical procedures. In this work, we propose a framework for optimization of robotic set-ups in the operating theater to address these limitations and to enhance the overall workflow efficiency. By utilizing a simulation-based approach, we aim to determine the optimal placement of each surgical equipment within the constrained operating theater environment. In this study, we set the stage for future efforts and demonstrate the effectiveness of our approach by determining the optimal placement of a LBR iiwa 7 R800 as a surgical assistant for an abdominal surgery. Overall this work lays the groundwork for future research that will accommodate more complex scenarios and is a crucial first step towards a holistic workflow optimization in the operating theater. [ABSTRACT FROM AUTHOR]

Published

2024

6. RECENT TRENDS AND APPLICATIONS OF THE ARTIFICIAL INTELLIGENCE IN THE EDUCATION.

Author

Zahariev, Plamen, Hristov, Georgi, and Beloev, Ivan

Abstract

In the recent years, the use of artificial intelligence in the education domain has experienced a significant growth. The main reasons for this are the numerous innovative solutions, products and services, which are used not only in the educational processes, but also in the corresponding to them administrative activities. Based on this, the present publication aims to present the latest trends and the applications of the artificial intelligence in the education sector. This research has led to the identification of several key areas, in which the artificial intelligence has a significant contribution to the educational processes, including the adaptive assessment, the intelligent tutoring systems, the educational data mining, the personalized learning, the virtual reality, etc. This publication also presents some of the potential benefits, challenges and ethical considerations, which are associated with the use of the artificial intelligence technologies in the education. [ABSTRACT FROM AUTHOR]

Published

2024

7. Controlling the Movement of a TRR Spatial Chain with Coupled Six-bar Function Generators for Biomimetic Motion

Author

Plecnik, MM and McCarthy, JM

Subjects

linkage synthesis, biomimetic design, robotic systems, Manufacturing Engineering, Mechanical Engineering, Control engineering, mechatronics and robotics

Abstract

This paper describes a synthesis technique that constrains a spatial serial chain into a single degree-of-freedom mechanism using planar six-bar function generators. The synthesis process begins by specifying the target motion of a serial chain that is parameterized by time. The goal is to create a mechanism with a constant velocity rotary input that will achieve that motion. To do this we solve the inverse kinematics equations to find functions of each serial joint angle with respect to time. Since a constant velocity input is desired, time is proportional to the angle of the input link, and each serial joint angle can be expressed as functions of the input angle. This poses a separate function generator problem to control each joint of the serial chain. Function generators are linkages that coordinate their input and output angles. Each function is synthesized using a technique that finds 11 position Stephenson II linkages, which are then packaged onto the serial chain. Using pulleys and the scaling capabilities of function generating linkages, the final device can be packaged compactly. We describe this synthesis procedure through the design of a biomimetic device for reproducing a flapping wing motion.

Published

2023

8. High-precision positioning of robotic systems on programme trajectories using satellite navigation measurements

Author

S. V. Sokolov, A. I. Okhotnikov, D. V. Marshakov, and I. V. Reshetnikova

Subjects

robotic systems, satellite measurements, electronic maps, stochastic filtering, extended kalman filter, Railroad engineering and operation, TF1-1620

Abstract

Introduction. The main issue in processing satellite measurements remains the struggle with their interference, especially intensive in rugged terrain, cities, atmospheric disturbances and artificial interference. Use of satellite navigation in recent years shows that such conditions undermine traditional satellite signal processing methods based on the least squares method or its modifications. These algorithms are unable to provide the required accuracy of spatial orientation for mobile robotic systems operating under intensive disturbances of various physical nature. This requires new algorithms for processing stochastic information more efficient than the least squares method, in particular, based on the theory of nonlinear stochastic filtration. The main challenge in this case is the synthesis of equations of motion of robotic complexes invariant to its type and random conditions of the environment of its functioning. At the same time, as practice shows, the vast majority of complexes move along programme trajectories that allow for analytical description of their motion parameters, which creates prerequisites for solving the problem of synthesis of these equations.Materials and methods. This paper proposes a navigation algorithm for robotic systems moving along a given trajectory under random perturbing factors. The algorithm is based on the combination of nonlinear stochastic filtering methods for estimating the state of dynamic systems operating under disturbances with non-traditional algorithms for processing satellite measurements and electronic map data.Results. For an environmental monitoring robot system, the authors modelled the motion in the plane of the local meridian from an initial point with longitude 30° and latitude 45°. The paper analyses the accuracy of the developed algorithm by estimating the trajectory of the robotic system using two classes of satellite navigation systems: medium and low precision.Discussion and conclusion. The results of the numerical experiment together with the above-mentioned advantages of the proposed method allow us to consider its effective practical application for positioning of mobile robotic systems.

Published

2024

9. Finding the right one: Decision support for selecting cost-efficient order picking solutions.

Author

Schäfer, Fabian, Lorson, Fabian, and Hübner, Alexander

Abstract

Enabled via recent technological advances coupled with the advent of new systems providers and decreased price points, automated and robotized order-picking solutions (e.g., pick-assisting autonomous mobile robots) have evolved as a surging market. Such innovative picking technologies aim to reduce labor costs, use available space more efficiently, and increase throughput rates. As implementation projects and the variety of solutions rise, managers decide which ones to select for their specific warehouse and products. However, comprehensive decision models for this strategic problem are lacking in the pertinent literature. We propose a mathematical optimization model for the novel problem that selects and sizes order-picking solutions and assigns them products and warehouse spaces. Expert interviews are used to identify the comprehensive decision-relevant costs and constraints. Specifically, we minimize setup, module, labor, and error costs while adhering to characteristics related to the area (e.g., available space), technology (e.g., throughput, handling capabilities of certain products), and product (e.g., physical dimensions). We conduct a case study and complement our findings with numerical experiments. We find significant cost reduction potential of up to 57% by selecting a mix of different order-picking solutions. Further analyses highlight the need to retain human workers and to account for maximum labor capacity. [ABSTRACT FROM AUTHOR]

Published

2025

10. Assistive Robotics for Upper Limb Physical Rehabilitation: A Systematic Review and Future Prospects

Author

Andrés Guatibonza, Leonardo Solaque, Alexandra Velasco, and Lina Peñuela

Subjects

Upper limb, Rehabilitation, Assistive robotics, Human-machine interaction, Robotic systems, Virtual reality, Ocean engineering, TC1501-1800, Mechanical engineering and machinery, TJ1-1570

Abstract

Abstract Physical assistive robotics are oriented to support and improve functional capacities of people. In physical rehabilitation, robots are indeed useful for functional recovery of affected limb. However, there are still open questions related to technological aspects. This work presents a systematic review of upper limb rehabilitation robotics in order to analyze and establish technological challenges and future directions in this area. A bibliometric analysis was performed for the systematic literature review. Literature from the last six years, conducted between August 2020 and May 2021, was reviewed. The methodology for the literature search and a bibliometric analysis of the metadata are presented. After a preliminary search resulted in 820 articles, a total of 66 articles were included. A concurrency network and bibliographic analysis were provided. And an analysis of occurrences, taxonomy, and rehabilitation robotics reported in the literature is presented. This review aims to provide to the scientific community an overview of the state of the art in assistive robotics for upper limb physical rehabilitation. The literature analysis allows access to a gap of unexplored options to define the technological prospects applied to upper limb physical rehabilitation robotics.

Published

2024

11. Assistive Robotics for Upper Limb Physical Rehabilitation: A Systematic Review and Future Prospects.

Author

Guatibonza, Andrés, Solaque, Leonardo, Velasco, Alexandra, and Peñuela, Lina

Abstract

Physical assistive robotics are oriented to support and improve functional capacities of people. In physical rehabilitation, robots are indeed useful for functional recovery of affected limb. However, there are still open questions related to technological aspects. This work presents a systematic review of upper limb rehabilitation robotics in order to analyze and establish technological challenges and future directions in this area. A bibliometric analysis was performed for the systematic literature review. Literature from the last six years, conducted between August 2020 and May 2021, was reviewed. The methodology for the literature search and a bibliometric analysis of the metadata are presented. After a preliminary search resulted in 820 articles, a total of 66 articles were included. A concurrency network and bibliographic analysis were provided. And an analysis of occurrences, taxonomy, and rehabilitation robotics reported in the literature is presented. This review aims to provide to the scientific community an overview of the state of the art in assistive robotics for upper limb physical rehabilitation. The literature analysis allows access to a gap of unexplored options to define the technological prospects applied to upper limb physical rehabilitation robotics. [ABSTRACT FROM AUTHOR]

Published

2024

12. Adaptive robotic system for the inspection of aerospace slat actuator mount.

Author

Morsi, Nour M., Mata, Mario, Harrison, Colin S., Semple, David, Zhao, Huan, and Vithanage, Randika

Subjects

ROBOTICS, ROBOT motion, ACTUATORS, ROBOT programming, AEROSPACE industries, INSPECTION & review, ROBOTS

Abstract

Introduction: Robotics uptake in the aerospace industry is low, mainly due to the low-volume/high-accuracy production that aerospace manufacturers require. Furthermore, aerospace manufacturing and assembly sites are often unstructured environments not specifically suitable for robots to operate in. Methods: This paper introduces a robotic visual inspection system using off-the-shelf components able to inspect the mounting holes for wing slat actuators without the need for fixed-coordinate programming; the part just needs to be left within reach of the robot. Our system sets one of the opposed pairs of mounting holes as a reference (the "datum") and then compares the tilt of all other pairs of mounting holes with respect to it. Under the assumption that any deviation in the mounting hole tilt is not systematic but due to normal manufacturing tolerances, our system will either guarantee the correct alignment of all mounting holes or highlight the existence of misaligned holes. Results and Discussion: Computer-vision tilt measurements are performed with an error of below 0.03° using custom optimization for the sub-pixel determination of the center and radius of the mounting holes. The error introduced by the robot's motion from the datum to each of the remaining hole pairs is compensated by moving back to the datum and fixing the orientation again before moving to inspect the next hole pair. This error is estimated to be approximately 0.05°, taking the total tilt error estimation for any mounting hole pair to be 0.08° with respect to the datum. This is confirmed by manually measuring the tilt of the hole pairs using a clock gauge on a calibrated table (not used during normal operation). [ABSTRACT FROM AUTHOR]

Published

2024

13. Novel Robotic Platforms for Robot-Assisted Laparoscopic Surgery in Urology: A Narrative Review.

Author

Kallidonis, Panagiotis, Gkeka, Kristiana, Tatanis, Vasileios, Katsakiori, Paraskevi, Vrettos, Theofanis, and Liatsikos, Evangelos

Subjects

*SURGICAL robots, *LAPAROSCOPIC surgery, *UROLOGICAL surgery, *ROBOTICS, *UROLOGY, *MAINTENANCE costs

Abstract

Robot-assisted surgery (RAS) has been integrated into clinical practice to overcome several limitations of conventional open or laparoscopic surgery. After the expiration of the long key patent period of Intuitive Surgical, various robotic systems (RSs) have been developed aiming at improving certain characteristics of the first robotic platform, the Da Vinci RS. This narrative review provides an overview of the current RSs used in urology along with the initial results from their application in urologic procedures. Nine robotic platforms are being analyzed regarding their unique characteristics as well as their efficacy, safety, feasibility, and outcomes in urologic, oncological, or non-oncological operations. The main barrier to the wide application of RAS has been the increased cost that refers to both acquisition and maintenance costs. Besides, the health inequality resulting from the lack of expert robotic surgeons and the difficulty of performing robot-assisted procedures in provincial hospitals should be overcome. However, large properly designed comparative studies are required to establish the role of newly introduced RSs. In addition, urologists should keep abreast of new developments and research in robot-assisted urologic procedures. [ABSTRACT FROM AUTHOR]

Published

2024

14. Robotics Systems and Artificial Intelligence Applications in Livestock Farming.

Author

Dilaver, Hatice and Dilaver, Kamil Fatih

Subjects

ARTIFICIAL intelligence, ANIMAL industry, AGRICULTURE, LIVESTOCK farms, CATTLE industry

Abstract

Copyright of Journal of Animal Science & Economics is the property of Ataturk University Coordinatorship of Scientific Journals and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

15. Development and Prospects of Application of the Method for Reconstructing the Three-Dimensional Shape of a Target Object with Determination of Zones of Optimal Impact.

Author

Koshelev, P. E., Rokhlin, N. S., Zakharov, S. A., and Konoplev, Yu. V.

Abstract

This paper proposes a new approach to reconstructing the three-dimensional shapes of target objects. The method is based on object detection using a convolutional neural network, followed by fusing the recognition results with the depth map from a stereo camera. The prospects of applying this new approach are discussed based on the obtained results. [ABSTRACT FROM AUTHOR]

Published

2024

16. Robotic Systems for Material Handling: Design Framework and Digital Twins

Author

Ronzoni, Michele, Accorsi, Riccardo, Di Biase, Tonya, Manzini, Riccardo, Manzini, Riccardo, editor, and Accorsi, Riccardo, editor

Published

2024

17. Comparative Analysis of Methods for Classifying Electroencephalography Signals for a Robotic Brain-Computer Interface

Author

Zhdanov, Artemii Y., Ryzhova, Victoria A., Khlynov, Ruslan D., Konyakhin, Igor A., Shelepin, Yuri E., Kacprzyk, Janusz, Series Editor, Novikov, Dmitry A., Editorial Board Member, Shi, Peng, Editorial Board Member, Cao, Jinde, Editorial Board Member, Polycarpou, Marios, Editorial Board Member, Pedrycz, Witold, Editorial Board Member, Tarasova, Irina Leonidovna, editor, and Kulik, Boris Alexandrovich, editor

Published

2024

18. Operational Modeling of Temporal Intervals for Intelligent Systems

Author

Olszewska, J. I., Filipe, Joaquim, Editorial Board Member, Ghosh, Ashish, Editorial Board Member, Prates, Raquel Oliveira, Editorial Board Member, Zhou, Lizhu, Editorial Board Member, and Röning, Juha, editor

Published

2024

19. Position Control of Robotic Systems via Linear Controllers with Application to a Lower Limb Rehabilitation Exoskeleton Robot: Design and Comparative Analysis

Author

Gritli, Hassène, Jenhani, Sahar, Campos-Cantón, Eric, editor, Huerta-Cuellar, Guillermo, editor, Zambrano-Serrano, Ernesto, editor, and Tlelo-Cuautle, Esteban, editor

Published

2024

20. Using Visual-Block Programming Environments to Create Robotic Systems

Author

Samerkhanova, Elvira K., Smyshliaeva, Olga V., Panova, Irina V., Neumoina, Elena G., Ponachugin, Alexander V., Pisello, Anna Laura, Editorial Board Member, Hawkes, Dean, Editorial Board Member, Bougdah, Hocine, Editorial Board Member, Rosso, Federica, Editorial Board Member, Abdalla, Hassan, Editorial Board Member, Boemi, Sofia-Natalia, Editorial Board Member, Mohareb, Nabil, Editorial Board Member, Mesbah Elkaffas, Saleh, Editorial Board Member, Bozonnet, Emmanuel, Editorial Board Member, Pignatta, Gloria, Editorial Board Member, Mahgoub, Yasser, Editorial Board Member, De Bonis, Luciano, Editorial Board Member, Kostopoulou, Stella, Editorial Board Member, Pradhan, Biswajeet, Editorial Board Member, Abdul Mannan, Md., Editorial Board Member, Alalouch, Chaham, Editorial Board Member, Gawad, Iman O., Editorial Board Member, Nayyar, Anand, Editorial Board Member, Amer, Mourad, Series Editor, Popkova, Elena G., editor, Bogoviz, Aleksei V., editor, Sergi, Bruno S., editor, Kaurova, Olga V., editor, and Maloletko, Alexander N., editor

Published

2024

21. Simulation with CAD in Robotics. Free Software Versus Proprietary Software in University Teaching

Author

Tato-Sánchez-Del-Valle, Patricia Eva, Conde-Fernández, Adriana, Vila-Lameiro, Pablo, Chaari, Fakher, Series Editor, Gherardini, Francesco, Series Editor, Ivanov, Vitalii, Series Editor, Haddar, Mohamed, Series Editor, Cavas-Martínez, Francisco, Editorial Board Member, di Mare, Francesca, Editorial Board Member, Kwon, Young W., Editorial Board Member, Trojanowska, Justyna, Editorial Board Member, Xu, Jinyang, Editorial Board Member, Manchado del Val, Cristina, editor, Suffo Pino, Miguel, editor, Miralbes Buil, Ramón, editor, Moreno Sánchez, Daniel, editor, and Moreno Nieto, Daniel, editor

Published

2024

22. Robot-Based Security Management System for Smart Cities Using Machine Learning Techniques

Author

AlHamad, Ahmad Qasim Mohammad, Hamadneh, Samer, Nuseir, Mohammed T., Alshurideh, Muhammad Turki, Alzoubi, Haitham M., Al Kurdi, Barween, Kacprzyk, Janusz, Series Editor, Alzoubi, Haitham M., editor, Alshurideh, Muhammad Turki, editor, and Ghazal, Taher M., editor

Published

2024

23. A Methodology for the Analysis of Robotic Systems via Process Mining

Author

Corradini, Flavio, Pettinari, Sara, Re, Barbara, Rossi, Lorenzo, Tiezzi, Francesco, 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, Proper, Henderik A., editor, Pufahl, Luise, editor, Karastoyanova, Dimka, editor, van Sinderen, Marten, editor, and Moreira, João, editor

Published

2024

24. Nonsingular Fast Terminal Sliding Mode Control of Uncertain Robotic Manipulator System Based on Adaptive Fuzzy Wavelet Neural Network

Author

Liu, Wenqi, Liu, Lihong, Zhang, Dan, and Cheng, Jun

Published

2024

25. Da Vinci vs. Hugo RAS for robot-assisted radical prostatectomy: a prospective comparative single-center study.

Author

Brime Menendez, Ricardo, García Rojo, Esther, Hevia Palacios, Vital, Feltes Ochoa, Javier Amalio, Justo Quintas, Juan, Lista Mateos, Fernando, Fraile, Agustín, Manfredi, Celeste, Belli, Simone, Bozzini, Giorgio, and Romero Otero, Javier

Subjects

*RADICAL prostatectomy, *SURGICAL margin, *SURGICAL robots, *PROSTATE cancer patients, *GLEASON grading system, *LYMPHADENECTOMY

Abstract

Purpose: To evaluate Hugo RAS against the Da Vinci system for Robot-Assisted Radical Prostatectomy (RARP) in prostate cancer treatment. Methods: We compared outcomes of 150 patients with prostate cancer undergoing RARP with either Hugo or Da Vinci systems. Our analysis included operative, postoperative, pathological, and functional outcomes. Results: Both groups had 75 patients. Baseline characteristics and tumor features were similar. Intraoperatively, Da Vinci had a shorter docking time (10.45 vs. 18.62 min, p = 0.02), but total operative times were comparable (145.34 vs 138.95, p = 0.85). Hugo outperformed in neck dissection and lymphadenectomy times (22 vs 13.67 min, p = 0.027 and 37.82 vs 45.77 min, p = 0.025). Postoperative metrics like stay duration, catheter time, and complications showed no significant difference. Functional results, using IPSS and IIEF5, were similar between systems. Six Da Vinci patients (8%) and nine Hugo patients (12%) experienced social incontinence (p = 0.072). Pathological outcomes like T stage, Gleason Score, and nodes removed were alike. However, Hugo had more positive surgical margins (20% vs. 10.67%, p = 0.034). Conclusions: RARP outcomes using Hugo RAS were similar to the Da Vinci system in our study. More research and extended follow-up are required to ascertain long-term oncological and functional results. [ABSTRACT FROM AUTHOR]

Published

2024

26. ПЕРСПЕКТИВИ ВИКОРИСТАННЯ СУЧАСНИХ ІНТЕРАКТИВНИХ ТЕХНОЛОГІЙ В ПРОЦЕСІ ПІДГОТОВКИ ПОЛІЦЕЙСЬКОГО ДО ДІЯЛЬНОСТІ В УМОВАХ ВОЄННОГО СТАНУ

Author

О. І., Бойко and А. М., Мельник

Abstract

The article analyses the possibilities of using modern technologies in the tactical and specialised training of police officers under martial law. Martial law creates emergency situations when police officers have to work in conditions of increased danger and instability. In such circumstances, the use of modern technologies in tactical and specialised training of police officers becomes extremely important in order to ensure their safety, efficiency and success in performing their tasks. The article outlines the benefits of using technologies such as virtual reality, augmented reality, unmanned aerial vehicles, robotic systems and artificial intelligence. Thus, the main areas of application of modern technologies in the tactical and special training of police officers are: the use of virtual reality and augmented reality to develop practical skills, in particular for training in combat operations, which ensures more effective training of police officers; the use of unmanned aerial vehicles to monitor and obtain information about the situation on the ground without risking the lives of police officers; the use of robotic systems to perform dangerous or difficult tasks, in particular tasks of search and rescue; the use of virtual reality and augmented reality to develop practical skills, in particular for training in combat operations, which ensures more effective training of police officers; the use of virtual reality and augmented reality to develop practical skills, in particular for training in combat operations, which ensures more effective training of police officers. It is noted that the use of modern technologies can increase the effectiveness of police training, reduce the risk to their lives and improve the safety of citizens. The author concludes that the use of modern technologies is an integral part of the tactical and specialised training of police officers under martial law. Technology helps police officers to effectively counter threats, provide security and be successful in their work. The development and improvement of these technologies is an important area for improving the effectiveness of police work under martial law. The introduction of modern technologies in tactical and specialised training of police officers is an important task that will increase the effectiveness of police activities under martial law. [ABSTRACT FROM AUTHOR]

Published

2024

27. Modular Intelligent Control System in the Pre-Assembly Stage.

Author

Micieta, Branislav, Macek, Peter, Binasova, Vladimira, Dulina, Luboslav, Gaso, Martin, and Zuzik, Jan

Subjects

INTELLIGENT control systems, MODULAR construction, MANUFACTURING processes, ERROR rates

Abstract

This paper presents a novel approach to developing fully automated intelligent control systems for use within production-based organizations, with a specific focus on advancing research into intelligent production systems. This analysis underscores a prevailing deficiency in control operations preceding assembly, where single-purpose control machines are commonly utilized, thus presenting inherent limitations. Conversely, while accurate multipurpose measurement centers exist, they often fail to deliver comprehensive quality control for manufactured parts due to cost and time constraints associated with the measuring process. The primary aim in this study was to develop an intelligent modular control system capable of overseeing the production of diverse components effectively. The modular intelligent control system is designed to meticulously monitor the quality of each module during the pre-assembly phase. By integrating sophisticated sensors, diagnostic tools, and intelligent control mechanisms, this system ensures precise control over module production processes. It facilitates the monitoring of multiple parameters and critical quality features, while integrated sensors and diagnostic methods promptly identify discrepancies and inaccuracies, enabling the swift diagnosis of issues within specific modules. The system's intelligent control algorithms optimize production processes and ensure synchronization among individual modules, thereby ensuring consistent quality and performance. Notably, the implementation of this solution reduces inspection time by an average of 40 to 60% compared to manual inspection methods. Moreover, the system enables the comprehensive archiving of measurement data, eliminating the substantial error rates introduced by human involvement in the inspection process. Furthermore, the system enhances overall project efficiency, predictability, and safety, while allowing for rapid adjustments in order to meet standards and requirements. This innovative approach represents a significant advancement in intelligent control systems for use in production organizations, offering substantial benefits in terms of efficiency, accuracy, and adaptability. [ABSTRACT FROM AUTHOR]

Published

2024

28. Rabbit feeding robot: Autonomous navigation and precision feeding.

Author

Jiang, Wei, Hao, Hongyun, Fan, Jiayu, Wang, Liangju, and Wang, Hongying

Subjects

*AUTONOMOUS robots, *ANIMAL feeds, *RABBITS, *MOBILE robots, *DISEASE prevalence, *LIVESTOCK breeding

Abstract

Feeding remains a critical component in rabbit farming. In rabbit production, precise feeding is imperative, given its significant role in augmenting feed efficiency, curtailing farming expenses, reducing disease prevalence and mortality rates, and lessening environmental pollution. This study presents the design and development of a rabbit feeding robot that synergises mobile robotics and mechanical arm technology, aiming for exact feed dispensation within rabbit hutches through a mechanism that precisely quantifies feed volume. The robot developed for this purpose notably minimises feed fragmentation and mitigates stress responses in rabbits, thus facilitating unsupervised, precise feeding tailored to varied dietary needs. Experimental outcomes, garnered within a rabbit hutch, reveal that the mobile robot operated at velocities between 0.05 and 0.20 m s−1. Its navigation and positioning accuracy showed a speed deviation of 1.2 %, a lateral deviation of 5.3 mm, a longitudinal deviation of 7.6 mm, and an angular deviation of 1.1°. The rabbit feeding robot demonstrated a feed quantitative error of 4.3%. At a designated feeding point, the time cycles for dispensing feed across three boxes were recorded as 40.6 s, 50.1 s, and 24.3 s, achieving success rates of 96.3 %, 98.8 %, and 100.0 %, respectively. These results substantiate the practical applicability of the rabbit feeding robot in farming production, thus fostering the progression of intelligent agricultural practices. • The design and development of an unsupervised rabbit feeding robot have been presented. • The robot developed achieves a quantitative error of 4.3% and a low breakage rate. • The feasibility has been validated in a real farming environment. [ABSTRACT FROM AUTHOR]

Published

2024

29. Application of Software Robots Using Artificial Intelligence Technologies in the Educational Process of the University.

Author

Yeslyamov, Serik

Subjects

ARTIFICIAL intelligence, APPLICATION software, ROBOTS, INTEGRATED software, EDUCATIONAL technology, ROBOT programming

Abstract

The use of artificial intelligence (AI) in education has gained interest due to its increasing application in various fields. This study explores the potential of AI-based software robots in higher education and their ability to revolutionize educational methodologies. The research purpose is to examine the positive impact of the use of software robots in educational settings. The study focuses on evaluating the prospects of expanding the use of AI-based software robots in higher education. The research uses a combination of observational techniques and practical case studies. It includes an experimental investigation of the basic principles of developing an AI-based robot teacher, with the aim of eventually implementing it in educational processes. The research findings indicate that integrating AI-driven software robots into university education can provide substantial benefits and significant improvements over traditional teaching models. These robots can enhance the educational process and address various developmental challenges. The study highlights the transformative impact of AI-based software robots in modernizing university education. The findings demonstrate the potential of these technologies to reshape the current higher education system. [ABSTRACT FROM AUTHOR]

Published

2024

30. Adaptive robotic system for the inspection of aerospace slat actuator mount

Author

Nour M. Morsi, Mario Mata, Colin S. Harrison, and David Semple

Subjects

robotic systems, inspection, aerospace, machine learning, drill analysis, slat actuator mount, Mechanical engineering and machinery, TJ1-1570, Electronic computers. Computer science, QA75.5-76.95

Abstract

Introduction: Robotics uptake in the aerospace industry is low, mainly due to the low-volume/high-accuracy production that aerospace manufacturers require. Furthermore, aerospace manufacturing and assembly sites are often unstructured environments not specifically suitable for robots to operate in.Methods: This paper introduces a robotic visual inspection system using off-the-shelf components able to inspect the mounting holes for wing slat actuators without the need for fixed-coordinate programming; the part just needs to be left within reach of the robot. Our system sets one of the opposed pairs of mounting holes as a reference (the “datum”) and then compares the tilt of all other pairs of mounting holes with respect to it. Under the assumption that any deviation in the mounting hole tilt is not systematic but due to normal manufacturing tolerances, our system will either guarantee the correct alignment of all mounting holes or highlight the existence of misaligned holes.Results and Discussion: Computer-vision tilt measurements are performed with an error of below 0.03° using custom optimization for the sub-pixel determination of the center and radius of the mounting holes. The error introduced by the robot’s motion from the datum to each of the remaining hole pairs is compensated by moving back to the datum and fixing the orientation again before moving to inspect the next hole pair. This error is estimated to be approximately 0.05°, taking the total tilt error estimation for any mounting hole pair to be 0.08° with respect to the datum. This is confirmed by manually measuring the tilt of the hole pairs using a clock gauge on a calibrated table (not used during normal operation).

Published

2024

31. The impact of robots and robotic systems on businesses in the workplace: systematic review

Author

Uğuz Arsu, Şerife and Sipahi Döngül, Esra

Published

2023

32. Machine Vision and Robotics for Primary Food Manipulation and Packaging: A Survey

Author

Saigopal Vasudevan, Mohamed Lamine Mekhalfi, Carlos Blanes, Michela Lecca, Fabio Poiesi, Paul Ian Chippendale, Pablo Malvido Fresnillo, Wael M. Mohammed, and Jose L. Martinez Lastra

Subjects

Artificial intelligence, conveyors, end-effectors, machine vision, primary food processing, robotic systems, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

Vision and Robotic technologies are progressively becoming ubiquitous for automating and digitizing quality control in the food industry. This paper examines the crucial role of advanced automation technologies, including versatile or dedicated robotic systems, specialized end-effectors, machine vision, and efficient material handling systems, which collectively enhance food processing efficiency. This paper aspires to provide a high-level technical review on the crucial role of advanced automation technologies, including versatile or dedicated robotic systems, specialized end-effectors, machine vision, and efficient material handling systems, which collectively enhance food processing efficiency. While the manuscript aims to document the various automation sub-systems utilized generally in food processing, it places a particular emphasis on the primary processing phase of food production. Most food products in the primary processing phase exhibit a plethora of complex physical properties and manipulation conditions, making it difficult to reliably automate the various processes. This research aims to outline the contemporary advances and requirements for integrating various automation technologies, to enhance the efficiency and precision of primary food processing. Furthermore, it aspires to serve as a valuable, up-to-date survey and analysis of the latest advances in automation and vision technologies and their capability to automate a food processing line.

Published

2024

33. Enhancing Grapevine Node Detection to Support Pruning Automation: Leveraging State-of-the-Art YOLO Detection Models for 2D Image Analysis

Author

Francisco Oliveira, Daniel Queirós da Silva, Vítor Filipe, Tatiana Martins Pinho, Mário Cunha, José Boaventura Cunha, and Filipe Neves dos Santos

Subjects

deep learning, precision agriculture, pruning, robotic systems, YOLO, Chemical technology, TP1-1185

Abstract

Automating pruning tasks entails overcoming several challenges, encompassing not only robotic manipulation but also environment perception and detection. To achieve efficient pruning, robotic systems must accurately identify the correct cutting points. A possible method to define these points is to choose the cutting location based on the number of nodes present on the targeted cane. For this purpose, in grapevine pruning, it is required to correctly identify the nodes present on the primary canes of the grapevines. In this paper, a novel method of node detection in grapevines is proposed with four distinct state-of-the-art versions of the YOLO detection model: YOLOv7, YOLOv8, YOLOv9 and YOLOv10. These models were trained on a public dataset with images containing artificial backgrounds and afterwards validated on different cultivars of grapevines from two distinct Portuguese viticulture regions with cluttered backgrounds. This allowed us to evaluate the robustness of the algorithms on the detection of nodes in diverse environments, compare the performance of the YOLO models used, as well as create a publicly available dataset of grapevines obtained in Portuguese vineyards for node detection. Overall, all used models were capable of achieving correct node detection in images of grapevines from the three distinct datasets. Considering the trade-off between accuracy and inference speed, the YOLOv7 model demonstrated to be the most robust in detecting nodes in 2D images of grapevines, achieving F1-Score values between 70% and 86.5% with inference times of around 89 ms for an input size of 1280 × 1280 px. Considering these results, this work contributes with an efficient approach for real-time node detection for further implementation on an autonomous robotic pruning system.

Published

2024

34. RESEARCH OF MICROPROCESSOR DEVICE AND SOFTWARE FOR REMOTE CONTROL OF A ROBOTIC SYSTEM.

Author

Zuiev, Andrii, Krylova, Viktoriia, Hapon, Anatolii, and Honcharov, Stanislav

Subjects

*REMOTE control, *REAL-time control, *MICROPROCESSORS, *AUTONOMOUS robots, *TIME delay systems, *ROBOTICS

Abstract

The modern stage of the development of intelligent robotic systems is characterized by the expansion of fields of application, which is due to autonomous work and decision-making in conditions of uncertainty. The object of research is the system of remote control of robotic systems. During the remote control of robotic systems, problems arise that are associated with the use of wireless communication in real time. The article analyzes software and hardware implementations of various remote control systems suitable for use as part of autonomous robotic systems and analyzes promising microcontroller platforms for implementing a remote control device for a robotic system. A brief review of existing protocols for transmitting control signals using radio communication equipment and microprocessor platforms for the development of embedded systems is performed, among which a solution is selected for research. Several approaches to the control of a robotic system are highlighted – control using a wired connection and corresponding protocols, control via wireless communication or via the Internet, control via general-purpose network protocols. The target platform is chosen and justified, and the S.BUS protocol is analyzed with the provision of an algorithm for obtaining the values of the control channels from the S.BUS package. The structure and algorithm of functioning of the microprocessor remote control system based on the ESP32 microcontroller and the FreeRTOS OS are given. A study of the operation process of the proposed remote control system is carried out, for which it is placed on the chassis of a ground autonomous robotic system with four-wheel drive, and the delay time of the control signal from the receiver to the engine control modules is determined. According to the conducted analysis, the expediency of using specialized radio communication equipment with the S.BUS protocol for controlling executive devices as part of a robotic system, for precise movement control in real time, is shown. [ABSTRACT FROM AUTHOR]

Published

2024

35. ROBOTIC SYSTEMS IN FOOD AND BEVERAGE PREPARATION FACILITIES: KEY IMPLICATIONS FOR LEADERS AND HUMAN RESOURCES.

Author

Nikolić, Jelena Lukić and Labus, Pero

Subjects

HUMAN resources departments, COOKING, MANN Whitney U Test, KRUSKAL-Wallis Test, ROBOTICS

Abstract

The aim of this paper is to examine and analyze the use of robotic systems in facilities for food and beverage preparation. The research was conducted using a specially designed questionnaire, which was completed by 219 respondents working in food and beverage preparation facilities during 2023. The data analysis applied descriptive statistics, Kolmogorov-Smirnov test, Levene's test, Mann-Whitney U test and Kruskal-Wallis H test. Research results showed that more than 60% employees in food and beverage preparation facilities consider that robotic systems perform routine and simple tasks (67.12%), allow employees to focus on more complex tasks (66.67%), are faster and more efficient (61.93%), provide significant cost savings (64.68%), and do not fear that a robotic system will replace them (76.71%). The obtained results could serve as a basis for leaders and human resource managers in facilities for food and beverage preparation when considering the implementation of robotic systems. [ABSTRACT FROM AUTHOR]

Published

2024

36. Adaptive Event-Triggered Neural Network Fast Finite-Time Control for Uncertain Robotic Systems.

Author

Wang, Jianhui, Du, Yongping, Zhang, Yuanqing, Gu, Yixiang, and Chen, Kairui

Subjects

*UNCERTAIN systems, *FRACTIONAL powers, *STABILITY theory, *NONLINEAR functions, *NONLINEAR systems

Abstract

A fast convergence adaptive neural network event-triggered control strategy is proposed for the trajectory tracking issue of uncertain robotic systems with output constraints. To cope with the constraints on the system output in the actual industrial field while reducing the burden on communication resources, an adaptive event-triggered mechanism is designed by using logarithm-type barrier Lyapunov functions and an event-triggered mechanism. Meanwhile, the combination of neural networks and fast finite-time stability theory can not only approximate the unknown nonlinear function of the system, but also construct the control law and adaptive law with a fractional exponential power to accelerate the system's convergence speed. Furthermore, the tracking errors converge quickly to a bounded and adjustable compact set in finite time. Finally, the effectiveness of the strategy is verified by simulation examples. [ABSTRACT FROM AUTHOR]

Published

2023

37. Nonlinear Disturbance Observer-Based Continuous Fixed-time Tracking Control for Uncertain Robotic Systems

Author

Li, Yi, Zhang, Wenjun, Zhou, Yufei, Tao, Yongting, Zhu, Mingchao, 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, Yang, Huayong, editor, Liu, Honghai, editor, Zou, Jun, editor, Yin, Zhouping, editor, Liu, Lianqing, editor, Yang, Geng, editor, Ouyang, Xiaoping, editor, and Wang, Zhiyong, editor

Published

2023

38. Developing an Integrated Runtime Verification for Safety and Security of Industrial Robot Inspection System

Author

Degirmenci, Elif, Kırca, Yunus Sabri, Örnek, Özlem, Bulut, Mert, Kahraman, Serhat, Özkan, Metin, Yazıcı, 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, Iida, Fumiya, editor, Maiolino, Perla, editor, Abdulali, Arsen, editor, and Wang, Mingfeng, editor

Published

2023

39. Monitoring the State of Robotic Systems Based on Time Series Analysis

Author

Semenov, Viktor, 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, Ronzhin, Andrey, editor, Sadigov, Aminagha, editor, and Meshcheryakov, Roman, editor

Published

2023

40. A Short Review on New Development Achievements and Market Opportunities in Unmanned Systems

Author

Ekici, Selcuk, Dalkiran, Alper, Karakoc, T. Hikmet, Karakoc, T. Hikmet, Series Editor, Colpan, C Ozgur, Series Editor, Dalkiran, Alper, Series Editor, Yilmaz, Nadir, editor, and Ercan, Ali Haydar, editor

Published

2023

41. An Interpretable Environmental Sensing System with Unmanned Ground Vehicle for First Aid Detection

Author

Topal, Ali, Ersoy, Mevlut, Yigit, Tuncay, Kose, Utku, Fortino, Giancarlo, Series Editor, Liotta, Antonio, Series Editor, Kose, Utku, editor, Gupta, Deepak, editor, Khanna, Ashish, editor, and Rodrigues, Joel J. P. C., editor

Published

2023

42. Smart Ports and Robotic Systems: Where Is It All Going from Here?

Author

Topping, Paul, Abbott-Halpin, Edward, Series Editor, Aguerre, Carolina, Series Editor, Asquer, Alberto, Series Editor, Campbell-Verduyn, Malcolm, Series Editor, Maia, Maria João, Series Editor, Johansson, Tafsir Matin, editor, Dalaklis, Dimitrios, editor, Fernández, Jonatan Echebarria, editor, Pastra, Aspasia, editor, and Lennan, Mitchell, editor

Published

2023

43. Introduction to Smart Ports and Robotic Systems: Navigating the Waves of Techno-Regulation and Governance

Author

Johansson, Tafsir Matin, Lennan, Mitchell, Fernández, Jonatan Echebarria, Pastra, Aspasia, Dalaklis, Dimitrios, Abbott-Halpin, Edward, Series Editor, Aguerre, Carolina, Series Editor, Asquer, Alberto, Series Editor, Campbell-Verduyn, Malcolm, Series Editor, Maia, Maria João, Series Editor, Johansson, Tafsir Matin, editor, Dalaklis, Dimitrios, editor, Fernández, Jonatan Echebarria, editor, Pastra, Aspasia, editor, and Lennan, Mitchell, editor

Published

2023

44. Regulation of the Microclimate in Greenhouses Using a Mini-computer

Author

Druzyanova, Varvara, Pekhutov, Aleksandr, Kokieva, Galia, Shaposhnikov, Yuriy, Kacprzyk, Janusz, Series Editor, Gomide, Fernando, Advisory Editor, Kaynak, Okyay, Advisory Editor, Liu, Derong, Advisory Editor, Pedrycz, Witold, Advisory Editor, Polycarpou, Marios M., Advisory Editor, Rudas, Imre J., Advisory Editor, Wang, Jun, Advisory Editor, Beskopylny, Alexey, editor, Shamtsyan, Mark, editor, and Artiukh, Viktor, editor

Published

2023

45. Robotic Systems Deployed to Combat COVID-19 Pandemic: A Review

Author

Singh, Deep, Choudhury, Rutupurna, Singh, Yogesh, Cavas-Martínez, Francisco, Editorial Board Member, Chaari, Fakher, Series Editor, di Mare, Francesca, Editorial Board Member, Gherardini, Francesco, Series Editor, Haddar, Mohamed, Editorial Board Member, Ivanov, Vitalii, Series Editor, Kwon, Young W., Editorial Board Member, Trojanowska, Justyna, Editorial Board Member, Sudarshan, T. S., editor, Pandey, K. M., editor, Misra, R. D., editor, Patowari, P. K., editor, and Bhaumik, Swapan, editor

Published

2023

46. Разработка прототипа робота-манипулятора с функцией сортировки: опыт Камчатского государственного университета имени Витуса Беринга

Author

Рязанцев, Е.А.

Subjects

робототехника, робот, высшее образование, роботизированные системы, роботы-манипуляторы, программирование, robotics, robot, higher education, robotic systems, robotic arms, programming, Science

Abstract

В статье обозначена проблема исследования, связанная с разработкой прототипа робота-манипулятора с функцией сортировки, предназначенного для использования в качестве учебного оборудования при подготовке студентов в Камчатском государственном университете имени Витуса Беринга. В статье говорится, что промышленные роботы являются одним из компонентов автоматизированных производственных систем, которые позволяют увеличить производительность труда в производственной сфере страны. В статье констатируется тот факт, что промышленные роботы должны стать фундаментом новой экономики нашей страны, а для решения этой задачи необходимы новые кадры, которые должны готовить университеты страны. Кроме этого, в статье рассмотрена идея использования робота-манипулятора на занятиях по изучению дисциплины «Основы робототехники», включенной в профиль обучения «Прикладная информатика в автоматике и робототехнике» в ФГБОУ ВО «КамГУ им. Витуса Беринга». Автор статьи делится опытом разработки прототипа робота-манипулятора, который имеет функцию сортировки предметов. В статье перечисляются составные части разработанного прототипа и описывается порядок их монтажа. Приводится алгоритм сортировки предметов данным роботом-манипулятором и кратко описывается процесс разработки программного обеспечения для его управления. Указывается, что создание программы заключалось в определении сначала положений роботизированной руки с помощью программы LeArm, а затем — в организации выполнения последовательности этих положений программным способом с помощью системы программирования Arduino IDE. В статье указана перспективная область применения роботов-сортировщиков.

Published

2023

47. Editorial: Safety and security of robotic systems: intelligent algorithms

Author

Chengwei Wu

Subjects

safety, security, robotic systems, intelligent algorithms, cyber attacks, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Published

2024

48. SIMULATION OF MULTIPLE FAILURES IN THE EQUIPMENT OF MOBILE ROBOTIC COMPLEXES

Author

A.V. Zayara and V.P. Fandeev

Subjects

technical diagnostics, electrical equipment, robotic systems, failure location search, diagnostic model, multiple failures, Motor vehicles. Aeronautics. Astronautics, TL1-4050

Abstract

Background. Robotic complexes are equipped with complex electrical equipment of various operating principles, which is subject to inevitable failures. Successful search for failure sites, including multiple ones, will determine the effectiveness of the maintenance and repair system. Materials and methods. A diagnostic model is considered that describes the state of the equipment when multiple failures occur in it. Results and conclusions. The development of diagnostic software based on this model will allow you to successfully complete the main tasks of technical diagnostics.

Published

2024

49. Anesthetic considerations in robotic surgery: a comprehensive review

Author

Hafiani, Hamza, Choubhi, Moncef, Ameur, Ahmed, Bensghir, Mustapha, and Abouelalaa, Khalil

Published

2024

50. Event-based adaptive tracking control for robotic systems with deferred position constraints and unknown backlash-like hysteresis.

Author

Hao, Siwen, Pan, Yingnan, Zhu, Yuting, and Cao, Liang

Subjects

TRACKING control systems, ADAPTIVE control systems, HYSTERESIS, DERACEMIZATION, LYAPUNOV functions

Abstract

This paper proposes an event-based adaptive tracking control scheme for the n -link robotic systems in the presence of unknown backlash-like hysteresis (BLH) and deferred position constraints. By combining a transformation error with an asymmetric Lyapunov function, the devised control tactic achieves that the position constraints of robotic systems are not violated after user pre-specified time. In contrast to the results of robotic systems with position constraints, this paper removes a common assumption condition generated by the conventional barrier Lyapunov function method. Then, the adverse effect of unknown BLH can be offset by the Nussbaum function. Meanwhile, an event-triggered mechanism is designed to economize on the network bandwidth resources. Finally, based on the Lyapunov theory, an event-based adaptive tracking control tactic is proposed to ensure that all the signals of robotic systems are bounded under unknown BLH and deferred position constraints. Some simulation results proof that the devised control scheme is valid. • A shifting function is designed to remove a common assumption condition. • The Nussbaum function addresses the problem of the unknown backlash-like hysteresis. • The convergence time of robotic systems can be affected by the pre-specified time. [ABSTRACT FROM AUTHOR]

Published

2023