A Design Algorithm for Arbitrary Phase and Amplitude Surface Acoustic Wave Filters

Suthers, Mark S.

January 1978

<p>The subject of this study is the development of a computer-aided-design tool that filter designers could use to obtain nonlinear phase and nonsymmetric amplitude responses for surface acoustic wave devices. To accomplish this, a design algorithm was developed that uses a Fast Fourier Transform to realize the time domain transform of the frequency domain specifications required by the designer. From this time domain solution an interdigital transducer (IDT) is synthesized that will approximate the design specifications. The next step in the algorithm is to analyse the synthesized IDT using an accurate charge distribution model for the IDT (the charge distribution model is developed in this thesis which gives the frequency domain response for the IDT). The frequency response is then compared to the input specifications so as to generate an error function. This error function is then used to predistort the input frequency domain specifications and the whole synthesis/analysis procedure is repeated iteratively until an acceptable solution is obtained. The algorithm is programmed and used to design 2 filters (3 separate IDT designs) for the nonlinear phase and nonsymmetric amplitude specifications for television intermediate frequency (TVIF) specifications. Using these designs, two filters were fabricated and tested to show the validity of the algorithm.</p> / Doctor of Philosophy (PhD)

Electrical and Electronics

Electrical and Electronics

Development of a SEM Microlithography System: Application to GHz Surface Acoustic Wave Devices

Seiler, Dieter G.

January 1979

<p>This thesis concerns itself with the design and implementation of an electron beam lithography system. A novel microcomputer-controlled vector-scan pattern generator was constructed and interfaced to a commercially available scanning electron microscope (SEM). A software monitor program was incorporated into the 8-bit microcomputer, which allows pattern data entry in decimal coordinates via a keyboard/display interface, and subsequent storage of the coded data on cassette tape.</p> <p>The usable scan field size for accurate pattern exposure in the Stereoscan Mark II A SEM has been determined to be 1mm x 1mm. The electron beam lithography system was used to scan a 1 GHz surface acoustic wave (SAW) delay line pattern, which featured a total of 480 fingers, each 7,680 Å in width. Polymethylmethacrylate (PMMA) electron-sensitive resist was used for the pattern exposures, and a linear charge density of 1 x 10ˉ⁸ C/cm was used. The lift-off fabrication process was used to obtain the final device circuit features. The resulting delay line exhibited an untuned insertion loss of 24.3 dB, and was subsequently incorporated into the feedback loop of an amplifier with excess gain to form a SAW oscillator.</p> <p>Several other circuit patterns were scanned, including a 2 GHz SAW delay line with 3000 Å linewidths, and sub-micron bubble memory T-I bar circuits. Details of all the scanning parameters are given, along with the pattern exposure results.</p> / Doctor of Philosophy (PhD)

Electrical and Electronics

Electrical and Electronics

Electromyographic and Position Controlled Functional Electrical Stimulation of the Musculature about the Human Ankle Joint

Naumann, Stephen

11 1900

<p>In the last two decades, functional electrical stimulation (FES) has been investigated as a means for replacing lost function of limbs resulting from paralysis. Improvement in the gait of hemiplegic patients when gradually varying stimulation sequences were employed to control footdrop during the swing-phase of gait, led to the work presented in this thesis.</p> <p>The material described below is original to the field of FES.</p> <p>Two potential controllers of stimulus intensity and hence ankle joint position on the affected side have been explored. These are: the electromyographic (EMG) activity of the corresponding dorsiflexor and plantarflexor muscles on the contralateral side; and ankle-joint angle variations obtained from the contralateral side. The variance ratio, a statistical descriptor for repeatability, has been invoked to quantify the efficacy of EMG and joint position control. Practical time-constants of averaging have been determined for the processing of control and evoked EMG signals to be used in an FES-based orthosis incorporating feedback. Experiments have indicated that EMG, when used to modulate stimulus strength to effect control of ankle-joint position, is as efficacious as joint-angle-variation control. These experiments revealed that joint-position information is contained in the EMG records obtained from the prime movers during specific movements of the ankle joint.</p> <p>This thesis describes an initial attempt to control the affected ankle-joint position of hemiplegics during locomotion. Corresponding signals available from the contralateral side were used to modulate stimulus intensity on the affected side. A computer-controlled interactive program has been used to impose a delay proportional to the period of stepping between recording of the control signals and activation of the stimulators. Preliminary results obtained from a normal and a hemiplegic subject are presented, and their relevance to future thrusts in the field of FES are discussed.</p> / Doctor of Philosophy (PhD)

Electrical and Electronics

Electrical and Electronics

Analysis of Non-Linear Non-Stationary Oscillations

Beshai, Elbahgouri Maged

05 1900

<p>The behaviour of certain non-linear oscillatory systems are studied analytically. These systems are of the "separable" type i.e. they can be modelled using linear frequency-dependent networks, frequency independent non-linear resistive networks, and non-linear reactive networks.</p> <p>When the time-lags in an oscillatory system are negligibly small, the system may be described by a non-linear differential equation. If the time-lags cannot be ignored, the system may be described by a non-linear difference-differential equation.</p> <p>The exact analytical solutions of non-linear differential or difference-differential equations are not known, except in rare cases. However, with appropriate restrictions, analytical approximations may be found.</p> <p>In this work, analytical approximations are developed for treating second-order, forced or unforced weakly non-linear oscillatory systems, as well as a restricted class of unforced highly non-linear systems. These systems may be of the degenerative or regenerative type. Also, the case when time-lags exist in the system, has been studied analytically.</p> <p>The analytical results are verified either experimentally or by numerical simulation.</p> / Doctor of Philosophy (PhD)

Electrical and Electronics

Electrical and Electronics

Analysis and Modelling of the Electrical Control Activity in Human Colon

Bardakjian, Luther Berj

09 1900

<p>The electrical control activity in human colon was analyzed using an interactive processor, which was developed and implemented on a NOVA 830 minicomputer, for the analysis of a biological rhythm. The characteristics of the human colonic electrical control activity varied in time and space. The colonic control waves were continuously present with waxing and waning of their amplitudes and they were not continuously phase-locked in either the longitudinal or the circumferential directions. Furthermore, multiple fundamental frequencies along with harmonic frequencies were present whereby the intensity, of a harmonic frequency could be larger than that of a fundamental frequency.</p> <p>An interactive processor for modelling of a biological rhythm by a population of coupled relaxation oscillators was developed and implemented on a NOVA minicomputer, whereby each oscillator could be selectively stimulated.</p> <p>A tubular structure of bidirectionally coupled rings of bidirectionally coupled synthesized relaxation oscillators was used to model the human colonic electrical activity. The computer model qualitatively reproduced the observed characteristics of human colonic electrical control activity. A mathematical investigation of a population of coupled synthesized relaxation oscillators elucidated the nature of waxing and waning of the amplitudes of control waves. Furthermore, it provided the conditions of synchronization of the population which led to the derivation of conditions of entrainment of a synthesized relaxation oscillator by different external stimuli.</p> / Doctor of Philosophy (PhD)

Electrical and Electronics

Electrical and Electronics

Nonlinear Spectral Analysis of Radar Clutter

Kesler, Stanislav B.

12 1900

<p>This thesis is concerned primarily with the spectral analysis of clutter in an air traffic control (ATC) radar environment, which is produced by such objects as weather disturbances and migrating flocks of birds. The aim is to provide a means for the on-line classification of the different forms of clutter in such an environment. With the clutter identified and displayed for the operator, aircraft can be vectored in a way to avoid hazardous areas. This separation and identification of radar echoes may also be useful in studies relating to meteorology and ornithology.</p> <p>Since the mechanisms which give rise to weather clutter and bird echoes are different, it is reasonable to expect that they have different statistical parameters. One of these parameters, spectral spread, provides a convenient measure for comparison. To perform the separation of clutter based on spectral spread, a high resolution method is necessary. In this thesis, the maximum entropy method (MEM) is applied to clutter classification. It is shown that the resolution and stability properties of the MEM are well-suited for the separation of different types of clutter; particularly weather from birds. The analysis is performed on both computer-simulated and actual clutter signals. In each case, the results are compared with those obtained by applying the Welch method of averaged modified periodograms. This comparison has revealed that the Welch method does not have the necessary resolution for the classification of clutter.</p> / Doctor of Philosophy (PhD)

Electrical and Electronics

Electrical and Electronics

A Unified Theory of Model Reduction for Linear Time Invariant Dynamical Systems

Hickin, David John

03 1900

<p>The approximation of linear, time-invariant, dynamical systems by similar systems having fewer state variables is investigated. A class of reduced-order approximants called nonminimal partial realizations is introduced which includes many published methods as special cases, and thus represents a unification of the theory of model reduction. Since the concept of linear state variable feedback is central to many of the design procedures of modern control theory, the behaviour of the approximated system to such feedback laws derived from analysis of the approximating system is studied. The specific results derived give a credibility heretofore nonexistant to the class of reduced models called minimal partial realizations by virtue of the fact that they form a subclass of the nonminimal partial realizations. The use of canonical form state equations is advocated as a means of simplifying the computational procedure for an important class of reduced models termed aggregated partial realizations. Such realizations are shown to be useful for designing suboptimal linear quadratic servomechanism compensators, since guaranteed stability of the large-scale system is possible.</p> / Doctor of Philosophy (PhD)

Electrical and Electronics

Electrical and Electronics

Quantitative Electromyographic and Goniometric Analyses of Normal and Pathological Human Gaits

Hershler, Cecil

11 1900

<p>This thesis is directed generally towards a deeper understanding of normal and pathological biped locomotion. Attention has been focussed mainly on electromyographic (EMG) and kinematic aspects of gait. Emphasizing consistency and repeatability of acquired data, the characteristics of surface EMG signals from m. vastus lateralis and m. rectus femoris during several steps of level walking under controlled repeatable gait conditions at three different speeds for several normal subjects have been studied. The variance ratio, a statistical descriptor for repeatability, has been devised. The findings indicate that the variance ratio offers a simple means for selecting an optimal processor for rectifying and averaging the signals. It is of value also in determining an optimal location for surface electrodes on a muscle.</p> <p>Included in the thesis is original research relating to kinematic information presented in the form of knee-angle/hip-angle diagrams. Cyclic loops which had been utilized in the past mainly for their visual representation have been quantified using a shape recognition technique. Quantitative analyses of angle-angle diagrams associated with 5 normal subjects, an above-knee (A/K) amputee and a cerebral-palsied (C.P.) patient, who had an implanted cerebellar stimulator, were carried out. The quantification and physical interpretations of the parameters extracted from the angle-angle diagrams provided a valuable adjunct to visual assessment of the gaits and elicited significant information regarding overall coordination and control during each gait. Using these methods an in-depth assessment of the efficacy of the cerebellar stimulator implanted in the C.P. patient was accomplished.</p> <p>The thesis also describes an initial attempt, using the methods of time series analysis, at modelling the transfer function between several inputs given by the EMG signals of selected muscle groups and an output which is either the hip or knee angle trajectory. The model was able to suggest which individual muscles were synergistic, whether the inputs chosen were good predictors of the output and the relative contribution of each input in predicting the output.</p> / Doctor of Philosophy (PhD)

Electrical and Electronics

Electrical and Electronics

An Efficient Approach For Dynamic Stability Analysis of Power Systems - Including Load Effects

El-Din, Magdy Zein Hussain

09 1900

<p>This thesis describes an efficient approach for modeling and analysing small signal (dynamic) stability of balanced interconnected power systems. Systems are modeled into the state-space form where a partitioning technique is used to systematically reduce system equations into that form. Consequently, eigenvalue and eigenvalue sensitivity methods are used for dynamic stability prediction.</p> <p>The formulation technique allows the inclusion of nonlinear and dynamic load representation and network and shaft dynamics in addition to detailed generator, turbine-governor and excitation system simulations currently being used by industry. The partitioning approach eliminates the need for storing large blocks of null elements. It also preserves the identity of various sub-systems. Consequently, this approach is particularly economical in studies involving system modification updating.</p> <p>An algorithm is developed to calculate eigenvalue second-order sensitivities with respect to system control and design parameters. The sensitivities are obtained in terms of the eigenvalues and eigenvectors of the base case coefficient matrix. It is shown that the inclusion of the second-order terms in an overall sensitivity package does not add any computational complexity.</p> <p>Eigenvalue first and second-order sensitivities are combined with an inverse iteration technique in an efficient algorithm for tracking possible movement of any sensitive subset of system eigenvalues due to parameter changes. The method is applicable in situations where a relatively small number of eigenvalues are critical in describing system dynamic stability. The efficiency of this algorithm over the repeated eigenvalue method is demonstrated.</p> <p>These concepts and techniques are applied to a number of practical problems currently receiving attention in the power industry. In particular situations involving insufficient damping torque due to interaction between turbine-generator and network dynamics, turbine-generator and stabilization control, and the effect of static excitation and induction motor loads are analysed.</p> <p>The interactions between system composite loads and excitation-stabilization control loops are examined on a reasonably general basis. It is shown that load characteristics have a considerable effect on system stability. It is also shown that there are specific situations where the choice of the load model can make a difference in stability prediction. In particular, at light generation levels the use of a power system stabilizer with a constant power local load leads to a prediction of instability while stability is predicted for a constant impedance load model.</p> / Doctor of Philosophy (PhD)

Electrical and Electronics

Electrical and Electronics

Charge-Coupled Devices and Computers in Optical Remote On-Line Tracking of Human Locomotion

Bruegger, Werner

12 1900

<p>The recording, measurement and study of kinesiological aspects of human locomotion is of great importance to rehabilitation engineers and clinicians. Clinical needs which stimulated the development of the system designed include the design and evaluation of prosthetic and orthotic devices; follow-up of the dynamic performance of patients undergoing therapeutic or surgical treatment such as major joint replacement; biofeedback relating to human movements and facilitated by on-line displays; general use in studying human movements. A list of importance factors for such a system should take cognisance of the following: -The patient or the subject should be influenced as little as possible by the instrumentation set-up. -For comprehensive data collection several body points have to be recorded simultaneously. -Spatial information is required in three dimensions. -Visual real-time (or virtually so) displays of body movements are produced. -Data storage and processing with inexpensive mini- or micro-computers should be possible.</p> <p>This thesis deals with a solution which addresses itself to the aspects outlined above.</p> <p>The work constitutes a significant advance in, and realization of, a 3-dimensional optoelectronic camera system embodying recently available charge-coupled devices of the area-image-sensor variety. The cameras are interfaced to a minicomputer and appropriate software (programmes) have been developed to permit relevant processing and achieve pertinent displays of the kinesiological data acquired. A major concern was to generate results which are of substantial use to clinicians. This "clinical digestibility" feature has been incorporated wherever possible.</p> <p>The essential specifications alluded to above have been met and analyses are incorporated. The thesis embraces detailed information to enable developmental work on further prototype camera systems to be undertaken. In its present form, the system appears to meet the essential needs, and future refinements such as implementing larger sensors and expanding the software routines to produce a wider variety of analyses and display possibilities are indicated. Recordings allied with a variety of locomotion disorders have been made. These include hemiplegic gait.</p> / Doctor of Philosophy (PhD)

Electrical and Electronics

Electrical and Electronics