Your search keyword '"Jaroslaw Artyszuk"' showing total 14 results

1. System for Determining Dynamic Under Keel Clearance of Vessels Entering the Port of Swinoujscie (DRWPS)

Author

Lucjan Gucma, Mateusz Bilewski, Jaroslaw Artyszuk, and Kinga Drwiega

Subjects

Port Manoeuvering, Under Keel Clearance (UKC), Port of Swinoujscie, Response Amplitude Operator (RAO), UKC Reduction, Graphical User Interface, Liquefied Natural Gas (LNG), LNG Vessels, Canals and inland navigation. Waterways, TC601-791, Transportation and communications, HE1-9990

Abstract

The article presents a system for determining dynamic under keel clearance. In order to build a DRWPS system, a mixed model was created based on the analysis of math models. The system includes advisory software for defining the conditions for the entering of large LNG vessels in the context of under keel clearance and software was built to support the decision-making of operators who are responsible for introducing these vessels to the Port of Swinoujscie.

Published

2017

2. Inherent Properties of Ship Manoeuvring Linear Models in View of the Full-mission Model Adjustment

Author

Jaroslaw Artyszuk

Subjects

Ship Handling, Full-mission Model Adjustment, Manoeuvring, Ship Linear Dynamics, Hydrodynamics, Drift Equation, Yaw Equation, Hydrodynamic Parameters, Canals and inland navigation. Waterways, TC601-791, Transportation and communications, HE1-9990

Abstract

The paper presents new results on the inherent properties of ship linear dynamics. The focus is made on the second-order formulation for the uncoupled equations of sway and yaw, and on their unique, unknown performance within the zigzag test. From the standpoint of application to full-mission model tuning, a very important loop in the drift-yaw domain of the zigzag behaviour, as governed by the rudder rate dependent time constants (of T3-type), is brought to the light. This and some other dependent effects, like overshoot angle performance, are likely to be lost, if the well-known, rather ambiguous, first-order approximations are deployed.

Published

2016

3. Steady-state Manoeuvring of a Generic ASD Tug in Escort Pull and Bow-rope Aided Push Operation

Author

Jaroslaw Artyszuk

Subjects

Ship Operation, Generic ASD Tug, Manoeuvring, Steady-State Manoeuvring, Pushing Operation, Towing, Hydrodynamics, Tug's Dynamics, Canals and inland navigation. Waterways, TC601-791, Transportation and communications, HE1-9990

Abstract

This paper is devoted to expand the very promising research undertaken in the author's previous work, basically done on simplified modelling the escort push operation. Now, the other two modes of a tug's employment, as stated in the title, are covered. The special focus is again set on the indirect towing in that the towline force is much higher than the thruster force. The ratio of these two forces, referred to as the relative towing force (or amplification ratio) is evaluated together with the hull drift angle and the thruster(-s) angle for a given escort speed. This mutual relationship is known as the tug performance diagram. Although rather generic (container-type) formulas are derived, they are supplied for exemplification purposes with simple, analytically given hull hydrodynamic forces. The aim is also here to provide a basis for further sensitivity analysis of the model and possible improvement/optimisation to the tug design. The obtained charts also could serve as rough and clear guidance for towmasters while escorting.

Published

2014

4. Conversion of A Second- To First-Order Linear Nomoto Model in the Light of Zigzag Manoeuvre Performance

Author

Jaroslaw Artyszuk

Subjects

Zigzag, Computer science, Mathematical analysis, General Medicine, First order

Abstract

The problem of considerable difference between the first- and second-order linear Nomoto models is undertaken, not well covered in literature so far. If the former approximates the latter (better one, of a sound hydrodynamic interpretation) for some reasons, its parameters can not be easily derived from the other one, except for some specific rare cases. For such an identification purpose, we can use a simulated zigzag response and the classic procedure proposed by Nomoto in 1960. However, the first-order model thus developed yields somehow redefined constants against the original model, which lose their normal hydrodynamic (or kinematic) sense. In other words, it is very sensitive to the manoeuvre type on input, being therein the zigzag test. Therefore, the model is allowed to be only used for simulating motions essentially similar to the input zigzag. In other words, the identification procedure works like a blind curve-fitting and the first-order model (in contrast to second-order one) is inadequate for reflecting arbitrary manoeuvres, even for mild rudder as to be within ‘linear’ assumptions.This study examines systematically and in detail such an incompatibility of the first order model in that it presents the conversion charts from the standpoint of 10°/10° zigzag test matching. One can receive higher or lower values for the parameters of first-order model, versus the second-order one, depending on the T3/T2 ratio of the latter model.

Published

2018

5. Energy Savings by Optimization of Thrusters Allocation during Complex Ship Manoeuvres

Author

P. Zalewski and Jaroslaw Artyszuk

Subjects

simulator, Technology, Control and Optimization, Computer science, Energy Engineering and Power Technology, Track (rail transport), Bridge (nautical), Automotive engineering, thrust allocation, FMBS, Joystick, media_common.cataloged_instance, Electrical and Electronic Engineering, European union, berthing, Engineering (miscellaneous), energy efficiency, ship control by joystick, media_common, Renewable Energy, Sustainability and the Environment, Constrained optimization, Rudder, Energy consumption, harbour manoeuvring, constrained optimization, Energy (miscellaneous), Efficient energy use

Abstract

The International Maritime Organization adopted a strategy to reduce the total annual GHG emissions from international shipping by at least 50% by 2050, compared to 2008 levels. The European Union proposed an even farther reaching transformation: the European Commission adopted a set of proposals to make the EU’s transport policies fit for reducing net greenhouse gas emissions by at least 55% by 2030, compared to 1990 levels. Therefore, all industrial actions in line and consistent with these strategies are essential. One of such activities may be a gradual transition from the most common independent controls of transport ships’ thrusters, propellers, and rudders to an integrated, power optimized, 3 degrees of freedom joystick control. In this paper, the full mission bridge simulator (FMBS) research on potential energy savings and, consequently, a GHG emission reduction, while steering a RoPax twin-screw ferry equipped with bow thrusters by a joystick control, is presented. The task of navigators engaged in the research was to steer the vessel either via classic engine, rudder, and thruster levers or via a joystick while (1) following the predefined straight track, (2) rotating at the turning area, and (3), finally, crabbing (moving sideways) until stopping at the quay fenders. The conclusions are that energy savings of approximately 10% can be expected for berthing manoeuvres controlled by a joystick, compared to independent actuators’ controls. These conclusions have been drawn from a statistical analysis of the ship’s energy consumption during typical manoeuvring phases of 18 berthing operations performed in FMBS.

Published

2021

6. Peculiarities of Zigzag Behaviour in Linear Models of Ship Yaw Motion

Author

Jaroslaw Artyszuk

Subjects

Engineering, zigzag test, lcsh:V, business.industry, Nomoto, Linear model, Motion (geometry), Structural engineering, ship manoeuvring, linear model, steering, Zigzag, lcsh:Naval Science, business

Abstract

The present survey, as part of larger project, is devoted to properties of pure linear models of yaw motion for directionally stable ships, of the first- and second-order, sometimes referred to as the Nomoto models. In rather exhaustive way, it exactly compares and explains both models in that what is being lost in the zigzag behaviour, if the reduction to the simpler, first-order dynamics (K-T model) is attempted with the very famous [Nomoto et al., 1957] approximation: T = T1 + T2 - T3. The latter three time constants of the second-order model, more physically sound, are strictly dependent on the hydrodynamic coefficients of an essential part of the background full-mission manoeuvring model. The approximation of real ship behaviour in either of the mentioned linearity orders, and the corresponding complex parameters may facilitate designing and evaluating ship steering, and identifying some regions of advanced nonlinear models, where linearisation is valid.As a novel outcome of the conducted investigation, a huge inadequacy of such a first- -order model for zigzag simulation is reported. If this procedure is used for determining steering quality indices, those would be of course inadequate, and the process of utilizing them (e.g. autopilot) inefficient.

Published

2016

7. The Use of a Double Bottom Trawl Set to Assess the Selectivity of Innovative Codends in Baltic Cod (Gadus morhua) Fishing

Author

Paweł Zalewski, Piotr Nowakowski, Krzysztof Berest, Grzegorz Krzemień, Jarosław Artyszuk, Artur Żuliński, and Marta Kasprowicz

Subjects

Baltic fishery, selective fishing, bottom trawl design, ultracross codend, confusor, diffuser, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

The overall objective of the study presented in this paper was to evaluate the selectivity properties of three innovative codends in Baltic cod fishing: (1) an ultracross codend of 120 mm square mesh, (2) an ultracross codend with additional devices reducing the speed of water flow—one tarpaulin diffuser and one net confusor of 120 mm mesh, and (3) an ultracross codend with two tarpaulin diffusers and two net confusors of 120 mm mesh. These codends were firstly tested at sea by single trawls and compared to T90 and herring codend trawls, allowing assessment of caught fish mass and dimensions. Additionally, a special divided small-mesh coat for the innovative codends enabled determination of the amount as well as the length and mass of cod escaping from the codend both while the trawling gear was towed and while it was hauled. Further validation of codend selectivity was carried out by a double (twin) bottom trawl set deployed from one cutter in various variants of innovative codends compared to standard ones. The results of the study indicate that the use of an innovative ultracross codend and innovative devices reducing the water flow speed (tarpaulin diffusers and 120 mm net confusors) significantly reduces the number of undersized cod (

Published

2024

8. Safety of Marine Transport

Author

Mate Baric, Jaroslaw Artyszuk, Adam Weintrit, Gabriel Nowacki, Cecilia Österman, Arnaud Serry, Leonid Meyler, Francisco Piniella, Özkan Uğurlu, Angelica Baylon, and Giedrius Varoneckas

Subjects

Marine navigation, business.industry, Environmental resource management, Marine technology, Environmental science, business, Marine engineering

Published

2015

9. Simulation Tests of the Passing Distance of Ships on a Two-Way Fairway

Author

Stanisław Gucma, Jarosław Artyszuk, Rafał Gralak, and Marcin Przywarty

Subjects

passing distance, safety of navigation, design of waterways, full-mission ship simulator, maritime traffic engineering, safe maneuvering area, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

One of the components necessary to determine the width of a safe maneuvering area on two-way fairways is a safe passing distance. Existing methods do not consider modern model studies of interactions between passing vessels, additionally, they ignore the influence of the vessel’s position accuracy and navigators’ qualifications. This paper presents a method to determine the passing distance, which is free of the drawbacks of the methods used so far. The proposed method is based on simulation research carried out using an FMBS-type (Full Mission Bridge) simulator. The tests were carried out for three loaded vessels (bulk carrier, tanker, and sea ferry), on four sections of the fairway with different parameters and aids-to-navigation available. The results obtained allowed the modification of the authors’ previous, but still widely used, deterministic–probabilistic MTE (Marine Traffic Engineering) method for determining the width of a safe maneuvering area.

Published

2023

10. Power Consumption and Effectiveness of Azimuth Stern-Drive (ASD) Tug While Assisting at Ship’s Bow

Author

Jarosław Artyszuk and Paweł Zalewski

Subjects

azimuth stern drive, ASD tug, bow tug assistance, energy efficiency, towing effectiveness, harbour manoeuvring, Technology

Abstract

The purpose of this article is to present a methodical approach to increasing the efficiency of a tug with an azimuth stern drive (ASD). The difficulties in the bow-to-bow (as a reverse tractor) operations of an azimuth stern-drive tug, while pulling at the assisted (towed) ship’s bow, are investigated through a parametric study. The authors’ original generic analytical model of a tug in a steady state is utilised. Various design and operation options are also compared, which cover the escort speed, hawser angle, and relative location of the towing point, among others. The latter also means a shift to stern-to-bow operation. The thruster power required and the remaining surplus for executing new alignment (steering) orders are assessed. The study is, thus, aimed at energy savings for the whole operation and, consequently, at long-term harbour-tug-fleet energy effectiveness. The basic output of the present research is the comparison of the behavioural and control patterns of various tug arrangements at a ship’s bow. The results of the study show a slight advantage for a midship winch tug working through her stern for bow operation (stern-to-bow) over the reverse tractor acting bow-to-bow. Comparing various tug designs or operation options is difficult due to complicated tug dynamics and statics patterns under the hawser action. Both relative and absolute towing forces have to be considered (a high relative force may result in a low absolute force, much less than ordered by the pilot), with some geometrical and safety constraints additionally. The practical implementation of the conducted research should cover the guidance and training rendered to tug masters in the scope of the operational limitations of a particular tug and towards the design or acquisition of the tug that is best-suited for a particular harbour operation.

Published

2022

11. Design and Assessment of ADRC-Based Autopilot for Energy-Efficient Ship Steering

Author

Zenon Zwierzewicz, Lech Dorobczyński, and Jarosław Artyszuk

Subjects

ship autopilot design, ADRC methodology, full-scale ship model, Technology

Abstract

This paper looks at a typical problem encountered in the process of designing an automatic ship’s course stabilisation system with the use of a relatively new methodology referred to as the Active Disturbance Rejection Control (ADRC). The main advantage of this approach over classic autopilots based on PID algorithms, still in the majority, is that it eliminates the tuning problem and, thus, ensures a much better average performance of the ship in various speed, loading, nautical and weather conditions during a voyage. All of these factors call for different and often dynamically variable autopilot parameters, which are difficult to assess, especially by the ship’s crew or owner. The original result of this article is that the required controller parameters are approximated based on some canonical model structure and analysis of the hydrodynamic properties of a wide class of ships. Another novelty is the use of a fully verified, realistic numerical hydrodynamic model of the ship as a simulation model as well as a basis for deriving a simplified model structure suitable for controller design. The preliminary results obtained indicate good performance of the proposed ADRC autopilot and provide prospects for its successful implementation on a real ship.

Published

2021

12. Energy Savings by Optimization of Thrusters Allocation during Complex Ship Manoeuvres

Author

Jarosław Artyszuk and Paweł Zalewski

Subjects

energy efficiency, thrust allocation, constrained optimization, ship control by joystick, harbour manoeuvring, berthing, Technology

Abstract

The International Maritime Organization adopted a strategy to reduce the total annual GHG emissions from international shipping by at least 50% by 2050, compared to 2008 levels. The European Union proposed an even farther reaching transformation: the European Commission adopted a set of proposals to make the EU’s transport policies fit for reducing net greenhouse gas emissions by at least 55% by 2030, compared to 1990 levels. Therefore, all industrial actions in line and consistent with these strategies are essential. One of such activities may be a gradual transition from the most common independent controls of transport ships’ thrusters, propellers, and rudders to an integrated, power optimized, 3 degrees of freedom joystick control. In this paper, the full mission bridge simulator (FMBS) research on potential energy savings and, consequently, a GHG emission reduction, while steering a RoPax twin-screw ferry equipped with bow thrusters by a joystick control, is presented. The task of navigators engaged in the research was to steer the vessel either via classic engine, rudder, and thruster levers or via a joystick while (1) following the predefined straight track, (2) rotating at the turning area, and (3), finally, crabbing (moving sideways) until stopping at the quay fenders. The conclusions are that energy savings of approximately 10% can be expected for berthing manoeuvres controlled by a joystick, compared to independent actuators’ controls. These conclusions have been drawn from a statistical analysis of the ship’s energy consumption during typical manoeuvring phases of 18 berthing operations performed in FMBS.

Published

2021

13. Inżynieria ruchu morskiego. Wytyczne do projektowania morskich dróg wodnych i portów oraz warunków ich bezpiecznej eksploatacji

Author

Maciej Gucma, Mateusz Bilewski, Paweł Zalewski, Wojciech Ślączka, Lucjan Gucma, Krzysztof Marcjan, Rafał Gralak, Stanisław Gucma, and Jaroslaw Artyszuk

14. Simulation of load distribution along a quay during unparallel berthing manoeuvres

Author

Jaroslaw Artyszuk