Sequare Daniel-Berhe, (Ph.D.)

Assistant Professor

(Postdoctoral, Ph.D., M.Sc. & B.Sc. in Electrical & Computer Engineering and Information Sciences field of studies)



Postdoctoral, Ph.D.,
M.Sc. and B.Sc.
in Electrical & Computer Engineering and Information Sciences field of studies


  RESUME


    I. Personal Information
    II. Areas of Expertise & Status
    III. Career Objective, Teaching & Research
   Interests & Activities
    IV. Earned Degrees - Education
    V. Employment: Academic and Practical
   Industrial Experiences
    VI. Scholarly Accomplishments: Publications
   VII. Scholarly Accomplishments: Presentations
   VIII. Other Scholarly Accomplishments
    IX. Professional Affiliations
    X. Academic Recognition, Honors and Awards
    XI. Professional Services/Contributions
    XII. Major Courses
    XIII. Computer Languages
    XIV. Religion
    XV. Sport & Hobbies
    XVI. Extracurricular Activities


  16th edition of Marquis WHO’S WHO IN THE WORLD 1999 + CERTIFICATE

  News: From UCLA

 

  I. Personal Information

 II. Areas of Expertise & Status

 A. Areas of Expertise:

      Over fifteen years related work experience as
o Assistant Professor, Adjunct Faculty, Lecturer, Associate Research Engineer, Instructor, Researcher & Projects Supervisor

o Technical Advisor & Technical Projects Coordinator, Consultant, Design/Office Engineer, Electrical & Computer Engineer

o Grant Writer & Organizer of High-level Research Oriented Technical Proposals, etc.

  B. Status:

   o January 2007 - Present: Assistant Professor-Adjunct Faculty in Electrical & Computer Engineering, at California State University Northridge
   o February 2006 - Present: Assistant Professor-Adjunct Faculty in Electrical & Computer Engineering , at California State University Los Angeles
   o October 2004 - Present: Assistant Professor-Adjunct Faculty in Electronics and Computer Technology (ECT), Electrical Engineering Technology (EET), Computer Engineering Technology (CET), & Computer Information Systems (CIS), as well as in Network and Communications Management (NCM) at DeVry University Long Beach
   o February 2005 - Present: Assistant Professor-Adjunct Faculty in Engineering, Physics & Astronomy, in Computer Technology (CT) & Electronics (EET), as well as in Computer Science Information Technology (CSIT) at Los Angeles City College    and at East Los Angeles College   (LACCD)
   o February 2006 - Present: Assistant Professor-Adjunct Faculty in Engineering & Math Department, and Computer & Business Information Systems (CBIS) Department at Long Beach City College
   o February 2007 - Present: Assistant Professor-Adjunct Faculty in Computer Science Department at Golden West College, Huntington Beach
   o February 2005 - Present: Assistant Professor-Adjunct Faculty in Computer Information Systems (CIS) at Riverside Community College
   o 01/17/2000 - 12/31/2002: Associate Research Engineer in Mechanical and Aerospace Engineering Department, School of Engineering & Applied Science, University of California, Los Angeles (UCLA)    and Technologist for JFACC/DARPA
   o Since April 2002 (Part-time): Consultant, Advisor, Grant Writer, Technical Projects Coordinator, Website Designer and Webmaster at Community Based Educational Centers in Los Angeles
   o 10/01/94 - 01/16/2000: Scientific co-worker, Researcher and Instructor as well as Graduate Thesis Research Projects Supervisor in Control Engineering Department, Faculty of Electrical Engineering and Information Sciences, Ruhr-University Bochum, Bochum, Germany.
   o 06/01/92 - 03/31/94: Lecturer II, Research Assistant, Undergraduate Thesis Research Projects Supervisor and Assistant Course Coordinator in Electrical and Computer Engineering Department,    Faculty of Technology,    at   Addis Ababa University, Addis Ababa, Ethiopia.
   o 09/01/89 - 05/31/92: Lecturer I and Research Assistant in Electrical and Computer Engineering Department,    Faculty of Technology,   at   Addis Ababa University, Addis Ababa, Ethiopia. etc.
   o 07/01/91 - 03/30/94: Computer Application Software Lecturer at City Business Center, Addis Ababa, Ethiopia (Various Application Software & Programming Languages Lecturer, Part Time Work)

  III. Career Objective, Teaching & Research Interests & Activities

{A challenging position requiring creativity and knowledge of Electrical and Computer Engineering, as well as Computer and Information Sciences, specifically, in the field of Control Systems, Signal Processing, Communication, Optimization, Electronics, Microprocessors, Robotics, Electrical Machines, Power Systems, Sensors & Instrumentation, Nonlinear Systems Modelling and Identification, Adaptive and Optimal Control Systems, Computer/Information Sciences, Programming (Java, C++, VB.Net, SolidWorks, 3D-CAD, AutoCAD, Html, etc), as well as teaching any General Engineering, any Electrical/Electromechanical, any Computer and Information Science courses including A+ & Net+ Certifications, Networking, etc.}

   o Hierarchical Modeling, Optimization and Control of Large-scale and Complex Systems
   o Hierarchical Multiobjective Analysis of Large-scale and Complex Systems
   o Advances in Enterprise Modeling and Control
   o Linear/Nonlinear Systems Modeling, Optimization and Control
   o Methods for Modeling and Identification of Nonlinear Dynamical Systems (Nonparametric, Parametric and Semiparametric Nonlinear Models)
   o Approaches to Nonlinear Continuous-time Systems Identification
   o Detection and Estimation of Jumps in Nonlinear Continuous-time Systems
   o Gradual or Smoothly Time-varying and Abruptly Changing Parameter Identification of Nonlinear Continuous-time Processes
   o Bilinear, Hammerstein, Integrable and Convolvable Nonlinear Continuous-time Systems Identification
   o System Identification by an Adaptive Direct Form FIR Filters
   o Real-time On-line Identification of a Nonlinear Continuous-time Plant Using the Hartley Modulating Functions Method
   o Batch Scheme Recursive Physical Parameter Identification of Nonlinear Continuous-time Systems Using the Hartley Modulating Functions Method
     o Physical Parameter Estimation of the Nonlinear Continuous-time Dynamics of a DC Motor
      o Physical Parameter Estimation of the Nonlinear Continuous-time Dynamics of a Single Link Robotic Manipulator with Flexible Joint
   o Real-time Implementations using one Shoot, Batch Scheme Nonrecursive and Recursive LS Estimation Algorithms, e.g.:
     o Experimental Physical Parameters Estimation of the Nonlinear Continuous-time Dynamics of a Thyristor Driven DC Motor Using One Shoot FWLS Estimation Algorithm and CADACS Software
     o Off-line Experimental Physical Parameters Estimation of the Nonlinear Continuous-time Dynamics of a Thyristor Driven DC Motor
          o Using CADACS Software and Batch Scheme Nonrecursive FWLS Estimation Algorithm
          o Using Interactive Real-time Toolbox and Batch Scheme Nonrecursive FWLS Estimation Algorithm
     o Real-time On-line Experimental Physical Parameters Estimation of the Nonlinear Continuous-time Dynamics of a Thyristor Driven DC Motor Using Batch Scheme Recursive LS Estimation Algorithm and Interactive Real-time Toolbox
   o Application of Linear/Nonlinear System Modeling & Identification to Modern Finance, etc.
   o Advanced Unmanned Air & Ground Combat Vehicles and Operations, etc.

 RESEARCH ACTIVITIES

[Control Systems, Signal Processing, Optimization, Nonlinear Systems Modeling & Identification, Communications, etc.]

  A.1. Hierarchical Modeling, Optimization and Control of Large-scale and Complex Systems

   o Large-scale and Complex Enterprise Modelling and Control
   o Hierarchical Planning
   o Coordination of Hierarchical Structures
   o Decision Making Processes
   o Hierarchical Multiobjective Analysis of Large-scale and Complex Systems

  A.2. Linear/Nonlinear Systems Modeling, Optimization and Control

   o Optimal Strategies Planning
   o Optimal Resources Allocation
   o Dynamic Optimization
   o Linear Programming (CPLEX)
   o Mathematical Programming
   o Model Evaluation
   o Linear/Nonlinear System Identification

  A.3. Applications:

             o Advances in Enterprise Modeling and Control
             o Hi-Tech Battlefield Modeling & Optimization
             o Automated Battle Management
             o Planning of Complex Military Strategies Problems
             o Modern Warfare Operational Games
             o Mathematical Research on Combat Modeling
             o Optimal Operation of Small & Large-scale & Complex Industrial Processes
             o Reduction of Large-scale and Complex Systems Models
             o Optimal Resource Allocation Problems
             o Operational Research Problems
             o Management Problems, etc.

  A.4. Methods for modelling and identification of nonlinear systems

This work investigates the major structure of nonlinear models that may be categorized into three main classes based on their distinct approaches to the identification of nonlinear systems application. The first class of models is based on functional series expansions or kernel regression estimate techniques which belong to the class of nonlinear nonparametric models. The second class is called nonlinear parametric models which include discrete-/continuous-time parameter estimation methods applied to difference/differential equation models, differential operator nonlinear models using modulation functions, special/block oriented models and state space models. The third one is classified as nonlinear semiparametric models which covers the recently emerging class of models based on artificial neural networks and linguistic label fuzzy models. In this work, an attempt has been made to present a thorough overview of the nonlinear models, to take a historical look and to provide insight into the advancement, the methodologies, technical difficulties, current status, etc.

Fig. 1 Major structure of nonlinear system identification models.

  A.5. Approaches to nonlinear continuous-time systems identification

This project considers approaches to nonlinear continuous-time systems identification. It is well known that most of the real dynamic systems are continuous in time and can be represented by a set of differential equations in which the parameters are physically motivated. In recent years techniques for identification of nonlinear continuous-time systems have attracted much attention. Among the existing approaches, identification of continuous-time systems using Poisson moment functionals (PMF), generalized PMF; Markov parameter estimation; time moments; delayed state variable filters; block pulse functions (BPF), generalized BPF; Walsh functions; orthogonal polynomials (OP), generalized OP, general hybrid orthogonal functions; Laguerre polynomials; Legendre polynomials; Chebyshev polynomials; Taylor series; modulating function method; Fourier-, trigonometric-, Hermite-, spline-type- and Hartley modulating functions methods have become known in literature. This work aims to survey a brief literature in the area and analyze in general.


  A.6. Physical parameter identification of nonlinear continuous-time systems using Hartley modulating functions (HMF) Method

   o Detection and Estimation of Jumps in Nonlinear Continuous-time Systems
   o Gradual or Smoothly Time-varying and Abruptly Changing Parameter Identification of Nonlinear Continuous-time Processes
   o Real-time On-line Identification of a Nonlinear Continuous-time Plant Using the Hartley Modulating Functions Method
   o Batch Scheme Recursive Physical Parameter Identification of Nonlinear Continuous-time Systems Using the Hartley Modulating Functions Method

Fig. 2 Real-time experimental setup of the nonlinear thyristor driven dc-motor and load plant.

Fig. 3 Nonlinear Dynamics of a Single Link Robotic Manipulator with Flexible Joint.

Fig. 4 Nonlinear Continuous-time Dynamics of a DC Motor and load.

Other investigated type of systems:

   o Different types of linear & bilinear continuous-time systems,

   o Hammerstein nonlinear cont.-time systems,

   o Integrable nonlinear cont.-time systems,

   o Convolvable nonlinear cont.-time systems &

   o General differential operator nonlinear cont.-time systems.


Abstract: This research is concerned with the new development of a general framework of methods for modeling and identification of physically-based nonlinear parametric continuous-time dynamical systems. This new framework uses Hartley modulating functions (HMF) (1995). The HMF-method assumes the a priori knowledge of the nonlinear differential equation of a physical system, the parameters of which are unknown, and uses sampled input and noise contaminated output data records for the estimation of the physically-based system parameters. The HMF-method is re-examined, further developed and applied to physically-based continuous-time dynamics. Furthermore, a new batch scheme approach (1998) for nonlinear continuous-time systems identification is developed. Please refer to the listed publications below. The developed new identification method has been thoroughly tested to physically-based nonlinear continuous-time practicable dynamical systems, e.g., in a nonlinear dynamics of a dc-motor with load, a single link robotic manipulator with flexible joint, etc., and attempts have also been made to apply in practice, e.g., in a nonlinear thyristor driven dc-motor experimental set-up. The method has used a suited weighted LS-algorithm and shown promising results for the identification of linear, bilinear, Hammerstein and integrable as well as convolvable nonlinear continuous-time systems in the presence of noticeable measurement noises. More recently, a new batch scheme nonrecursive HMF identification method is proposed and applied to the detection and estimation of gradual or smoothly time-varying and abruptly changing parameters of nonlinear dynamic systems arising in various fields such as in nonlinear chemical processes, fault detection and diagnosis of nonlinear processes, etc. Furthermore, two new batch schemes recursive HMF algorithms are developed for nonlinear continuous-time system identification based on stair-case and trapezoidal approximations for the Hartley transform numerical integration. The algorithms are implemented by moving a fixed window size of time series data forward at each sampling instance and update recursively the sequential Hartley transforms and spectra to estimate parameters of the nonlinear model. The HMF-Method is a recently developed identification approach. As it is verified in the listed publications below, the method has shown promising results for the identification of nonlinear systems. In general, these studies at this time are preliminary and there are many issues yet to be addressed, and it leads to further work towards investigating the methodology into various improvements as well as applications.

  A.7. System Identification by an Adaptive Direct Form FIR Filters

   o (i) Using Widrow-Hoff least mean squares adaptation algorithm (gradient-descent method)
   o (ii) Using conventional recursive least squares adaptation algorithm (applying rank-one modification of covariance matrices, a priori and a posteriori Kalman gain, likelihood variables, etc.)
   o (iii) Using fast recursive least squares adaptation algorithm (based on the ideas mentioned in (ii) above and forward/backward prediction, fast Kalman as well as shift-invariance property)
   o Application of these three approaches to obtain the irreducible or minimal state variable realization of the identified dynamic system by formulating a suitable Hankel matrix with Markov parameter elements and applying a row searching algorithm.

  A.8. Other Research Interests

  o  Application of Linear/Nonlinear System Modeling & Identification to MicroElectroMechanical Systems (MEMS)
  o  Application of Linear/Nonlinear System Modeling & Identification to Modern Finance (Part time basis)

           o Research on Modern Investment Science/Methods to Business Issues
            o Background: System Modeling & Identification Issues Associated with Option Pricing Theory, Portfolio Design, Technical Trading, Model Evaluation, etc.

  o  Advanced Unmanned Air & Ground Combat Vehicles and Operations, etc.

 IV. Earned Degrees - Education:  Postdoctoral, Ph.D., M.Sc. & B.Sc.

{Total Semester Units of Credits Studied: 179 B.Sc. + 36 M.Sc. + 60 Ph.D. = 275 Total Semester Units of Credits.}

  01/17/2000 - 12/31/2002     Postdoctoral as an Associate Research Engineer in Mechanical and Aerospace Engineering Department, by Prof. Jeff S. Shamma & Prof. Jason Speyer, School of Engineering & Applied Science, University of California, Los Angeles (UCLA).

      Research§:o Advances in Enterprise Modeling and Control
                       o Hierarchical Modeling, Optimization and Control of Large-scale Systems
                       o Linear/Nonlinear Systems Modeling, Optimization and Control, etc.
        o The application of modern control and optimization theories to improve battle planning and execution requires models that allow battle commanders to reliably predict actual battle outcomes of various alternatives ahead of time at a certain level of abstraction. This research work developed new battlefield modeling which characterize the battle dynamics and proposed linear programming based battle planning.
        o §Developed new Linear Programming Based Automated Battle Management for a Large-scale System Using Hierarchical Optimization, etc.
         o Modern enterprise is a large-scale system with broadly distributed and potentially conflicting goals, resources and constraints, with multiple semi-autonomous participants of both human and artificial nature. Thus, to solve problem of large-scale and complex system one can structure the model hierarchically by partitioning into number of interconnected subsystems for either computational or practical reasons. This research work outlines and formulates constructive hierarchical structures for automated battle management of a large-scale system based on linear programming planning.
    Some of the symposiums that are related to my contributions are as follows:
    o (1) Technical Interchange Meeting of JFACC/DARPA Program (Joint Force Air Component Commander/Defense Advanced Research Projects Agency),
    Landscape Working Group: "Exploring the Technological Operational Envelope through T3/EM Experiments," February 8, 2000, Ft. Walton Beach, FL.
    o(2) JFACC/DARPA Project Technical Interchange Meeting,
                  (i) Overview of Distributed Agile Control in Hostile Environments, and
                  (ii) Software Enabled Battlefield Management,
    May 2000, Washington, DC.

    It is a project to develop simulation environment for battlefield management and control, etc.

    o(3) JFACC/DARPA Project: "Advances in Enterprise Control (AEC) Symposium and Technology Display,"
    Agile and Stable Command and Control of Military Operations
                  (i) Modeling Environment for Battlefield Management, and
                  (ii) SEAD Simulation Environment,
    July 10-14, 2000, Minneapolis, MN.
    o(4) JFACC/DARPA Project Technical Interchange Meeting,
    Distributed Agile Control in Hostile Environments,
                  Optimization Based Battle Management
                                (i) Large-scale programming, and
                                (ii) Top Down Hierarchical,
    Oct. 31 - Nov. 2, 2000, Pittsburgh, PA.
    o(5) JFACC/DARPA Project Technical Interchange Meeting and Science Fair (Industrial Poster & Demo Session),
    Distributed Agile Control in Hostile Environments,
                  (i) Large Scale Programming, and
                  (ii) Hierarchical Optimization,
    Feb. 5-8, 2001, San Diego, CA.

    For general information about the project layout please refer to one of my public article, i.e.,

 10/94 - 6/99     Ph.D. (with Honor, 4.00 GPA) in Electrical Engineering and Information Sciences, supervised by Prof. Dr.-Ing. H. Unbehauen, Control Engineering Department, Faculty of Electrical Engineering and Information Sciences, Ruhr-University Bochum, Bochum, Germany.   (4 ½ years program with Dissertation, 60 Semester Units of Credits)

    Dissertation§: "Parameter Identification of Nonlinear Continuous-time Systems Using the Hartley Modulating Functions Method."
    o §A new approach for linear, bilinear, Hammerstein, integrable and convolvable nonlinear continuous-time systems identification is developed. Please refer to the listed publications below.
    o The developed new identification method has been thoroughly tested [WAC’96, IEE-CONTROL’96, SIMONET’97], and attempts have also been made to apply in practice, e.g., in a nonlinear thyristor driven dc-motor experimental set-up [IFAC-SYSID’97, Journal of IFAC-Control Engineering Practice’98].
    o In addition, the method has been applied to physically-based nonlinear continuous-time practicable dynamical systems, e.g., nonlinear dynamics of a dc-motor with load [IEEE-CDC’96, Journal of Franklin Inst.’98], a single link robotic manipulator with flexible joint [IEEE-ACC’97].
    o The method has used a suited weighted LS-algorithm and shown promising results for identification of linear [ECC’97], bilinear [Journal of IFAC-Automatica’98, IEEE-CDC’98], Hammerstein [IEEE-CDC’97] and integrable as well as convolvable nonlinear continuous-time systems [Journal of Sys. Sci.’97] in the presence of noticeable measurement noises.
    o Quite recently, a new batch scheme nonrecursive HMF identification method is proposed and applied to the detection and estimation of gradual or smoothly time-varying [IEE-CONTROL’98] and abruptly changing parameters [XIII Int. Conf. on Sys. Sci.’98, Journal of Sys. Sci.’98] of integrable and Hammerstein nonlinear dynamic systems arising in various fields such as in nonlinear chemical processes, fault detection and diagnosis of nonlinear processes, etc.
    o Detection and estimation of jumps in a class of convolvable nonlinear systems are also investigated [IEEE-CCA’98].
    o Furthermore, a new batch scheme recursive HMF identification of nonlinear continuous-time Hammerstein model is under investigation [invited session in ECC’99], [IEEE-ICIT 2000], etc.
    o The thesis work has also made a detailed survey of methods for modeling and identification of nonlinear dynamical systems: Part I Nonparametric, Part II Parametric and Part III Semiparametric nonlinear models [European Journal of Control’98].
    o Particularly, the batch scheme HMF-Method is a recently developed identification approach. As it is verified in the listed publications below, the method has shown promising results for identification of nonlinear continuous-time systems. Thus, there are many issues yet to be addressed, and it leads to further work towards investigating the methodology into various improvements as well as applications.

 9/89 - 12/91     M.Sc., (with Honor, 3.75 GPA) in Electrical Engineering major, supervised by Prof. Dr.-Ing. Ketma Alemu, in Electrical and Computer Engineering Department,    Faculty of Technology,    Addis Ababa University,    Addis Ababa, Ethiopia. (2 ½ years program with thesis, 36 Semester Units of Credits)

    Thesis: "System Identification by an Adaptive Direct Form FIR Filters1 and Cross-correlation Techniques2", Dec. 21, 1991.
    o1 The first part of the thesis work developed three new identification methods:
       o (i) Identification using Widrow-Hoff least mean squares adaptation algorithm - (gradient-descent method).
       o (ii) Identification using conventional recursive least squares adaptation algorithm - applying rank-one modification of covariance matrices, a priori and a posteriori Kalman gain, likelihood variables, etc.
       o (iii) Identification using fast recursive least squares adaptation algorithm - based on the ideas of method (ii) and forward/backward prediction, fast Kalman as well as shift-invariance property.
          o The proposed methods have been applied to different systems and shown their performance.
          o The three approaches designed not only to identify the unknown system parameters but also to obtain the irreducible or minimal state variable realization of the identified dynamic system by formulating a suitable Hankel matrix with Markov parameter elements and applying a row searching algorithm.
    o2 The second part of the thesis work concerned with system identification by cross-correlation techniques using simulation studies and experimental set-ups. It also included computational techniques to obtain a transfer function or equivalent mathematical description for the dynamic characteristics.

 9/80 - 11/85    B.Sc., in Electrical Engineering major, supervised by Prof. Dr.-Ing. Hans Döring and Prof. Dr. G. Gebre Amanuel, in Electrical and Computer Engineering Department,    Faculty of Technology,    Addis Ababa University,   Addis Ababa, Ethiopia. (5 years program with thesis, 179 Semester Units of Credits)

    Thesis$: "Amharic Character Generator: Microprocessor-based Software and Hardware Design", Nov. 8, 1985.
       o Amharic characters and their keyboard layout design and implementation.
       o Microprocessor based hardware and software designs and debugging.
       o Experimental set-up of character generator with visual display system.

 CERTIFICATIONS:     Online Teaching: I-Optimize/Tech-Plus, WebCT, Etudes, Hybrid, Open-Campus, Course Compass, etc. Certified Microsoft Office Specialist, CertiPort Certificate, etc.


 V. Employment: Academic and Practical Experiences

 A. Teaching Experience: Graduate & Undergraduate Courses Taught, Instructed & Supervised

 January 2007 - Present:    Assistant Professor-Adjunct Faculty in Electrical & Computer Engineering, at California State University Northridge

             * ECE 240 Electrical Engineering Fundamentals
             * ECE 240L Electrical Engineering Fundamentals Laboratory
             * ECE 340 Electronics I
             * ECE 340L Electronics I Laboratory
             * ECE 440L Electronics II
             * ECE 442 Digital Electronics
             * ECE 442L Digital Electronics Laboratory
             * ECE 443L Pulse & Waveshaping Circuit Design

 February 2006 - Present:    Assistant Professor-Adjunct Faculty in Electrical & Computer Engineering , at California State University Los Angeles

             * EE 211 Electric Circuits Laboratory
             * EE 330 Writing for Electrical Engineers
             * EE 334 Probability & Random Processes
             * EE 360 Control Systems Theory
             * EE 336 Electronics
             * EE 371 Analog Electronics
             * EE 304 Electric Machines
             * EE 448 Digital Design Lab
             * EE 439 Digital Integrated Circuits
             * EE 436 Analog Integrated Circuits

 October 2004 - Present:    Assistant Professor-Adjunct Faculty in Electronics and Computer Technology (ECT), Electrical Engineering Technology (EET), Computer Engineering Technology (CET) & CIS at DeVry University Long Beach

       o  Courses taught in Electronics and Computer Technology (ECT), in Electrical Engineering Technology (EET), in Computer Engineering Technology (CET) & in Computer Information Systems (CIS) at DeVry University Long Beach:
             * EET 495 Sensors Based Instrumentation Systems
             * ECT 162 Introduction to Microprocessor System
            * EET 470 Advanced Communication Systems
            * ECT 210 Electronics II
            * ECT 120 Electronics I
            * EET 112 Digital Electronics Fundamentals
            * ECT 295 Senior Applied Projects Laboratory (Various Projects)
            * ECT 250 Technology Integration
            * ECT 261 Communications Systems (For all courses - Lectures with Labs)

 February 2005 - Present:    Assistant Professor-Adjunct Faculty in Engineering, Physics & Astronomy, in Computer Technology (CT), in Electronics (EET), & Computer Science Information Technology (CSIT) at Los Angeles City College
       o  Courses taught in Engineering, in Computer Technology (CT), in Electronics (EET), & in Computer Science Information Technology (CSIT) at Los Angeles City College
             * CT 15 Network+ Certification Preparation
             * CT 14 A+ Certification Preparation
             * EET 8 Electronics
             * ENG GEN 101 Introduction to Science, Engineering & Technology
             * ENG 212 General Engineering CADD for Engineers II (SolidWorks for beginners class)
             * ENG 212 General Engineering CADD for Engineers II (SolidWorks for advanced class)
             * EE 220 Electric Circuits(For all courses - Lectures with Labs)

 February 2005 - Present:    Assistant Professor-Adjunct Faculty in Computer Science and Computer Science Information Technology at (CSIT) East Los Angeles College   in LACCD

       o  Courses taught in Computer Science (CS) & in Computer Science Information Technology (CSIT) at East Los Angeles College
             * CSIT 201 Introduction to Computer Information Systems & Their Uses
             * CSIT 291 Programming Lab
             * CS 290 Programming in Java
             * CS 243 Programming in C++
             * CS 238 Advanced Basic Programming (VB.Net)
             * CS 246 Advanced Programming with Java
             * CS 239 Beginning Programming in C (All courses are lectures with Labs)

 February 2007 - Present:    Assistant Professor-Adjunct Faculty in Computer Science (CS) at Golden West College (GWC), Huntington Beach

             * COMPSC 153AD Java Programming with Lab
             * COMPSC 175AD Introduction to Programming C++ with Lab

 February 2005 - Present:    Assistant Professor-Adjunct Faculty in Computer Information Systems (CIS) at Riverside Community College

       o  Courses taught in Computer Technology (CT), Electronics (EET), & Computer Science Information Technology (CSIT) at Riverside Community College
            * CIS 1A Introduction to Computer Information Systems
            * CIS 5 Programming Logic using C++
            * CIS/CAT 93A Introduction to Windows
            * CIS 96/CIS 97 Computer Information Systems Practice (For all courses Lectures with Labs)

 February 2006 - Present:    Assistant Professor-Adjunct Faculty in Engineering & Math Department, and in Computer & Business Information Systems (CBIS) Department at Long Beach City College (LBCC), Long Beach

             * CS 21 Int. to Computer Systems I (Java)
             * CS 11 Computer Programming in C++ I
             * Math 40 Trigonometry
             * Math 45 Algebra
             * Math 47 Business Calculus
             * Math 130 Intermediate Algebra
             * Math 815, Math 805, Math 110, etc.

 01/17/2000 - Present:     Associate Research Engineer in Mechanical and Aerospace Engineering Department, School of Engineering & Applied Science, University of California, Los Angeles (UCLA)and Technologist for JFACC/DARPA.

              o Developed new Linear Programming Based Automated Battle Management for a Large-scale System Using Hierarchical Optimization, etc.
            e.g. o 1) Software Enabled Battlefield Management, and
                   o 2) Distributed Agile Control in Hostile Environments, JFACC/DARPA Project Technical Interchange Meeting, Washington, DC, May 2000.
                   o 3) Modeling Environment for Battlefield Management, and
                   o 4) SEAD Simulation Environment, Agile and Stable Command and Control of Military Operations: JFACC/DARPA Project, Advances in Enterprise Control (AEC) Symposium, Minneapolis, MN, July, 2000,
                   o 5) Distributed Agile Control in Hostile Environments: Optimization Based Battle Management, (i) Large-scale programming, and (ii) Top Down Hierarchical, JFACC/DARPA Project Technical Interchange Meeting, Pittsburgh, PA, Oct. 31 - Nov. 2, 2000,
                   o 6) Distributed Agile Control in Hostile Environments: (i) Large Scale Programming, and (ii) Hierarchical Optimization, JFACC/DARPA Project Technical Interchange Meeting and Science Fair (Industrial Poster & Demo Session), San Diego, CA, Feb. 5-8, 2001, etc.

 Since 04/01/2002:    Consultant, Advisor, Grant Writer, Technical Projects Coordinator, Website Designer and Webmaster at Community Based Educational Centers in Los Angeles (part-time basis)

 10/94 - 01/16/2000:    Scientific co-worker, Researcher,   Instructor for Graduate Laboratory   Courses and Supervisor for Graduate Thesis Research Projects in Control Engineering Department, Faculty of Electrical Engineering and Information Sciences,Ruhr-University Bochum, Bochum, Germany.


 6/92 - 3/94:    Lecturer II, Research Assistant, Supervisor for Undergraduate Thesis Research Projects and Assistant Course Coordinator in Electrical and Computer Engineering Department,   Faculty of Technology,   Addis Ababa University, Addis Ababa, Ethiopia.

 9/89 - 5/92:     Lecturer I and Research Assistant in Electrical and Computer Engineering Department,   Faculty of Technology,   Addis Ababa University, Addis Ababa, Ethiopia.

________________________

  7/91 -3/94:     Computer Application Software Lecturer in the Organization of City Business Center, Addis Ababa, Ethiopia (Part time work).



 Other Professional Practical Industrial Experiences

MAIN DUTIES PERFORMED AS AN ELECTRICAL ENGINEER: Research & Development, consultant, technical advisor, technical projects coordinator, grant writer, website designer & webmaster, assessment of engineering cost, reviewing existing conditions at project sites, electrical design for building systems & small-scale industries, design of hydro-electric power plants & irrigation systems, design of power distribution systems & preparation of electrical specifications, motor control design, construction supervisions and other engineering services

   o  11/92 - 2/93:     Electrical Engineer and Supervisor in the UN-ECA, CMC-di Ravenna and ASTER - International, Addis Ababa, Ethiopia (Part time work).
   o  9/89 - 8/92:     Office Engineer in the "Gilgel Gibe (324MW) & Dembie (1MW) Hydro Electric Projects," Ministry of Mines and Energy, Addis Ababa, Ethiopia.
   o  5/88 - 8/89:     Design Engineer and Supervisor in the "Gilgel Gibe (324MW) & Dembie (1MW) Hydro Electric Projects," Ministry of Mines and Energy, Addis Ababa, Ethiopia.
   o  12/85 - 4/88:     Electrical Engineer and Supervisor in the Engineering Design Department, Water Resources Commission, Addis Ababa, Ethiopia.

 (Other Part time Professional Works)

   o  9/86 - 3/94:     Consultant and Design Engineer, in Private Consultation Services, Addis Ababa, Ethiopia (Part time work).
   o  12/85 - 1/86:    Assistance Engineer in the "Household Electrical Appliances Project" feasibility study of the Industrial Projects Service, Ministry of Industry, Addis Ababa, Ethiopia (Part time work).
   o  7/84 - 9/84:     Assistance Engineer in the "Electronics & Electrical Machinery Project" feasibility study of the Industrial Projects Service, Ministry of Industry, Addis Ababa, Ethiopia (Vacation work).
   o  7/83 - 9/83:     Assistance Engineer in the "Project and Planning Section", Telecommunication Authority, Addis Ababa, Ethiopia (Vacation work).

 B. OTHER TEACHING ACTIVITIES - Short Courses/Seminars:

 C. COURSE DEVELOPMENT

      Developed Lecture Notes/Slides for all taught courses including:

       o * Sensors Based Instrumentation Systems    * Introduction to Microprocessor Systems
       o * Electronics I, II & III    * Advanced Communication Systems
       o * Digital Electronics Fundamentals     * ECE/ECT- Senior Applied Projects
       o * Network+ & A+ Certifications    * C++ & Java Programming
       o * Lecture Notes of all CIS, CET, CT, CIST & CS Courses     * Control Systems I & II
       o * System Identification     * Engineering Electronics I and II
       o * Modeling of Nonlinear Systems     * Introduction to Neural Networks
       o * Fundamental of Circuits     * Introduction to Fuzzy Control
       o * Instrumentations     * Electrical Machine I and II
       o * Probability and Statistics     * Technology Integration     * 3D-CAD for Engineers I & II, etc.

 VI. Scholarly Accomplishments: Publications


Selected Academic Publications

 A. Published Book

  1. S. Daniel-Berhe. Parameter identification of nonlinear continuous-time systems using the Hartley modulating functions method. Cuvillier Verlag Göttingen , West Germany, 1999, ISBN 3-89712-579-X. (Related to Dissertation Research)

 B. Refereed Publications (Journals)

  1. S. Daniel-Berhe and H. Unbehauen. Physical parameters estimation of the nonlinear continuous-time dynamics of a dc motor using HMF-method. Journal of the Franklin Institute, 336(3), pp 481-501, 1999.

  2. S. Daniel-Berhe and H. Unbehauen. An approach for estimating abruptly changing parameters of integrable nonlinear continuous-time systems. Systems Science Journal,   25(1), pp 15-26, 1999. {This paper is automatically published by the editor of "System Science Journal" after it has been presented at the XIII International Conference on Systems Science’98 in Poland}.

  3. S. Daniel-Berhe and H. Unbehauen. Bilinear continuous-time systems identification via Hartley based modulating functions. Journal of IFAC Automatica, 34(4), pp 499-503, 1998.

  4. S. Daniel-Berhe and H. Unbehauen. Experimental physical parameter estimation of a thyristor drivendc-motor using the HMF-method. Journal of IFAC Control Engineering Practice, 6(5), pp 615-626, 1998.

  5. S. Daniel-Berhe and H. Unbehauen. Batch scheme Hartley modulating functions method for abruptly changing parameters identification of nonlinear continuous-time systems. Systems Science Journal,  24(3), pp 67-87, 1998.

  6. S. Daniel-Berhe and H. Unbehauen. Parameter identification of nonlinear continuous-time systems by Hartley Modulating Functions approach. Systems Science Journal,   23(3), pp 5-22, 1997.

 C. Referred Conference Publications

  1. S. Daniel-Berhe. Methods for modeling and identification of nonlinear nonparametric systems. 4th WSEAS Int. Conference on Simulation, Modeling and Optimization, Sept. 14-16, 2004, Izmir, Turkey.

  2. S. Daniel-Berhe, M. Ait-Rami, Jeff Shamma and Jason Speyer. Optimization based battle management. Proc. of IEEE-American Control Conference 2001, ACC'2001, Session: WP-05, pp 4711 -4715, June 25 - 27, 2001, Arlington, VA, USA. {Invited Session}

  3. S. Daniel-Berhe and H. Unbehauen. Batch Scheme Recursive Parameter Estimation of Gradually Time-Varying Nonlinear Systems. International Federation of Automatic Control ( IFAC ), Symposium on System Identification, SYSID'2000, Session: ThPM2-3, June 21 - 23, 2000, Santa Barbara, California, USA. {Invited Session}

  4. S. Daniel-Berhe. Real-time On-line Identification of a Nonlinear Continuous-time Plant Using Hartley Modulating Functions Method. IEEE International Conference on Industrial Technology - ICIT 2000 in Goa, India, pp 584 - 589, January 19 - 22, 2000. (Invited Session)

  5. S. Daniel-Berhe and H. Unbehauen. Batch scheme recursive Hartley modulating functions identification of nonlinear continuous-time Hammerstein model. European Control Conference 1999, ECC'99, Invited session, In Co-operation with IFAC & IEEE Control System Society, Session DM-3-3, 31 August - 3 September 1999, Karlsruhe, Germany.

  6. S. Daniel-Berhe and H. Unbehauen. State space identification of bilinear continuous-time canonical systems via batch scheme Hartley modulating functions approach. Proc. of 37th IEEE Conference on Decision and Control 1998, CDC'98, Session Code: FP08-1, Parameter Identification and Estimation, pp 4482-4487, Hyatt Regency Westshore, Tampa, Florida, USA, December 16-18, 1998.

  7. S. Daniel-Berhe and H. Unbehauen. Batch scheme Hartley modulating functions method to the detection and estimation of jumps in a class of convolvable nonlinear systems. Proc. of IEEE   Conference on Control Applications 1998, CCA'98 ,    Paper No. GC016, Session TM06-2, Nonlinear Control 1, pp 838-842, Trieste, Italy, September 1-4, 1998. Co-Chair: Session TM06 "Nonlinear Control 1."

  8. S. Daniel-Berhe and H. Unbehauen. Batch scheme Hartley modulating functions method for detecting gradual parameter changes in the identification of integrable nonlinear continuous-time systems. Proc. of IEE'98, UKACC International Conference on Control'98 , Conference Publication No. 455, Session 8B-SYSID II, pp 1254-1259, University of Wales, Swansea, Uk, September 1-4, 1998.

  9. S. Daniel-Berhe and H. Unbehauen. An approach for estimating abruptly changing parameters of integrable nonlinear continuous-time systems. Proc. of XIII International Conference on Systems Science’98,     Paper No. 98-074, Session A1-1 Systems Theory I, pp 84-95,     Wroclaw University of Technology, Wroclaw, Poland, September 15-18, 1998. {Invited Session}

  10. S. Daniel-Berhe and H. Unbehauen. Identification of nonlinear continuous-time Hammerstein model via HMF-method. Proc. of 36th IEEE   Conference on Decision and Control 1997, CDC'97,   December 10 - 12, 1997, pp 2990-2995, San Diego, California.

  11. S. Daniel-Berhe. Identification of nonlinear continuous-time systems. Proc. of 3rd SIMONET’97 Workshop: Recent results in system identification and modeling, pp 111-119, October 8-9, 1997, Bochum, Germany. {Invited Session}

  12. S. Daniel-Berhe and H. Unbehauen. Parameter estimation of the nonlinear dynamics of a thyristor driven dc-motor experimental set-up using HMF-method. Proc. of 11th International Federation of Automatic Control ( IFAC ), Symposium on System Identification, SYSID'97,  July 8 - 11, 1997, Vol. 1, pp 189-194, Kitakyushu, Fukuoka, Japan. {Invited Session}

  13. S. Daniel-Berhe and H. Unbehauen. Efficient parameter estimation for a class of linear continuous time systems using the HMF-method. Proc. of European Control Conference 1997, ECC'97, In Co-operation with IFAC & IEEE Control System Society, July 1-4, 1997, pp TH-E-F1, Brussels, Belgium.

  14. S. Daniel-Berhe and H. Unbehauen. Physical parameter estimation of the nonlinear dynamics of a single link robotic manipulator with flexible joint using the HMF-method. Proc. of 16th IEEE - American Control Conference 1997, ACC'97, Albuquerque Convention Center, June 4 - 6, 1997, pp 1504-1508, New Mexico, USA.

  15. S. Daniel-Berhe and H. Unbehauen. Application of the Hartley modulating functions method for the identification of the bilinear dynamics of a dc motor. Proc. of 35th IEEE Conference on Decision and Control 1996, CDC'96, Kobe International Conference Center, December 11 - 13, 1996, pp 1533-1538, Kobe, Japan.

  16. S. Daniel-Berhe and H. Unbehauen. Parameter estimation of nonlinear continuous-time systems using Hartley modulating functions. Proc. of IEE'96,  UKACC International Conference on Control'96, Sept. 2 -5, 1996, Conference Publication No. 427, pp 228-233, Exeter, England.

  17. S. Daniel-Berhe and H. Unbehauen. Hartley modulating functions method for the identification of nonlinear continuous-time systems. Proc. of second World Automation Congress, WAC'96, ISIAC’96 May 27 - 30, 1996, Vol. 4 Intelligent Automation and Control (ISIAC), pp 139-144, Montpellier, France. {Invited Session} Co-Chair: Session WdA-12 "Identification of Nonlinear Systems."

 D. Other Publications: Technical Writings/Reports

  1. S. Daniel-Berhe. Formulation of linear programming based automated battle management for a large-scale system using hierarchical optimization. Submitted as Technical Report for Internal Circulation, Mechanical and Aerospace Engineering Department, University of California, Los Angeles, UCLA, California, USA. October 2000.

  2. S. Daniel-Berhe. Approaches and recent developments in nonlinear continuous-time systems Identification. Internal Report, ESR 9707, Control Engineering Department, Faculty of Electrical Engineering, Ruhr-University Bochum, Bochum, Germany, 1997.

  3. S. Daniel-Berhe. Use of fuzzy logic in adaptive conventional control systems. Internal Report (Seminar), ESR 9711, Control Engineering Department, Faculty of Electrical Engineering, Ruhr-University Bochum, Bochum, Germany, 24 June 1997.

  4. S. Daniel-Berhe. System identification by an adaptive direct form FIR filters and cross-correlation techniques. M.Sc. Thesis, Electrical and Computer Engineering Department,    Faculty of Technology,    Addis Ababa University, Addis Ababa, Ethiopia, Dec. 21, 1991.

  5. S. Daniel-Berhe and Gessesew Seyoum. Amharic Character Generator: Microprocessor-based Software and Hardware Design. B.Sc. Thesis, Electrical and Computer Engineering Department,    Faculty of Technology,    Addis Ababa University, Addis Ababa, Ethiopia, Nov. 8, 1985.

  VII. Scholarly Accomplishments: Presentations

(Only in International Conferences Excluding Ordinary Symposiums)

A. Selected Academic Presentations

  1. S. Daniel-Berhe. 22 June 2000 , International Federation of Automatic Control ( IFAC), Symposium on System Identification, SYSID'2000, Invited Session, Session: ThPM2-3, June 21 - 23, 2000, Santa Barbara, California, USA. "Batch Scheme Recursive Parameter Estimation of Gradually Time-Varying Nonlinear Systems."

  2. S. Daniel-Berhe. 3 September 1999 , European Control Conference 1999, ECC'99, Invited session, In Co-operation with IFAC & IEEE Control System Society, Session DM-3-3, 31 August - 3 September 1999, Karlsruhe, Germany, "Batch scheme recursive Hartley modulating functions identification of nonlinear continuous-timeHammerstein model."

  3. S. Daniel-Berhe. 18 December 1998 , IEEE Conference on Decision and Control 1998, CDC'98, Session Code: FP08-1, Parameter Identification and Estimation, Hyatt Regency Westshore, Tampa, Florida, USA, "State space identification of bilinear continuous-time canonical systems via batch scheme Hartley modulating functions approach."

  4. S. Daniel-Berhe. 3 September 1998, IEEE   Conference on Control Applications 1998, CCA'98 ,    Trieste, Italy, "Batch scheme Hartley modulating functions method to the detection and estimation of jumps in a class of convolvable nonlinear systems." Co-Chair: Session TM06 "Nonlinear Control 1."

  5. S. Daniel-Berhe. 11 December 1997, 36th IEEE   Conference on Decision and Control 1997, CDC'97, San Diego, California, USA, "Identification of nonlinear continuous-time Hammerstein model via HMF-method."

  6. S. Daniel-Berhe. 3 December 1997, Colloquium, University of Athens, Department of Informatics, Division of Communications and Signal Processing, Panepistimiopolis, Athens, Greece, "Parameter identification of nonlinear continuous-time systems by Hartley modulation functions approach."

  7. S. Daniel-Berhe. 9 October 1997, 3rd SIMONET’97 Workshop, Recent results in system identification and modeling, Bochum, Germany, "Identification of nonlinear continuous-time systems."

  8. ECC'97, In Co-operation with IFAC & IEEE Control System Society, Brussels, Belgium, "Efficient parameter estimation for a class of linear continuous time systems using the HMF-method."

  9. S. Daniel-Berhe. 24 June 1997, Seminar, Control Engineering Department, Faculty of Electrical Engineering, Ruhr-University Bochum, Bochum, Germany, "Use of Fuzzy logic in adaptive conventional control systems."

  10. S. Daniel-Berhe. 5 June 1997, 16th IEEE-American Control Conference 1997, ACC'97, Albuquerque Convention Center, New Mexico, USA, "Physical parameter estimation of the nonlinear dynamics of a single link robotic manipulator with flexible joint using the HMF-method."

  11. S. Daniel-Berhe. 11 December 1996, 35th IEEE Conference on Decision and Control 1996, CDC'96, Kobe International Conference Center, Kobe, Japan, "Application of the Hartley modulating functions method for the identification of the bilinear dynamics of a dc motor."

  12. S. Daniel-Berhe. 3 September 1996, IEE'96,  UKACC International Conference on Control'96, Exeter, England, "Parameter estimation of nonlinear continuous-time systems using Hartley modulating functions."

  13. S. Daniel-Berhe. 29 May 1996, Second World Automation Congress, WAC'96, Intelligent Automation and Control, ISIAC'96, Montpellier, France, "Hartley modulating functions method for the identification of nonlinear continuous-time systems." Co-Chair: Session WdA-12 "Identification of Nonlinear Systems."

  14. S. Daniel-Berhe. 17 November 1998 , Colloquium, Control Engineering Department, Faculty of Electrical Engineering, Ruhr-University Bochum, Bochum, Germany, "Physical parameter identification of nonlinear continuous-time systems using the Hartley modulating functions method."

 B. Invited Lectures:

Note: Numerous invited lectures are presented at number of Universities in and Europe based on Postdoctoral and Ph.D. research results.

 C. Invited Technical Presentations

{only from Postdoctoral Research Results at UCLA}

  1. Software Enabled Battlefield Management, and
  2. Distributed Agile Control in Hostile Environments: JFACC (Joint Force Air Component Commander), Program of the DARPA (Defense Advanced Research Projects Agency), Technical Interchange Meeting, Washington, DC, May 2000. $1.5 M. dollar/year project to develop simulation environment for battlefield management and control.
  3. Modeling Environment for Battlefield Management, and
  4. SEAD Simulation Environment, Agile & Stable Command & Control of Military Operations: JFACC/DARPA Project, Advances in Enterprise Control Symposium, Minneapolis, MN, 10-14 July 2000
  5. Battle Management, JFACC/DARPA Project Technical Interchange Meeting, Pittsburgh, PA, 31 Oct. - 2 Nov. 2000
  6. Battle Management, JFACC/DARPA Project Technical Interchange Meeting, San Diego, CA, 5-8 Feb. 2001, etc.

  VIII. Other Scholarly Accomplishments - Academic Joint Projects

[Joint projects related to Advances in Enterprise Modeling and Control at UCLA  with MIT University]

  1. Identifying Optimization Parameters, etc. Together with Massachusetts Institute of Technology, Laboratory for Information and Decision Systems, MIT, USA.

[Joint projects related to Nonlinear Systems/Processes Modeling & Identification at Ruhr University Bochum with …]

  1. Identification of Nonlinear Induction Motors. Together with New Jersey University, USA.
  2. Fault Detection and Diagnosis of Nonlinear Processes. Together with University of Bologna, Italy.
  3. Bilinear Systems/Processes Identification. Together with Delft University of Technology, Holland.
  4. Nonlinear Systems Identification. Together with University of Athens, Greece.

  IX. Professional Affiliations
  1. Member ofInstitute of Electrical and Electronics Engineers (IEEE)
  2. Member ofIEEE Control Systems Society (IEEE-CSS)
  3. Member ofIEEE Education Society  and
  4. Member ofWorld Scientific and Engineering Society   (WSES), etc.
Archive: Systems and Control Archive List
    List of addresses and home pages of people working in systems and control theory.


  X. Academic Recognition, Honors and Awards

  A. ACADEMIC RECOGNITION:

    ACADEMIC RECOGNITION:Included in the International:
      o   16th edition of Marquis WHO’S WHO IN THE WORLD since 1999   biographical reference book, published in Dec. 1998 and then included in its every year 's publication.
       o  5th Edition of Marquis WHO's WHO IN SCIENCE AND ENGINEERING since 2000-2001.
       o  33rd Edition of Marquis WHO's WHO IN FINANCE AND INDUSTRY since 2003.
       o  58th Edition of Marquis WHO's WHO IN AMERICA since 2003. biographical reference books.
       o   WHO’S WHO IN THE WORLD   is a comprehensive directory of the biographies of international outstanding people in a wide range of professions and geographic locations. Each biography details an individual’s accomplishments for the use of educators, administrators, researchers and library patrons.
       o  The 16th edition of WHO’S WHO IN THE WORLD   recognizes individuals distinguished by their achievements and positions throughout the world. The 16th edition compiles the profiles of 40,000 individuals-a process that limits the distinction to one in every 155,000 individuals on the face of the global.
       o  Since 1999 included in Marquis WHO’S WHO IN THE WORLD   every year 's publication. In addition, included in the 5th edition of Marquis WHO’S WHO IN SCIENCE AND ENGINEERING 2000-2001, etc., in the 33rd Edition of Marquis Who's WHO IN FINANCE AND INDUSTRY 2003, etc., as well as in the 58th Edition of Marquis Who's WHO IN AMERICA 2003, etc., biographical reference books.

  HONORS AND AWARDS:

       o  Research Fellowship: From DAAD Academic Exchange Service in 1994 for Ph.D. Study: 10/94 - 6/99).
       o  Sponsorship: From Gilgel Gibe & Dembie Hydro Electric Projects in 1989 for M.Sc. Study: 9/89 - 12/91).

  XI. Professional Services/Contributions
       o  Worked as Advisor; Academic Committees Member; Lab Tour Guide at Universities & Colleges, etc.
       o  Served as Chair/Co-Chair of Sessions in IEEE, IFAC, etc. Conferences and Workshop related to Control Systems, etc.
       o  Served as Reviewer/Co-reviewer to Various Dissertations, Books, Scientific Articles for Conferences and Journals Related to Control Systems, Signal Processing, Nonlinear Systems Identification & Control, etc.:
          o  IEEE-CDC, IEEE-ACC, IFAC-SYSID, Journal of Franklin Institute, European Journal of Control,

 XII. Major Courses
System Identification & Adaptive Control
Optimal Control & Applications
Systems Analysis & Modeling
Nonlinear Control Systems
Linear Systems Theory, Digital Control
Stochastic Processes
Optimal Signal Processing
Signal Processing I, II
Advanced Communication Theory & Systems
Neural Networks & Fuzzy Systems
Analytical Methods in Engineering
Management Science & Operational Research
Higher Level Electromagnetic Fields & Waves

BASIC COURSES
oComputer Programming
Signals, Systems and Networks I, II + Labs I, II
Electrical Machine I, II + Labs I, II
Engineering Electronics I, II + Labs I, II
oApplied Electromagnetic Fields I, II + Labs I, II
oBasic Electrical & Electronic Devices + Labs
oFundamental of Circuits + Labs I, II
oWorkshop Practice I, II, III
o Probability and Statistics
Control Systems I, II + Labs I, II
Digital Electronics & Logic Design + Labs
Communication Systems I, II + Labs I, II
oEnergy Conversion
Instrumentation + Labs
Microprocessor Based Systems + Labs
o Computer Architecture and Programming
oComputer Vision
Computational Methods
o Power System Operation, Distribution & Control
oElectrical Engineering Materials & Components
o Power Systems I, II + Labs I, II
oEngineering Economy & Workshop Management
oElectrical Installation & Drives


EXTRA COMMON KEY COURSES
o Engineering Mathematics I, II, III, IV, V
o Engineering Mechanics, Static, Dynamics
o Engineering Thermodynamics
o Engineering Materials
o Machine Design
o Strength of Materials
o Fluid Mechanics
o Applied Modern Physics
o Machine Elements
o Descriptive Geometry & Technical Drawing I, II

  Computer Languages

    Computer Languages: C, C++, JAVA, VB.Net, HTML, CAD, 3D-CADD, SolidWorks, AutoCAD, MATLAB, PASCAL, FORTRAN, MM-DreamWeaver, MM-Flash, etc. Application Software: Microsoft Word, PowerPoint, Excel, Access, etc.

 XIV. Religion

          o     Orthodox Christian.

 XV. Sports & Hobbies

    Sports

  • Table Tennis, Football, Swimming, Jogging, etc.


Hobbies

  • Study of literature on religions, Touring, Photographing, Chess, etc.


 XVI. Extracurricular Activities

Worked for various Humanitarian Missions (at Universities, Churches, Communities, etc.) - to promote academic, spiritual, moral, social, emotional and physical developments as well as a sense of responsibility to larger community and society, and to progress and empower neighborhoods, refugees and immigrants.

 Favourite Control Groups in the World

©  Daniel
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Wednesday, 25 May 2009 at 10:19:12 P.M. EDT by s_daniel_berhe@yahoo.com