Courses tagged with "How to Succeed" (381)

Products and technologies that influence and transform the way we live, work, and communicate rely on the development of technical standards. Standards also fuel compatibility and interoperability, reduce costs and risk, simplify product development, enable innovation, hasten time-to-market for new products – and can help determine a company’s global competitiveness. Standards play a vital role in helping consumers understand and compare competing products, and give confidence to investors.

This course will enable learners to better contribute to their organization and to advance their careers. By completing this course, learners will understand:

• different types of standards
• how they impact trade and innovation
• how they evolve
• why companies participate in standards development
• how standards change to meet emerging needs
• how to integrate related activities with other organizational functions
• strategic implications
• how standards apply to product design and planning.

We will also discuss conformity assessment, regulation and intellectual property.

This engineering course offers a practitioner’s view of technical standards and is geared to students and professionals in the fields of engineering, technology, computing, business, economics and law – particularly those working in all facets of product planning, development, and support.

Develop insights on navigating the innovation process from idea generation to commercialization. Build knowledge on how to create strategies to bring innovations to market. Develop an innovation portfolio and business model canvas for your venture.

Overview of chemical engineering through discussion and engineering analysis of physical and chemical processes.

La necesidad de conocer los vehículos aeroespaciales y sus sistemas de vuelo exige el conocimiento adecuado y aplicado a la Ingeniería de los diferentes métodos de cálculo y diseño en el campo aeroespacial; el uso de la experimentación aerodinámica y de los parámetros más significativos en la aplicación teórica; el acercamiento a las técnicas experimentales, equipamiento e instrumentos de medida propios de la disciplina; la simulación, diseño, análisis e interpretación de experimentación y operaciones en vuelo; los sistemas de mantenimiento y certificación de aeronaves.

Estas necesidades se acometen de diversas formas en el sector aeroespacial dependiendo de si es un vehículo espacial, una aeronave de ala fija y una aeronave de ala rotatoria. Es esta última la que centra el objetivo de esta asignatura introductoria hacia conocimientos de mayor envergadura en curso de master o especialización.

Con este curso, el alumnado será capaz de aprender y entender los conceptos básicos de visión por computador, además de  implementar de forma práctica algoritmos de análisis de imágenes a través de computadores utilizando la biblioteca de funciones OpenCV.

El Análisis de Imágenes o Visión por Computador es la capacidad de los ordenadores de analizar imágenes capturadas por una cámara y obtener la información de los objetos que se hayan presentes en esa escena. En la actualidad, constituye uno de los campos de la Inteligencia Artificial con un mayor ritmo de desarrollo y que más aplicaciones nuevas está presentando.

Hasta hace pocos años las cámaras digitales solo estaban implantadas en el ambiente industrial. Allí se utilizan con dos fines:

1. Lograr una mayor interacción entre los robots industriales y el entorno que los rodea.
2. Conseguir un control de calidad total de los productos fabricados.

Con la aparición de nuevo hardware, cámaras y algoritmos, el mundo de la Visión por Computador ya no se centra exclusivamente en el ambiente industrial sino que se extiende a los smartphones, la industria del videojuego e incluso a los coches.

Otra característica que ha cambiado recientemente es que hasta hace poco tiempo las técnicas de análisis de imágenes eran accesibles solamente a un reducido número de especialistas. Los programas que se utilizaban eran costosos, con poca documentación y que exigían equipos informáticos de gama alta. Esto es ahora muy distinto; en concreto la biblioteca OpenCV, que se verá en el curso, constituyen una solución de altísimo nivel, gratuitas, portables a diversos sistemas operativos y equipos, ordenadores o teléfonos inteligentes y que constituyen de facto un estándar en la comunidad científica.

Para que el alumnado pueda realizar diversas aplicaciones relacionadas con la Visión por Computador, a lo largo del curso se revisan los tipos básicos de elementos y sensores, viéndose las ventajas e inconvenientes de cada uno de ellos, así como las técnicas más usuales de procesar la información que proveen. A partir de dicho procesamiento de la información y de la extracción de características, se presentan diversos métodos para el reconocimiento de patrones.

Con este curso aprenderás a desarrollar y operar un proyecto con una máquina CNC, a través de la simulación de un caso real y con el objetivo de producir piezas de ajedrez para una empresa llamada “Jaque Mate”. De esta forma, irás adquiriendo los conocimientos necesarios para tomar decisiones en cada etapa del proyecto (desde la interpretación de un plano hasta el mecanizado y control de calidad de las piezas) y así cumplir con el pedido del cliente.

Para resolver los desafíos que se proponen en cada sección, el curso cuenta con una serie de videos teóricos e interactivos que facilitan el aprendizaje del uso y control de una máquina CNC.

Learn about acoustics and sound fields by using the concept of impedance. We will start with the fundamental concept of one-dimensional cases, understand the essentials, and also cover extended topics.

Learn about acoustics by using the concept of impedance. Following part 1, radiation, scattering, and diffraction are studied. Wave propagation in closed space is also covered. Leads to understand essentials as well to cover graduate level topics.

This aerodynamics course focuses on the study of the flow of air about a body, and the “body” will be an airplane, but many of the concepts explored are relevant to a wide variety of applications from sailboats to automobiles to birds. Learners completing this aerodynamics course will gain a fundamental understanding of concepts and models used to aerodynamically analyze and design subsonic, transonic, and supersonic aircraft.

While the course is an introduction to aerodynamics, it is an advanced subject typically taken as a third or fourth year undergraduate subject in aerospace engineering.

This course provides an overview of and introduction to the fundamentals of aeronautics, using the history of aviation as a story line. The course uses examples from the very beginning of aviation (the Montgolfier brothers’ balloon flight in 1783 and the Wright brothers’ heavier-than-air flight in 1903) and continues all the way through to the current Airbus A380 and future aircraft. During this trajectory three major topics are discussed: aeronautics, aerodynamics and flight mechanics.

Lectures are frequently accompanied by related exercises and demonstrations. The course also incorporates (design) challenges/competitions, based on the knowledge obtained through the lectures.

LICENSE
The course materials of this course are Copyright Delft University of Technology and are licensed under a Creative Commons Attribution-NonCommercial-ShareAlike (CC-BY-NC-SA) 4.0 International License.

Spaceflight is exciting, and you don’t have to be a “Rocket Scientist” to share in the excitement! 16.00x makes the basics of spaceflight accessible to everyone. Join MIT Professor Jeffrey Hoffman, a former NASA astronaut who made five spaceflights and was the first astronaut to log 1000 hours on the Space Shuttle, as he teaches you the core principles behind space travel and exploration. The course will cover how rockets work, how spacecraft move in orbit, how we create artificial environments inside spacecraft to keep astronauts alive and healthy, what it’s like living in a world without gravity, how the human body adapts to space, and how spacewalks happen, plus more. Many lessons will be illustrated with Professor Hoffman’s own experiences in space. 

Advanced Notice of a Future Spaceflight Course

Students who are interested in taking more online space-related courses should be aware that Professor Hoffman will be presenting a new online course in the fall of 2018 about “Systems Engineering and the Space Shuttle”. 16.00x is good preparation for this new course.

Please note that the verified certificate option for this course is limited to 300 learners. The verified certificate option will close when this limit is reached.

Analytical models are key to understanding data, generating predictions, and making business decisions. Without models it’s nearly impossible to gain insights from data. In modeling, it’s essential to understand how to choose the right data sets, algorithms, techniques and formats to solve a particular business problem.  

In this course, part of the Analytics: Essential Tools and Methods MicroMasters program, you’ll gain an intuitive understanding of fundamental models and methods of analytics and practice how to implement them using common industry tools like R.

You’ll learn about analytics modeling and how to choose the right approach from among the wide range of options in your toolbox.

You will learn how to use statistical models and machine learning as well as models for:

• classification;
• clustering;
• change detection;
• data smoothing;
• validation;
• prediction;
• optimization;
• experimentation;
• decision making.

In this course you will use fundamental engineering and mathematical tools to understand and analyze basic bioelectricity and circuit theory in the context of the mammalian nervous system.

This course is for students who are interested in learning about relating the systems of the human body that involve or communicate with bioelectrical systems, including the heart, brain, muscles, and the neuromuscular system that connects them all together. 

Students will learn how bioelectricity can be used to record and control the way the body electric behaves. Suggested text: “Neuroscience” by Purves, et al. 

This course is offered by the nanoHUB-U project, which is jointly funded by Purdue and NSF with the goal of transcending disciplines through short courses accessible to students in any branch of science or engineering. These courses focus on cutting-edge topics distilled into short lectures with quizzes, homework, and practice exams.

Overview of chemical engineering through discussion and engineering analysis of physical and chemical processes.

An introductory computer networking course focusing on how the Internet works and the principles of designing networks and network protocols.

An introductory computer networking course focusing on how the Internet works and the principles of designing networks and network protocols.

Computer Numerical Control (CNC) Machining is the process through which computers control machine-based processes in manufacturing. The kinds of machines controlled include lathes, mills, routers and grinders – all used for manufacturing of metal and plastic products. 

In this course, you’ll learn the ins-and-outs of CNC machining; building the essential knowledge to develop and operate a project with a CNC machine.

From plan interpretation to machining and quality control, you will learn how to make the right decision in every stage of a project through videos and interactive activities.  

We invite you to take part of the “Jaque Mate” company project, the objective of which is to produce chess pieces.

Are you up for the challenge?

This is CS50x, Harvard University's introduction to the intellectual enterprises of computer science and the art of programming for majors and non-majors alike, with or without prior programming experience. An entry-level course taught by David J. Malan, CS50x teaches students how to think algorithmically and solve problems efficiently. Topics include abstraction, algorithms, data structures, encapsulation, resource management, security, software engineering, and web development. Languages include C, Python, SQL, and JavaScript plus CSS and HTML. Problem sets inspired by real-world domains of biology, cryptography, finance, forensics, and gaming. As of Fall 2016, the on-campus version of CS50x, CS50, was Harvard's largest course.

Students who earn a satisfactory score on 9 problem sets (i.e., programming assignments) and a final project are eligible for a certificate. This is a self-paced course–you may take CS50x on your own schedule.

HarvardX requires individuals who enroll in its courses on edX to abide by the terms of the edX honor code. HarvardX will take appropriate corrective action in response to violations of the edX honor code, which may include dismissal from the HarvardX course; revocation of any certificates received for the HarvardX course; or other remedies as circumstances warrant. No refunds will be issued in the case of corrective action for such violations. Enrollees who are taking HarvardX courses as part of another program will also be governed by the academic policies of those programs.

HarvardX pursues the science of learning. By registering as an online learner in an HX course, you will also participate in research about learning. Read our research statement to learn more.

Harvard University and HarvardX are committed to maintaining a safe and healthy educational and work environment in which no member of the community is excluded from participation in, denied the benefits of, or subjected to discrimination or harassment in our program. All members of the HarvardX community are expected to abide by Harvard policies on nondiscrimination, including sexual harassment, and the edX Terms of Service. If you have any questions or concerns, please contact harvardx@harvard.edu and/or report your experience through the edX contact form.

This course is the first of a two-course sequence: Introduction to Computer Science and Programming Using Python, and Introduction to Computational Thinking and Data Science. Together, they are designed to help people with no prior exposure to computer science or programming learn to think computationally and write programs to tackle useful problems. Some of the people taking the two courses will use them as a stepping stone to more advanced computer science courses, but for many it will be their first and last computer science courses. This run features updated lecture videos, lecture exercises, and problem sets to use the new version of Python 3.5. Even if you took the course with Python 2.7, you will be able to easily transition to Python 3.5 in future courses, or enroll now to refresh your learning.

Since these courses may be the only formal computer science courses many of the students take, we have chosen to focus on breadth rather than depth. The goal is to provide students with a brief introduction to many topics so they will have an idea of what is possible when they need to think about how to use computation to accomplish some goal later in their career. That said, they are not "computation appreciation" courses. They are challenging and rigorous courses in which the students spend a lot of time and effort learning to bend the computer to their will.

If you want to learn the basic physics of solids, fluids, heat and mass transport, this is the course you have been looking for. It combines the power and beauty of mathematics with physical intuition for a comprehensive understanding of continuum physics.

The course begins with an overview of vectors and tensors. It then proceeds through fundamental concepts of motion, balance laws, constitutive relations and thermodynamics. This introductory course addresses mainly solid and fluid mechanics, but approaches them in a unified manner. The follow-up, advanced course extends this treatment to thermomechanics, variational principles and mass transport.

Finally, a word on the treatment of the subject: it is mathematical. We know of no other way to do continuum physics. While the course is rigorous, it is neither abstract nor formal. In every segment connections are made with the physics of the subject. Simple but instructive props such as a deformable plastic bottle, water and food coloring are used throughout the course. Finally, the time-honored continuum potato has been supplanted by an icon of American life: the continuum football.