TY  - CONF
AU  - Zivković, Nikola
AU  - Vidaković, Jelena
AU  - Dević, Andrija
AU  - Lazarević, Mihailo
AU  - Lazarevic, Ilija
PY  - 2024
UR  - https://machinery.mas.bg.ac.rs/handle/123456789/7792
AB  - Industrial robot programming can be a challenging
task, especially in today's age, where robots are more widespread
outside the large manufacturing companies, but rather in small
and medium enterprises where users are not necessarily fully
qualified individuals. The Extended Reality technologies may be
the ongoing answer to improved robot programming experience.
Current solutions for robot programming using Extended Reality
technologies are explored in this overview. In this paper, a
summarized description of certain solutions is given, focusing on
how are the XR technologies utilized in developing the robot
programming systems. Categorization by devices and motion
planners used is also given.
PB  - Univerzitet u Istočnom Sarajevu, Elektrotehnički fakultet
C3  - Zbornik  radova  23rd International Symposium INFOTEH-JAHORINA, 20-22 March 2024
T1  - An overview of XR technologies usage for industrial robot programming
EP  - 221
SP  - 218
UR  - https://hdl.handle.net/21.15107/rcub_machinery_7792
ER  - 

@conference{
author = "Zivković, Nikola and Vidaković, Jelena and Dević, Andrija and Lazarević, Mihailo and Lazarevic, Ilija",
year = "2024",
abstract = "Industrial robot programming can be a challenging
task, especially in today's age, where robots are more widespread
outside the large manufacturing companies, but rather in small
and medium enterprises where users are not necessarily fully
qualified individuals. The Extended Reality technologies may be
the ongoing answer to improved robot programming experience.
Current solutions for robot programming using Extended Reality
technologies are explored in this overview. In this paper, a
summarized description of certain solutions is given, focusing on
how are the XR technologies utilized in developing the robot
programming systems. Categorization by devices and motion
planners used is also given.",
publisher = "Univerzitet u Istočnom Sarajevu, Elektrotehnički fakultet",
journal = "Zbornik  radova  23rd International Symposium INFOTEH-JAHORINA, 20-22 March 2024",
title = "An overview of XR technologies usage for industrial robot programming",
pages = "221-218",
url = "https://hdl.handle.net/21.15107/rcub_machinery_7792"
}

Zivković, N., Vidaković, J., Dević, A., Lazarević, M.,& Lazarevic, I.. (2024). An overview of XR technologies usage for industrial robot programming. in Zbornik  radova  23rd International Symposium INFOTEH-JAHORINA, 20-22 March 2024
Univerzitet u Istočnom Sarajevu, Elektrotehnički fakultet., 218-221.
https://hdl.handle.net/21.15107/rcub_machinery_7792

Zivković N, Vidaković J, Dević A, Lazarević M, Lazarevic I. An overview of XR technologies usage for industrial robot programming. in Zbornik  radova  23rd International Symposium INFOTEH-JAHORINA, 20-22 March 2024. 2024;:218-221.
https://hdl.handle.net/21.15107/rcub_machinery_7792 .

Zivković, Nikola, Vidaković, Jelena, Dević, Andrija, Lazarević, Mihailo, Lazarevic, Ilija, "An overview of XR technologies usage for industrial robot programming" in Zbornik  radova  23rd International Symposium INFOTEH-JAHORINA, 20-22 March 2024 (2024):218-221,
https://hdl.handle.net/21.15107/rcub_machinery_7792 .

TY  - CONF
AU  - Vidaković, Jelena
AU  - Dević, Andrija
AU  - Zivković, Nikola
AU  - Kvrgić, Vladimir
AU  - Lazarević, Mihailo
PY  - 2024
UR  - https://machinery.mas.bg.ac.rs/handle/123456789/7791
AB  - In this paper, the implementation of the solution of the
inverse kinematics problem for the 6DoF industrial robot arm in
the Unity game engine is presented. Unity, one of the most
popular game engines, is a very powerful tool and a leading
platform for creating XR applications. Two different methods for
the implementation of the solution of the inverse kinematics
problem have been proposed: 1) Development and
implementation of the inverse kinematics algorithm of a specific
robot, and 2) Using inverse kinematics solvers by integration of
Unity with dedicated robotics development frameworks. For
verification of the proposed procedures, a serial robot with
cylindrical joints RL15 is used.
PB  - Univerzitet u Istočnom Sarajevu, Elektrotehnički fakultet
C3  - Zbornik  radova  23rd International Symposium INFOTEH-JAHORINA, 20-22 March 2024
T1  - Implementation of inverse kinematics algorithm for 6DoF robot arm in Unity
EP  - 64
SP  - 60
UR  - https://hdl.handle.net/21.15107/rcub_machinery_7791
ER  - 

@conference{
author = "Vidaković, Jelena and Dević, Andrija and Zivković, Nikola and Kvrgić, Vladimir and Lazarević, Mihailo",
year = "2024",
abstract = "In this paper, the implementation of the solution of the
inverse kinematics problem for the 6DoF industrial robot arm in
the Unity game engine is presented. Unity, one of the most
popular game engines, is a very powerful tool and a leading
platform for creating XR applications. Two different methods for
the implementation of the solution of the inverse kinematics
problem have been proposed: 1) Development and
implementation of the inverse kinematics algorithm of a specific
robot, and 2) Using inverse kinematics solvers by integration of
Unity with dedicated robotics development frameworks. For
verification of the proposed procedures, a serial robot with
cylindrical joints RL15 is used.",
publisher = "Univerzitet u Istočnom Sarajevu, Elektrotehnički fakultet",
journal = "Zbornik  radova  23rd International Symposium INFOTEH-JAHORINA, 20-22 March 2024",
title = "Implementation of inverse kinematics algorithm for 6DoF robot arm in Unity",
pages = "64-60",
url = "https://hdl.handle.net/21.15107/rcub_machinery_7791"
}

Vidaković, J., Dević, A., Zivković, N., Kvrgić, V.,& Lazarević, M.. (2024). Implementation of inverse kinematics algorithm for 6DoF robot arm in Unity. in Zbornik  radova  23rd International Symposium INFOTEH-JAHORINA, 20-22 March 2024
Univerzitet u Istočnom Sarajevu, Elektrotehnički fakultet., 60-64.
https://hdl.handle.net/21.15107/rcub_machinery_7791

Vidaković J, Dević A, Zivković N, Kvrgić V, Lazarević M. Implementation of inverse kinematics algorithm for 6DoF robot arm in Unity. in Zbornik  radova  23rd International Symposium INFOTEH-JAHORINA, 20-22 March 2024. 2024;:60-64.
https://hdl.handle.net/21.15107/rcub_machinery_7791 .

Vidaković, Jelena, Dević, Andrija, Zivković, Nikola, Kvrgić, Vladimir, Lazarević, Mihailo, "Implementation of inverse kinematics algorithm for 6DoF robot arm in Unity" in Zbornik  radova  23rd International Symposium INFOTEH-JAHORINA, 20-22 March 2024 (2024):60-64,
https://hdl.handle.net/21.15107/rcub_machinery_7791 .

TY  - CONF
AU  - Lazarević, Mihailo
AU  - Radojević, Darko
AU  - Mandić, Petar
AU  - Pišl, Stjepko
PY  - 2023
UR  - https://machinery.mas.bg.ac.rs/handle/123456789/7233
AB  - In this paper, the problem of finite-time stability (FTS) for a class of nonstationary neutral nonlinear perturbed fractional-order time delay systems (FOTDS) is studied. Based on an extended form of generalized Gronwall inequality, a new FTS stability criterion for such systems is established in terms of the Mittag-Leffler function. Finally, a numerical example is given to illustrate the effectiveness and applicability of the proposed theoretical results.
PB  - Belgrade: Serbian Society of Mechanics
C3  - 9th International Congress of the Serbian Society of Mechanics, July 5-7, July, 2023, Vrnjačka Banja, Serbia
T1  - Further results on robust finite-time stability nonstationary two-term neutral nonlinear perturbed fractional - order  time delay systems
EP  - 234
SP  - 225
UR  - https://hdl.handle.net/21.15107/rcub_machinery_7233
ER  - 

@conference{
author = "Lazarević, Mihailo and Radojević, Darko and Mandić, Petar and Pišl, Stjepko",
year = "2023",
abstract = "In this paper, the problem of finite-time stability (FTS) for a class of nonstationary neutral nonlinear perturbed fractional-order time delay systems (FOTDS) is studied. Based on an extended form of generalized Gronwall inequality, a new FTS stability criterion for such systems is established in terms of the Mittag-Leffler function. Finally, a numerical example is given to illustrate the effectiveness and applicability of the proposed theoretical results.",
publisher = "Belgrade: Serbian Society of Mechanics",
journal = "9th International Congress of the Serbian Society of Mechanics, July 5-7, July, 2023, Vrnjačka Banja, Serbia",
title = "Further results on robust finite-time stability nonstationary two-term neutral nonlinear perturbed fractional - order  time delay systems",
pages = "234-225",
url = "https://hdl.handle.net/21.15107/rcub_machinery_7233"
}

Lazarević, M., Radojević, D., Mandić, P.,& Pišl, S.. (2023). Further results on robust finite-time stability nonstationary two-term neutral nonlinear perturbed fractional - order  time delay systems. in 9th International Congress of the Serbian Society of Mechanics, July 5-7, July, 2023, Vrnjačka Banja, Serbia
Belgrade: Serbian Society of Mechanics., 225-234.
https://hdl.handle.net/21.15107/rcub_machinery_7233

Lazarević M, Radojević D, Mandić P, Pišl S. Further results on robust finite-time stability nonstationary two-term neutral nonlinear perturbed fractional - order  time delay systems. in 9th International Congress of the Serbian Society of Mechanics, July 5-7, July, 2023, Vrnjačka Banja, Serbia. 2023;:225-234.
https://hdl.handle.net/21.15107/rcub_machinery_7233 .

Lazarević, Mihailo, Radojević, Darko, Mandić, Petar, Pišl, Stjepko, "Further results on robust finite-time stability nonstationary two-term neutral nonlinear perturbed fractional - order  time delay systems" in 9th International Congress of the Serbian Society of Mechanics, July 5-7, July, 2023, Vrnjačka Banja, Serbia (2023):225-234,
https://hdl.handle.net/21.15107/rcub_machinery_7233 .

TY  - CONF
AU  - Mandić, Petar
AU  - Šekara, Tomislav
AU  - Lazarević, Mihailo
PY  - 2023
UR  - https://machinery.mas.bg.ac.rs/handle/123456789/7237
AB  - This paper deals with a topic of robot following a trajectory in three-dimensional space with a prescribed velocity law. Considering the nonlinear nature of robot manipulators, and high demands regarding tracking performances, this task is very challenging, but also very popular in control community because of its importance in industrial applications. To tackle successfully this problem, we proposed a resonant controller, which outperforms classical control schemes usually employed in this situation. In this particular case, robot manipulator needs to follow an ellipse trajectory with constant speed along the curve. First, mathematical model of three degrees of freedom robot arm is derived with included actuator dynamics. Then, numerical solution of inverse kinematics problem needs to be calculated in order to obtain desired trajectory in joint space. Third, analytical procedure for designing resonant controller is given, with parameters of the controller chosen in order to achieve a good performance/robustness trade-off, which is a key element in modern control design. Finally, proposed control scheme is tested and results of robot simulation are given in the end. Final remarks conclude the paper.
PB  - Belgrade: Serbian Society of Mechanics
C3  - Proceedings 9th International Congress of Serbian Society of Mechanics Vrnjačka Banja, Serbia, July 5-7, 2023
T1  - ANALYTICAL DESIGN OF RESONANT CONTROLLER APPLIED FOR SOLVING ROBOT ARM TRACKING PROBLEM
EP  - 282
SP  - 275
UR  - https://hdl.handle.net/21.15107/rcub_machinery_7237
ER  - 

@conference{
author = "Mandić, Petar and Šekara, Tomislav and Lazarević, Mihailo",
year = "2023",
abstract = "This paper deals with a topic of robot following a trajectory in three-dimensional space with a prescribed velocity law. Considering the nonlinear nature of robot manipulators, and high demands regarding tracking performances, this task is very challenging, but also very popular in control community because of its importance in industrial applications. To tackle successfully this problem, we proposed a resonant controller, which outperforms classical control schemes usually employed in this situation. In this particular case, robot manipulator needs to follow an ellipse trajectory with constant speed along the curve. First, mathematical model of three degrees of freedom robot arm is derived with included actuator dynamics. Then, numerical solution of inverse kinematics problem needs to be calculated in order to obtain desired trajectory in joint space. Third, analytical procedure for designing resonant controller is given, with parameters of the controller chosen in order to achieve a good performance/robustness trade-off, which is a key element in modern control design. Finally, proposed control scheme is tested and results of robot simulation are given in the end. Final remarks conclude the paper.",
publisher = "Belgrade: Serbian Society of Mechanics",
journal = "Proceedings 9th International Congress of Serbian Society of Mechanics Vrnjačka Banja, Serbia, July 5-7, 2023",
title = "ANALYTICAL DESIGN OF RESONANT CONTROLLER APPLIED FOR SOLVING ROBOT ARM TRACKING PROBLEM",
pages = "282-275",
url = "https://hdl.handle.net/21.15107/rcub_machinery_7237"
}

Mandić, P., Šekara, T.,& Lazarević, M.. (2023). ANALYTICAL DESIGN OF RESONANT CONTROLLER APPLIED FOR SOLVING ROBOT ARM TRACKING PROBLEM. in Proceedings 9th International Congress of Serbian Society of Mechanics Vrnjačka Banja, Serbia, July 5-7, 2023
Belgrade: Serbian Society of Mechanics., 275-282.
https://hdl.handle.net/21.15107/rcub_machinery_7237

Mandić P, Šekara T, Lazarević M. ANALYTICAL DESIGN OF RESONANT CONTROLLER APPLIED FOR SOLVING ROBOT ARM TRACKING PROBLEM. in Proceedings 9th International Congress of Serbian Society of Mechanics Vrnjačka Banja, Serbia, July 5-7, 2023. 2023;:275-282.
https://hdl.handle.net/21.15107/rcub_machinery_7237 .

Mandić, Petar, Šekara, Tomislav, Lazarević, Mihailo, "ANALYTICAL DESIGN OF RESONANT CONTROLLER APPLIED FOR SOLVING ROBOT ARM TRACKING PROBLEM" in Proceedings 9th International Congress of Serbian Society of Mechanics Vrnjačka Banja, Serbia, July 5-7, 2023 (2023):275-282,
https://hdl.handle.net/21.15107/rcub_machinery_7237 .

TY  - CONF
AU  - Živković, Nikola
AU  - Lazarević, Mihailo
AU  - Vidaković, Jelena
PY  - 2023
UR  - https://machinery.mas.bg.ac.rs/handle/123456789/6973
AB  - In this research paper, the application of Iterative Learning Control (ILC), an intelligent control
method, is suggested in the form of a fractional‐order PD‐type controller. The main task of the ILC controller is to reject process model uncertainties, which are often present in complex systems such as  various multibody systems, and to sequentially reduce a trajectory tracking error. As a control plant, an exoskeleton support arm with three degrees of freedom is used herein. The control scheme consists  of feedback linearization compensating for the known part of the dynamics model and the  feedforward ILC controller of the PDα‐type. The feedback part of the control system is the classical PD  controller. The feedforward control signal is filtered with a lowpass filter to avoid divergent behavior as iterations progress. Finally, simulation results are presented to demonstrate the proposed control system performance applied to the chosen control plant, as well as the achieved error convergence towards the steady‐state value for various values of the fractional order.
PB  - Banja Luka: Faculty of Mechanical Engineering Banja Luka, Republic of Srpska, BiH
C3  - 16TH INTERNATIONAL CONFERENCE ON ACCOMPLISHMENTS IN MECHANICAL AND INDUSTRIAL ENGINEERING,DEMI 2023, Banja Luka 1-2 June
T1  - Assessment of fractional order impact on performance of fractional ILC controller for upper limb exoskeleton
EP  - 337
SP  - 333
UR  - https://hdl.handle.net/21.15107/rcub_machinery_6973
ER  - 

@conference{
author = "Živković, Nikola and Lazarević, Mihailo and Vidaković, Jelena",
year = "2023",
abstract = "In this research paper, the application of Iterative Learning Control (ILC), an intelligent control
method, is suggested in the form of a fractional‐order PD‐type controller. The main task of the ILC controller is to reject process model uncertainties, which are often present in complex systems such as  various multibody systems, and to sequentially reduce a trajectory tracking error. As a control plant, an exoskeleton support arm with three degrees of freedom is used herein. The control scheme consists  of feedback linearization compensating for the known part of the dynamics model and the  feedforward ILC controller of the PDα‐type. The feedback part of the control system is the classical PD  controller. The feedforward control signal is filtered with a lowpass filter to avoid divergent behavior as iterations progress. Finally, simulation results are presented to demonstrate the proposed control system performance applied to the chosen control plant, as well as the achieved error convergence towards the steady‐state value for various values of the fractional order.",
publisher = "Banja Luka: Faculty of Mechanical Engineering Banja Luka, Republic of Srpska, BiH",
journal = "16TH INTERNATIONAL CONFERENCE ON ACCOMPLISHMENTS IN MECHANICAL AND INDUSTRIAL ENGINEERING,DEMI 2023, Banja Luka 1-2 June",
title = "Assessment of fractional order impact on performance of fractional ILC controller for upper limb exoskeleton",
pages = "337-333",
url = "https://hdl.handle.net/21.15107/rcub_machinery_6973"
}

Živković, N., Lazarević, M.,& Vidaković, J.. (2023). Assessment of fractional order impact on performance of fractional ILC controller for upper limb exoskeleton. in 16TH INTERNATIONAL CONFERENCE ON ACCOMPLISHMENTS IN MECHANICAL AND INDUSTRIAL ENGINEERING,DEMI 2023, Banja Luka 1-2 June
Banja Luka: Faculty of Mechanical Engineering Banja Luka, Republic of Srpska, BiH., 333-337.
https://hdl.handle.net/21.15107/rcub_machinery_6973

Živković N, Lazarević M, Vidaković J. Assessment of fractional order impact on performance of fractional ILC controller for upper limb exoskeleton. in 16TH INTERNATIONAL CONFERENCE ON ACCOMPLISHMENTS IN MECHANICAL AND INDUSTRIAL ENGINEERING,DEMI 2023, Banja Luka 1-2 June. 2023;:333-337.
https://hdl.handle.net/21.15107/rcub_machinery_6973 .

Živković, Nikola, Lazarević, Mihailo, Vidaković, Jelena, "Assessment of fractional order impact on performance of fractional ILC controller for upper limb exoskeleton" in 16TH INTERNATIONAL CONFERENCE ON ACCOMPLISHMENTS IN MECHANICAL AND INDUSTRIAL ENGINEERING,DEMI 2023, Banja Luka 1-2 June (2023):333-337,
https://hdl.handle.net/21.15107/rcub_machinery_6973 .

TY  - CONF
AU  - Dević, Andrija
AU  - Vidaković, Jelena
AU  - Živković, Nikola
AU  - Lazarević, Mihailo
PY  - 2023
UR  - https://machinery.mas.bg.ac.rs/handle/123456789/6972
AB  - Small‐size (desktop) robot arms are being increasingly used in research and education, where low cost implementation prevails over the need for high dynamic performance. This paper presents a
design of a control unit for a 6DoF desktop robot arm with cylindrical joints actuated with stepper
motors. Feedforward control, often chosen as a control strategy for stepper motors due to the
simplicity of control algorithms, as well as the cost‐effectiveness of the solution, is selected as the
control method. The applicative software with GUI developed in Matlab is presented. A trajectory
planner based on the solution of the inverse kinematics problem and the user‐selected joint velocity profile is implemented. In order to avoid step skipping occurrence, the torque in joints necessary to  produce the programmed joints motion have to be achievable by the installed stepper motors. As a  part of applicative software, the check on the feasibility of the programmed robot trajectories by numerical simulation of solution of inverse dynamics problem in Simscape Multibody is performed. The microcontroller is used as an interface device that controls the stepper motor drivers. The applicative software communicates with the microcontroller using the TCP protocol.
PB  - Banja Luka: Faculty of Mechanical Engineering Banja Luka, Republic of Srpska, BiH
C3  - 16TH INTERNATIONAL CONFERENCE ON ACCOMPLISHMENTS IN MECHANICAL AND INDUSTRIAL ENGINEERING,DEMI 2023, Banja Luka 1-2. June
T1  - Synthesis of the control unit of the desktop robot arm actuated by stepper motors
EP  - 365
SP  - 361
UR  - https://hdl.handle.net/21.15107/rcub_machinery_6972
ER  - 

@conference{
author = "Dević, Andrija and Vidaković, Jelena and Živković, Nikola and Lazarević, Mihailo",
year = "2023",
abstract = "Small‐size (desktop) robot arms are being increasingly used in research and education, where low cost implementation prevails over the need for high dynamic performance. This paper presents a
design of a control unit for a 6DoF desktop robot arm with cylindrical joints actuated with stepper
motors. Feedforward control, often chosen as a control strategy for stepper motors due to the
simplicity of control algorithms, as well as the cost‐effectiveness of the solution, is selected as the
control method. The applicative software with GUI developed in Matlab is presented. A trajectory
planner based on the solution of the inverse kinematics problem and the user‐selected joint velocity profile is implemented. In order to avoid step skipping occurrence, the torque in joints necessary to  produce the programmed joints motion have to be achievable by the installed stepper motors. As a  part of applicative software, the check on the feasibility of the programmed robot trajectories by numerical simulation of solution of inverse dynamics problem in Simscape Multibody is performed. The microcontroller is used as an interface device that controls the stepper motor drivers. The applicative software communicates with the microcontroller using the TCP protocol.",
publisher = "Banja Luka: Faculty of Mechanical Engineering Banja Luka, Republic of Srpska, BiH",
journal = "16TH INTERNATIONAL CONFERENCE ON ACCOMPLISHMENTS IN MECHANICAL AND INDUSTRIAL ENGINEERING,DEMI 2023, Banja Luka 1-2. June",
title = "Synthesis of the control unit of the desktop robot arm actuated by stepper motors",
pages = "365-361",
url = "https://hdl.handle.net/21.15107/rcub_machinery_6972"
}

Dević, A., Vidaković, J., Živković, N.,& Lazarević, M.. (2023). Synthesis of the control unit of the desktop robot arm actuated by stepper motors. in 16TH INTERNATIONAL CONFERENCE ON ACCOMPLISHMENTS IN MECHANICAL AND INDUSTRIAL ENGINEERING,DEMI 2023, Banja Luka 1-2. June
Banja Luka: Faculty of Mechanical Engineering Banja Luka, Republic of Srpska, BiH., 361-365.
https://hdl.handle.net/21.15107/rcub_machinery_6972

Dević A, Vidaković J, Živković N, Lazarević M. Synthesis of the control unit of the desktop robot arm actuated by stepper motors. in 16TH INTERNATIONAL CONFERENCE ON ACCOMPLISHMENTS IN MECHANICAL AND INDUSTRIAL ENGINEERING,DEMI 2023, Banja Luka 1-2. June. 2023;:361-365.
https://hdl.handle.net/21.15107/rcub_machinery_6972 .

Dević, Andrija, Vidaković, Jelena, Živković, Nikola, Lazarević, Mihailo, "Synthesis of the control unit of the desktop robot arm actuated by stepper motors" in 16TH INTERNATIONAL CONFERENCE ON ACCOMPLISHMENTS IN MECHANICAL AND INDUSTRIAL ENGINEERING,DEMI 2023, Banja Luka 1-2. June (2023):361-365,
https://hdl.handle.net/21.15107/rcub_machinery_6972 .

TY  - CONF
AU  - Svishchev, Nikolai
AU  - Lino, Paolo
AU  - Maione, Guido
AU  - Rybakov, Alexsey
AU  - Lazarević, Mihailo
AU  - Azhmukhamedov Iskandar, Maratovich
PY  - 2023
UR  - https://machinery.mas.bg.ac.rs/handle/123456789/7008
AB  - To control a remotely operated underwater vehicle (ROUV) of the observation ROUVs class, the interactions among mechanical, electronic and information processing elements call for an integrated approach at all design and development stages. Different methodologies must be combined in a multi-formalism modelling approach supported by a suitable simulation and prototyping environment. The proposed approach further involves the development of a digital twin ROUV prototype in the Gazebo-based simulator to assess performance reliably, and the utilization of a ROUV controller board (stm32F407, Quad-core Cortex-A7) with a digital camera and an inertial measurement unit (3D accelerometer, 3D gyroscope, compass) to implement and run the designed control algorithms in real-time. A mathematical model of the system is derived to design a fractional-order PI controller of the ROUV heading in the horizontal plane.
PB  - IFAC
C3  - Proceedings IFAC World Congress 2023 - The 22nd World Congress of the International Federation of Automatic Control Yokohama, Japan
T1  - Rouv Heading by a Fractional-Order PI Controller
IS  - TuC09.2
UR  - https://hdl.handle.net/21.15107/rcub_machinery_7008
ER  - 

@conference{
author = "Svishchev, Nikolai and Lino, Paolo and Maione, Guido and Rybakov, Alexsey and Lazarević, Mihailo and Azhmukhamedov Iskandar, Maratovich",
year = "2023",
abstract = "To control a remotely operated underwater vehicle (ROUV) of the observation ROUVs class, the interactions among mechanical, electronic and information processing elements call for an integrated approach at all design and development stages. Different methodologies must be combined in a multi-formalism modelling approach supported by a suitable simulation and prototyping environment. The proposed approach further involves the development of a digital twin ROUV prototype in the Gazebo-based simulator to assess performance reliably, and the utilization of a ROUV controller board (stm32F407, Quad-core Cortex-A7) with a digital camera and an inertial measurement unit (3D accelerometer, 3D gyroscope, compass) to implement and run the designed control algorithms in real-time. A mathematical model of the system is derived to design a fractional-order PI controller of the ROUV heading in the horizontal plane.",
publisher = "IFAC",
journal = "Proceedings IFAC World Congress 2023 - The 22nd World Congress of the International Federation of Automatic Control Yokohama, Japan",
title = "Rouv Heading by a Fractional-Order PI Controller",
number = "TuC09.2",
url = "https://hdl.handle.net/21.15107/rcub_machinery_7008"
}

Svishchev, N., Lino, P., Maione, G., Rybakov, A., Lazarević, M.,& Azhmukhamedov Iskandar, M.. (2023). Rouv Heading by a Fractional-Order PI Controller. in Proceedings IFAC World Congress 2023 - The 22nd World Congress of the International Federation of Automatic Control Yokohama, Japan
IFAC.(TuC09.2).
https://hdl.handle.net/21.15107/rcub_machinery_7008

Svishchev N, Lino P, Maione G, Rybakov A, Lazarević M, Azhmukhamedov Iskandar M. Rouv Heading by a Fractional-Order PI Controller. in Proceedings IFAC World Congress 2023 - The 22nd World Congress of the International Federation of Automatic Control Yokohama, Japan. 2023;(TuC09.2).
https://hdl.handle.net/21.15107/rcub_machinery_7008 .

Svishchev, Nikolai, Lino, Paolo, Maione, Guido, Rybakov, Alexsey, Lazarević, Mihailo, Azhmukhamedov Iskandar, Maratovich, "Rouv Heading by a Fractional-Order PI Controller" in Proceedings IFAC World Congress 2023 - The 22nd World Congress of the International Federation of Automatic Control Yokohama, Japan, no. TuC09.2 (2023),
https://hdl.handle.net/21.15107/rcub_machinery_7008 .

TY  - CONF
AU  - Dević, Andrija
AU  - Vidaković, Jelena
AU  - Živković, Nikola
AU  - Lazarević, Mihailo
PY  - 2023
UR  - https://machinery.mas.bg.ac.rs/handle/123456789/7235
AB  - Robot arms are complex mechatronic systems whose design is a challenging and time-consuming task. Recently, low-cost small-size desktop robot arms have been increasingly used in education, research, households, etc. This paper presents the systematic design of a 6DoF desktop robot arm with cylindrical joints actuated with stepper motors. Within the design, the main goals were to achieve cost-effectiveness of the construction, to enable the simplicity of the control unit, and to achieve fast dynamics and good repeatability. The virtual simulation system of the manipulator, built using the integration of 3D design and modern multibody simulation environment, improves the robot design and the efficiency of the robot control system. 3D modeling of the robot arm is performed in SolidWorks. The location of each motor as well as the selection of the power transmission method achieve a reduction of the required moments in the joints during the robot movement. Verifying of motors’ dimensioning is performed using numerical simulation of robot inverse dynamics problem based on the SolidWorks 3D robot model for the desired robot operations within the Simulink environment by using Simscape Multibody.
PB  - Belgrade: Serbian Society of Mechanics
C3  - 9 th International Congress of Serbian Society of Mechanics Vrnjačka Banja, Serbia, July 5-7, 2023
T1  - SYSTEMATIC DESIGN OF A DESKTOP ROBOT ARM IN SOLIDWORKS AND MATLAB SIMULINK
EP  - 319
IS  - ID122
SP  - 326
UR  - https://hdl.handle.net/21.15107/rcub_machinery_7235
ER  - 

@conference{
author = "Dević, Andrija and Vidaković, Jelena and Živković, Nikola and Lazarević, Mihailo",
year = "2023",
abstract = "Robot arms are complex mechatronic systems whose design is a challenging and time-consuming task. Recently, low-cost small-size desktop robot arms have been increasingly used in education, research, households, etc. This paper presents the systematic design of a 6DoF desktop robot arm with cylindrical joints actuated with stepper motors. Within the design, the main goals were to achieve cost-effectiveness of the construction, to enable the simplicity of the control unit, and to achieve fast dynamics and good repeatability. The virtual simulation system of the manipulator, built using the integration of 3D design and modern multibody simulation environment, improves the robot design and the efficiency of the robot control system. 3D modeling of the robot arm is performed in SolidWorks. The location of each motor as well as the selection of the power transmission method achieve a reduction of the required moments in the joints during the robot movement. Verifying of motors’ dimensioning is performed using numerical simulation of robot inverse dynamics problem based on the SolidWorks 3D robot model for the desired robot operations within the Simulink environment by using Simscape Multibody.",
publisher = "Belgrade: Serbian Society of Mechanics",
journal = "9 th International Congress of Serbian Society of Mechanics Vrnjačka Banja, Serbia, July 5-7, 2023",
title = "SYSTEMATIC DESIGN OF A DESKTOP ROBOT ARM IN SOLIDWORKS AND MATLAB SIMULINK",
pages = "319-326",
number = "ID122",
url = "https://hdl.handle.net/21.15107/rcub_machinery_7235"
}

Dević, A., Vidaković, J., Živković, N.,& Lazarević, M.. (2023). SYSTEMATIC DESIGN OF A DESKTOP ROBOT ARM IN SOLIDWORKS AND MATLAB SIMULINK. in 9 th International Congress of Serbian Society of Mechanics Vrnjačka Banja, Serbia, July 5-7, 2023
Belgrade: Serbian Society of Mechanics.(ID122), 326-319.
https://hdl.handle.net/21.15107/rcub_machinery_7235

Dević A, Vidaković J, Živković N, Lazarević M. SYSTEMATIC DESIGN OF A DESKTOP ROBOT ARM IN SOLIDWORKS AND MATLAB SIMULINK. in 9 th International Congress of Serbian Society of Mechanics Vrnjačka Banja, Serbia, July 5-7, 2023. 2023;(ID122):326-319.
https://hdl.handle.net/21.15107/rcub_machinery_7235 .

Dević, Andrija, Vidaković, Jelena, Živković, Nikola, Lazarević, Mihailo, "SYSTEMATIC DESIGN OF A DESKTOP ROBOT ARM IN SOLIDWORKS AND MATLAB SIMULINK" in 9 th International Congress of Serbian Society of Mechanics Vrnjačka Banja, Serbia, July 5-7, 2023, no. ID122 (2023):326-319,
https://hdl.handle.net/21.15107/rcub_machinery_7235 .

TY  - CONF
AU  - Živković, Nikola
AU  - Lazarević, Mihailo
PY  - 2023
UR  - https://machinery.mas.bg.ac.rs/handle/123456789/7236
AB  - This paper proposes a Fractional-order Iterative Learning Control (FOILC) algorithm combined with feedback linearization for the upper limbs rehabilitation exoskeleton. The control system is divided into an inner and outer loop, where the feedback linearization controller closes the inner loop linearizing the nominal part of the robot dynamics. The outer loop consists of feedforward action and classical feedback controller with Proportional and Derivative action (PD). Feedforward action is proposed as the FOILC of the PDα-type, where α is the fractional derivative order. Since feedback linearization control action can cancel only a nominal part of the model dynamics, uncertainty is introduced as an additive uncertainty. The uncertainty is defined as a change in the mass parameter of each exoskeleton link [1]. The control object is a three-DoF open-chain exoskeleton model. The mathematical model of the exoskeleton is modeled in Simulink using Robotics Toolbox. The feedback linearization controller is the model-based controller, which accounts for the known part of the dynamics leaving the uncertain part uncontrolled. A classical PD feedback controller is introduced alongside FOILC in feedforward to stabilize and improve the tracking performance of the linearized system with uncertainties. The main advantage of FOILC is robustness to uncertainty and disturbances that are non-varying along the iteration axis. In this study, we chose the FOILC controller, a variation of ILC, to improve trajectory tracking with present uncertainties in the exoskeleton system model. The FOILC controller consists of the previous control signal, proportional and fractional order derivative terms. The learning gains and fractional order of the FOILC are optimized using the Particle Swarm Optimization (PSO) method. PSO is a population-based stochastic optimization method inspired by the social behavior of birds flocking or fish schooling. The main idea of PSO is to search for an optimal solution by simulating the social behavior of particles moving in a multi-dimensional search space. PSO is particularly well-suited for this problem since we have nine parameters in total for tuning. This research aims to investigate the behavior of the error convergence over iterations with optimized learning gains and fractional order of the FOILC controller for various percentages of the mass parameter change. The numerical simulation is conducted in Matlab and Simulink with the time step Ts = 0.005s. The desired trajectory is defined in the joint space as a fifth-order polynomial. The infinite norm of the error vector (max norm) for each iteration is used as a measure of the performance of the proposed control system. Figure 1. shows the error norm comparison between different percentages of mass uncertainty, and Figure 2. shows the difference between PSO-optimized FOILC and non-optimized integer order ILC for mass uncertainty equal to 30 percent of the original mass of the links. From previous diagrams it is clear that PSO optimized FOILC converges faster than its non-optimized integer order counterpart and that PSO optimized FOILC displays satisfactory robustness to different mass uncertainties.
PB  - Belgrade: Serbian Society of Mechanics
C3  - Proceedings of 9th International Congress of Serbian Society of Mechanics Vrnjačka Banja, Serbia, July 5-7, 2023
T1  - PSO-OPTIMIZED FRACTIONAL ORDER ITERATIVE LEARNING CONTROLLER FOR 3DOF UNCERTAIN EXOSKELETON SYSTEM
EP  - 460
IS  - ID.123
SP  - 459
UR  - https://hdl.handle.net/21.15107/rcub_machinery_7236
ER  - 

@conference{
author = "Živković, Nikola and Lazarević, Mihailo",
year = "2023",
abstract = "This paper proposes a Fractional-order Iterative Learning Control (FOILC) algorithm combined with feedback linearization for the upper limbs rehabilitation exoskeleton. The control system is divided into an inner and outer loop, where the feedback linearization controller closes the inner loop linearizing the nominal part of the robot dynamics. The outer loop consists of feedforward action and classical feedback controller with Proportional and Derivative action (PD). Feedforward action is proposed as the FOILC of the PDα-type, where α is the fractional derivative order. Since feedback linearization control action can cancel only a nominal part of the model dynamics, uncertainty is introduced as an additive uncertainty. The uncertainty is defined as a change in the mass parameter of each exoskeleton link [1]. The control object is a three-DoF open-chain exoskeleton model. The mathematical model of the exoskeleton is modeled in Simulink using Robotics Toolbox. The feedback linearization controller is the model-based controller, which accounts for the known part of the dynamics leaving the uncertain part uncontrolled. A classical PD feedback controller is introduced alongside FOILC in feedforward to stabilize and improve the tracking performance of the linearized system with uncertainties. The main advantage of FOILC is robustness to uncertainty and disturbances that are non-varying along the iteration axis. In this study, we chose the FOILC controller, a variation of ILC, to improve trajectory tracking with present uncertainties in the exoskeleton system model. The FOILC controller consists of the previous control signal, proportional and fractional order derivative terms. The learning gains and fractional order of the FOILC are optimized using the Particle Swarm Optimization (PSO) method. PSO is a population-based stochastic optimization method inspired by the social behavior of birds flocking or fish schooling. The main idea of PSO is to search for an optimal solution by simulating the social behavior of particles moving in a multi-dimensional search space. PSO is particularly well-suited for this problem since we have nine parameters in total for tuning. This research aims to investigate the behavior of the error convergence over iterations with optimized learning gains and fractional order of the FOILC controller for various percentages of the mass parameter change. The numerical simulation is conducted in Matlab and Simulink with the time step Ts = 0.005s. The desired trajectory is defined in the joint space as a fifth-order polynomial. The infinite norm of the error vector (max norm) for each iteration is used as a measure of the performance of the proposed control system. Figure 1. shows the error norm comparison between different percentages of mass uncertainty, and Figure 2. shows the difference between PSO-optimized FOILC and non-optimized integer order ILC for mass uncertainty equal to 30 percent of the original mass of the links. From previous diagrams it is clear that PSO optimized FOILC converges faster than its non-optimized integer order counterpart and that PSO optimized FOILC displays satisfactory robustness to different mass uncertainties.",
publisher = "Belgrade: Serbian Society of Mechanics",
journal = "Proceedings of 9th International Congress of Serbian Society of Mechanics Vrnjačka Banja, Serbia, July 5-7, 2023",
title = "PSO-OPTIMIZED FRACTIONAL ORDER ITERATIVE LEARNING CONTROLLER FOR 3DOF UNCERTAIN EXOSKELETON SYSTEM",
pages = "460-459",
number = "ID.123",
url = "https://hdl.handle.net/21.15107/rcub_machinery_7236"
}

Živković, N.,& Lazarević, M.. (2023). PSO-OPTIMIZED FRACTIONAL ORDER ITERATIVE LEARNING CONTROLLER FOR 3DOF UNCERTAIN EXOSKELETON SYSTEM. in Proceedings of 9th International Congress of Serbian Society of Mechanics Vrnjačka Banja, Serbia, July 5-7, 2023
Belgrade: Serbian Society of Mechanics.(ID.123), 459-460.
https://hdl.handle.net/21.15107/rcub_machinery_7236

Živković N, Lazarević M. PSO-OPTIMIZED FRACTIONAL ORDER ITERATIVE LEARNING CONTROLLER FOR 3DOF UNCERTAIN EXOSKELETON SYSTEM. in Proceedings of 9th International Congress of Serbian Society of Mechanics Vrnjačka Banja, Serbia, July 5-7, 2023. 2023;(ID.123):459-460.
https://hdl.handle.net/21.15107/rcub_machinery_7236 .

Živković, Nikola, Lazarević, Mihailo, "PSO-OPTIMIZED FRACTIONAL ORDER ITERATIVE LEARNING CONTROLLER FOR 3DOF UNCERTAIN EXOSKELETON SYSTEM" in Proceedings of 9th International Congress of Serbian Society of Mechanics Vrnjačka Banja, Serbia, July 5-7, 2023, no. ID.123 (2023):459-460,
https://hdl.handle.net/21.15107/rcub_machinery_7236 .

TY  - JOUR
AU  - Nešić, Nikola
AU  - Cajić, Milan
AU  - Karličić, Danilo
AU  - Lazarević, Mihailo
AU  - Adhikari, Sondipon
PY  - 2023
UR  - https://machinery.mas.bg.ac.rs/handle/123456789/7064
AB  - This study investigates the stability of periodic solutions of a nonlinear nonlocal strain gradient functionally graded Euler–Bernoulli beam model resting on a visco-Pasternak foundation and subjected to external harmonic excitation. The nonlinearity of the beam arises from the von Kármán strain-displacement relation. Nonlocal stress gradient theory combined with the strain gradient theory is used to describe the stress-strain relation. Variations of material properties across the thickness direction are defined by the power-law model. The governing differential equation of motion is derived by using Hamilton's principle and discretized by the Galerkin approximation. The methodology for obtaining the steady-state amplitude-frequency responses via the incremental harmonic balance method and continuation technique is presented. The obtained periodic solutions are verified against the numerical integration method and stability analysis is performed by utilizing the Floquet theory.
PB  - University of Niš
T2  - FACTA UNIVERSITATIS Series: Mechanical Engineering
T1  - VIBRATION AND STABILITY OF A NONLINEAR NONLOCAL STRAIN-GRADIENT FG BEAM ON A VISCO-PASTERNAK FOUNDATION
DO  - 10.22190/FUME230419022N
ER  - 

@article{
author = "Nešić, Nikola and Cajić, Milan and Karličić, Danilo and Lazarević, Mihailo and Adhikari, Sondipon",
year = "2023",
abstract = "This study investigates the stability of periodic solutions of a nonlinear nonlocal strain gradient functionally graded Euler–Bernoulli beam model resting on a visco-Pasternak foundation and subjected to external harmonic excitation. The nonlinearity of the beam arises from the von Kármán strain-displacement relation. Nonlocal stress gradient theory combined with the strain gradient theory is used to describe the stress-strain relation. Variations of material properties across the thickness direction are defined by the power-law model. The governing differential equation of motion is derived by using Hamilton's principle and discretized by the Galerkin approximation. The methodology for obtaining the steady-state amplitude-frequency responses via the incremental harmonic balance method and continuation technique is presented. The obtained periodic solutions are verified against the numerical integration method and stability analysis is performed by utilizing the Floquet theory.",
publisher = "University of Niš",
journal = "FACTA UNIVERSITATIS Series: Mechanical Engineering",
title = "VIBRATION AND STABILITY OF A NONLINEAR NONLOCAL STRAIN-GRADIENT FG BEAM ON A VISCO-PASTERNAK FOUNDATION",
doi = "10.22190/FUME230419022N"
}

Nešić, N., Cajić, M., Karličić, D., Lazarević, M.,& Adhikari, S.. (2023). VIBRATION AND STABILITY OF A NONLINEAR NONLOCAL STRAIN-GRADIENT FG BEAM ON A VISCO-PASTERNAK FOUNDATION. in FACTA UNIVERSITATIS Series: Mechanical Engineering
University of Niš..
https://doi.org/10.22190/FUME230419022N

Nešić N, Cajić M, Karličić D, Lazarević M, Adhikari S. VIBRATION AND STABILITY OF A NONLINEAR NONLOCAL STRAIN-GRADIENT FG BEAM ON A VISCO-PASTERNAK FOUNDATION. in FACTA UNIVERSITATIS Series: Mechanical Engineering. 2023;.
doi:10.22190/FUME230419022N .

Nešić, Nikola, Cajić, Milan, Karličić, Danilo, Lazarević, Mihailo, Adhikari, Sondipon, "VIBRATION AND STABILITY OF A NONLINEAR NONLOCAL STRAIN-GRADIENT FG BEAM ON A VISCO-PASTERNAK FOUNDATION" in FACTA UNIVERSITATIS Series: Mechanical Engineering (2023),
https://doi.org/10.22190/FUME230419022N . .

TY  - JOUR
AU  - Zivković, Nikola
AU  - Vidaković, Jelena
AU  - Lazarević, Mihailo
PY  - 2023
UR  - https://machinery.mas.bg.ac.rs/handle/123456789/6978
AB  - Forward kinematics is fundamental to robot design, control, and simulation. Different forward kinematics algorithms have been developed to deal with the complex geometry of a robot. This paper presents a robot forward kinematics algorithm in dual quaternion space. The presented method uses Denavit-Hartenberg (DH) convention for uniform definition of successive rotational and translational transformations in joints along the robot’s kinematic chain. This research aims to utilize the advantages of dual quaternions and DH convection for forward kinematics computation and make the algorithm, which is compact, intuitive, numerically robust, and computationally efficient as it uses the minimal number of parameters required for the computation, suitable for implementation in ROS and similar software. The algorithm is verified on the 6DoF industrial robot RL15, with the symbolic equations and numerical simulation presented.
PB  - Novi Sad : The Association of Intellectuals for the Development of Science in Serbia – “The Serbian Academic Center”
T2  - Applied Engineering Letters
T1  - FORWARD KINEMATICS ALGORITHM IN DUAL QUATERNION SPACE BASED ON DENAVIT-HARTENBERG CONVENTION
EP  - 59
IS  - 2
SP  - 52
VL  - 8
DO  - 10.18485/aeletters.2023.8.2.2
ER  - 

@article{
author = "Zivković, Nikola and Vidaković, Jelena and Lazarević, Mihailo",
year = "2023",
abstract = "Forward kinematics is fundamental to robot design, control, and simulation. Different forward kinematics algorithms have been developed to deal with the complex geometry of a robot. This paper presents a robot forward kinematics algorithm in dual quaternion space. The presented method uses Denavit-Hartenberg (DH) convention for uniform definition of successive rotational and translational transformations in joints along the robot’s kinematic chain. This research aims to utilize the advantages of dual quaternions and DH convection for forward kinematics computation and make the algorithm, which is compact, intuitive, numerically robust, and computationally efficient as it uses the minimal number of parameters required for the computation, suitable for implementation in ROS and similar software. The algorithm is verified on the 6DoF industrial robot RL15, with the symbolic equations and numerical simulation presented.",
publisher = "Novi Sad : The Association of Intellectuals for the Development of Science in Serbia – “The Serbian Academic Center”",
journal = "Applied Engineering Letters",
title = "FORWARD KINEMATICS ALGORITHM IN DUAL QUATERNION SPACE BASED ON DENAVIT-HARTENBERG CONVENTION",
pages = "59-52",
number = "2",
volume = "8",
doi = "10.18485/aeletters.2023.8.2.2"
}

Zivković, N., Vidaković, J.,& Lazarević, M.. (2023). FORWARD KINEMATICS ALGORITHM IN DUAL QUATERNION SPACE BASED ON DENAVIT-HARTENBERG CONVENTION. in Applied Engineering Letters
Novi Sad : The Association of Intellectuals for the Development of Science in Serbia – “The Serbian Academic Center”., 8(2), 52-59.
https://doi.org/10.18485/aeletters.2023.8.2.2

Zivković N, Vidaković J, Lazarević M. FORWARD KINEMATICS ALGORITHM IN DUAL QUATERNION SPACE BASED ON DENAVIT-HARTENBERG CONVENTION. in Applied Engineering Letters. 2023;8(2):52-59.
doi:10.18485/aeletters.2023.8.2.2 .

Zivković, Nikola, Vidaković, Jelena, Lazarević, Mihailo, "FORWARD KINEMATICS ALGORITHM IN DUAL QUATERNION SPACE BASED ON DENAVIT-HARTENBERG CONVENTION" in Applied Engineering Letters, 8, no. 2 (2023):52-59,
https://doi.org/10.18485/aeletters.2023.8.2.2 . .

TY  - CONF
AU  - Rosić, Nevena
AU  - Karličić, Danilo
AU  - Cajić, Milan
AU  - Lazarević, Mihailo
PY  - 2023
UR  - https://machinery.mas.bg.ac.rs/handle/123456789/7234
AB  - Here, the transfer matrix method along with the Bloch theorem are employed to study the frequency spectra in various cases of Timoshenko’s beam periodicity, such as structural, material and boundary periodicity. We additionally compare the location and size of band gaps, and the shape of the band structure in general for different types of foundation layers and relevant parameter values.
PB  - Belgrade: Serbian Society of Mechanics
C3  - 9 th International Congress of Serbian Society of Mechanics Vrnjačka Banja, Serbia, July 5-7, 2023
T1  - WAVE PROPAGATION IN PERIODIC TIMOSHENKO BEAMS ON DIFFERENT ELASTIC FOUNDATION TYPES
EP  - 219
SP  - 217
UR  - https://hdl.handle.net/21.15107/rcub_machinery_7234
ER  - 

@conference{
author = "Rosić, Nevena and Karličić, Danilo and Cajić, Milan and Lazarević, Mihailo",
year = "2023",
abstract = "Here, the transfer matrix method along with the Bloch theorem are employed to study the frequency spectra in various cases of Timoshenko’s beam periodicity, such as structural, material and boundary periodicity. We additionally compare the location and size of band gaps, and the shape of the band structure in general for different types of foundation layers and relevant parameter values.",
publisher = "Belgrade: Serbian Society of Mechanics",
journal = "9 th International Congress of Serbian Society of Mechanics Vrnjačka Banja, Serbia, July 5-7, 2023",
title = "WAVE PROPAGATION IN PERIODIC TIMOSHENKO BEAMS ON DIFFERENT ELASTIC FOUNDATION TYPES",
pages = "219-217",
url = "https://hdl.handle.net/21.15107/rcub_machinery_7234"
}

Rosić, N., Karličić, D., Cajić, M.,& Lazarević, M.. (2023). WAVE PROPAGATION IN PERIODIC TIMOSHENKO BEAMS ON DIFFERENT ELASTIC FOUNDATION TYPES. in 9 th International Congress of Serbian Society of Mechanics Vrnjačka Banja, Serbia, July 5-7, 2023
Belgrade: Serbian Society of Mechanics., 217-219.
https://hdl.handle.net/21.15107/rcub_machinery_7234

Rosić N, Karličić D, Cajić M, Lazarević M. WAVE PROPAGATION IN PERIODIC TIMOSHENKO BEAMS ON DIFFERENT ELASTIC FOUNDATION TYPES. in 9 th International Congress of Serbian Society of Mechanics Vrnjačka Banja, Serbia, July 5-7, 2023. 2023;:217-219.
https://hdl.handle.net/21.15107/rcub_machinery_7234 .

Rosić, Nevena, Karličić, Danilo, Cajić, Milan, Lazarević, Mihailo, "WAVE PROPAGATION IN PERIODIC TIMOSHENKO BEAMS ON DIFFERENT ELASTIC FOUNDATION TYPES" in 9 th International Congress of Serbian Society of Mechanics Vrnjačka Banja, Serbia, July 5-7, 2023 (2023):217-219,
https://hdl.handle.net/21.15107/rcub_machinery_7234 .

TY  - CONF
AU  - Lazarević, Mihailo
AU  - Radojević, Darko
AU  - Mandić, Petar
AU  - Pišl, Stjepko
AU  - Šekara, Tomislav
PY  - 2023
UR  - https://machinery.mas.bg.ac.rs/handle/123456789/6800
AB  - U ovom radu prvo se razmatra jedan mehanički sistem gde je u cilju smanjenja neželjenih vibracija primenjen prigušni viskoelastični element tipa Scot-Blair-a frakcionog reda 0<alpha≤1.  Primenjeno je upravljanje u povratnoj sprezi sa kašnjenjem koji  uključuje prvi i drugi izvod vektora stanja sa kašnjenjem.  Posebno, razmatra se slučaj zatvorenog neutralnog sistema sa  kašnjenjem frakcionog reda alpha=1/2, gde su dobijeni dovoljni  uslovi stabilnosti na konačnom vremenskom intervalu. Takođe,  razmatran je i slucaj potiskivanja samopobudnih (chattering)
oscilacija u procesu rezanja metala. Predloženo je upravljanje u  povratnoj sprezi sa kašnjenjem koji uključuje i drugi izvod  vektora stanja sa kašnjenjem. Formiran je odgovarajući kriterijum stabilnosti na konačnom vremenskom inervalu. Na kraju, efikasnost predloženog pristupa je ilustrovana na dva pogodno izabrana numerička primera
PB  - Univerzitet u Istočnom Sarajevu, Elektrotehnički fakultet
C3  - Zbornik radova XXII međunarodni simpozijum INFOTEH-JAHORINA 2023 15 - 17. mart 2023, Jahorina, Istočno Sarajevo, Republika Srpska, Bosna i Hercegovina
T1  - Upravljanje u povratnoj sprezi sa kašnjenjem određene klase mehaničkih sistema necelog i celog reda: neka pitanja stabilnosti i stabilizacije na konačnom vremenskom intervalu
EP  - 290
SP  - 285
UR  - https://hdl.handle.net/21.15107/rcub_machinery_6800
ER  - 

@conference{
author = "Lazarević, Mihailo and Radojević, Darko and Mandić, Petar and Pišl, Stjepko and Šekara, Tomislav",
year = "2023",
abstract = "U ovom radu prvo se razmatra jedan mehanički sistem gde je u cilju smanjenja neželjenih vibracija primenjen prigušni viskoelastični element tipa Scot-Blair-a frakcionog reda 0<alpha≤1.  Primenjeno je upravljanje u povratnoj sprezi sa kašnjenjem koji  uključuje prvi i drugi izvod vektora stanja sa kašnjenjem.  Posebno, razmatra se slučaj zatvorenog neutralnog sistema sa  kašnjenjem frakcionog reda alpha=1/2, gde su dobijeni dovoljni  uslovi stabilnosti na konačnom vremenskom intervalu. Takođe,  razmatran je i slucaj potiskivanja samopobudnih (chattering)
oscilacija u procesu rezanja metala. Predloženo je upravljanje u  povratnoj sprezi sa kašnjenjem koji uključuje i drugi izvod  vektora stanja sa kašnjenjem. Formiran je odgovarajući kriterijum stabilnosti na konačnom vremenskom inervalu. Na kraju, efikasnost predloženog pristupa je ilustrovana na dva pogodno izabrana numerička primera",
publisher = "Univerzitet u Istočnom Sarajevu, Elektrotehnički fakultet",
journal = "Zbornik radova XXII međunarodni simpozijum INFOTEH-JAHORINA 2023 15 - 17. mart 2023, Jahorina, Istočno Sarajevo, Republika Srpska, Bosna i Hercegovina",
title = "Upravljanje u povratnoj sprezi sa kašnjenjem određene klase mehaničkih sistema necelog i celog reda: neka pitanja stabilnosti i stabilizacije na konačnom vremenskom intervalu",
pages = "290-285",
url = "https://hdl.handle.net/21.15107/rcub_machinery_6800"
}

Lazarević, M., Radojević, D., Mandić, P., Pišl, S.,& Šekara, T.. (2023). Upravljanje u povratnoj sprezi sa kašnjenjem određene klase mehaničkih sistema necelog i celog reda: neka pitanja stabilnosti i stabilizacije na konačnom vremenskom intervalu. in Zbornik radova XXII međunarodni simpozijum INFOTEH-JAHORINA 2023 15 - 17. mart 2023, Jahorina, Istočno Sarajevo, Republika Srpska, Bosna i Hercegovina
Univerzitet u Istočnom Sarajevu, Elektrotehnički fakultet., 285-290.
https://hdl.handle.net/21.15107/rcub_machinery_6800

Lazarević M, Radojević D, Mandić P, Pišl S, Šekara T. Upravljanje u povratnoj sprezi sa kašnjenjem određene klase mehaničkih sistema necelog i celog reda: neka pitanja stabilnosti i stabilizacije na konačnom vremenskom intervalu. in Zbornik radova XXII međunarodni simpozijum INFOTEH-JAHORINA 2023 15 - 17. mart 2023, Jahorina, Istočno Sarajevo, Republika Srpska, Bosna i Hercegovina. 2023;:285-290.
https://hdl.handle.net/21.15107/rcub_machinery_6800 .

Lazarević, Mihailo, Radojević, Darko, Mandić, Petar, Pišl, Stjepko, Šekara, Tomislav, "Upravljanje u povratnoj sprezi sa kašnjenjem određene klase mehaničkih sistema necelog i celog reda: neka pitanja stabilnosti i stabilizacije na konačnom vremenskom intervalu" in Zbornik radova XXII međunarodni simpozijum INFOTEH-JAHORINA 2023 15 - 17. mart 2023, Jahorina, Istočno Sarajevo, Republika Srpska, Bosna i Hercegovina (2023):285-290,
https://hdl.handle.net/21.15107/rcub_machinery_6800 .

TY  - CONF
AU  - Rosić, Nevena
AU  - Karličić, Danilo
AU  - Cajić, Milan
AU  - Lazarević, Mihailo
PY  - 2022
UR  - https://machinery.mas.bg.ac.rs/handle/123456789/4078
AB  - In this paper we will investigate non-reciprocal wave propagation in Timoshenko beams,
due to space and time modulation of its elastic properties. To that end, an analytical approach
is used: the Bloch theorem is applied when choosing the solution form for displacement
components and the angle of rotation, which figure in the equations of motion along with the
elastic properties. Also, the Fourier expansion is used to express the periodic nature of the
modulation. By solving the eigenvalue problem for different modulation parameters, we obtain
the band diagrams which can be used to analyze the directionality of wave propagation. These
diagrams clearly represent the breakage of symmetry as a consequence of modulation. Thus, a
modulated beam behaves as a kind of metamaterial, in which one-way propagation of elastic
waves is possible. When shear and rotational effects are neglected, these results converge to
the results for the Euler-Bernoulli beam, which are already present in scientific literature.
PB  - Univerzitet u Beogradu, Mašinski fakultet
C3  - Book of abstracts : 1st International Conference on Mathematical Modelling in Mechanics and Engineering Mathematical Institute SANU, 08-10. September, 2022.
T1  - Non-reciprocal wave propagation in periodically structured Timoshenko beams
EP  - 125
SP  - 125
UR  - https://hdl.handle.net/21.15107/rcub_machinery_4078
ER  - 

@conference{
author = "Rosić, Nevena and Karličić, Danilo and Cajić, Milan and Lazarević, Mihailo",
year = "2022",
abstract = "In this paper we will investigate non-reciprocal wave propagation in Timoshenko beams,
due to space and time modulation of its elastic properties. To that end, an analytical approach
is used: the Bloch theorem is applied when choosing the solution form for displacement
components and the angle of rotation, which figure in the equations of motion along with the
elastic properties. Also, the Fourier expansion is used to express the periodic nature of the
modulation. By solving the eigenvalue problem for different modulation parameters, we obtain
the band diagrams which can be used to analyze the directionality of wave propagation. These
diagrams clearly represent the breakage of symmetry as a consequence of modulation. Thus, a
modulated beam behaves as a kind of metamaterial, in which one-way propagation of elastic
waves is possible. When shear and rotational effects are neglected, these results converge to
the results for the Euler-Bernoulli beam, which are already present in scientific literature.",
publisher = "Univerzitet u Beogradu, Mašinski fakultet",
journal = "Book of abstracts : 1st International Conference on Mathematical Modelling in Mechanics and Engineering Mathematical Institute SANU, 08-10. September, 2022.",
title = "Non-reciprocal wave propagation in periodically structured Timoshenko beams",
pages = "125-125",
url = "https://hdl.handle.net/21.15107/rcub_machinery_4078"
}

Rosić, N., Karličić, D., Cajić, M.,& Lazarević, M.. (2022). Non-reciprocal wave propagation in periodically structured Timoshenko beams. in Book of abstracts : 1st International Conference on Mathematical Modelling in Mechanics and Engineering Mathematical Institute SANU, 08-10. September, 2022.
Univerzitet u Beogradu, Mašinski fakultet., 125-125.
https://hdl.handle.net/21.15107/rcub_machinery_4078

Rosić N, Karličić D, Cajić M, Lazarević M. Non-reciprocal wave propagation in periodically structured Timoshenko beams. in Book of abstracts : 1st International Conference on Mathematical Modelling in Mechanics and Engineering Mathematical Institute SANU, 08-10. September, 2022.. 2022;:125-125.
https://hdl.handle.net/21.15107/rcub_machinery_4078 .

Rosić, Nevena, Karličić, Danilo, Cajić, Milan, Lazarević, Mihailo, "Non-reciprocal wave propagation in periodically structured Timoshenko beams" in Book of abstracts : 1st International Conference on Mathematical Modelling in Mechanics and Engineering Mathematical Institute SANU, 08-10. September, 2022. (2022):125-125,
https://hdl.handle.net/21.15107/rcub_machinery_4078 .

TY  - JOUR
AU  - Rosić, Nevena
AU  - Karličić, Danilo
AU  - Cajić, Milan
AU  - Lazarević, Mihailo
PY  - 2022
UR  - https://machinery.mas.bg.ac.rs/handle/123456789/4073
AB  - Wave attenuation, filtering and guiding is an ongoing topic of scientific
research, as there are many opportunities for improvement of existing
solutions in modern industry. One of the recent advancements has been made
with the use of non-reciprocal metamaterials.Certain properties of metamaterials
have made them suitable for use in various engineering fields. In this study,
we investigate non-reciprocal wave propagation behavior in coupled thin beams
phononics, due to time-modulation of material properties and axial loads. We
compare the results for the beams which are interconnected with Winkler’s
type of elastic layers and elastic or viscoelastic Pasternak layers. An analytic
approach is used to discover directional band gaps and investigate wave propagation
through these systems of beams, at relevant excitation frequencies. The
proposed framework can be exploited in further analysis of phononic systems
based on multiple beams coupled through different mediums and structural
elements modeled with higher-order beam theories.
PB  - Mathematical Institute of the Serbian Academy of Sciences and Arts, Belgrade
PB  - Serbian Society of Mechanics
T2  - Theoretical and applied mechanics
T1  - Parametrically excited unidirectional wave propagation in thin beam phononics
EP  - 155
IS  - 2
SP  - 137
VL  - 49
DO  - https://doi.org/10.2298/TAM221030010R
ER  - 

@article{
author = "Rosić, Nevena and Karličić, Danilo and Cajić, Milan and Lazarević, Mihailo",
year = "2022",
abstract = "Wave attenuation, filtering and guiding is an ongoing topic of scientific
research, as there are many opportunities for improvement of existing
solutions in modern industry. One of the recent advancements has been made
with the use of non-reciprocal metamaterials.Certain properties of metamaterials
have made them suitable for use in various engineering fields. In this study,
we investigate non-reciprocal wave propagation behavior in coupled thin beams
phononics, due to time-modulation of material properties and axial loads. We
compare the results for the beams which are interconnected with Winkler’s
type of elastic layers and elastic or viscoelastic Pasternak layers. An analytic
approach is used to discover directional band gaps and investigate wave propagation
through these systems of beams, at relevant excitation frequencies. The
proposed framework can be exploited in further analysis of phononic systems
based on multiple beams coupled through different mediums and structural
elements modeled with higher-order beam theories.",
publisher = "Mathematical Institute of the Serbian Academy of Sciences and Arts, Belgrade, Serbian Society of Mechanics",
journal = "Theoretical and applied mechanics",
title = "Parametrically excited unidirectional wave propagation in thin beam phononics",
pages = "155-137",
number = "2",
volume = "49",
doi = "https://doi.org/10.2298/TAM221030010R"
}

Rosić, N., Karličić, D., Cajić, M.,& Lazarević, M.. (2022). Parametrically excited unidirectional wave propagation in thin beam phononics. in Theoretical and applied mechanics
Mathematical Institute of the Serbian Academy of Sciences and Arts, Belgrade., 49(2), 137-155.
https://doi.org/https://doi.org/10.2298/TAM221030010R

Rosić N, Karličić D, Cajić M, Lazarević M. Parametrically excited unidirectional wave propagation in thin beam phononics. in Theoretical and applied mechanics. 2022;49(2):137-155.
doi:https://doi.org/10.2298/TAM221030010R .

Rosić, Nevena, Karličić, Danilo, Cajić, Milan, Lazarević, Mihailo, "Parametrically excited unidirectional wave propagation in thin beam phononics" in Theoretical and applied mechanics, 49, no. 2 (2022):137-155,
https://doi.org/https://doi.org/10.2298/TAM221030010R . .

TY  - BOOK
AU  - Kuzmanović, Dragoslav
AU  - Obradović, Ivan
AU  - Nikolić, Dobrica
AU  - Lazarević, Mihailo
PY  - 2022
UR  - https://machinery.mas.bg.ac.rs/handle/123456789/6761
AB  - This book is mainly based on the material initially published in Serbian, in 2021, by the University
of Belgrade, Faculty of Mining and Geology, under the title Mathematical Physics (Theory and
Examples). For the purpose of this book the material from the Serbian edition was reviewed,
amended, and translated, with new material added in two final chapters in the second volume.
We have divided text into two separate volumes:
Mathematics of Physics - Analytical Methods and
Mathematics of Physics - Numerical Methods.
The first volume consists of 8 chapters:
- The first 7 chapters were written by Dragoslav Kuzmanovic, Dobrica Nikolic and Ivan
Obradovic, and correspond to the text from Chapters 1-8 of the Serbian edition, translated
by Ivan Obradovic.
- The material of Chapter 8, which is of a monographic character, corresponds to the material
of Chapter 9 in the Serbian edition, but was thoroughly reviewed and rewritten in English
by Mihailo Lazarević.
PB  - ESIS PH
T2  - ESIS PH  2022
T1  - Mathematical Physics Volume I - Analytical Methods
EP  - 485
SP  - 1
UR  - https://hdl.handle.net/21.15107/rcub_machinery_6761
ER  - 

@book{
author = "Kuzmanović, Dragoslav and Obradović, Ivan and Nikolić, Dobrica and Lazarević, Mihailo",
year = "2022",
abstract = "This book is mainly based on the material initially published in Serbian, in 2021, by the University
of Belgrade, Faculty of Mining and Geology, under the title Mathematical Physics (Theory and
Examples). For the purpose of this book the material from the Serbian edition was reviewed,
amended, and translated, with new material added in two final chapters in the second volume.
We have divided text into two separate volumes:
Mathematics of Physics - Analytical Methods and
Mathematics of Physics - Numerical Methods.
The first volume consists of 8 chapters:
- The first 7 chapters were written by Dragoslav Kuzmanovic, Dobrica Nikolic and Ivan
Obradovic, and correspond to the text from Chapters 1-8 of the Serbian edition, translated
by Ivan Obradovic.
- The material of Chapter 8, which is of a monographic character, corresponds to the material
of Chapter 9 in the Serbian edition, but was thoroughly reviewed and rewritten in English
by Mihailo Lazarević.",
publisher = "ESIS PH",
journal = "ESIS PH  2022",
title = "Mathematical Physics Volume I - Analytical Methods",
pages = "485-1",
url = "https://hdl.handle.net/21.15107/rcub_machinery_6761"
}

Kuzmanović, D., Obradović, I., Nikolić, D.,& Lazarević, M.. (2022). Mathematical Physics Volume I - Analytical Methods. in ESIS PH  2022
ESIS PH., 1-485.
https://hdl.handle.net/21.15107/rcub_machinery_6761

Kuzmanović D, Obradović I, Nikolić D, Lazarević M. Mathematical Physics Volume I - Analytical Methods. in ESIS PH  2022. 2022;:1-485.
https://hdl.handle.net/21.15107/rcub_machinery_6761 .

Kuzmanović, Dragoslav, Obradović, Ivan, Nikolić, Dobrica, Lazarević, Mihailo, "Mathematical Physics Volume I - Analytical Methods" in ESIS PH  2022 (2022):1-485,
https://hdl.handle.net/21.15107/rcub_machinery_6761 .

TY  - CONF
AU  - Lazarević, Mihailo
PY  - 2022
UR  - https://machinery.mas.bg.ac.rs/handle/123456789/4085
AB  - Recently, fractional calculus has attracted the increased attention of scientific society where fractional operators are often used for complex dynamical systems. Iterative learning control (ILC) is one of the recent topics in control theories and it is a powerful intelligent control concept that iteratively improves the behavior of processes that are repetitive in nature. Here, we present recently obtained results as well as new results on open-closed loop type ILC, for a given class of integer order and fractional order regular systems. We discuss PIDD2/ PID,PD2Dα,PDα/PD types ILC, particularly ILC schemes with Dα type which is more flexible for practical implementation. Sufficient conditions for the convergence in the time domain of the proposed ILC for a class of fractional and integer order systems are given by the corresponding theorems together with its proof. Finally, the simulation results, including an application to the suitable robot system and Neuro-Arm robot, are presented to illustrate the performance of the proposed ILC schemes.
Also, some attention will be devoted to the finite-time stability/stabilization problem of fractional-order (uncertain) neutral time-delay systems. By use of the generalized Gronwall inequality and its extended form, new sufficient conditions for finite-time stability of such systems are obtained. Finally, numerical examples are given to illustrate the effectiveness and applicability of the proposed theoretical results.
PB  - Univerzitet u Beogradu, Mašinski fakultet
C3  - Book of abstracts: 1st International Conference on Mathematical Modelling in Mechanics and Engineering Mathematical Institute SANU, 08-10. September, 2022,  18-18
T1  - Recent results on advanced control and stability issues of fractional-order dynamical systems
UR  - https://hdl.handle.net/21.15107/rcub_machinery_4085
ER  - 

@conference{
author = "Lazarević, Mihailo",
year = "2022",
abstract = "Recently, fractional calculus has attracted the increased attention of scientific society where fractional operators are often used for complex dynamical systems. Iterative learning control (ILC) is one of the recent topics in control theories and it is a powerful intelligent control concept that iteratively improves the behavior of processes that are repetitive in nature. Here, we present recently obtained results as well as new results on open-closed loop type ILC, for a given class of integer order and fractional order regular systems. We discuss PIDD2/ PID,PD2Dα,PDα/PD types ILC, particularly ILC schemes with Dα type which is more flexible for practical implementation. Sufficient conditions for the convergence in the time domain of the proposed ILC for a class of fractional and integer order systems are given by the corresponding theorems together with its proof. Finally, the simulation results, including an application to the suitable robot system and Neuro-Arm robot, are presented to illustrate the performance of the proposed ILC schemes.
Also, some attention will be devoted to the finite-time stability/stabilization problem of fractional-order (uncertain) neutral time-delay systems. By use of the generalized Gronwall inequality and its extended form, new sufficient conditions for finite-time stability of such systems are obtained. Finally, numerical examples are given to illustrate the effectiveness and applicability of the proposed theoretical results.",
publisher = "Univerzitet u Beogradu, Mašinski fakultet",
journal = "Book of abstracts: 1st International Conference on Mathematical Modelling in Mechanics and Engineering Mathematical Institute SANU, 08-10. September, 2022,  18-18",
title = "Recent results on advanced control and stability issues of fractional-order dynamical systems",
url = "https://hdl.handle.net/21.15107/rcub_machinery_4085"
}

Lazarević, M.. (2022). Recent results on advanced control and stability issues of fractional-order dynamical systems. in Book of abstracts: 1st International Conference on Mathematical Modelling in Mechanics and Engineering Mathematical Institute SANU, 08-10. September, 2022,  18-18
Univerzitet u Beogradu, Mašinski fakultet..
https://hdl.handle.net/21.15107/rcub_machinery_4085

Lazarević M. Recent results on advanced control and stability issues of fractional-order dynamical systems. in Book of abstracts: 1st International Conference on Mathematical Modelling in Mechanics and Engineering Mathematical Institute SANU, 08-10. September, 2022,  18-18. 2022;.
https://hdl.handle.net/21.15107/rcub_machinery_4085 .

Lazarević, Mihailo, "Recent results on advanced control and stability issues of fractional-order dynamical systems" in Book of abstracts: 1st International Conference on Mathematical Modelling in Mechanics and Engineering Mathematical Institute SANU, 08-10. September, 2022,  18-18 (2022),
https://hdl.handle.net/21.15107/rcub_machinery_4085 .

TY  - CONF
AU  - Zivković, N.
AU  - Vidaković, Jelena
AU  - Mitrović, S.
AU  - Lazarević, Mihailo
PY  - 2022
UR  - https://machinery.mas.bg.ac.rs/handle/123456789/3832
AB  - This paper presents a method for the implementation of a robot forward kinematics algorithm that complies with the Denavit-Hartenberg (DH) convention in Robot Operating System (ROS). The integration of the algorithm in ROS is based on the representation of DH parameters in dual quaternion space. The main motivation for the presented research is to make use of ROS powerful visualization tools available in tasks that require robot forward kinematics calculation while keeping the principles of DH robot modeling convention. Implementation of the dual quaternion-based robot forward kinematics algorithm in ROS is demonstrated using a serial 6DoFs robot as an example.
PB  - Institute of Electrical and Electronics Engineers Inc.
C3  - 2022 11th Mediterranean Conference on Embedded Computing, MECO 2022
T1  - Implementation of Dual Quaternion-based Robot Forward Kinematics Algorithm in ROS
DO  - 10.1109/MECO55406.2022.9797160
ER  - 

@conference{
author = "Zivković, N. and Vidaković, Jelena and Mitrović, S. and Lazarević, Mihailo",
year = "2022",
abstract = "This paper presents a method for the implementation of a robot forward kinematics algorithm that complies with the Denavit-Hartenberg (DH) convention in Robot Operating System (ROS). The integration of the algorithm in ROS is based on the representation of DH parameters in dual quaternion space. The main motivation for the presented research is to make use of ROS powerful visualization tools available in tasks that require robot forward kinematics calculation while keeping the principles of DH robot modeling convention. Implementation of the dual quaternion-based robot forward kinematics algorithm in ROS is demonstrated using a serial 6DoFs robot as an example.",
publisher = "Institute of Electrical and Electronics Engineers Inc.",
journal = "2022 11th Mediterranean Conference on Embedded Computing, MECO 2022",
title = "Implementation of Dual Quaternion-based Robot Forward Kinematics Algorithm in ROS",
doi = "10.1109/MECO55406.2022.9797160"
}

Zivković, N., Vidaković, J., Mitrović, S.,& Lazarević, M.. (2022). Implementation of Dual Quaternion-based Robot Forward Kinematics Algorithm in ROS. in 2022 11th Mediterranean Conference on Embedded Computing, MECO 2022
Institute of Electrical and Electronics Engineers Inc...
https://doi.org/10.1109/MECO55406.2022.9797160

Zivković N, Vidaković J, Mitrović S, Lazarević M. Implementation of Dual Quaternion-based Robot Forward Kinematics Algorithm in ROS. in 2022 11th Mediterranean Conference on Embedded Computing, MECO 2022. 2022;.
doi:10.1109/MECO55406.2022.9797160 .

Zivković, N., Vidaković, Jelena, Mitrović, S., Lazarević, Mihailo, "Implementation of Dual Quaternion-based Robot Forward Kinematics Algorithm in ROS" in 2022 11th Mediterranean Conference on Embedded Computing, MECO 2022 (2022),
https://doi.org/10.1109/MECO55406.2022.9797160 . .

TY  - CONF
AU  - Svishchev, Nikolai
AU  - Lino, Paolo
AU  - Maione, Guido
AU  - Rybakov, Alexsey
AU  - Lazarević, Mihailo
PY  - 2022
UR  - https://machinery.mas.bg.ac.rs/handle/123456789/4080
AB  - To control a remotely operated underwater vehicle (ROUV) of the observation ROUVs class,
the interactions among mechanical, electronic and information processing elements call for an
integrated approach at all design and development stages. Different methodologies must be
combined in a multi-formalism modelling approach supported by a suitable simulation and
prototyping environment. The proposed approach involves the development of a virtual ROUV
prototype in the ROS Gazebo environment, to assess performance in the successive developing
steps reliably, and a ROUV controller board (stm32F407, Quad-core Cortex-A7) with a digital
camera and an inertial measurement unit (3D accelerometer, 3D gyroscope, compass), to
implement and run the control algorithms in real-time. A mathematical model of the system is
derived to design a fractional-order PI controller of the ROUV yaw angle in the horizontal
plane.
The considered system is “MUVIC-Light”, which was developed by the first author to
perform inspections at a depth of up to 200 meters (Fig. 1). The characteristic features of
such system are a significant elongation (the length of the hull is several times greater than its
diameter) and the use of rudders or ailerons to control movement. The Gazebo simulator allows
to describe the objects and environment, to define the robot dynamics, and the TCP/IP
protocol to transmit video and sensor data to/from the controller board. To tune the controller, a nonlinear 6-DOF mathematical model of the ROUV dynamics is derived based on the Euler-Lagrangian formulation. Then, by linearization, a transfer function is obtained, relating the yaw angle and the voltage applied to the motors driving the ROUV.
The controller is tuned as in [1]. ROS and Gazebo allow simulation of control system, computer
vision, 3D positioning, robot path planning in a realistic environment that can be considered as
a digital twin. Namely, the developed codes can be directly used in a real scenario.
PB  - Univerzitet u Beogradu, Mašinski fakultet
C3  - Book of abstracts: 1st International Conference on Mathematical Modelling in Mechanics and Engineering Mathematical Institute SANU, 08-10. September, 2022.
T1  - ROUV heading by a fractional-order PI controler
EP  - 103
SP  - 103
UR  - https://hdl.handle.net/21.15107/rcub_machinery_4080
ER  - 

@conference{
author = "Svishchev, Nikolai and Lino, Paolo and Maione, Guido and Rybakov, Alexsey and Lazarević, Mihailo",
year = "2022",
abstract = "To control a remotely operated underwater vehicle (ROUV) of the observation ROUVs class,
the interactions among mechanical, electronic and information processing elements call for an
integrated approach at all design and development stages. Different methodologies must be
combined in a multi-formalism modelling approach supported by a suitable simulation and
prototyping environment. The proposed approach involves the development of a virtual ROUV
prototype in the ROS Gazebo environment, to assess performance in the successive developing
steps reliably, and a ROUV controller board (stm32F407, Quad-core Cortex-A7) with a digital
camera and an inertial measurement unit (3D accelerometer, 3D gyroscope, compass), to
implement and run the control algorithms in real-time. A mathematical model of the system is
derived to design a fractional-order PI controller of the ROUV yaw angle in the horizontal
plane.
The considered system is “MUVIC-Light”, which was developed by the first author to
perform inspections at a depth of up to 200 meters (Fig. 1). The characteristic features of
such system are a significant elongation (the length of the hull is several times greater than its
diameter) and the use of rudders or ailerons to control movement. The Gazebo simulator allows
to describe the objects and environment, to define the robot dynamics, and the TCP/IP
protocol to transmit video and sensor data to/from the controller board. To tune the controller, a nonlinear 6-DOF mathematical model of the ROUV dynamics is derived based on the Euler-Lagrangian formulation. Then, by linearization, a transfer function is obtained, relating the yaw angle and the voltage applied to the motors driving the ROUV.
The controller is tuned as in [1]. ROS and Gazebo allow simulation of control system, computer
vision, 3D positioning, robot path planning in a realistic environment that can be considered as
a digital twin. Namely, the developed codes can be directly used in a real scenario.",
publisher = "Univerzitet u Beogradu, Mašinski fakultet",
journal = "Book of abstracts: 1st International Conference on Mathematical Modelling in Mechanics and Engineering Mathematical Institute SANU, 08-10. September, 2022.",
title = "ROUV heading by a fractional-order PI controler",
pages = "103-103",
url = "https://hdl.handle.net/21.15107/rcub_machinery_4080"
}

Svishchev, N., Lino, P., Maione, G., Rybakov, A.,& Lazarević, M.. (2022). ROUV heading by a fractional-order PI controler. in Book of abstracts: 1st International Conference on Mathematical Modelling in Mechanics and Engineering Mathematical Institute SANU, 08-10. September, 2022.
Univerzitet u Beogradu, Mašinski fakultet., 103-103.
https://hdl.handle.net/21.15107/rcub_machinery_4080

Svishchev N, Lino P, Maione G, Rybakov A, Lazarević M. ROUV heading by a fractional-order PI controler. in Book of abstracts: 1st International Conference on Mathematical Modelling in Mechanics and Engineering Mathematical Institute SANU, 08-10. September, 2022.. 2022;:103-103.
https://hdl.handle.net/21.15107/rcub_machinery_4080 .

Svishchev, Nikolai, Lino, Paolo, Maione, Guido, Rybakov, Alexsey, Lazarević, Mihailo, "ROUV heading by a fractional-order PI controler" in Book of abstracts: 1st International Conference on Mathematical Modelling in Mechanics and Engineering Mathematical Institute SANU, 08-10. September, 2022. (2022):103-103,
https://hdl.handle.net/21.15107/rcub_machinery_4080 .

TY  - CONF
AU  - Vidaković, Jelena
AU  - Lazarević, Mihailo
AU  - Živković, Nikola Lj.
AU  - Stepanić, Pavle
AU  - Mitrović, Stefan
PY  - 2022
UR  - https://machinery.mas.bg.ac.rs/handle/123456789/4081
AB  - Dynamics play a fundamental role in control algorithms synthesis, mechanical structure
design, and motion simulation of robots. The challenge in robot control arises from the nonstationarity and the nonlinear coupling effects in the dynamic model, and many advanced
control strategies have emerged within the robot control problem [1]. Besides the modelling
complexity in the case of multiple DoFs, taking the dynamic model into account within the
design of robot control systems in practice has drawbacks due to potential difficulties in
implementation and errors that stem from structured/unstructured uncertainties. From the
perspective of the appropriate selection of control strategy for a particular robot, control system
performance simulation based on the robot dynamic model is a useful tool [2].
In this paper, a numerical simulation of the computed torque control (CTC) for the 6DoF
industrial robot RL15 is presented. CTC is a feedforward control method used for tracking of
robot’s time-varying trajectories in the presence of varying loads [3]. The method implemented
in this study considers the speed PI controller in the joint space of the robot, with feedforward
compensation of the load torque due to the movement of interconnected robot links. Herein,
the following is taken into account for realistic simulation of control system performance: 1)
resonant properties of the mechanical structure; 2) the effective inertia of the actuator
calculated from the inverse dynamic model; 3) motor torque limits. CTC-based control system
performance is compared with the traditional speed PI controller using the realistic simulation
model.
A dynamic model was developed using the modified recursive Newton-Euler algorithm
(mRNEA). Firstly solution to the inverse dynamics problem has been calculated for the desired
joint trajectories. Obtained actuators’ torques are compared with maximum torques that motors
can achieve, and in a case that these maximum levels have been exceeded, unachievable
torques/forces are replaced with the maximum/minimum possible, and forward dynamics
algorithm has been executed in order to calculate achievable accelerations so that the performed
simulation is realistic. Joints’ velocities and positions are calculated using numerical
integration methods [4] and are used as reference values for control system performance
simulation.
The structural flexibility of robotic manipulators may limit the performance and decrease
the stability of a rigid model-based design of a control system. Given that the rigid modelbased
control strategies are adopted in this study, flexibilities of the mechanical structure are
considered indirectly through the limitation of controller gains for simulation purposes. CAE
software is used for the determination of manipulator dynamic model parameters. For the
developed CAD model of the RL15 robot, the lowest natural frequency of the manipulator is
determined in CAE software and compared with simulated control system bandwidths defined
by controller gains and the effective inertia obtained from numerical simulations of the dynamic model and inertia of employed motors and its gearboxes.
Control system performance simulation has been performed in Simulink software.
Controller gains are selected for the LTI-model with the highest load, i.e. the maximum value
of effective inertia. Dynamic saturation that takes into account motor possibilities depending
on the current robot motion and load has been applied at the controller output. Simulation of the designed control techniques is useful within the appropriate choice of the control strategy regarding achieving a compromise between the complexity of the controller development and its implementation on one side and prospective benefits obtained with controller implementation. Practical implementation possibilities are discussed within the paper.
PB  - Univerzitet u Beogradu, Mašinski fakultet
C3  - Book of abstracts: 1st International Conference on Mathematical Modelling in Mechanics and Engineering Mathematical Institute SANU, 08-10. September, 2022.
T1  - Computed torque control simulation for 6DOF industrial robot
EP  - 110
SP  - 109
UR  - https://hdl.handle.net/21.15107/rcub_machinery_4081
ER  - 

@conference{
author = "Vidaković, Jelena and Lazarević, Mihailo and Živković, Nikola Lj. and Stepanić, Pavle and Mitrović, Stefan",
year = "2022",
abstract = "Dynamics play a fundamental role in control algorithms synthesis, mechanical structure
design, and motion simulation of robots. The challenge in robot control arises from the nonstationarity and the nonlinear coupling effects in the dynamic model, and many advanced
control strategies have emerged within the robot control problem [1]. Besides the modelling
complexity in the case of multiple DoFs, taking the dynamic model into account within the
design of robot control systems in practice has drawbacks due to potential difficulties in
implementation and errors that stem from structured/unstructured uncertainties. From the
perspective of the appropriate selection of control strategy for a particular robot, control system
performance simulation based on the robot dynamic model is a useful tool [2].
In this paper, a numerical simulation of the computed torque control (CTC) for the 6DoF
industrial robot RL15 is presented. CTC is a feedforward control method used for tracking of
robot’s time-varying trajectories in the presence of varying loads [3]. The method implemented
in this study considers the speed PI controller in the joint space of the robot, with feedforward
compensation of the load torque due to the movement of interconnected robot links. Herein,
the following is taken into account for realistic simulation of control system performance: 1)
resonant properties of the mechanical structure; 2) the effective inertia of the actuator
calculated from the inverse dynamic model; 3) motor torque limits. CTC-based control system
performance is compared with the traditional speed PI controller using the realistic simulation
model.
A dynamic model was developed using the modified recursive Newton-Euler algorithm
(mRNEA). Firstly solution to the inverse dynamics problem has been calculated for the desired
joint trajectories. Obtained actuators’ torques are compared with maximum torques that motors
can achieve, and in a case that these maximum levels have been exceeded, unachievable
torques/forces are replaced with the maximum/minimum possible, and forward dynamics
algorithm has been executed in order to calculate achievable accelerations so that the performed
simulation is realistic. Joints’ velocities and positions are calculated using numerical
integration methods [4] and are used as reference values for control system performance
simulation.
The structural flexibility of robotic manipulators may limit the performance and decrease
the stability of a rigid model-based design of a control system. Given that the rigid modelbased
control strategies are adopted in this study, flexibilities of the mechanical structure are
considered indirectly through the limitation of controller gains for simulation purposes. CAE
software is used for the determination of manipulator dynamic model parameters. For the
developed CAD model of the RL15 robot, the lowest natural frequency of the manipulator is
determined in CAE software and compared with simulated control system bandwidths defined
by controller gains and the effective inertia obtained from numerical simulations of the dynamic model and inertia of employed motors and its gearboxes.
Control system performance simulation has been performed in Simulink software.
Controller gains are selected for the LTI-model with the highest load, i.e. the maximum value
of effective inertia. Dynamic saturation that takes into account motor possibilities depending
on the current robot motion and load has been applied at the controller output. Simulation of the designed control techniques is useful within the appropriate choice of the control strategy regarding achieving a compromise between the complexity of the controller development and its implementation on one side and prospective benefits obtained with controller implementation. Practical implementation possibilities are discussed within the paper.",
publisher = "Univerzitet u Beogradu, Mašinski fakultet",
journal = "Book of abstracts: 1st International Conference on Mathematical Modelling in Mechanics and Engineering Mathematical Institute SANU, 08-10. September, 2022.",
title = "Computed torque control simulation for 6DOF industrial robot",
pages = "110-109",
url = "https://hdl.handle.net/21.15107/rcub_machinery_4081"
}

Vidaković, J., Lazarević, M., Živković, N. Lj., Stepanić, P.,& Mitrović, S.. (2022). Computed torque control simulation for 6DOF industrial robot. in Book of abstracts: 1st International Conference on Mathematical Modelling in Mechanics and Engineering Mathematical Institute SANU, 08-10. September, 2022.
Univerzitet u Beogradu, Mašinski fakultet., 109-110.
https://hdl.handle.net/21.15107/rcub_machinery_4081

Vidaković J, Lazarević M, Živković NL, Stepanić P, Mitrović S. Computed torque control simulation for 6DOF industrial robot. in Book of abstracts: 1st International Conference on Mathematical Modelling in Mechanics and Engineering Mathematical Institute SANU, 08-10. September, 2022.. 2022;:109-110.
https://hdl.handle.net/21.15107/rcub_machinery_4081 .

Vidaković, Jelena, Lazarević, Mihailo, Živković, Nikola Lj., Stepanić, Pavle, Mitrović, Stefan, "Computed torque control simulation for 6DOF industrial robot" in Book of abstracts: 1st International Conference on Mathematical Modelling in Mechanics and Engineering Mathematical Institute SANU, 08-10. September, 2022. (2022):109-110,
https://hdl.handle.net/21.15107/rcub_machinery_4081 .

TY  - CONF
AU  - Zivković, Nikola Lj.
AU  - Vidaković, Jelena
AU  - Lazarević, Mihailo
PY  - 2022
UR  - https://machinery.mas.bg.ac.rs/handle/123456789/4082
AB  - Simulation of real-world dynamics is of major importance in testing and verifying developed industrial concepts and solutions, developing and verifying potential control paradigms, scientific research, learning and training tools, or the entertainment industry as a basis for a game engine. The module of the 3D virtual simulator that achieves simulation of the real-world behaviour such as rigid and elastic body dynamics, particle dynamics, fluid
dynamics, electrodynamics, magnetism, etc., is often referred to as a dynamics engine or physics engine. The core of the rigid body dynamics (physics) engine is the solution to the forward dynamics problem, which is defined as finding a rigid body's path, velocity, and acceleration for a given input actuating torque and external forces. The past few decades saw a considerable amount of research in robot dynamics modelling, and there are many methods for robot dynamic model development available in the literature. The most commonly used algorithms for solving robot forward dynamics problem are the Composite-Rigid-Body Algorithm (CRBA) [1] and the Articulated-Body Algorithm (ABA) [2]. CRBA and ABA are reduced coordinate methods where known constraints, such as joints, are embedded in the formulation of the equations of motion. Besides reduced coordinate methods, there are maximal coordinate methods using Lagrange multipliers [3-4] to enforce constraints using constraint reaction forces. This paper presents a comprehensive overview of forward dynamics algorithms and their usage in dynamics engines. Special reference is given to the most commonly used algorithms and methods and their advantages and disadvantages depending on the application. Most important software intended for virtual simulation of robots is presented, emphasising free, open-source use.
Firstly, brief history and introduction of CRBA, ABA and Lagrange multipliers methods is given, as they are the most commonly used methods employed by dynamics engines. Next, general phases of the simulation process are described. An integral segment in creating a simulation is the definition of the world - a description of the environment and robot models that are to be simulated. Application of the actuation and external forces and torques to the
model, detection of collisions between the bodies, constraint solving, forward dynamics computation and integration to obtain velocity and position of the bodies are performed. Each of these aspects is described with special attention to constraint solving and computation of forward dynamics using the algorithms mentioned above. There is a myriad of free and opensource dynamics engines available, and the focus herein is on the most commonly used engines for simulating robots: Open Dynamics Engine (ODE) [5], DART (Dynamic Animation and Robotics Toolkit) [6], Bullet [7], and Simbody [8] as they are present in the two most popular free, open-source robotics simulators Cyberbotics Webots [9] and OpenRobotics Gazebo [10] (Ignition is the successor of Gazebo). It can be concluded that the most used reduced coordinate method in simulators is ABA, while Lagrange multipliers are the most popular maximal coordinate method. ABA is mainly used for simulating open-loop multi-body systems (robot manipulators) where joint constraints are known upfront. In contrast, Lagrange multiplier methods are used where modularity of the simulated model during simulation run-time is crucial. In reality, most dynamic engines have access to both of these methods to ensure the diversity of the simulation processes that can be executed.
Presented conclusions are useful for the appropriate selection of available simulation methods depending on the application, as well as within further advancement and development of simulation and verification frameworks for robotic manipulators and rigid body systems.
PB  - Univerzitet u Beogradu, Mašinski fakultet
C3  - Book of abstracts: 1st International Conference on Mathematical Modelling in Mechanics and Engineering Mathematical Institute SANU, 08-10. September, 2022.
T1  - An overview of forward dynamics algorithms and their use in open-source engines
EP  - 99
SP  - 98
UR  - https://hdl.handle.net/21.15107/rcub_machinery_4082
ER  - 

@conference{
author = "Zivković, Nikola Lj. and Vidaković, Jelena and Lazarević, Mihailo",
year = "2022",
abstract = "Simulation of real-world dynamics is of major importance in testing and verifying developed industrial concepts and solutions, developing and verifying potential control paradigms, scientific research, learning and training tools, or the entertainment industry as a basis for a game engine. The module of the 3D virtual simulator that achieves simulation of the real-world behaviour such as rigid and elastic body dynamics, particle dynamics, fluid
dynamics, electrodynamics, magnetism, etc., is often referred to as a dynamics engine or physics engine. The core of the rigid body dynamics (physics) engine is the solution to the forward dynamics problem, which is defined as finding a rigid body's path, velocity, and acceleration for a given input actuating torque and external forces. The past few decades saw a considerable amount of research in robot dynamics modelling, and there are many methods for robot dynamic model development available in the literature. The most commonly used algorithms for solving robot forward dynamics problem are the Composite-Rigid-Body Algorithm (CRBA) [1] and the Articulated-Body Algorithm (ABA) [2]. CRBA and ABA are reduced coordinate methods where known constraints, such as joints, are embedded in the formulation of the equations of motion. Besides reduced coordinate methods, there are maximal coordinate methods using Lagrange multipliers [3-4] to enforce constraints using constraint reaction forces. This paper presents a comprehensive overview of forward dynamics algorithms and their usage in dynamics engines. Special reference is given to the most commonly used algorithms and methods and their advantages and disadvantages depending on the application. Most important software intended for virtual simulation of robots is presented, emphasising free, open-source use.
Firstly, brief history and introduction of CRBA, ABA and Lagrange multipliers methods is given, as they are the most commonly used methods employed by dynamics engines. Next, general phases of the simulation process are described. An integral segment in creating a simulation is the definition of the world - a description of the environment and robot models that are to be simulated. Application of the actuation and external forces and torques to the
model, detection of collisions between the bodies, constraint solving, forward dynamics computation and integration to obtain velocity and position of the bodies are performed. Each of these aspects is described with special attention to constraint solving and computation of forward dynamics using the algorithms mentioned above. There is a myriad of free and opensource dynamics engines available, and the focus herein is on the most commonly used engines for simulating robots: Open Dynamics Engine (ODE) [5], DART (Dynamic Animation and Robotics Toolkit) [6], Bullet [7], and Simbody [8] as they are present in the two most popular free, open-source robotics simulators Cyberbotics Webots [9] and OpenRobotics Gazebo [10] (Ignition is the successor of Gazebo). It can be concluded that the most used reduced coordinate method in simulators is ABA, while Lagrange multipliers are the most popular maximal coordinate method. ABA is mainly used for simulating open-loop multi-body systems (robot manipulators) where joint constraints are known upfront. In contrast, Lagrange multiplier methods are used where modularity of the simulated model during simulation run-time is crucial. In reality, most dynamic engines have access to both of these methods to ensure the diversity of the simulation processes that can be executed.
Presented conclusions are useful for the appropriate selection of available simulation methods depending on the application, as well as within further advancement and development of simulation and verification frameworks for robotic manipulators and rigid body systems.",
publisher = "Univerzitet u Beogradu, Mašinski fakultet",
journal = "Book of abstracts: 1st International Conference on Mathematical Modelling in Mechanics and Engineering Mathematical Institute SANU, 08-10. September, 2022.",
title = "An overview of forward dynamics algorithms and their use in open-source engines",
pages = "99-98",
url = "https://hdl.handle.net/21.15107/rcub_machinery_4082"
}

Zivković, N. Lj., Vidaković, J.,& Lazarević, M.. (2022). An overview of forward dynamics algorithms and their use in open-source engines. in Book of abstracts: 1st International Conference on Mathematical Modelling in Mechanics and Engineering Mathematical Institute SANU, 08-10. September, 2022.
Univerzitet u Beogradu, Mašinski fakultet., 98-99.
https://hdl.handle.net/21.15107/rcub_machinery_4082

Zivković NL, Vidaković J, Lazarević M. An overview of forward dynamics algorithms and their use in open-source engines. in Book of abstracts: 1st International Conference on Mathematical Modelling in Mechanics and Engineering Mathematical Institute SANU, 08-10. September, 2022.. 2022;:98-99.
https://hdl.handle.net/21.15107/rcub_machinery_4082 .

Zivković, Nikola Lj., Vidaković, Jelena, Lazarević, Mihailo, "An overview of forward dynamics algorithms and their use in open-source engines" in Book of abstracts: 1st International Conference on Mathematical Modelling in Mechanics and Engineering Mathematical Institute SANU, 08-10. September, 2022. (2022):98-99,
https://hdl.handle.net/21.15107/rcub_machinery_4082 .

TY  - CONF
AU  - Mandić, Petar
AU  - Lazarević, Mihailo
AU  - Šekara, Tomislav
AU  - Maione, Guido
AU  - Lino, Paolo
PY  - 2022
UR  - https://machinery.mas.bg.ac.rs/handle/123456789/4079
AB  - This paper deals with a topic of robot trajectory control which is very popular in academic
and industrial research community. The task is very challenging considering the nonlinear
nature of robot manipulators, as well as high demands in tracking performances [1]. To
accomplish this, we proposed a combined feedforward-feedback control scheme [2], which
outperforms each of these two subroutines when run separately. The first one is based on
iterative learning algorithm of proportional-derivative (PD) type, while the second one is
classical feedback controller, also of PD type [3]. Parameters of the controller are designed to
achieve good performance/robustness trade-off, which is a key element in modern control
design. Mathematical model of three degrees of freedom robot arm is derived with included
actuator dynamics [4].
One of typical industrial applications of robot manipulators is a task of following a trajectory
in space with prescribed velocity law. Processes like arc welding, painting, laser cutting, object
inspection etc., are some of which wherein such demands can be met. In this particular case,
robot manipulator needs to follow a circular trajectory with constant speed along the path.
Numerical solution of inverse kinematics problem needs to be addressed first in order to obtain
desired trajectory in joint space. Then, proposed control scheme is employed and some
preliminary results are given in figures below. Ten consecutive simulations of robot trying to
follow a predetermined path are performed using the iterative learning control algorithm. In
each subsequent simulation tracking performances are improving, reducing the maximum
distance error by ten times in overall. Furthermore, by increasing the number of simulations,
the error can be made arbitrarily small. Also, this control design allows following of different
types of trajectories, with various velocity laws.
PB  - Univerzitet u Beogradu, Mašinski fakultet
C3  - Book of abstracts: 1st International Conference on Mathematical Modelling in Mechanics and Engineering Mathematical Institute SANU, 08-10. September, 2022.
T1  - Application of iterative learning control for path following of 3DOFS robot arm
EP  - 117
SP  - 116
UR  - https://hdl.handle.net/21.15107/rcub_machinery_4079
ER  - 

@conference{
author = "Mandić, Petar and Lazarević, Mihailo and Šekara, Tomislav and Maione, Guido and Lino, Paolo",
year = "2022",
abstract = "This paper deals with a topic of robot trajectory control which is very popular in academic
and industrial research community. The task is very challenging considering the nonlinear
nature of robot manipulators, as well as high demands in tracking performances [1]. To
accomplish this, we proposed a combined feedforward-feedback control scheme [2], which
outperforms each of these two subroutines when run separately. The first one is based on
iterative learning algorithm of proportional-derivative (PD) type, while the second one is
classical feedback controller, also of PD type [3]. Parameters of the controller are designed to
achieve good performance/robustness trade-off, which is a key element in modern control
design. Mathematical model of three degrees of freedom robot arm is derived with included
actuator dynamics [4].
One of typical industrial applications of robot manipulators is a task of following a trajectory
in space with prescribed velocity law. Processes like arc welding, painting, laser cutting, object
inspection etc., are some of which wherein such demands can be met. In this particular case,
robot manipulator needs to follow a circular trajectory with constant speed along the path.
Numerical solution of inverse kinematics problem needs to be addressed first in order to obtain
desired trajectory in joint space. Then, proposed control scheme is employed and some
preliminary results are given in figures below. Ten consecutive simulations of robot trying to
follow a predetermined path are performed using the iterative learning control algorithm. In
each subsequent simulation tracking performances are improving, reducing the maximum
distance error by ten times in overall. Furthermore, by increasing the number of simulations,
the error can be made arbitrarily small. Also, this control design allows following of different
types of trajectories, with various velocity laws.",
publisher = "Univerzitet u Beogradu, Mašinski fakultet",
journal = "Book of abstracts: 1st International Conference on Mathematical Modelling in Mechanics and Engineering Mathematical Institute SANU, 08-10. September, 2022.",
title = "Application of iterative learning control for path following of 3DOFS robot arm",
pages = "117-116",
url = "https://hdl.handle.net/21.15107/rcub_machinery_4079"
}

Mandić, P., Lazarević, M., Šekara, T., Maione, G.,& Lino, P.. (2022). Application of iterative learning control for path following of 3DOFS robot arm. in Book of abstracts: 1st International Conference on Mathematical Modelling in Mechanics and Engineering Mathematical Institute SANU, 08-10. September, 2022.
Univerzitet u Beogradu, Mašinski fakultet., 116-117.
https://hdl.handle.net/21.15107/rcub_machinery_4079

Mandić P, Lazarević M, Šekara T, Maione G, Lino P. Application of iterative learning control for path following of 3DOFS robot arm. in Book of abstracts: 1st International Conference on Mathematical Modelling in Mechanics and Engineering Mathematical Institute SANU, 08-10. September, 2022.. 2022;:116-117.
https://hdl.handle.net/21.15107/rcub_machinery_4079 .

Mandić, Petar, Lazarević, Mihailo, Šekara, Tomislav, Maione, Guido, Lino, Paolo, "Application of iterative learning control for path following of 3DOFS robot arm" in Book of abstracts: 1st International Conference on Mathematical Modelling in Mechanics and Engineering Mathematical Institute SANU, 08-10. September, 2022. (2022):116-117,
https://hdl.handle.net/21.15107/rcub_machinery_4079 .

TY  - BOOK
AU  - Lazarević, Mihailo
PY  - 2022
UR  - https://machinery.mas.bg.ac.rs/handle/123456789/6414
AB  - Ова монографија је првенствено настала као плод двадесетогодишњег бављења аутора проблематиком нељапуновске стабилности и представља природан наставак проширења концепата на поједине класе динамичких система нецелог и целог реда. У овој монографији представљени су досадашњи најзначајнији резултати аутора из области стабилности система и то стабилности на коначном временском интервалу као и асимптотске стабилности а који су проистекли из научног истраживања и сарадње са докторантима и колегама који се баве овом проблематиком.На тај начин овде су представљени и резултати решавања проблема стабилности и стабилизације и то класе временски регуларних континуалних система са чистим временским кашњењем целог као и нецелог реда. Посебан квалитет ове монографије представљају по први пут новодобијени резултати који се односе на одређивању критеријума стабилности за једну сложену класу неутралних система нецелог реда и целог реда са кашњењем чиме ова монографија добија на свом значају.
Изложена материја подржава актуелне трендове у овај области и представља селективан текст који садржи и нека теоретска знања преузета из савремених уџбеника и радова из ове области а све са циљем да се заинтересованом читаоцу омогући лакши и непосреднији приступ овој сложеној проблематици.
PB  - Универзитет  у Београду Машински факултет
T2  - Универзитет У Београду Машински  факултет  (COBISS.SR-ID 84403209)
T1  - Стабилност посебних класа динамичких система нецелог и целог реда са кашњењем
EP  - 170
SP  - 1
UR  - https://hdl.handle.net/21.15107/rcub_machinery_6414
ER  - 

@book{
author = "Lazarević, Mihailo",
year = "2022",
abstract = "Ова монографија је првенствено настала као плод двадесетогодишњег бављења аутора проблематиком нељапуновске стабилности и представља природан наставак проширења концепата на поједине класе динамичких система нецелог и целог реда. У овој монографији представљени су досадашњи најзначајнији резултати аутора из области стабилности система и то стабилности на коначном временском интервалу као и асимптотске стабилности а који су проистекли из научног истраживања и сарадње са докторантима и колегама који се баве овом проблематиком.На тај начин овде су представљени и резултати решавања проблема стабилности и стабилизације и то класе временски регуларних континуалних система са чистим временским кашњењем целог као и нецелог реда. Посебан квалитет ове монографије представљају по први пут новодобијени резултати који се односе на одређивању критеријума стабилности за једну сложену класу неутралних система нецелог реда и целог реда са кашњењем чиме ова монографија добија на свом значају.
Изложена материја подржава актуелне трендове у овај области и представља селективан текст који садржи и нека теоретска знања преузета из савремених уџбеника и радова из ове области а све са циљем да се заинтересованом читаоцу омогући лакши и непосреднији приступ овој сложеној проблематици.",
publisher = "Универзитет  у Београду Машински факултет",
journal = "Универзитет У Београду Машински  факултет  (COBISS.SR-ID 84403209)",
title = "Стабилност посебних класа динамичких система нецелог и целог реда са кашњењем",
pages = "170-1",
url = "https://hdl.handle.net/21.15107/rcub_machinery_6414"
}

Lazarević, M.. (2022). Стабилност посебних класа динамичких система нецелог и целог реда са кашњењем. in Универзитет У Београду Машински  факултет  (COBISS.SR-ID 84403209)
Универзитет  у Београду Машински факултет., 1-170.
https://hdl.handle.net/21.15107/rcub_machinery_6414

Lazarević M. Стабилност посебних класа динамичких система нецелог и целог реда са кашњењем. in Универзитет У Београду Машински  факултет  (COBISS.SR-ID 84403209). 2022;:1-170.
https://hdl.handle.net/21.15107/rcub_machinery_6414 .

Lazarević, Mihailo, "Стабилност посебних класа динамичких система нецелог и целог реда са кашњењем" in Универзитет У Београду Машински  факултет  (COBISS.SR-ID 84403209) (2022):1-170,
https://hdl.handle.net/21.15107/rcub_machinery_6414 .

TY  - JOUR
AU  - Matić, Zoran
AU  - Kalauzi, Aleksandar
AU  - Moser, Maximilian
AU  - Platiša, Mirjana M.
AU  - Lazarević, Mihailo
AU  - Bojić, Tijana
PY  - 2022
UR  - https://machinery.mas.bg.ac.rs/handle/123456789/4072
AB  - In this research we explored the (homeo)dynamic character of cardiorespiratory coupling (CRC) under the influence of different body posture and breathing regimes. Our tool for it was the pulse respiration quotient (PRQ), representing the number of heartbeat intervals per breathing cycle. We obtained non-integer PRQ values using our advanced Matlab® algorithm and applied it on the signals of 20 healthy subjects in four conditions: supine position with spontaneous breathing (Supin), standing with spontaneous breathing (Stand), supine position with slow (0.1 Hz) breathing (Supin01) and standing with slow (0.1 Hz) breathing (Stand01).Main results: Linear features of CRC (in PRQ signals) were dynamically very sensitive to posture and breathing rhythm perturbations. There are obvious increases in PRQ mean level and variability under the separated and joined influence of orthostasis and slow (0.1 Hz) breathing. This increase was most pronounced in Stand01 as the state of joint influences. Importantly, PRQ dynamic modification showed greater sensitivity to body posture and breathing regime changes than mean value and standard deviation of heart rhythm and breathing rhythm. In addition, as a consequence of prolonged supine position, we noticed the tendency to integer quantization of PRQ (especially after 14 min), in which the most common quantization number was 4:1 (demonstrated in other research reports as well). In orthostasis and slow breathing, quantization can also be observed, but shifted to other values. We postulate that these results manifest resonance effects induced by coupling patterns from sympathetic and parasympathetic adjustments (with the second as dominant factor).Significance: Our research confirms that cardiorespiratory coupling adaptability could be profoundly explored by precisely calculated PRQ parameter since cardiorespiratory regulation in healthy subjects is characterized by a high level of autonomic adaptability (responsiveness) to posture and breathing regime, although comparisons with pathological states has yet to be performed. We found Stand01 to be the most provoking state for the dynamic modification of PRQ (cardiorespiratory inducement). As such, Stand01 has the potential of using for PRQ tuning by conditioning the cardiorespiratory autonomic neural networks, e.g., in the cases where PRQ is disturbed by environmental (i.e., microgravity) or pathologic conditions.
PB  - Frontiers : Switzerland
T2  - Frontiers in Physiology Sec. Autonomic Neuroscience
T1  - Pulse respiration quotient as a measure sensitive to changes in dynamic behavior of cardiorespiratory coupling such as body posture and breathing regime
EP  - 15
SP  - 1
VL  - 13
DO  - 10.3389/fphys.2022.946613
ER  - 

@article{
author = "Matić, Zoran and Kalauzi, Aleksandar and Moser, Maximilian and Platiša, Mirjana M. and Lazarević, Mihailo and Bojić, Tijana",
year = "2022",
abstract = "In this research we explored the (homeo)dynamic character of cardiorespiratory coupling (CRC) under the influence of different body posture and breathing regimes. Our tool for it was the pulse respiration quotient (PRQ), representing the number of heartbeat intervals per breathing cycle. We obtained non-integer PRQ values using our advanced Matlab® algorithm and applied it on the signals of 20 healthy subjects in four conditions: supine position with spontaneous breathing (Supin), standing with spontaneous breathing (Stand), supine position with slow (0.1 Hz) breathing (Supin01) and standing with slow (0.1 Hz) breathing (Stand01).Main results: Linear features of CRC (in PRQ signals) were dynamically very sensitive to posture and breathing rhythm perturbations. There are obvious increases in PRQ mean level and variability under the separated and joined influence of orthostasis and slow (0.1 Hz) breathing. This increase was most pronounced in Stand01 as the state of joint influences. Importantly, PRQ dynamic modification showed greater sensitivity to body posture and breathing regime changes than mean value and standard deviation of heart rhythm and breathing rhythm. In addition, as a consequence of prolonged supine position, we noticed the tendency to integer quantization of PRQ (especially after 14 min), in which the most common quantization number was 4:1 (demonstrated in other research reports as well). In orthostasis and slow breathing, quantization can also be observed, but shifted to other values. We postulate that these results manifest resonance effects induced by coupling patterns from sympathetic and parasympathetic adjustments (with the second as dominant factor).Significance: Our research confirms that cardiorespiratory coupling adaptability could be profoundly explored by precisely calculated PRQ parameter since cardiorespiratory regulation in healthy subjects is characterized by a high level of autonomic adaptability (responsiveness) to posture and breathing regime, although comparisons with pathological states has yet to be performed. We found Stand01 to be the most provoking state for the dynamic modification of PRQ (cardiorespiratory inducement). As such, Stand01 has the potential of using for PRQ tuning by conditioning the cardiorespiratory autonomic neural networks, e.g., in the cases where PRQ is disturbed by environmental (i.e., microgravity) or pathologic conditions.",
publisher = "Frontiers : Switzerland",
journal = "Frontiers in Physiology Sec. Autonomic Neuroscience",
title = "Pulse respiration quotient as a measure sensitive to changes in dynamic behavior of cardiorespiratory coupling such as body posture and breathing regime",
pages = "15-1",
volume = "13",
doi = "10.3389/fphys.2022.946613"
}

Matić, Z., Kalauzi, A., Moser, M., Platiša, M. M., Lazarević, M.,& Bojić, T.. (2022). Pulse respiration quotient as a measure sensitive to changes in dynamic behavior of cardiorespiratory coupling such as body posture and breathing regime. in Frontiers in Physiology Sec. Autonomic Neuroscience
Frontiers : Switzerland., 13, 1-15.
https://doi.org/10.3389/fphys.2022.946613

Matić Z, Kalauzi A, Moser M, Platiša MM, Lazarević M, Bojić T. Pulse respiration quotient as a measure sensitive to changes in dynamic behavior of cardiorespiratory coupling such as body posture and breathing regime. in Frontiers in Physiology Sec. Autonomic Neuroscience. 2022;13:1-15.
doi:10.3389/fphys.2022.946613 .

Matić, Zoran, Kalauzi, Aleksandar, Moser, Maximilian, Platiša, Mirjana M., Lazarević, Mihailo, Bojić, Tijana, "Pulse respiration quotient as a measure sensitive to changes in dynamic behavior of cardiorespiratory coupling such as body posture and breathing regime" in Frontiers in Physiology Sec. Autonomic Neuroscience, 13 (2022):1-15,
https://doi.org/10.3389/fphys.2022.946613 . .

TY  - JOUR
AU  - Radojević, Darko
AU  - Lazarević, Mihailo
PY  - 2022
UR  - https://machinery.mas.bg.ac.rs/handle/123456789/3731
AB  - In this paper, the finite-time stability for nonlinear neutral multi-term fractional order systems with time-varying input and state delays is investigated. By use of the generalized Gronwall inequality and extended form of the generalized Gronwall inequality, new sufficient conditions for finite-time stability of such systems are obtained. Finally, numerical examples are given to illustrate the effectiveness and applicability of the proposed theoretical results.
PB  - Univerzitet u Nišu - Prirodno-matematički fakultet - Departmant za matematiku i informatiku, Niš
T2  - Filomat
T1  - Further Results on Finite-Time Stability of Neutral Nonlinear Multi-Term Fractional Order Time-Varying Delay Systems
EP  - 1787
IS  - 5
SP  - 1775
VL  - 36
DO  - 10.2298/FIL2205775R
ER  - 

@article{
author = "Radojević, Darko and Lazarević, Mihailo",
year = "2022",
abstract = "In this paper, the finite-time stability for nonlinear neutral multi-term fractional order systems with time-varying input and state delays is investigated. By use of the generalized Gronwall inequality and extended form of the generalized Gronwall inequality, new sufficient conditions for finite-time stability of such systems are obtained. Finally, numerical examples are given to illustrate the effectiveness and applicability of the proposed theoretical results.",
publisher = "Univerzitet u Nišu - Prirodno-matematički fakultet - Departmant za matematiku i informatiku, Niš",
journal = "Filomat",
title = "Further Results on Finite-Time Stability of Neutral Nonlinear Multi-Term Fractional Order Time-Varying Delay Systems",
pages = "1787-1775",
number = "5",
volume = "36",
doi = "10.2298/FIL2205775R"
}

Radojević, D.,& Lazarević, M.. (2022). Further Results on Finite-Time Stability of Neutral Nonlinear Multi-Term Fractional Order Time-Varying Delay Systems. in Filomat
Univerzitet u Nišu - Prirodno-matematički fakultet - Departmant za matematiku i informatiku, Niš., 36(5), 1775-1787.
https://doi.org/10.2298/FIL2205775R

Radojević D, Lazarević M. Further Results on Finite-Time Stability of Neutral Nonlinear Multi-Term Fractional Order Time-Varying Delay Systems. in Filomat. 2022;36(5):1775-1787.
doi:10.2298/FIL2205775R .

Radojević, Darko, Lazarević, Mihailo, "Further Results on Finite-Time Stability of Neutral Nonlinear Multi-Term Fractional Order Time-Varying Delay Systems" in Filomat, 36, no. 5 (2022):1775-1787,
https://doi.org/10.2298/FIL2205775R . .