The dynamics of deployment and observation of a rigid body spacecraft system in the linear and non-linear two-body problem

Ottesen, David Ryan

04 March 2013

Modern space situational awareness entails the detection, tracking, identification, and characterization of resident space objects. Characterization is typically accomplished through the use of ground and space based sensors that are able to identify some specific physical feature, monitor unique dynamical behaviors, or deduce some information about the material properties of the object. The present investigation considers the characterizaiton aspects of situational awareness from the perspective of a close-proximity formation reconnaissance mission. The present study explores both relative translational and relative rotational motion for deployment of a spacecraft and observation of a resident space object. This investigation is motivated by specific situations in which characterization with ground or fixed space based sensors is insufficient. Instead, one or more vehicles are deployed in the vicinity of the object of interest. These could be, for instance, nano-satellites with imaging sensors. Nano-satellites offer a low-cost and effective technological platform, which makes consideration of the proposed scenario more feasible. Although the motivating application is rooted in space situational awareness, the techniques explored are generally applicable to flight in the vicinity of asteroids, and both cooperative vs. non-cooperative resident space objects. The investigation is initially focused on identifying the key features of the relative dynamics that are relevant to space situational awareness applications. Subsequently, effective spacecraft control techniques are considered to achieve the reconnaissance goals. / text

Modern space situational awareness

Two-body problem

Deployment

Observation

Floquet controller

Rigid body dynamics

Σθεναρός έλεγχος ηλεκτροστατικών μίκρο-επενεργητών

Βάγια, Μαριαλένα

03 August 2009

Στην παρούσα διδακτορική διατριβή αναλύθηκαν και μελετήθηκαν διάφορα συστήματα (ΗμΕ) προκειμένου να παρουσιαστεί η μοντελοποίηση τους. Κατά τη μοντελοποίηση αυτή, μελετήθη-καν τα χαρακτηριστικά τους και αναλύθηκε η συμπεριφορά τους. Στη συνέχεια, αναπτύχθηκαν νόμοι ελέγχου, οι οποίοι εφαρμόστηκαν στα συστήματα των ΗμΕ προκειμένου να επιτευχθεί ο έλεγχος της συμπεριφοράς τους. Αναλυτικότερα τα ζητήματα με τα οποία ασχολήθηκε η διατριβή αυτή παρουσιάζονται παρακάτω. Αρχικά πραγματοποιήθηκε η μοντελοποίηση των κάτωθι συστημάτων ΗμΕ: α) ένα σύστημα ΗμΕ του κυρίαρχου βαθμού ελευθερίας, β) ένα σύστημα ΗμΕ δύο βαθμών ελευθερίας και γ) ένα σύστημα ΗμΕ του κυρίαρ-χου βαθμού ελευθερίας στη μοντελοποίηση του οποίου λαμβάνεται υπόψιν η παρουσία του αέρα. Στη συνέχεια της διδακτορικής αυτής παρουσιάζονται και αναλύονται οι ελεγκτές οι οποίοι αναπτύχθηκαν και χρησιμοποιήθηκαν για τη μελέτη των συστημάτων αυτών και οι οποίοι είναι οι εξής: α) ένας Σθεναρός PID ελεγκτής, β) ένας Σθεναρός Η-infinity ελεγκτής, γ) ένας Σθεναρός Διακοπτικός PID ελεγκτής και δ) ένας H-infinity ελεγκτής προκαθορισμένων κερδών. Από την εφαρμογή των προτεινόμενων νόμων ελέγχου στα συστήματα ΗμΕ προκύπτουν τα αποτελέσματα της διδακτορικής αυτής διατριβής. Τα αποτελέσματα αυτά χωρίζονται σε δύο κατηγορίες. Αρχικά σε αυτά που αφορούν τη συμπεριφορά και τα χαρακτηριστικά των συστημάτων των ΗμΕ και στη συνέχεια σε αυτά τα οποία σχετίζονται με την εφαρμογή των νόμων ελέγχου στα συστήματα των ΗμΕ. Η κύρια συνεισφορά της διδακτορικής διατριβής αναφέρεται τόσο στην πρόταση νέων τεχνικών ελέγχου για τα συστήματα των ΗμΕ καθώς και η εφαρμογή με επιτυχία των τεχνικών αυτών στα συστήματα τα οποία μελετήθηκαν κατά τη διεκπόνηση της διατριβής. / In the present Phd thesis different systems of Electrostatic micro Actuators (EmA) have been presented and analyzed. During the modeling process the systems have been observed in order to provide the special characteristics and the special behavior of each model. In addition special control laws have been presented in order to control the movement of the movable parts of the EmAs. In general the main issues of this PhD thesis are presented in the sequel. Firstly the modeling of the following EmAs is presented: a) an EmA whose one plate is moving parallel to the x-axis b) an EmA whose plate is moving parallel to the x-axis and is also making an angular rotation c) an EmA system with squeezed film damping effects (presence of air between the moving surfaces). In the sequel the control laws that have been designed for the aforementioned systems are presented. The designed controllers are: a) a Robust PID controller b) a Robust Switching PID controller c) a robust Η-infinity controller and d) a robust Gain Scheduled H-infinity controller. In the last part of this thesis, the simulation results are presented concering both the behavior of the systems as well as the results provided by the application of the control laws.

Σθεναρός έλεγχος

PID ελεγκτής

621.310 42

Electrostatic actuators

MEMS

Thin film damping effect

Robust control

PID controller

Switching PID controller

Robust H-infinity controller

Gain scheduled H-infinity controller

SYSTEM ANALYSIS THROUGH BOND GRAPH MODELING

McBride, Robert Thomas

January 2005

Modeling and simulation form an integral role in the engineering design process. An accurate mathematical description of a system provides the design engineer the flexibility to perform trade studies quickly and accurately to expedite the design process. Most often, the mathematical model of the system contains components of different engineering disciplines. A modeling methodology that can handle these types of systems might be used in an indirect fashion to extract added information from the model.This research examines the ability of a modeling methodology to provide added insight into system analysis and design. The modeling methodology used is bond graph modeling. An investigation into the creation of a bond graph model using the Lagrangian of the system is provided. Upon creation of the bond graph, system analysis is performed. To aid in the system analysis, an object-oriented approach to bond graph modeling is introduced. A framework is provided to simulate the bond graph directly. Through object-oriented simulation of a bond graph, the information contained within the bond graph can be exploited to create a measurement of system efficiency. A definition of system efficiency is given. This measurement of efficiency is used in the design of different controllers of varying architectures. Optimal control of a missile autopilot is discussed within the framework of the calculated system efficiency.

Bond Graph

Object-Oriented Modeling

System Analysis

Controller Efficiency

Optimal Control

Autopilot

Controlling a Robot Hand in Simulation and Reality

Birgestam, Magnus

January 2008

This master thesis was made at the Institute of Technology Stockholm and is a part of a robot hand project called 10-X with the aim to develop a low-cost robot hand that is light and strong. The project specification is to further improve the ability to control the robot hand in a user friendly way. This has been done by implementing a controller, earlier used and developed at KTH, which is intuitive and easy to customize after the needs in different kinds of grasps. To make the controller easy to use an user interface has been made. Before the implementation of the controller was made on the real hand it was tested and development on a simulation created in MATLAB/simulink with help from a graphic physics engine called GraspIt! The movement of the robot finger is effected of the force from a leaf spring and a tendon that bends the finger. Also the finger is exposed of contact forces and all these components had to be modeled in the simulation to make the finger act properly. / Detta examensarbete är genomfört på KTH Stockholm och är en del av ett projekt, kallat 10-X, vars syfte är att utveckla och ta fram en robothand som är lätt och stark samtidigt som den är billig. Projektets målsättning är att vidare förbättra och utveckla möjligheten att kontrollera robothanden på ett användarvänligt sätt. Detta har gjorts genom att implementera en regulator, tidigare utvecklad och använd på KTH, som är instruktiv och lätt att anpassa efter olika typer av grepp. För att göra regulatorn enkel att använda har ett användargränssnitt skapats. Innan regulatorn implementerades på den riktiga robothanden utvecklades och testades den på en simuleringsmodell, skapad i MATLAB/simulink med hjälp av en grafisk fysikmotor GraspIt! Rörelsen hos ett robotfinger påverkas av krafter från en bladfjäder och den lina som böjer fingret. Fingret utsätts också för kontaktkrafter och alla dessa komponenter blev modellerade i simulatorn för att få fingret att bete sig korrekt.

Robot hand

Controller

Simulation

Prototype

Robot hand

Reglering

Simulering

Prototyp

Automatic control

Reglerteknik

EVALUATION OF A MODIFIED VARIABLE RATE GRANULAR FERTILIZER SPREADER FOR SPOT-SPECIFIC FERTILIZATION IN WILD BLUEBERRY FIELDS

Chattha, Hassan

10 October 2013

The variable rate fertilizer spreader was modified to control each pair of nozzles for spot-application of fertilizer only in plant areas of wild blueberry fields. The experiments were conducted to evaluate performance accuracy of modified variable rate granular (MVRG) fertilizer spreader. The results suggested that the MVRG fertilizer spreader performed efficiently in detecting bare spots/weed patches and clay filler application only in green grass/plant areas. Two wild blueberry fields were selected to evaluate the impact of MVRG spreader on nutrient leaching through small bare spots/weed patches. Management zones were delineated on the basis of slope variability. The MVRG spreader significantly reduced the nutrient loading in subsurface water samples collected from the bare spots/weed patches. Based on the results obtained, it can be concluded that the fertilization in wild blueberry fields using MVRG fertilizer spreader can result in the protection of subsurface water quality, thus protecting the environment.

GA Optimized Fuzzy Logic Controller for the Dissolved Oxygen Concentration in a Wastewater Bioreactor

Rocca, Jesse

29 May 2012

A fuzzy logic controller (FLC) for the dissolved oxygen (DO) concentration of a wastewater bioreactor is presented. The FLC is developed and tested based on simulations using first order plus dead time models obtained from experiments with an actual wastewater bioreactor. The FLC uses feedback of the error in DO concentration and rate of change of the DO concentration and manipulates the stem position of the flow control valves (FCVs) supplying air to the bioreactor. The proposed FLC is tested for robustness across several process models, two of which include proposed worst-case process conditions. The performance of the proposed hand tuned FLC is compared to that of a similarly tuned proportional-integral-derivative controller. The FLC is implemented as a lookup table for speed and ease of deployment. The disturbances present in the experimental step testing data are characterized and used as the basis for disturbing the control loop during controller performance testing. A low-pass filter is then included to subsequently smooth the feedback signal. The nonlinear relationship between the FCV stem position and output flow is modelled and included in the controller performance testing. A genetic algorithm (GA) is developed that manipulates the membership functions of the FLC to yield an optimal controller for the ensemble of process models. The ability of the GA to converge on an optimal FLC is verified through repeated trials. The performance of the GA optimized FLC is observed under realistic process conditions and is benchmarked against a manually optimized PID controller.

Elektromechaninės greičio stabilizavimo sistemos su keičiamos struktūros reguliatoriumi tyrimas / Investigation of Electromechanical Speed Stabilization System with Variable Structure Controller

Malinauskas, Giedrius

04 August 2011

Šiuo metu daugumoje automatinio valdymo sistemų struktūrų yra įtaisų kurie pagerina šių sistemų kokybines charakteristikas. Šie įtaisai yra vadinami reguliatoriais. Reguliatoriai formuoja objekto valdymo dėsnį, todėl panaudojant reguliatorius galima originalios sistemos valdymo kokybinius parametrus nustatytu tikslumu priartinti prie norimos sistemos charakteristikų. Šio darbo tikslas ištirti elektromechaninės greičio stabilizavimo sistemos dinamikos kokybės pagerinimo metodą pagrįstą keičiamos struktūros greičio reguliatoriumi. Šiame darbe buvo sudarytas elektromechaninės greičio stabilizavimo sistemos su keičiamos struktūros reguliatoriumi imitacinis modelis MATLAB/SIMULINK programa. Pagal tiesioginį kokybės rodiklį – reguliavimo trukmę, buvo nustatyta geriausioji greičio reguliatoriaus valdymo dėsnio perjungimo momento priklausomybė nuo greičio nustatymo signalo bei statinės apkrovos, tuo užtikrinant geriausią elektromechaninės greičio stabilizavimo sistemos dinamikos kokybę. Tiriamos sistemos statinės apkrovos nustatymui pereinamajame režime pritaikytas Luenbergerio stebiklis. Gauti rezultatai yra universalūs ir buvo sėkmingai pritaikyti nuolatinės srovės elektros pavarai, panaudojant programuojamą duomenų lentelę Lookup Table, imituojant automatinį reguliatoriaus valdymo dėsnio keitimą iš proporcinio (P) į proporcinį integruojantį (PI). / Currently in the majority of automatic control systems are the devices that improve the qualitative characteristics of these systems. These devices – controllers. Controllers form the object's control law, so using controllers is possible quality parameters of the original control system to place closer to the desired characteristics of the system. The aim of this work is the investigation of the dynamical quality improvement method of the electromechanical velocity stabilization system based on the variable structure velocity controller. The MATLAB/SIMULINK model of the electromechanical speed stabilization system with variable structure controller has been created. According to the quality indicator – settling time, it has been determined the control law switching parameter dependence on the static load and the command input ensuring the best dynamical quality of the electromechanical speed stabilization system. The Luenberger observer has been applied for the static load estimation during the transient regime of the electromechanical speed stabilization system. The obtained results are universal and have been successfully applied for the DC electric drive model simulaiting the automatic control law change from the proportional (P) to the proportional integral (PI) using Lookup Table.

Electronics and Electrical Engineering

Automatinins

Reguliatorius

Stabilizavimas

Statinės

Automatic

Controller

Stabilization

Static

Advanced control of the twin screw extruder

Iqbal, Mohammad Hasan

Unknown Date

No description available.

Twin screw extruder

Grey box model

Model predictive controller

Process Identification

Plant-wide Performance Monitoring and Controller Prioritization

Pareek, Samidh

Unknown Date

No description available.

Plant-wide performance monitoring

Controller Prioritization

Support Vector Machines

Tennessee Eastman Process

Recursive Feature Elimination

Analysis of Nanoscale Heat Transport Using Non-Equilibrium Molecular Dynamics Simulation

Teo, Choon Ngan

Unknown Date

No description available.

molecular dynamics

one dimension heat flow

non-equilibrium

nanoscale

conditioned statistics

skewness

kurtosis

kurtosis controller

kurtostat