You decide – The Best Technical Training for You!

    You can make a difference. Applied Technology Institute is scheduling new courses for September 2016 through July 2017. Please let us know which courses you would like to see on our schedule or brought to your facility. ·         If you have a group of 3 or more people, ATI can schedule an open enrollment course in […]
    You can make a difference. Applied Technology Institute is scheduling new courses for September 2016 through July 2017. Please let us know which courses you would like to see on our schedule or brought to your facility. ·         If you have a group of 3 or more people, ATI can schedule an open enrollment course in your geographic area. ·         If you have a group of 8 or more, ATI can schedule a course on-site at your facility. On-site training brings our experts to you — on your schedule, at your location. It also allows us to plan your training in advance and tailor classes directly to your needs. You can help identify courses to suit your training needs and bring the best short courses to you! ATI courses can help you stay up-to-date with today’s rapidly changing technology. Boost your career. Courses are led by world-class design experts. Learn from the proven best. ATI courses by technical area: Satellites & Space-Related courses Acoustic & Sonar Engineering courses Engineering & Data Analysis courses Radar, Missiles and Combat Systems courses Project Management and Systems Engineering courses ______________________________________________________________________________________________ Contact us: ATI@ATIcourses.com or (410) 956-8805
Sign Up For ATI Courses eNewsletter

ATI Instructor Releases A New Book On Wavelets + 25% discount!

ATI offers Wavelets: A Conceptual Practical Approach course on Jun 12-14, 2012 in Columbia, MD.  We thought our reader might be interested in the fact that our instructor Amir Nijami released a new book called Wavelets: A Concise Guide.  You can follow this link to purchase the book and receive 25% discount https://secureservercdn.net/198.71.189.232/56v.d29.myftpupload.com/Book_JHUPress.pdf Introduced nearly three decades ago as a […]
ATI offers Wavelets: A Conceptual Practical Approach course on Jun 12-14, 2012 in Columbia, MD.  We thought our reader might be interested in the fact that our instructor Amir Nijami released a new book called Wavelets: A Concise Guide.  You can follow this link to purchase the book and receive 25% discount https://secureservercdn.net/198.71.189.232/56v.d29.myftpupload.com/Book_JHUPress.pdf Introduced nearly three decades ago as a variable resolution alternative to the Fourier transform, awavelet is a short oscillatory waveform for analysis of transients. The discrete wavelet transformhas remarkable multi-resolution and energy-compaction properties. Amir-Homayoon Najmi’sintroduction to wavelet theory explains this mathematical concept clearly and succinctly.Wavelets are used in processing digital signals and imagery from myriad sources. They form thebackbone of the JPEG2000 compression standard, and the Federal Bureau of Investigation usesbiorthogonal wavelets to compress and store its vast database of fingerprints. Najmi provides themathematics that demonstrate how wavelets work, describes how to construct them, and discussestheir importance as a tool to investigate and process signals and imagery. He reviews key conceptssuch as frames, localizing transforms, orthogonal and biorthogonal bases, and multi-resolution.His examples include the Haar, the Shannon, and the Daubechies families of orthogonal andbiorthogonal wavelets.Our capacity and need for collecting and transmitting digital data is increasing at an astonishingrate. So too is the importance of wavelets to anyone working with and analyzing digital data.Najmi’s primer will be an indispensable resource for those in computer science, the physicalsciences, applied mathematics, and engineering who wish to obtain an in-depth understanding andworking knowledge of this fascinating and evolving field. To receive a 25% discount, please send an email to ATI@ATIcourses.com requesting the discount form.
Sign Up For ATI Courses eNewsletter

Fundamentals of COTS-Based Systems Engineering Course

C. O. T. S. = Commercial Off-the-Shelf Video Clip: Click to Watch Leveraging Commercial Off-the-Shelf Technology for System Success  This three day course provides a systemic overview of how to use Systems Engineering to plan, manage, and execute projects that have significant Commercial-off-the-Shelf (COTS) content. Modern development programs are increasingly characterized by COTS solutions (both hardware […]
C. O. T. S. = Commercial Off-the-Shelf
Video Clip: Click to Watch
Leveraging Commercial Off-the-Shelf Technology for System Success  This three day course provides a systemic overview of how to use Systems Engineering to plan, manage, and execute projects that have significant Commercial-off-the-Shelf (COTS) content. Modern development programs are increasingly characterized by COTS solutions (both hardware and software) in both the military and commercial domains. The course focuses on the fundamentals of planning, execution, and follow-through that allow for the delivery of excellent and effective COTS-based systems to ensure the needs of all external and internal stakeholders are met. Participants will learn the necessary adjustments to the fundamental principles of Systems Engineering when dealing with COTS technologies. Numerous examples of COTS systems are presented. Practical information and tools are provided that will help the participants deal with issues that inevitably occur in the real word. Extensive in-class exercises are used to stimulate application of the course material. Who Should Attend? • Prime and subcontractor engineers who procure COTS components. • Suppliers who produce and supply COTS components (hardware and software). • Technical team leaders whose responsibilities include COTS technologies. • Program and engineering managers that oversee COTS development efforts. • Government regulators, administrators, and sponsors of COTS procurement efforts. • Military professionals who work with COTS-based systems. For more information: FUNDAMENTALS OF COTS-BASED SYSTEMS ENGINEERING Why not take a short course? Our short courses are less than a week long and are designed to help you keep your professional knowledge up-to-date. This course provides provide a strong foundation for understanding the issues that must be confronted in the procurement and use of COTS systems. Course Outline and Notes This short course is designed for individuals who plan, manage, and execute projects that have significant COTS content. What You Will Learn: • The key characteristics of COTS components. • How to effectively plan and manage a COTS development effort. • How using COTS affects your requirements and design. • How to effectively integrate COTS into your systems. • Effective verification and validation of COTS-based systems. • How to manage your COTS suppliers. • The latest lessons learned from over two decades of COTS developments. After attending the course each student will receive a complete set of lecture notes and an annotated bibliography at the beginning of the class for future reference and can add notes and more detail based on the in-class interaction, as well as a certificate of completion. Please visit our website for more valuable information. About ATI and the Instructors Our mission here at the Applied Technology Institute (ATI) is to provide expert training and the highest quality professional development in space, communications, defense, sonar, radar, and signal processing. We are not a one-size-fits-all educational facility. Our short classes include both introductory and advanced courses. Since 1984, ATI has provided leading-edge public courses and onsite technical training to DoD and NASA personnel, as well as contractors. Whether you are a busy engineer, a technical expert or a project manager, you can enhance your understanding of complex systems in a short time. You will become aware of the basic vocabulary essential to interact meaningfully with your colleagues. If you or your team is in need of more technical training, then boost your career with the knowledge needed to provide better, faster, and cheaper solutions for sophisticated DoD and NASA systems. ATI’s instructors are world-class experts who are the best in the business. They are carefully selected for their ability to clearly explain advanced technology. David D. Walden, ESEP, is an internationally recognized expert in the field of Systems Engineering. He has over 28 years of experience in leadership of systems development as well as in organizational process improvement and quality having worked at McDonnell Douglas and General Dynamics before starting his own consultancy in 2006. He has a BS degree in Electrical Engineering (Valparaiso University) and MS degrees in Electrical Engineering and Computer Science (Washington University in St. Louis) and Management of Technology (University of Minnesota). Mr. Walden is a member of the International Council on Systems Engineering (INCOSE) and is an INCOSE Expert Systems Engineering Professional (ESEP). He is also a member of the Institute of Electrical and Electronics Engineers (IEEE) and Tau Beta Pi. He is the author or coauthor of over 50 technical reports and professional papers/presentations addressing all aspects of Systems Engineering. Dates and Locations The date and location of this course is below: May 8-10, 2012 in Columbia, MD

President Obama Wants Unmanned Aerial Vehicles (UAVs) in an Airspace Near You!

President Obama sends a Valentine’s Day Present to UAS Video Clip: Click to Watch What You Really Need to Know About Unmanned Aircraft Systems (UAS) Are you an engineer, aviation expert or project manager who wishes to enhance their understanding of the new and exciting field of Unmanned Aircraft Systems (UAS)? President Obama recently signed legislation […]
President Obama sends a Valentine’s Day Present to UAS
Video Clip: Click to Watch
What You Really Need to Know About Unmanned Aircraft Systems (UAS)
Are you an engineer, aviation expert or project manager who wishes to enhance their understanding of the new and exciting field of Unmanned Aircraft Systems (UAS)? President Obama recently signed legislation that gives the FAA a deadline for authorizing the flying of Unmanned Aerial Vehicles (UAVs) in airspace now reserved for use by manned planes. The legislation requires the FAA to produce a comprehensive plan within nine months for integrating the unmanned planes into manned airspace. President Obama Signs FAA Bill into Law Large UAVs like the Predator and Global Hawk are always in the news and they can access Class A airspace (above 18,000 ft). Their long endurance and virtually unlimited range makes them ideal platforms for surveillance operations. They are routinely controlled halfway around the world using satellite links for beyond line-of-sight (BLOS) operations. Operational altitudes range for the smaller UAVs like the Scan Eagle are typically from 2,000-5,000 feet but flights up to 8,000 feet (6,000 at night) are common. Line-of-sight (LOS) range is about 50-100 miles when the ground is flat, or even less when hilly or mountainous. UAS technology has rapidly evolved in the military context to perform Intelligence, Surveillance and Reconnaissance (ISR) missions and provide the fullest possible understanding of the adversary to the commanding officer. UAV have the range and endurance to provide a bird’s-eye view of the battlefield and are flexible enough for dynamic mission re-tasking. This allows timely receipt of information about the adversary, when and where it is needed, without having to risk a manned aircraft. UAVs are often preferred for missions that are too “dull, dirty, or dangerous” for manned aircraft. Many of the military aircraft will be returning to the US for testing and training purposes and as the recent FAA legislation proves, there is a great deal of interest for civil use of UAS. Civilian UAVs have already demonstrated potential in a wide variety of missions. Local law enforcement, firefighting, agriculture, pipeline surveillance and atmospheric research are all areas which have benefited from UAVs.
One way or another, UAVs are coming to an airspace near you. Will you be ready for it?
Since 1984, the Applied Technology Institute (ATI) has provided leading-edge public courses and onsite technical training to DoD and NASA personnel, as well as contractors. Whether you are a busy engineer, a technical expert or a project manager, you can enhance your understanding of these complex systems in a short time. You will become aware of the basic vocabulary essential to interact meaningfully with your colleagues. If you or your team is in need of more technical training, then why not boost your career and knowledge with a short course? All of ATI’s short courses are less than a week long and are designed to help you keep your professional knowledge up-to-date. Our classes include both introductory and advanced courses. Our two UAS courses provide a practical overview which provides a strong foundation for understanding the issues that must be confronted in the use, regulation and development of UAS. UNMANNED AIRCRAFT OVERVIEW This one day course is designed for engineers, aviation experts and project managers who wish to enhance their understanding of UAS. The course provides the “big picture” for those who work outside of the discipline. Each topic addresses real systems (Predator, Shadow, Warrior and others) and real-world problems and issues concerning the use and expansion of their applications. There is also an emphasis on RF communications and spectrum management aspects (national and international) of UAS operations. UNMANNED AIRCRAFT SYSTEM FUNDAMENTALS This three day, classroom and practical instructional program provides individuals or teams entering the unmanned aircraft system (UAS) market with the need to ‘hit the ground running’. Delegates will gain a working knowledge of UAS system classification, payloads, sensors, communications and data links. You will learn the UAS weapon design process and UAS system design components. The principles of mission planning systems and human factors design considerations are described. The critical issue of integrating UAS in the NAS is addressed in detail along with major considerations. Multiple roadmaps from all services are used to explain UAS future missions. Course Outline, Samplers, and Notes Our UAS courses are designed for individuals involved in planning, designing, building, managing, launching, and operating these systems. Determine for yourself the value of our courses before you sign up. See our slide samples below: Unmanned Aircraft Overview Slide Sampler Unmanned Aircraft System Fundamentals Slide Sampler After attending either (or both) of these courses you will receive a full set of detailed notes at the beginning of the class for future reference and can add notes and more detail based on the in-class interaction, as well as a certificate of completion. Please visit our website for more valuable information. About ATI and the Instructors Our mission here at ATI is to provide expert training and the highest quality professional development in space, communications, defense, sonar, radar, and signal processing. We are not a one-size-fits-all educational facility. ATI’s instructors are world-class experts who are the best in the business. They are carefully selected for their ability to clearly explain advanced technology. Mr. Mark N. Lewellen has over twenty-five years of experience with a wide variety of space, satellite and aviation related projects, including the Predator/Shadow/Warrior/Global Hawk UAVs, Orbcomm, Iridium, Sky Station, and aeronautical mobile telemetry systems. More recently he has been working in the exciting field of UAS. He was the Vice Chairman of a US UAS Sub-group which led the preparations to find new radio spectrum for UAS operations at the recently completed World Radiocommunication Conference 2012 under Agenda Item 1.3. He is also a technical advisor to the US State Department and a member of the National Committee which reviews and comments on all US submissions to international telecommunication groups, including the International Telecommunication Union (ITU). Dr. Jerry LeMieux, PhD is a pilot and engineer with over 40 years and 10,000 hours of aviation experience. He has over 30 years of experience in operations, program management, systems engineering, R&D and test and evaluation for AEW, fighter and tactical data link acquisition programs. He led 1,300 personnel and managed 100 network and data link acquisition programs with a five year portfolio valued at more than $22 billion. He served at the numbered Air Force Level, responsible for the development, acquisition and sustainment of over 300 information superiority, combat ops and combat support programs that assure integrated battlespace dominance for the Air Force, DoD, US agencies and Allied forces. In civilian life he has consulted on numerous airspace issues for the US Federal Aviation Administration, Air Force, Army, Navy, NASA and DARPA. He holds a PhD in electrical engineering and is a graduate of Air War College and Defense Acquisition University. Dates and Locations The dates and locations of these two UAS courses are below:*
March 19th,             2012      Columbia, MD March 20th-22nd,  2012      Columbia, MD *Attendance for these classes is restricted to citizens of US, NATO and other Mutual Defense Countries (including Australia, NZ, Japan, Korea, Singapore)


Sign Up For ATI Courses eNewsletter

ATI’s Top 5 Engineering Course Samplers of 2011

Video Clip: Click to Watch ATI specializes in short course technical training Our mission here at the Applied Technology Institute (ATI) is to provide expert training and the highest quality professional development in space, communications, defense, sonar, radar, and signal processing. We are not a one-size-fits-all educational facility. Our short classes include both introductory and advanced […]
What Are the Tools of Your Trade?
Video Clip: Click to Watch
ATI specializes in short course technical training
Our mission here at the Applied Technology Institute (ATI) is to provide expert training and the highest quality professional development in space, communications, defense, sonar, radar, and signal processing. We are not a one-size-fits-all educational facility. Our short classes include both introductory and advanced courses. ATI’s Top Five Engineering Courses for 2011 The five engineering courses for 2011 are highlighted below: #1 Practical Statistical Signal Processing – using MATLAB This 4-day course covers signal processing systems for radar, sonar, communications, speech, imaging and other applications based on state-of-the-art computer algorithms. These algorithms include important tasks such as data simulation, parameter estimation, filtering, interpolation, detection, spectral analysis, beamforming, classification, and tracking. Until now these algorithms could only be learned by reading the latest technical journals. This course will take the mystery out of these designs by introducing the algorithms with a minimum of mathematics and illustrating the key ideas via numerous examples using MATLAB. Designed for engineers, scientists, and other professionals who wish to study the practice of statistical signal processing without the headaches, this course will make extensive use of hands-on MATLAB implementations and demonstrations. Attendees will receive a suite of software source code and are encouraged to bring their own laptops to follow along with the demonstrations. Click here for the tutorial #2 Advanced Topics in Digital Signal Processing This four-day course is designed for communication systems engineers, programmers, implementers and managers who need to understand current practice and next generation DSP techniques for upcoming communication systems. DSP is more than mapping legacy analog designs to a DSP implementation. To avoid compromise solution appropriate for an earlier time period, we return to first principles to learn how to apply new technology capabilities to the design of next generation communication systems. Click here for the tutorial #3 Engineering Systems Modeling WithExcel/VBA This two-day course is for engineers, scientists, and others interested in developing custom engineering system models. Principles and practices are established for creating integrated models using Excel and its built-in programming environment, Visual Basic for Applications (VBA). Real-world techniques and tips not found in any other course, book, or other resource are revealed. Step-bystep implementation, instructor-led interactive examples, and integrated participant exercises solidify the concepts introduced. Application examples are demonstrated from the instructor’s experience in unmanned underwater vehicles, LEO spacecraft, cryogenic propulsion systems, aerospace & military power systems, avionics thermal management, and other projects. Click here for the tutorial #4 Wavelets: A Conceptual, Practical Approach Fast Fourier Transforms (FFT) are in wide use and work very well if your signal stays at a constant frequency (“stationary”). But if the signal could vary, have pulses, “blips” or any other kind of interesting behavior then you need Wavelets. Wavelets are remarkable tools that can stretch and move like an amoeba to find the hidden “events” and then simultaneously give you their location, frequency, and shape. Wavelet Transforms allow this and many other capabilities not possible with conventional methods like the FFT. This course is vastly different from traditional math-oriented Wavelet courses or books in that we use examples, figures, and computer demonstrations to show how to understand and work with Wavelets. This is a comprehensive, in-depth, up-to-date treatment of the subject, but from an intuitive, conceptual point of view. We do look at a few key equations from the traditional literature but only AFTER the concepts are demonstrated and understood. If desired, further study from scholarly texts and papers is then made much easier and more palatable when you already understand the fundamental equations and how they relate to the real world. Click here for the tutorial #5 Computational Electromagnetics This 3-day course teaches the basics of CEM with application examples. Fundamental concepts in the solution of EM radiation and scattering problems are presented. Emphasis is on applying computational methods to practical applications. You will develop a working knowledge of popular methods such as the FEM, MOM, FDTD, FIT, and TLM including asymptotic and hybrid methods. Students will then be able to identify the most relevant CEM method for various applications, avoid common user pitfalls, understand model validation and correctly interpret results. Students are encouraged to bring their laptop to work examples using the provided FEKO Lite code. You will learn the importance of model development and meshing, post- processing for scientific visualization and presentation of results. Click here for the tutorial Course Outline, Samplers, and Notes Determine for yourself the value of these or our other courses before you sign up. See our samples (See Slide Samples) on some of our courses. Or check out the new ATI channel on YouTube. After attending the course you will receive a full set of detailed notes from the class for future reference, as well as a certificate of completion. To see the complete course listing from ATI, click on the links at the bottom of the page. Please visit our website for more valuable information. About ATI and the Instructors Since 1984, ATI has provided leading-edge public courses and onsite technical training to DoD and NASA personnel, as well as contractors. ATI short courses are designed to help you keep your professional knowledge up-to-date. Our courses provide you a practical overview of space and defense technologies which provide a strong foundation for understanding the issues that must be confronted in the use, regulation and development such complex systems. Our short courses are designed for individuals involved in planning, designing, building, launching, and operating space and defense systems. Whether you are a busy engineer, a technical expert or a project manager, you can enhance your understanding of complex systems in a short time. You will also become aware of the basic vocabulary essential to interact meaningfully with your colleagues. ATI’s instructors are world-class experts who are the best in the business. They are carefully selected for their ability to clearly explain advanced technology.


Sign Up For ATI Courses eNewsletter

Psssst…What Have You Heard about ATI’s Acoustics Course?

Video Clip: Click to Watch ATI’S ACOUSTICS FUNDAMENTALS, MEASUREMENTS & APPLICATIONS COURSE Here is what we have heard from some of our students: “Great instructor made the course interesting and informative. Helped clear-up many misconceptions I had about sound and its measurement” “Enjoyed the in-class demonstrations; they help explain the concepts. Instructor helped me with a […]
A Typical Acoustic Impulse Response of a Room
Video Clip: Click to Watch
Here is what we have heard from some of our students:
  • “Great instructor made the course interesting and informative. Helped clear-up many misconceptions I had about sound and its measurement”
  • “Enjoyed the in-class demonstrations; they help explain the concepts. Instructor helped me with a problem I was having at work, worth the price of the course!”
This three-day course is intended for engineers and other technical personnel and managers who have a work-related need to understand basic acoustics concepts and how to measure and analyze sound. This is an introductory course and participants need not have any prior knowledge of sound or vibration. Each topic is illustrated by appropriate applications, in-class demonstrations, and worked-out numerical examples. Since 1984, the Applied Technology Institute (ATI) has provided leading-edge public courses and onsite technical training to DoD and NASA personnel, as well as contractors. Whether you are a busy engineer, a technical expert or a project manager, you can enhance your understanding of complex systems in a short time. You will become aware of the basic vocabulary essential to interact meaningfully with your colleagues. If you or your team is in need of more technical training, then boost your career with the knowledge needed to provide better, faster, and cheaper solutions for sophisticated systems. Why not take a short course? ATI short courses are less than a week long and are designed to help you keep your professional knowledge up-to-date. Our courses provide a practical overview of space and defense technologies which provide a strong foundation for understanding the issues that must be confronted in the use, regulation and development of complex systems. Course Outline and Notes The course starts with introductory concepts. With this background, the students are then schooled in waves, radiation and measurements. The course concludes with a discussion of representative applications, including outdoor sound propagation (temperature and wind effects) and environmental effects. What You Will Learn:
  • How to make proper sound level measurements
  • How to analyze and report acoustic data
  • The basis of decibels (dB) and the A-weighting scale
  • How intensity probes work and allow near-field sound measurements
  • How to measure radiated sound power and sound transmission loss
  • How to use third-octave bands and narrow-band spectrum analyzers
  • How the source-path-receiver approach is used in noise control engineering
  • How sound builds up in enclosures like vehicle interiors and rooms
After attending this course you will receive a full set of detailed notes at the beginning of the class for future reference and can add notes and more detail based on the in-class interaction, as well as a certificate of completion. Each student will also receive a copy of the textbook, Acoustics: An Introduction by Heinrich Kuttruff. Please visit our website st the links below for more valuable information. About ATI and the Instructors Our mission here at ATI is to provide expert training and the highest quality professional development in space, communications, defense, sonar, radar, and signal processing. We are not a one-size-fits-all educational facility. Our short classes include both introductory and advanced courses. ATI’s instructors are world-class experts who are the best in the business. They are carefully selected for their ability to clearly explain advanced technology. Dr. Alan D. Stuart, Associate Professor Emeritus of Acoustics, Penn State, has over forty years experience in the field of sound and vibration. He has degrees in mechanical engineering, electrical engineering, and engineering acoustics. For over thirty years he has taught courses on the Fundamentals of Acoustics, Structural Acoustics, Applied Acoustics, Noise Control Engineering, and Sonar Engineering on both the graduate and undergraduate levels as well as at government and industrial organizations throughout the country. Dates and Locations The dates and locations of this short course, are below: April 10-12, 2012 in Silver Spring, MD July 17-19, 2012 in Bremmerton, WA


Sign Up For ATI Courses eNewsletter

The New Year is almost Here, Are You Resolved to Learn Next Year?

What Resolutions Have You Made? Video Clip: Click to Watch Why Not a Short Technical Course for Your New Year’s Resolution? Are you or your team ready to face the challenges of 2012 with what you know now? With technology and industries shifting so quickly businesses need to embrace training just to keep up. Since 1984, […]
What Resolutions Have You Made?
Video Clip: Click to Watch
Why Not a Short Technical Course for Your New Year’s Resolution?
Are you or your team ready to face the challenges of 2012 with what you know now? With technology and industries shifting so quickly businesses need to embrace training just to keep up. Since 1984, the Applied Technology Institute (ATI) has provided leading-edge public courses and onsite technical training to DoD and NASA personnel, as well as contractors. Whether you are a busy engineer, a technical expert or a project manager, you can enhance your understanding of complex systems in a short time. You will become aware of the basic vocabulary essential to interact meaningfully with your colleagues. If you or your team is in need of more technical training, then boost your career with the knowledge needed to provide better, faster, and cheaper solutions for sophisticated DoD and NASA systems. Why not take a short course instead? ATI short courses are less than a week long and are designed to help you keep your professional knowledge up-to-date. Our courses provide a practical overview of space and defense technologies which provide a strong foundation for understanding the issues that must be confronted in the use, regulation and development of complex systems. Course Outline, Samplers, and Notes
Our short courses are designed for individuals involved in planning, designing, building, launching, and operating space and defense systems. Determine for yourself the value of our courses before you sign up. See our samples (See Slide Samples) on some of our courses. Or check out the new ATI channel on YouTube. After attending the course you will receive a full set of detailed notes at the beginning of the class for future reference and can add notes and more detail based on the in-class interaction, as well as a certificate of completion. Please visit our website for more valuable information. About ATI and the Instructors Our mission here at ATI is to provide expert training and the highest quality professional development in space, communications, defense, sonar, radar, and signal processing. We are not a one-size-fits-all educational facility. Our short classes include both introductory and advanced courses. ATI’s instructors are world-class experts who are the best in the business. They are carefully selected for their ability to clearly explain advanced technology.


Sign Up For ATI Courses eNewsletter

Early Technical Short Courses for 2012 are forming Now! Why Not Give Yourself the Gift of Knowledge?

Video Clip: Click to Watch Are you or your team ready to face the challenges of 2012 with what you know at the end of 2011? With technology and industries shifting so quickly individuals need to embrace training just to keep up. Why not give yourself a gift and take a short course? Our short courses […]
Why Not Self-Gift This Year?
Video Clip: Click to Watch
Are you or your team ready to face the challenges of 2012 with what you know at the end of 2011? With technology and industries shifting so quickly individuals need to embrace training just to keep up. Why not give yourself a gift and take a short course? Our short courses are less than a week long and are designed to help you keep your professional knowledge up-to-date and provide a strong foundation for understanding the issues that must be confronted in the use, regulation and development of complex systems. For over twenty five years, the Applied Technology Institute (ATI) has provided leading-edge public courses and onsite technical training to DoD and NASA personnel, as well as contractors. Whether you are a busy engineer, a technical expert or a project manager, you can enhance your understanding of complex systems in a short time. You will also become aware of the basic vocabulary essential to interact meaningfully with your colleagues. If you or your team is in need of more technical training, then boost your career with the knowledge needed to provide better, faster, and cheaper solutions for sophisticated DoD and NASA systems. These 2012 Courses are Forming Now PRACTICAL STATISTICAL SIGNAL PROCESSING – USING MATLAB This 4-day course covers signal processing systems for radar, sonar, communications, speech, imaging and other applications based on state-of-the-art computer algorithms. These algorithms include important tasks such as data simulation, parameter estimation, filtering, interpolation, detection, spectral analysis, beamforming, classification, and tracking. Until now these algorithms could only be learned by reading the latest technical journals. This course will take the mystery out of these designs by introducing the algorithms with a minimum of mathematics and illustrating the key ideas via numerous examples using MATLAB. COMPUTATIONAL ELECTROMAGNETICS This 3-day course teaches the basics of CEM with application examples. Fundamental concepts in the solution of EM radiation and scattering problems are presented. Emphasis is on applying computational methods to practical applications. You will develop a working knowledge of popular methods such as the FEM, MOM, FDTD, FIT, and TLM including asymptotic and hybrid methods. Students will then be able to identify the most relevant CEM method for various applications, avoid common user pitfalls, understand model validation and correctly interpret results. Students are encouraged to bring their laptop to work examples using the provided FEKO Lite code. You will learn the importance of model development and meshing, post- processing for scientific visualization and presentation of results. Participants will receive a complete set of notes, a copy of FEKO and textbook. STRAPDOWN AND INTEGRATED NAVIGATION SYSTEMS In this highly structured 4-day short course – specifically tailored to the needs of busy engineers, scientists, managers, and aerospace professionals – Thomas S. Logsdon will provide you with new insights into the modern guidance, navigation, and control techniques now being perfected at key research centers around the globe. The various topics are illustrated with powerful analogies, full-color sketches, block diagrams, simple one-page derivations highlighting their salient features, and numerical examples that employ inputs from today’s battlefield rockets, orbiting satellites, and deep-space missions. These lessons are carefully laid out to help you design and implement practical performance-optimal missions and test procedures. Course Outline, Samplers, and Notes Our short courses are designed for individuals involved in planning, designing, building, launching, and operating space and defense systems. Determine for yourself the value of our other courses before you sign up. See our samples (See Slide Samples) on some of our courses. Or check out the new ATI channel on YouTube. After attending the course you will receive a full set of detailed notes at the beginning of the class for future reference and can add notes and more detail based on the in-class interaction, as well as a certificate of completion. Please visit our website for more valuable information. About ATI and the Instructors Our mission here at ATI is to provide expert training and the highest quality professional development in space, communications, defense, sonar, radar, and signal processing. We are not a one-size-fits-all educational facility. Our short classes include both introductory and advanced courses. ATI’s instructors are world-class experts who are the best in the business. They are carefully selected for their ability to clearly explain advanced technology.

Are you Ready to Face the Challenges of Tomorrow with what You Know Today?

Stop Looking! Start Training! Video Clip: Click to Watch Can You Afford NOT to Train when Technologies and Industries Change So Rapidly? Are you or your team ready to face the challenges of tomorrow with what you know today? With technologies and industries shifting so quickly, businesses need to embrace training just to keep up. Some […]
Stop Looking! Start Training!
Video Clip: Click to Watch
Can You Afford NOT to Train when Technologies and Industries Change So Rapidly?
Are you or your team ready to face the challenges of tomorrow with what you know today? With technologies and industries shifting so quickly, businesses need to embrace training just to keep up. Some may complain that training is too expensive or fails to deliver its promise. But what is the real cost of slower sales and lower growth? Maybe you and your organization stop looking for perfect employees and start training them instead? As Wharton management Professor Peter Cappelli recently wrote in The Wall Street Journal: “Companies need to stop pinning so much of the blame on our nation’s education system. They need to drop the idea of finding perfect candidates and look for people who could do the job with a bit of training and practice.” We can help you. Why not take a short course? ATI short courses are less than a week long and are designed to help you keep your professional knowledge up-to-date. Our courses provide a practical overview of space and defense technologies which provide a strong foundation for understanding the issues that must be confronted in the use, regulation and development of complex systems. Since 1984, the Applied Technology Institute (ATI) has provided leading-edge public courses and onsite technical training to DoD and NASA personnel, as well as contractors. Whether you are a busy engineer, a technical expert or a project manager, you can enhance your understanding of complex systems in a short time. You will become aware of the basic vocabulary essential to interact meaningfully with your colleagues. If you or your team are in need of more technical training, then boost your career with the knowledge needed to provide better, faster, and cheaper solutions for sophisticated DoD and NASA systems. You will receive a full set of detailed notes at the beginning of the class for future reference and can add notes and more detail based on the in-class interaction, as well as a certificate of completion. Please visit our website for more valuable information. Course Outline, Samplers, and Notes Our short courses are designed for individuals involved in planning, designing, building, launching, and operating space and defense systems. Determine for yourself the value of our courses before you sign up. See our samples (See Slide Samples) on some of our courses. Or check out the new ATI channel on YouTube. After attending the course you will receive a full set of detailed notes from the class for future reference, as well as a certificate of completion. Please visit our website for more valuable information. About ATI and the Instructors Our mission here at ATI is to provide expert training and the highest quality professional development in space, communications, defense, sonar, radar, and signal processing. We are not a one-size-fits-all educational facility. Our short classes include both introductory and advanced courses. ATI’s instructors are world-class experts who are the best in the business. They are carefully selected for their ability to clearly explain advanced technology. Dates and Locations For the times, dates and locations of all of our short courses, please access the links below. Sincerely, The ATI Courses Team P.S. Call today for registration at 410-956-8805 or 888-501-2100 or access our website at ATI  Courses.  For general questions please email us at ATI@ATIcourses.com

Sign Up For ATI Courses eNewsletter

New Jersey Teacher Wins National Award with Help from ATI!

Video Clip: Click to Watch Terry Dougherty wins Great American Teach-Off  for Her Work Tutoring Children of Military Families Nominated by a local Rotary Club, Dougherty was one of top ten finalists left fighting for the prize. Hundreds of teachers from all over the country were nominated for this prestigious honor. Participants, families and friends were […]
Seven Seals Award
Video Clip: Click to Watch
Terry Dougherty wins Great American Teach-Off  for Her Work Tutoring Children of Military Families
Nominated by a local Rotary Club, Dougherty was one of top ten finalists left fighting for the prize. Hundreds of teachers from all over the country were nominated for this prestigious honor. Participants, families and friends were then all allowed to vote online for their favorite teachers, just like in American Idol. Each week, after all the votes were tallied, the two teachers with the lowest number of votes were eliminated from the contest. Jim Jenkins, President of the Applied Technology Institute (ATI), helped support Terry Dougherty for the award by forwarding the announcement of the contest to his instructors and people that he knows in the military. The people responded. From all over the world, all branches of the services, veteran organizations, service clubs etc., they responded. In what became a weekly ritual, they responded and voted for her. They keep voting, each and every week, until the end, until she won. The real winners in all of this are of course the children. Dougherty’s husband Tom started the tutoring program three years ago as a way to help children in need. Because military families relocate frequently, their children often suffer at school. The Seven Seals award is given through the U.S. Department of Defense to a civilian who is working to help military families. The award comes with a $10,000 grant. She will to use the grant money to purchase equipment for a mobile lab. The lab will allow parents stationed overseas participate in school activities. About ATI Since 1984, ATI has provided leading-edge public courses and onsite technical training to adult learners. Whether you are a busy engineer, a technical expert or a project manager, you can enhance your understanding of complex systems in a short time. You will become aware of the basic vocabulary essential to interact meaningfully with your colleagues.

This Maybe One Class You WANT to Blow Up in Your Face Monday, November 07, 2011

At ATI, the course IS the Bomb!!! Video Clip: Click to Watch Do you know how to evaluate the performance and vulnerability of explosives and propellants? This four-day course is designed for scientists, engineers and managers interested in the current state of explosive and propellant technology. After an introduction to shock waves, the current explosive technology […]
At ATI, the course IS the Bomb!!!
Video Clip: Click to Watch
Do you know how to evaluate the performance and vulnerability of explosives and propellants?
This four-day course is designed for scientists, engineers and managers interested in the current state of explosive and propellant technology. After an introduction to shock waves, the current explosive technology is described. Numerical methods for evaluating explosive and propellant sensitivity to shock waves are described and applied to vulnerability problems such as projectile impact and burning to detonation
This course is suited for scientists, engineers, and managers interested in the current state of explosive and propellant technology, and in the use of numerical modeling to evaluate the performance and vulnerability of explosives and propellants
Since 1984, the Applied Technology Institute (ATI) has provided leading-edge public courses and onsite technical training to DoD and NASA personnel, as well as contractors. Whether you are a busy engineer, a technical expert or a project manager, you can enhance your understanding of complex systems in a short time. You will become aware of the basic vocabulary essential to interact meaningfully with your colleagues. If you are in need of more technical training, why not take a short course? ATI short courses are less than a week long and are designed to help you keep your professional knowledge up-to-date. You can boost your career with the strong foundation for understanding the issues that must be confronted in the use and regulation of explosives and propellants. Course Outline, Samplers, and Notes Click on the course title below for more information. ATI’S EXPLOSIVES TECHNOLOGY & MODELING COURSE Click here now to see for yourself the value of this course before you sign up. What you will learn when you take this course:
  • What are Shock Waves and Detonation Waves?
  • What makes an Explosive Hazardous?
  • Where Shock Wave and Explosive Data is available
  • How to model Explosive and Propellant Performance
  • How to model Explosive Hazards and Vulnerability
  • How to use the furnished explosive performance and hydrodynamic codes
  • The current state of explosive and propellant technology
Participants will receive a copy of Numerical Modeling of Explosives and Propellants, Third Edition by Dr. Charles Mader, 2008 CRC Press. In addition, participants will receive an updated CD-ROM. About ATI and the Instructors Our mission here at ATI is to provide expert training and the highest quality professional development in space, communications, defense, sonar, radar, and signal processing. We are not a one-size-fits-all educational facility. Our short classes include both introductory and advanced courses. ATI’s instructors are world-class experts who are the best in the business. They are carefully selected for their ability to clearly explain advanced technology. Charles L. Mader, Ph.D., is a retired Fellow of the Los Alamos National Laboratory and President consulting company. Dr. Mader authored the monograph Numerical Modeling of Detonation, and also wrote four dynamic material property data volumes published by the University of California Press. His book and CD-ROM entitled Numerical Modeling of Explosives and Propellants, Third Edition, published in 2008 by CRC Press will be the text for the course. He is the author of Numerical Modeling of Water Waves, Second Edition, published in 2004 by CRC Press. He is listed in Who’s Who in America and Who’s Who in the World. He has consulted and guest lectured for public and private organizations in several countries. Dates and Locations The next dates and locations of this course are as follows: December 12-15, 2011 Albuquerque, NM September, 2012 MD/VA Area
 

ATI Wishes You a Happy Halloween!

Video Clip: Click to Watch Scary is NOT taking one of ATI’s Short Technical Classes Going back to school does not have to be terrifying like Halloween is. Just you and several like-minded professionals learning from a world class ghoul who loves to teach. Our short courses are designed for individuals involved in planning, designing, building, […]
Video Clip: Click to Watch
Scary is NOT taking one of ATI’s Short Technical Classes
Going back to school does not have to be terrifying like Halloween is. Just you and several like-minded professionals learning from a world class ghoul who loves to teach. Our short courses are designed for individuals involved in planning, designing, building, launching, and operating today’s frighteningly complex systems. The Applied Technology Institute (ATI) is not a one-size-fits-all educational facility. Our short classes include both introductory and advanced courses. Whether you are a busy engineer, a wicked witch or a project manager, you can enhance your understanding of scary space and defense systems in a short time. You will also become aware of the basic vocabulary essential to interact meaningfully with your disturbing colleagues. Course Outline, Samplers, and Notes Determine for yourself the value of our creepy courses before you sign up. See our samples (See Slide Samples) on some of our courses. Or check out the new ATI channel on YouTube. After attending the course you will receive a full set of detailed notes in blood from the class for future reference, as well as a certificate of completion. Please visit our website for more ghoulish information. About ATI and the Instructors ATI’s instructors are world-class experts who are the best in the business. They are carefully selected for their ability to clearly explain eerie and advanced technology. Our mission here at ATI is to provide expert training and the highest quality professional development in terrifying space, communications, defense, sonar, radar systems. Dates and Locations For the dates and locations of all of our short courses, please rattle the chains (links) below. Sincerely, The ATI Courses Team P.S. Call today for registration at 410-956-8805 or 888-501-2100 or access our website at www.ATIcourses.com. For general questions or inquisitions please email us at ATI@ATIcourses.com or Join, Link, Follow or Share with us at: Join us on Facebook Link to us on LinkedIn Follow us on Twitter Share with us on Slideshare P.P.S. What Happens at ATI does NOT Stay at ATI because our training helps you and your organization remain competitive in this changing and often horrifying world. Please feel free to call Mr. Jenkins personally to discuss your requirements and objectives. He will be glad to explain in gory detail what ATI can do for you, what it will cost, and what you can expect in results and future performance.

If You Want to BE a Rocket Scientist, Maybe You should LISTEN to one

Video Clip: Click to Watch Everything about Orbital Mechanics is Counterintuitive  Award-winning rocket scientist, Thomas S. Logsdon really enjoys teaching this short course titled, ATI’s Orbital Mechanics: Ideas and Insights, because everything about orbital mechanics is counterintuitive. In this comprehensive four day short course, Mr. Logsdon uses four hundred clever color graphics to clarify these and […]
Each student will receive a new personal GPS Navigator with multi-channel capability
Video Clip: Click to Watch
Everything about Orbital Mechanics is Counterintuitive 
Award-winning rocket scientist, Thomas S. Logsdon really enjoys teaching this short course titled, ATI’s Orbital Mechanics: Ideas and Insights, because everything about orbital mechanics is counterintuitive. In this comprehensive four day short course, Mr. Logsdon uses four hundred clever color graphics to clarify these and a dozen other puzzling mysteries associated with orbital mechanics. He also provides you with a few simple one-page derivations using real-world inputs to illustrate all the key concepts being explored. For example, did you know that if you fly your spacecraft into a 100-mile circular orbit and: • Put on the brakes, your spacecraft speeds up! • Mash down the accelerator, it slows down!! • Throw a banana peel out the window and 45 minutes later it will come back and slap you in the face!!! Why not take a short course? Since 1984, the Applied Technology Institute (ATI) has provided leading-edge public courses and onsite technical training to DoD and NASA personnel, as well as contractors. ATI short courses are less than a week long and are designed to help you keep your professional knowledge up-to-date. Our courses provide a practical overview of space and defense technologies which provide a strong foundation for understanding the issues that must be confronted in the use, regulation and development of complex systems. Whether you are a busy engineer, a technical expert or a project manager, you can enhance your understanding of satellite systems in a short time. You will become aware of the basic vocabulary essential to interact meaningfully with your colleagues. Determine for yourself the value of our courses before you sign up. Click here for more information on this course Click below to see slide samples from this course   Click below to see a video clip of this course on YouTube. What You Will Learn When You Take this Course: • How do we launch a satellite into orbit and maneuver it into a new location? • How do today’s designers fashion performance-optimal constellations of satellites swarming the sky? • How do planetary swing by maneuvers provide such amazing gains in performance? • How can we design the best multi-stage rocket for a particular mission? • What are libration point orbits? Were they really discovered in 1772? How do we place satellites into halo orbits circling around these empty points in space? • What are JPL’s superhighways in space? How were they discovered? How are they revolutionizing the exploration of space? After attending the course you will receive a full set of detailed notes from the class for future reference, as well as a certificate of completion. Each student will receive a new personal GPS Navigator with multi-channel capability. Please visit our website for more valuable information. About ATI and the Instructors Our mission here at ATI is to provide expert training and the highest quality professional development in space, communications, defense, sonar, radar, and signal processing. We are not a one-size-fits-all educational facility. Our short classes include both introductory and advanced courses. ATI’s instructors are world-class experts who are the best in the business. They are carefully selected for their ability to clearly explain advanced technology. For more than 30 years, Thomas S. Logsdon, has conducted broad ranging studies on orbital mechanics at McDonnell Douglas, Boeing Aerospace, and Rockwell International His key research projects have included Project Apollo, the Skylab capsule, the nuclear flight stage and the GPS radionavigation system. Mr. Logsdon has taught 300 short courses and lectured in 31 different countries on six continents. He has written 40 technical papers and journal articles and 29 technical books including Striking It Rich in Space, Orbital Mechanics: Theory and Applications, Understanding the Navstar, and Mobile Communication Satellites. Dates and Locations The next date and location of this short course is: Jan 9-12, 2012 Cape Canaveral,FL


Sign Up For ATI Courses eNewsletter

What there is to Know Grows Exponentially Every Day

Thomas Edison and His Phonograph (1877) Video Clip: Click to Watch In a knowledge-based economy, your success is directly proportional to the amount of knowledge you possess As Thomas Edison observed, “We don’t know one millionth of one percent about anything.” At the rate at which new information is generated today, doesn’t it seem like the […]
Thomas Edison and His Phonograph (1877)
Thomas Edison and His Phonograph (1877)
Video Clip: Click to Watch
In a knowledge-based economy, your success is directly proportional to the amount of knowledge you possess
As Thomas Edison observed, “We don’t know one millionth of one percent about anything.” At the rate at which new information is generated today, doesn’t it seem like the gap between what you know and what you need is to know is growing at a dizzying pace? From submarine sonar to military radar to an orbiting spacecraft, you or your team must face the challenges of tomorrow with what you know today. With the practical knowledge gained from a short course, you can put textbook theories into real-world practice and expand your problem-solving and risk management skills significantly. Whether you are a busy engineer, a technical expert or a project manager, you can enhance your understanding of these complex systems in a short time. Since 1984, the Applied Technology Institute (ATI) has provided leading-edge public courses and onsite technical training to DoD and NASA personnel, as well as contractors. Our courses provide a practical overview of space and defense technologies which provide a strong foundation for understanding the issues that must be confronted in the use, regulation and development of complex systems. You will become aware of the basic vocabulary essential to interact meaningfully with your colleagues. Course Outline, Samplers, and Notes Our short courses are designed for individuals involved in planning, designing, building, launching, and operating space and defense systems. Determine for yourself the value of our courses before you sign up. See our samples (See Slide Samples) on some of our courses. Or check out the new ATI channel on YouTube. After attending the course you will receive a full set of detailed notes from the class for future reference, as well as a certificate of completion. Please visit our website for more valuable information.


Sign Up For ATI Courses eNewsletter

Do You Wish to Enhance Your Understanding of Unmanned Aircraft?

Where will you go to learn more about this exciting field? Video Clip: Click to Watch Worldwide commercial, government and military use of Unmanned Aircraft Systems (UAS) is expected to increase significantly in the future, placing unprecedented demands on scare radio resources. In fact, the Teal Group’s 2009 market study estimates that UAS spending will […]
MQ-9 Reaper on Approach for Landing
Where will you go to learn more about this exciting field?

Video Clip: Click to Watch

Worldwide commercial, government and military use of Unmanned Aircraft Systems (UAS) is expected to increase significantly in the future, placing unprecedented demands on scare radio resources. In fact, the Teal Group’s 2009 market study estimates that UAS spending will almost double over the next decade, from current worldwide UAS expenditures of $4.4 billion annually to $8.7 billion within a decade.

Since 1984, the Applied Technology Institute (ATI) has provided leading-edge public courses and onsite technical training to DoD and NASA personnel, as well as contractors. Whether you are a busy engineer, a technical expert or a project manager, you can enhance your understanding of complex systems in a short time. You will become aware of the basic vocabulary essential to interact meaningfully with your colleagues. Course Outline, Samplers, and Notes Determine for yourself the value of our UAS course before you sign up. Click here for UAS Course Slide Sampler After attending the course you will receive a full set of detailed notes from the class for future reference, as well as a certificate of completion. Please visit our website for more valuable information. About ATI and the Instructors Our mission here at ATI is to provide expert training and the highest quality professional development in space, communications, defense, sonar, radar, and signal processing. We are not a one-size-fits-all educational facility. Our short classes include both introductory and advanced courses. ATI’s instructors are world-class experts who are the best in the business. They are carefully selected for their ability to clearly explain advanced technology. Mr. Mark N. Lewellen, the ATI UAS instructor, has over twenty-five years with a wide variety of satellite, space, and aviation related projects. He is the Vice Chairman of a UAS group (in the United States) that is responsible for generating the technical basis for future UAS spectrum requirements. He was also chairman of an international group preparing for a World Radiocommunication Conference (WRC-2012) that may revise the international Radio Regulations governing the use of the radio-frequency spectrum.
Sign Up For ATI Courses eNewsletter

ATI’s Short Course on Wavelets: A Conceptual Practical Approach

Video Clip: Click to Watch Wavelets can be used to identify the time, the frequency, and the shape of a transient signal  Fast Fourier Transforms (FFT) are in wide use and work very well if your signal stays at a constant frequency (“stationary”). But if the signal could vary, have pulses, “blips” or any other kind […]

Video Clip: Click to Watch

Wavelets can be used to identify the time, the frequency, and the shape of a transient signal 

Fast Fourier Transforms (FFT) are in wide use and work very well if your signal stays at a constant frequency (“stationary”). But if the signal could vary, have pulses, “blips” or any other kind of interesting behavior then you need Wavelets. Wavelets are remarkable tools that can stretch and move like an amoeba to find the hidden “events” and then simultaneously give you their location, frequency, and shape. Wavelet Transforms allow this and many other capabilities not possible with conventional methods like the FFT

In this class you will learn how Wavelets can be used to identify the time, the frequency, and the shape of a transient signal (radar pulse, heartbeat, stock market tic, image edge detection in baggage, etc,) and do all 3 simultaneously! For example, in the figure above (a 3-D wavelet transform of a chirp signal), the horizontal axis indicates time, the vertical axis indicates frequency, and the colors indicate magnitude (at that particular time and frequency) This course is vastly different from traditional math-oriented Wavelet courses or books in that we use examples, figures, and computer demonstrations to show how to understand and work with Wavelets. This is a comprehensive, in-depth, up-to-date treatment of the subject, but from an intuitive, conceptual point of view.  We do look at a few key equations from the traditional literature but only AFTER the concepts are demonstrated and understood. If desired, further study from scholarly texts and papers is then made much easier and more palatable when you already understand the fundamental equations and how they relate to the real world. Each student will receive extensive course slides, a CD with MATLAB demonstrations, and a copy of the instructor’s new book, Conceptual Wavelets.  What you will learn:  • How to use Wavelets as a “microscope” to analyze data that changes over time or has hidden “events” that would not show up on an FFT.  • How to understand and efficiently use the three types of Wavelet Transforms to better analyze and process your data using state-of-the-art methods and applications.  • How to compress and de-noise data using advanced Wavelet techniques. How to avoid potential pitfalls by understanding the concepts. A “safe” method if in doubt.  • How to increase productivity and reduce cost by choosing (or building) a Wavelet that best matches your particular application.  Course Outline, Samplers, and Notes  1. What is a Wavelet? Examples and Uses. “Waves” that can start, stop, move and stretch. Real-world applications in many fields: Signal and Image Processing, Internet Traffic, Airport Security, Medicine, JPEG, Finance, Pulse and Target Recognition, Radar, Sonar, etc.  2. Comparison with traditional methods. The concept of the FFT, the STFT, and Wavelets as all being various types of comparisons with the data. Strengths, weaknesses, optimal choices.  3. The Continuous Wavelet Transform (CWT). Stretching and shifting the Wavelet for optimal correlation. Predefined vs. Constructed Wavelets.  4. The Discrete Wavelet Transform (DWT). Shrinking the signal by factors of 2 through downsampling. Understanding the DWT in terms of correlations with the data. Relating the DWT to the CWT. Demonstrations and uses.  5. The Redundant Discrete Wavelet Transform (RDWT). Stretching the Wavelet by factors of 2 without downsampling. Tradeoffs between the alias-free processing and the extra storage and computational burdens. A hybrid process using both the DWT and the RDWT. Demonstrations and uses.  6. “Perfect Reconstruction Filters”. How to cancel the effects of aliasing. How to recognize and avoid any traps. A breakthrough method to see the filters as basic Wavelets. The “magic” of alias cancellation demonstrated in both the time and frequency domains.  7. Highly useful properties of popular Wavelets. How to choose the best Wavelet for your application. When to create your own and when to stay with proven favorites.  8. Compression and De-Noising using Wavelets. How to remove unwanted or non-critical data without throwing away the alias cancellation capability. A new, powerful method to extract signals from large amounts of noise. Demonstrations.  9. Additional Methods and Applications. Image Processing. Detecting Discontinuities, Self-Similarities and Transitory Events. Speech Processing. Human Vision. Audio and Video. BPSK/QPSK Signals. Wavelet Packet Analysis. Matched Filtering. How to read and use the various Wavelet Displays. Demonstrations.  10. Further Resources. The very best of Wavelet references.  Determine for yourself the value of this course before you sign up.  See Slide Samples of our Wavelets: A Conceptual Practical Approach  After attending the course you will receive a full set of detailed notes from the class for future reference, as well as a certificate of completion. Please visit our website for more valuable information.  Comments from participants:  “Your Wavelets course was very helpful in our Radar studies. We often use wavelets now instead of the Fourier Transform for precision de-noising.”  –Long To, NAWC WD, Point Wugu, CA  “I was looking forward to this course and it was very rewarding–Your clear explanations starting with the big picture immediately contextualized the material allowing us to drill a little deeper with a fuller understanding”  –Steve Van Albert, Walter Reed Army Institute of Research  “Good overview of key wavelet concepts and literature. The course provided a good physical understanding of wavelet transforms and applications.”  –Stanley Radzevicius, ENSCO, Inc.  The Instructor  Dr. Lee Fugal is the Founder and President of an independent consulting firm. He has over 30 years of industry experience in Digital Signal Processing (including Wavelets) and Satellite Communications.  He has been a full-time consultant on numerous assignments since 1991. Recent projects include Excision of Chirp Jammer Signals using Wavelets, design of Space-Based Geolocation Systems (GPS & Non-GPS), and Advanced Pulse Detection using Wavelet Technology.  He has taught upper-division University courses in DSP and in Satellites as well as Wavelet short courses and seminars for Practicing Engineers and Management. He holds a Masters in Applied Physics (DSP) from the University of Utah, is a Senior Member of IEEE, and a recipient of the IEEE Third Millennium Medal.  About ATI  Since 1984, the Applied Technology Institute (ATI) has provided leading-edge public courses and onsite technical training to DoD and NASA personnel, as well as contractors.  Our mission here at ATI is to provide expert training and the highest quality professional development in space, communications, defense, sonar, radar, and signal processing. We are not a one-size-fits-all educational facility.  Our short classes include both introductory and advanced courses. ATI’s instructors are world-class experts who are the best in the business. They are carefully selected for their ability to clearly explain advanced technology.  Times, Dates, and Locations  Wavelets: A Conceptual Practical Approach  Feb 22-24, 2011 San Diego, CA  Jun 7-9, 2011 Beltsville, MD  Sincerely,  The ATI Courses Team  P.S Call today for registration at 410-956-8805 or 888-501-2100 or access our website at www.ATIcourses.com. For general questions please email us at ATI@ATIcourses.com. 

Wavelets — “Beyond Comparison”

by D. Lee Fugal Radar, Sonar, Geology and many other varied fields use Wavelets . They are usually presented in mathematical formulae, but can actually be understood in terms of simple comparisons with your data. As a background, we first look at the Discrete Fourier Transform (DFT) or it’s faster and more famous cousin, the […]
by D. Lee Fugal Radar, Sonar, Geology and many other varied fields use Wavelets . They are usually presented in mathematical formulae, but can actually be understood in terms of simple comparisons with your data. As a background, we first look at the Discrete Fourier Transform (DFT) or it’s faster and more famous cousin, the Fast Fourier Transform (FFT). These transforms can be thought of as a series of comparisons with your data, which we will call for now a “signal” for consistency. Signals that are simple waves of constant frequencies can be processed with ordinary DFT/FFT methods. Real-world signals, however, often have frequencies that can change over time or have pulses, anomalies, or other “events” at certain specific times. This type of signal can tell us where something is located on the planet, the health of a human heart, the position and velocity of a “blip” on a Radar screen, stock market behavior, or the location of underground oil deposits. For these signals, we will often do better with wavelets. We now demonstrate both the Fourier and Wavelet Transforms of a simple pulse signal. The Discrete Fourier Transform/Fast Fourier Transform (DFT/FFT) We start with a point-by-point comparison of the pulse signal (D) with a high frequency wave or “sinusoid” of constant frequency (A) as shown in Figure 1 below. We obtain a single “goodness” value from this comparison (a correlation value) which indicates how much of that particular sinusoid is found in our own pulse signal. Figure 1 Figure 2 We can observe that the pulse has 5 cycles in 1/4 of a second. This means that it has a frequency of 20 cycles in one second or “20 Hz.” The comparison sinusoid, A, has twice the frequency or 40 Hz. Even in the area where the signal is non-zero (the pulse) the comparison is not very good. By lowering the frequency of A from 40 to 20 Hz (waveform B) we are effectively “stretching” the sinusoid (A) by 2 so it has only 20 cycles in 1 second. We compare point-by-point again over the 1-second interval with the pulse (D). This next correlation gives us another value indicating how much of this lower frequency sinusoid (now the same frequency as our pulse) is contained in our signal. This time the correlation of the pulse with the comparison sinusoid is very good. The peaks and valleys of B and the pulse portion of D align (or can be easily shifted to align) and thus we have a large correlation value. Figure 1 shows us one more comparison of our original sinusoid (A) stretched by 4 and trimmed so it has only 10 cycles in the 1 second interval (C). This comparison with D is poor again. We could continue stretching and trimming until the sinusoid becomes a straight line having zero frequency or “DC” (named for the zero frequency of Direct Current) but all these comparisons will be increasingly poor. Figure 3 An actual DFT (or functionally equivalent FFT) compares many “stretched” sinusoids (“analysis signals”) to the pulse rather than just the three shown here. The best correlation is found when the sinusoid frequency best matches that of the pulse. Figure 2 shows the first part of an actual FFT of our pulse signal D. The locations of our sample comparison sinusoids A, B, and C are indicated. Notice that the FFT tells us correctly that the pulse has primarily a frequency of 20 Hz, but does NOT tell us where the pulse is located in time! The Continuous Wavelet Transform (CWT) Wavelets are exciting because they too are comparisons, but instead of cor-relating with various stretched, infinite length unchanging sinusoids, they use smaller or shorter waveforms (“wave–lets”) that can start and stop where we wish. By stretching and shifting the wavelet numerous times we get numerous correlations. If our signal has some interesting events embedded, we will get the best correlation when the stretched wavelet is similar in frequency to the event and is shifted to line up with it in time. Knowing the amounts of stretching and shifting we can determine both location and frequency. Figure 3 demonstrates the process. Instead of sinusoids for our comparisons, we will use wavelets. Waveform A shows a Daubechies 20 (Db20) wavelet about 1/8 second long that starts at the beginning (t = 0) and effectively ends well before 1/4 second. The zero values are extended to the full 1 second. The point-by-point comparison with our pulse signal D will be very poor and we will obtain a very small correlation value. Figure 4 In the previous FFT/DFT discussion we proceeded directly to stretching. In the Wavelet Transforms we shift the wavelet slightly to the right and per-form another comparison with this new waveform to get another correlation value. We continue to shift until the Db20 wavelet is in the position shown in B. We get a little better comparison than A, but still very poor because B and D are different frequencies. After we have shifted the wavelet all the way to the end of the 1 second time interval we start over with a slightly stretched wavelet at the beginning and repeatedly shift to the right to obtain another full set of these correlation values. C shows the Db20 wavelet stretched to where the frequency is roughly the same as the pulse (D) and shifted to the right until the peaks and valleys line up fairly well. At this particular shifting and stretching we should obtain a very good comparison and large correlation value. Further shifting to the right, however, even at this same stretching will yield increasingly poor correlations. In the CWT we thus have one correlation value for every shift of every stretched wavelet. To show the data for all these stretches and shifts, we use a 3-D display with the stretching (roughly inverse of frequency) as the vertical axis, the shifting in time as the horizontal axis, and brightness (or color) to indicate the strength of the correlation. Figure 4 shows a Continuous Wavelet Transform (CWT) display for this particular pulse signal (D). Note the strong correlation of the three larger peaks and valleys of the pulse with the Db20 wavelet, the strongest being where all the peaks and valleys best align. The display shows that the best correlation occurs at the brightest point or at about 3/8 second. This agrees with what we already know about the pulse, D. The display also tells us how much the wavelet had to be stretched (or “scaled”) and this indicates the approximate frequency of the pulse. Thus we know not only the frequency of the pulse, but also the time of it’s occurrence! Figure 5 We run into this simultaneous time/frequency concept in everyday life. For example, a bar of sheet music may tell the pianist to play a C-chord of three different frequencies at exactly the same time on the first beat of the measure. For the simple example above we could have just looked at the pulse (D) to see its location and frequency. The next example is more representative of wavelets in the real world. Figure 5 shows a signal with a very small, very short discontinuity at time 180. The Amplitude vs. Time plot of the signal is shown at the upper left but does not show the tiny “event”. The Magnitude vs. Frequency FFT plot tells what frequencies are present but does not indicate the time associated with those frequencies. With the wavelet display, however, we can clearly see a vertical line at 180 at low scales when the wavelet has very little stretching, indicating a very high frequency. The CWT display also “finds” the large oscillating wave at the higher scales where the wavelet has been stretched and compares well with the lower frequencies. For this short discontinuity we used a short wavelet (a Db4) for best comparison. This is an example of why wavelets have been referred to as a “mathematical microscope” for their ability to find interesting events of various lengths and frequencies hidden in data. Besides acting as a “microscope” to find hidden events in our data, wavelets can also separate the data into various frequency components, as does the FFT. The FFT/DFT is used extensively to remove unwanted noise that is prevalent throughout the entire signal such as a 60 Hz hum. Unlike the FFT, however, the wavelet transform allows us to remove frequency components at specific times in the data. This allows us a powerful capability to throw out the “bad” and keep the “good” part of the data in that frequency range.  These types of transforms are called “Discrete Wavelet Transforms” (DWT). They also have easily computed inverse transforms (IDWT) that allow us to reconstruct the signal after we have identified and removed the noise or superfluous data for denoising or compression. Undecimated or “Redundant” Discrete Wavelet Transforms (UDWT/RDWT) In one type of DWT, the Redundant Discrete Wavelet Transform, or RDWT, we first compare (correlate) the Wavelet “filter” with itself. This produces a “Highpass Halfband Filter” or “superfilter.” When we compare or correlate our signal with this superfilter we extract the highest half of the frequencies. For a very simple denoising, we could just discard these high frequencies (for whatever time period we choose) and then reconstruct a denoised signal. Multi-level RDWT’s allow us to stretch the wavelet, similar to what we did in the CWT, except that it is done by factors of 2 (twice as long, 4 times as long, etc.). This allows us stretched superfilters that can be halfband, quarter-band, eighth-band and so forth. Figure 6 Conventional (Decimated) Discrete Conventional Transforms (DWT) We stretched the wavelet in the CWT and the RDWT. In the conventional DWT, we shrink the signal instead and compare it to the unchanged wavelet. We do this by “downsampling by 2.” Every other point in the signal is discarded. We have to deal with “aliasing” (not having enough samples left to represent the high frequency components and thus producing a false signal). We must also be concerned with “shift invariance” (do we throw away the odd or the even values? — it matters!). If we are careful, we can deal with these concerns. One amazing capability of the filters in the conventional DWT is alias cancellation where the basic wavelet and 3 similar “filters” combine to allow us to reconstruct the original signal perfectly. The stringent requirements on the wavelets to be able to do this is part of why they often look so strange (see Figure 8). Figure 7 As with the RDWT, we can denoise our signal by discarding portions of the frequency spectrum — as long as we are careful not to throw away vital parts of the alias cancellation capability. Correct and careful downsampling also aids with compression of the signal. Modern JPEG compression uses wavelets. Figure 6 shows JPEG image compression. The image on the right was compressed by a ratio of 157:1 using a Biorthogonal 9/7 set of wavelets. There are many types of Wavelets. Some come from mathematical expressions. Others are built from basic Wavelet Filters having as little as 2 points. The Db4, Db20, and Biorthogonal wavelets shown earlier are examples of this 2nd type. Figure 7 shows a 768 point approximation of a continuous Db4 wavelet with the 4 filter points (plus 2 zeros) superimposed. Some wavelets have symmetry (valuable in human vision perception) such as the Biorthogonal Wavelet pairs. Shannon or “Sinc” Wavelets can find events with specific frequencies (these are similar to the Sinc Function filters found in traditional DSP). Haar Wavelets (the shortest) are good for edge detection and reconstructing binary pulses. Coiflets Wavelets are good for data with self-similarities (fractals) such as financial trends. Some of the wavelet families are shown in Figure 8. Figure 8 You can even create your own wavelets, if needed. However there is “an embarrassment of riches” in the many wavelets that are already out there and ready to go. We have already seen that with their ability to stretch and shift that wavelets are extremely adaptable. You can usually get by very nicely with choosing a less-than-perfect wavelet. The only “wrong” choice is to avoid wavelets due to an abundant selection. Bio + ad There is much more to discover than can be presented in this short overview. The time spent, however, in learning, understanding and correctly using wavelets for these “non-stationary” signals with anomalies at specific times or changing frequencies (the fascinating, real-world kind!) will be re-paid handsomely. Article © 2009 Space & Signals Technologies LLC, All Rights Reserved. http://www.ConceptualWavelets.com About the author D. Lee Fugal is Founder and President of Space & Signals Technologies, LLC., a company specializing in the presentation of difficult concepts in an intuitive, understandable manner. He has over 30 years of industry experience in Digital Signal Processing (including Wavelets) and Satellite Communications. He has been a full-time consultant on numerous assignments since 1991. Additionally, Mr. Fugal offers short courses for Jim Jenkins at ATI (https://aticourses.com).