"User Requirements and Relational Databases" is (2021 Revised) Chapter 1 of Essential Aspects of Physical Design and Implementation of Relational Databases, an open textbook for CST3604, Database Design.
"The Physical Data Model" is (2021 Revision of) Chapter 2 of Essential Aspects of Physical Design and Implementation of Relational Databases, an open textbook for CST3604, Database Design.
"Distributed Database Design" is (2021 Revision of) Chapter 3 of Essential Aspects of Physical Design and Implementation of Relational Databases, an open textbook for CST3504, Database Design.
"Security" is (2021 Revision of) Chapter 4 of Essential Aspects of Physical Design and Implementation of Relational Databases, an open textbook for CST3604, Database Design.
"Query Processing and Performance" is (2021 Revision of) Chapter 5 of Essential Aspects of Physical Design and Implementation of Relational Databases, an open textbook for CST3504, Database Design.
"Transaction Management" is (2021 Revision of) Chapter 6 of Essential Aspects of Physical Design and Implementation of Relational Databases, an open textbook for CST3604, Database Design.
"Transactions and the Database Recovery" is (2021 Revision of) Chapter 7 of Essential Aspects of Physical Design and Implementation of Relational Databases, an open textbook for CST3604, Database Design.
Students and professionals in science, design and technology have to develop and communicate concepts that are often difficult to comprehend for the public, their peers and even themselves.
IMAGE | ABILITY – Visualizing the Unimaginable, will help you enhance your communication and interpersonal skills and provide insight, tips and tricks to make such complex and seemingly unimaginable concepts and ideas imaginable.
After finishing this course you will be more skilled in finding the right visual language to convey your ideas, thoughts and vision. You will be able to illustrate units and quantities, concepts and themes and you will know how to unravel complexity by using diagrams and schemes.
This eBook was written as the sequel to the eBook titled DC Circuits, which was written in 2016 by Chad Davis.
This eBook covers Alternating Current (AC) circuit theory as well us a brief introduction of electronics. It is
broken up into seven modules. Module 1 covers the basic theory of AC signals. Since only DC sources are used in
the first eBook, details of AC signals such as sinusoidal waveforms (or sine waves), square waves, and triangle
waves are provided. Module 2, titled AC Circuits Math Background, covers the mathematics background needed
for solving AC circuit problems. The background material in Modules 1 and 2 are combined in Module 3 to solve
circuits with AC sources that include resistors, inductors, and capacitors (RLC circuits).
ART 3164 (undergrad) course will explore the history of architecture and urbanism in New York City from the colonial period through the present day. We will study well-known monuments along with lesser-known but important works, and consider the political, cultural, and economic factors that fueled the development of New York’s built environment. This course will situate the architecture of New York City within the broader discourse of American architectural history, and will examine the impact that New York had on nationwide architectural trends. Classroom lectures will be supplemented regularly with site visits across the city.
ART 7097 History of Architecture and Urbanism in New York City
This course will explore the history of architecture and urbanism in New York City from the colonial period through the present day. We will study well-known monuments along with lesser-known but important works, and consider the political, cultural, and economic factors that fueled the development of New York’s built environment. This course will situate the architecture of New York City within the broader discourse of American architectural history, and will examine the impact that New York had on nationwide architectural trends. Classroom lectures will be supplemented regularly with site visits across the city.
This assignment is designed for students in First Year Seminar for Engineering and Computer Science. The main goal of the assignment is to introduce students to their major and stimulating their interests related to career choices and academics. This will give students a chance to develop integrative learning skills by making connections between their major and respective career opportunities. This assignment will use new features of ePortfolio to enhance student‰Ûªs creativity by customizing everything from background, photos, fonts, text, portfolio content etc. Instead of a uniform profile, each students‰Ûª page will reflect the distinct visual representation of their personality, brand, major, and career. Students will review their peers‰Ûª ePortfolios to provide constructive feedback. The ePortfolio page will later be deposited once approved by the faculty.
This activity guides students through the evaluation of a website that they have created to see if it is accessible for users with disabilities. Students will simulate a number of different disabilities (e.g. visual impairments, color blindness, auditory impairments, motor impairments) to see if their website is accessible; they will also use automated W3 and WAVE tools to evaluate their sites. Students will consider the needs of users with disabilities by creating a persona and scenario of a user with disabilities interacting with their site. Finally, students will write up recommendations to change their site and implement the changes.
This presentation introduces Computer Science students to the notion of accessibility: developing software for people with disabilities. This lesson provides a discussion of why accessibility is important (including the legal, societal and ethical benefits) as well as an overview of different types of impairments (visual, auditory, motor, neurological/cognitive) and how developers can make their software accessible to users with those disabilities. This lesson includes videos and links to readings and tutorials for students.
An A-Frame Virtual Reality Programming activity for CS0 students. Part of the CUNY CS04All project.
An Encryption activity and worksheet for CS0 students. Part of the CUNY CS04All project.
A Python Functions activity - "Drawing with Turtle" - for CS0 students. Part of the CUNY CS04All project.
A Python Functions activity - "Scrabble game" - for CS0 students. Part of the CUNY CS04All project.
A Python IF-ELSE activity - "The Dating Equation" - for CS0 students. Part of the CUNY CS04All project.
A Python Lists activity - "Gift Exchange" - for CS0 students. Part of the CUNY CS04All project.
A Python Lists activity - "Hangman game" - for CS0 students. Part of the CUNY CS04All project.
"The 16 lectures in this course cover the topics of adaptive antennas and phased arrays. Both theory and experiments are covered in the lectures. Part one (lectures 1 to 7) covers adaptive antennas. Part two (lectures 8 to 16) covers phased arrays. Parts one and two can be studied independently (in either order). The intended audience for this course is primarily practicing engineers and students in electrical engineering. This course is presented by Dr. Alan J. Fenn, senior staff member at MIT Lincoln Laboratory. Online Publication"
" This is a graduate course on the design and analysis of algorithms, covering several advanced topics not studied in typical introductory courses on algorithms. It is especially designed for doctoral students interested in theoretical computer science."
General James Clapper, former United States Director of National Intelligence and the National Geospatial-Intelligence Agency (NGA), once said \everything happens somewhere.\" He stressed that there are aspects of time and place to every intelligence problem. In this course, you will examine how time and place work with general intelligence techniques to create geospatial intelligence. You will learn and apply critical thinking skills, structured analytical techniques, and other intelligence methods in a geospatial context. You'll also learn how to reduce personal and organizational bias by conducting an Analysis of Competing Hypotheses, by R. Heuer, a 45-year veteran of the CIA. As a result, you will be better prepared for the world of geospatial intelligence analysis."
- Information Science
- Material Type:
- Full Course
- Penn State University
- Provider Set:
- Penn State's College of Earth and Mineral Sciences (http:// e-education.psu.edu/oer/)
- Dennis Bellafiore
- Todd Bacastow
- Date Added:
A comprehensive treatment of the advanced methods of applied mathematics. Designed to strengthen the mathematical abilities of graduate students and train them to think on their own. Review of elementary methods in complex analysis, ordinary differential equations, and partial differential equations. Expansions around regular and irregular singular points; asymptotic evaluation of integrals, regular perturbations; WKB method; multiple scale method; boundary-layer techniques.
This course will present advanced topics in Artificial Intelligence (AI), including inquiries into logic, artificial neural network and machine learning, and the Turing machine. Upon successful completion of this course, students will be able to: define the term 'intelligent agent,' list major problems in AI, and identify the major approaches to AI; translate problems into graphs and encode the procedures that search the solutions with the graph data structures; explain the differences between various types of logic and basic statistical tools used in AI; list the different types of learning algorithms and explain why they are different; list the most common methods of statistical learning and classification and explain the basic differences between them; describe the components of Turing machine; name the most important propositions in the philosophy of AI; list the major issues pertaining to the creation of machine consciousness; design a reasonable software agent with java code. (Computer Science 408)
Following a brief classroom discussion of relevant principles, each student completes the paper design of several advanced circuits such as multiplexers, sample-and-holds, gain-controlled amplifiers, analog multipliers, digital-to-analog or analog-to-digital converters, and power amplifiers. One of each student's designs is presented to the class, and one may be built and evaluated. Associated laboratory emphasizing the use of modern analog building blocks. Alternate years.
This course will expand upon SQL as well as other advanced topics, including query optimization, concurrency, data warehouses, object-oriented extensions, and XML. Additional topics covered in this course will help you become more proficient in writing queries and will expand your knowledge base so that you have a better understanding of the field. Upon successful completion of this course, the student will be able to: write complex queries, including full outer joins, self-joins, sub queries, and set theoretic queries; write stored procedures and triggers; apply the principles of query optimization to a database schema; explain the various types of locking mechanisms utilized within database management systems; explain the different types of database failures as well as the methods used to recover from these failures; design queries against a distributed database management system; perform queries against database designed with object-relational extensions; develop and query XML files. (Computer Science 410)
Energy policy is typically evolutionary as opposed to revolutionary. We can look to historical policies to understand how we've inherited the policies governing our energy use today. But looking backward only tells us part of the story. In the face of climate change, we need to look ahead and instead envision a more revolutionary change to our energy systems and the policies that govern them. This class takes you on that journey to energy policies past, present, and future. We look at the political realities of addressing climate change at various scales of governance and work together to craft our own ideal scenarios of what a responsible energy future will be.
This course is a survey of principal concepts and methods of fluid dynamics. Topics include mass conservation, momentum, and energy equations for continua; Navier-Stokes equation for viscous flows; similarity and dimensional analysis; lubrication theory; boundary layers and separation; circulation and vorticity theorems; potential flow; introduction to turbulence; lift and drag; surface tension and surface tension driven flows.
Project-based course on the design of mechatronic devices to address needs identified by hospital-based clinicians and industry. Students work in teams to develop a mechatronic prototype. The lectures will cover the design of medical devices and robotics including sensors, actuators, and robots. The students will communicate with customers to understand design needs, then conduct study on prior art, intellectual property, due diligence, and idea conceptualization. Students will present ideas in class and to a broad audience from local industry. Students will also write a publication-quality final report, which they will be encouraged for publication submission.
This class presents the application of principles of soil mechanics. It considers the following topics: the origin and nature of soils; soil classification; the effective stress principle; hydraulic conductivity and seepage; stress-strain-strength behavior of cohesionless and cohesive soils and application to lateral earth stresses; bearing capacity and slope stability; consolidation theory and settlement analyses; and laboratory and field methods for evaluation of soil properties in design practice.
This course is designed to introduce students who wish to specialize in stress analysis of thin-walled structures to more advanced topics such as the analysis of statically indeterminate structures, warping, constraint stresses, shear diffusion, and elements of plate bending.
Foundations of 3D elasticity. Fluid and elastic wave equations. Elastic and plastic waves in rods and beams. Waves in plates. Interaction with an acoustic fluid. Dynamics and acoustics of cylindrical shells. Radiation and scattering by submerged plates and shells. Interaction between structural elements. Response of plates and shells to high-intensity loads. Dynamic plasticity and fracture. Damage of structure subjected to implosive and impact loads.
This course is a continuation of 24.951. This semester the course topics of interest include movement, phrase structure, and the architecture of the grammar.
This course provides a deep understanding of engineering systems at a level intended for research on complex engineering systems. It provides a review and extension of what is known about system architecture and complexity from a theoretical point of view while examining the origins of and recent developments in the field. The class considers how and where the theory has been applied, and uses key analytical methods proposed. Students examine the level of observational (qualitative and quantitative) understanding necessary for successful use of the theoretical framework for a specific engineering system. Case studies apply the theory and principles to engineering systems.
Recent results in cryptography and interactive proofs. Lectures by instructor, invited speakers, and students. Alternate years. The topics covered in this course include interactive proofs, zero-knowledge proofs, zero-knowledge proofs of knowledge, non-interactive zero-knowledge proofs, secure protocols, two-party secure computation, multiparty secure computation, and chosen-ciphertext security.
This is a clinically oriented course, which covers topics that were not included in the basic courses of both removable partial denture fabrication and complete denture fabrication. Topics including denture repairs, overdentures, implant supported dentures, single dentures, and combination case will be covered on the complete denture side of the course. Topics on the removable partial denture side of the course will include rotational path removable partial dentures, swing lock and precision attachment removable partial dentures, as well as repair and maintenance phase information.