Elementary Ergonomics is an introduction to basic physical ergonomics theory and practice …
Elementary Ergonomics is an introduction to basic physical ergonomics theory and practice for students of other - than Industrial Design Engineering of Delft University of Technology - institutes for higher learning, such as Dutch universities, universities of EU and non-EU countries, and universities of applied sciences. The course consists of the following topics: anthropometry (1D, 2D, 3D including digital human modelling), biomechanics, and comfort.
Furthermore, the role of user involvement in the design process (evaluation of existing products and environments and of created concepts, models and prototypes) will be explained. Moreover, the meaning and representation of use cues in product design will be highlighted.
The main topics of study considered in light of the above learning …
The main topics of study considered in light of the above learning outcomes are:Research philosophy (e.g. positivism, empiricism, naturalism)Formulating empirical research questions and conceptual research modelsCausality effects and relationshipsValidity and ReliabilityScales of measurement (e.g. nominal, ordinal, interval, ratio)Sampling methods (e.g. experiment, survey, observations) and measure instruments (e.g. Likert scales, semantic differential, event versus time sampling)Experimental design (e.g. within and between-subjects, factorial design, counter-balancing, Latin square)Biases in empirical research approaches (e.g. confounding variables, statistical power)Data preparation (e.g. standardization of data, reliability analysis, Inter-rater reliability)Hypothesis testing, t-test, (M)ANOVA, correlation, regression analysisNon-parametric approaches to data analysis
If you’re interested in the concept of building with nature, then this …
If you’re interested in the concept of building with nature, then this is the engineering course for you. This course explores the use of natural materials and ecological processes in achieving effective and sustainable hydraulic infrastructural designs. You will learn the Building with Nature ecosystem-based design concept and its applications in water and coastal systems. During the course, you will be presented with a range of case studies to deepen your knowledge of ecological and engineering principles.
You’ll learn from leading Dutch engineers and environmental scientists who see the Building with Nature integrated design approach as fundamental to a new generation of engineers and ecologists.
Products and equipment all around us are made of materials: look around …
Products and equipment all around us are made of materials: look around you and you will see phones, computers, cars, and buildings. We face challenges in securing the supply of materials and the impact this has on the planet. Innovative product design can help us find solutions to these challenges. This course will explore new ways of designing products.
The design of products is an important aspect of a circular economy. The circular economy approach addresses material supply challenges by keeping materials in use much longer and eventually returning materials for new use. The principle is that waste must be minimized. Products will be designed to last longer. They will be easier to Reuse, Repair, and Remanufacture. The product will eventually be broken down and Recycled. This is Design for R and is the focus of this course.
Experts from leading European universities and research organizations will explain the latest strategies in product design. Current design approaches lead to waste, loss of value and loss of resources. You will learn about the innovative ways in which companies are creating value, whilst securing their supply chains, by integrating Design for R.
This course is suitable for all learners who have an interest in product design, innovative engineering, new business activity, entrepreneurship, sustainability, circular economy and everyone who thinks that the current way we do things today needs a radical rethink.
Are you an entrepreneur, or do you have a passion for building …
Are you an entrepreneur, or do you have a passion for building your own technology startup? This course will help and encourage you to start a successful technology-based venture.
If you always wanted to become an entrepreneur, or if you are simply interested in putting a new technology to innovative use, this course is for you.
This course helps you understand the process of entrepreneurship from a technology-oriented background.
The course is made up of modules that are presented by experts in the field of entrepreneurship and technology. Modules include:
Team Building Opportunity Recognition Financing Customer Acquisition
This course will introduce you to entrepreneurship for global challenges in emerging …
This course will introduce you to entrepreneurship for global challenges in emerging markets. You will get to know other like-minded entrepreneurs around you, and discover how institutions in your target region are working on innovation and entrepreneurship.
As an entrepreneur in an emerging market, you may be faced with many challenges that need to be solved. These might include scarcity of fossil fuels, climate change or water, food and health security. This Delft University of Technology course will provide you with examples from partner universities and affiliated entrepreneurs in emerging markets which explain the opportunities and obstacles that they faced as they established themselves and created value.
You will acquire a set of practical tools which will enable you to discover the opportunities in your own environment and how these can be used to make an actual change! You will learn how to rethink your value proposition with your own case study, or with one we provide.
After the course, you will be able to develop your value proposition more quickly by getting to know your customers and partners better and understand local values and institutions.
Ontwerpen is een combinatie van logisch redeneren en het creatief combineren van …
Ontwerpen is een combinatie van logisch redeneren en het creatief combineren van bestaande technieken om tot nieuwe, innovatieve ideeen te komen. Een goede werktuigkundig ontwerper put zijn creativiteit uit kennis van een groot aantal bestaande werktuigbouwkundige systemen. Hoe groter die kennis, hoe groter de kans dat nieuwe, innovatieve ontwerpconcepten ontstaan. Vooral kennis over niet-conventionele techniek bevordert dit creatieve ontwerpproces.
Het doel van het vak Evolving Design is om studenten de onderhavige werkprincipes te tonen van een grote hoeveelheid niet-conventionele werktuigbouwkundige systemen. Er wordt hierbij zowel gekeken naar bijzondere ontdekkingen uit het verleden als uit het heden, met een blik op de toekomst. De ontwerpprincipes worden niet simpelweg opgesomd, maar geplaatst in hun fascinerende, historische ontwikkeling om te laten zien hoe de ontwerpers hun creativiteit en vernuft gebruik(t)en om goedwerkende oplossingen te vinden binnen de beperkingen van de beschikbare fabricageprocessen en beschermingsmogelijkheden (patenten). Veel oplossingen uit het verleden zijn klaar om te worden toegepast in de technologie van de toekomst!
Het vak richt zich primair op het kwalitatief beschrijven van de werkprincipes van bestaande technologieen, met de nadruk op bewegende mechanische constructies. Hoewel het kwantatief, in detail uitwerken van de kracht-bewegingsvergelijkingen niet het hoofddoel van het vak is, zijn mechanische vergelijkingen wel essentieel als zij leiden tot een beter begrip.
Course Contents 1. Turning performance (three dimensional equations of motion, coordinate systems, Euler angles, transformation matrices) 2. Airfield performance (take-off and landing) 3. Unsteady climb and descent (including minimum time to climb problem) 4. Cruise flight and transport performance 5. Equations of motion with a wind gradient present 6. Equations of motion applied to various phases of space flight 7. Launch, Vertical flight, delta-V budget, burn out height, staging 8. Gravity perturbations to satellite orbits, J2 effect for low earth orbit satellites, J2,2 effect for Geostationary Earth Orbit sattelites leading to contribution in ï„V budget 9. Patched conics approach for interplanetary flight, gravity assist effect / options for change of excess velocity (2d, 3d), Launch, in orbit insertion. Study Goals 1. Integrate fundamental disciplines (aero, power and propulsion, mechanics..) to describe the kinematics of aerospace vehicles satisfying real world constraints 2. Derive equations of motion for elementary flight and mission phases (climb, turn, cruise, take-off, launch, orbit) 3. Derive analytical expressions for optimal performance (steepest turn, Breguet Range, patched conics, J2, maneuvers ) 4. Determine pros/cons of multi-stage launchers. 5. Assess sun lighting conditions on a satellite. 6. Determine the influence of wind (gradient) on aircraft motion and performance. 7. Develop the theory to describe an interplanetary trajectory as a succession of two-body problems, and apply this concept to real missions.
The course "Fluid Flow, Heat and Mass Transfer," course number ta3220, is …
The course "Fluid Flow, Heat and Mass Transfer," course number ta3220, is third-year BSc course in the program of Applied Earth Sciences at Delft University of Technology. Students in this class have already taken a course in "Transport Phenomena" in the second year, and "Fluid Flow Heat and Mass Transfer" is designed as a follow-up to that class, with an emphasis on topics of importance in applied earth sciences, and in particular to Petroleum Engineering, groundwater flow and mining. In practice, however I start over again with first principles with this class, because the initial concepts of the shell balance are difficult for students to grasp and can always use a second time through. The course covers simple fluid mechanics problems (rectilinear flow) using shell balances, for Newtonian and power-law fluids and Bingham plastics. Turbulence for Newtonian fluids is covered in the context of friction factors for flow in pipes, flow around spheres and flow in packed beds.
What do collapsed buildings, infected hospital patients, and crashed airplanes have in …
What do collapsed buildings, infected hospital patients, and crashed airplanes have in common? If you know the causes of these events and conditions, they can all be prevented.
In this course, you will learn how to use the TU Delft mind-set to investigate the causes of such events so you can prevent them in the future.
When, for instance, hundreds of hospital patients worldwide got infected after having gall bladder treatments, forensic engineering helped reveal how the design and use of the medical instruments could cause such widespread infections. As a result, changes were made to the instrument design and the procedural protocols in hospitals. Learning from failure in this case benefitted patient health and safety across the world.
After taking this course you will have an understanding of failures and the investigation processes used to find their causes. You will learn how to apply lessons gained from investigating previous failures into new designs and procedures.
Is a good, solid argument enough to make an impact? How would …
Is a good, solid argument enough to make an impact? How would your data improve the stance that man-made global warming is just an “opinion”? How would you explain your opinion on school tests, budget cuts, crime, immigration, safety and security issues? No doubt that your persuasiveness relies on your arguments. But your ability to influence and convince critically depends on the way you frame your message.
In today’s world, you often need to reduce a complex reality to a concise and convincing message. Framing is an approach that deals with the way we convey our message: our words, images, and metaphors. To take one basic characteristic, a good frame engages the listeners’ values and emotions – it is easy to remember and it is something that people will usually agree with intuitively.
When you enter into a debate, you might be faced with frames of your opponents – and you will have to reframe the debate. This game of framing and reframing makes the debate to look like a chessboard made out of words. Of course, politicians play this game, trying to pull the debate towards their own words and metaphors in order to win their audience. But the game can be found everywhere: in the world of business, science, media – even at home.
We invite you to join our journey of learning the game of framing and reframing. You will discover how this game is played, and how you can play it yourself.
This course suits people who are engaged with and interested in public and political debates. Not only people from the public sector will find it useful, but also engineers, consultants, managers and anyone who wants to make an impact in discussions and debates.
De transport- en overdrachtsprocessen van warmte, massa en impuls worden naar hun …
De transport- en overdrachtsprocessen van warmte, massa en impuls worden naar hun analogie behandeld. De processen worden beschreven met behulp van macro- en microbalansen die in veel gevallen leiden tot differentiaalvergelijkingen. Ook veel aspecten van stromingsleer komen op deze manier aan de orde en zo bereidt het boek ook voor op moderne Computational Fluid Dynamics technieken. Het doel van het boek is ook studenten te trainen in het oplossen van problemen waarbij transportverschijnselen centraal staan. Daartoe bevat het boek bijna 100 uitgewerkte vraagstukken.
Geo-information has proven to be extremely helpful in many aspects of risk …
Geo-information has proven to be extremely helpful in many aspects of risk and disaster management: locational and situational awareness, monitoring of hazards, damage detection, sharing of information, defining vulnerability areas, etc. This course aims to provide knowledge on risk and disaster management activities, demonstrate use of geo-information technologies in emergency response, outline current challenges and motivate young geo-specialist to seek for advanced solutions. The course is organised as lectures and practicals. The practicals will be in the form of group assignments. Some excursions and guest lectures will be organised as well.
The course contents is general knowledge of the system Earth, tools for …
The course contents is general knowledge of the system Earth, tools for the 3D geometric representation of geological objects and methods and techniques for the recognition of fundamental minerals and rocks. The Geology 1 course is composed of three parts dedicated to 1) general knowledge of the system Earth, 2) tools for the 3D geometric representation of geological objects and 3) methods and techniques for the recognition of fundamental minerals and rocks.
Are you fascinated by Geosciences and willing to take the challenge of …
Are you fascinated by Geosciences and willing to take the challenge of predicting the nature and behavior of the Earth subsurface? This is your course!
In a voyage through the Earth, Geoscience: the Earth and its Resources will explore the Earth interior and the processes forming mountains and sedimentary basins. You will understand how the sediments are formed, transported, deposited and deformed.
You will develop knowledge on the behavior of petroleum and water resources.
The course has an innovative approach focusing on key fundamental processes, exploring their nature and quantitative interactions. It will be shown how this acquired knowledge is used to predict the nature and behavior of the Earth subsurface.
This is your ideal first step as a future Geoscientists or professional to upgrade your knowledge in the domain of Earth Sciences.
Are you interested in taking your first steps in robotics? Do you …
Are you interested in taking your first steps in robotics? Do you seek a practical approach and want to learn by doing? Join our course and learn how to program a complete real-world robotic system with ROS!
The Robot Operating System (ROS) enables you to quickly build robotic applications through access to a large set of open-source software and tools. Over the years, ROS has become the essential tool for roboticists. A large community surrounds ROS and there has been extensive input from industrial users in the development of these tools.
Many of the new advanced robot capabilities for manipulation, perception, and navigation have been developed using ROS. Companies such as Airbus and Boeing are using ROS for several of their applications. And Delft University of Technology’s Team Delft Robotic System won two challenges at the Amazon Robotics Challenge 2016 with robots developed with ROS.
In this course, you will learn to use different ROS tools to create a complete robotic application. You will be working with your own standalone Ubuntu-Linux installations and with industrial and mobile robots on the physics-based simulation engine, Gazebo. You will learn to program and configure basic robotic tasks such as pick-and-place objects, and navigate through obstacles. You will then integrate all this knowledge to build an industrial production line with two robotic arms and a mobile robot.
Do you want to start or grow your own business, go international, …
Do you want to start or grow your own business, go international, or avoid bankruptcy?
In this business and management course, you will learn the key steps to take to design or innovate your own business model. You will learn about the trade-offs to be made, and the design issues that are critical for a viable and sustainable business model.
This course will help you answer questions like, how do I create a simple business model in a structured way, how do I engage my users and how do I create value for my customers as well as revenue for my company.
"The Human Controller" presents and discusses design and evaluation issues of human-machine …
"The Human Controller" presents and discusses design and evaluation issues of human-machine interaction. The focus is on understanding human perception-action couplings (limitations, preferences, adaptation) and on quantifying control behavior of humans in the direct manual control loop of vehicles, robots or other man-made tools. Case studies from automotive, aviation, medical and tele-operation applications are discussed, with a special focus on the importance of including and enhancing haptics (=the sense of touch) during manual control.
Relation of purpose of data to data requirements. Relation of data to …
Relation of purpose of data to data requirements. Relation of data to costs. Accuracy requirements of measurements and error propagation: Related to a problem the required accuracy of measurements and the consequences for accuracy in the final result are discussed. Different types of errors are handled. Propagation of errors; for dependent and independent measurements, from mathematical relations and regression is demonstrated. Recapitulated is the theory of regression and correlation. Interpretation of measurements, data completion: By standard statistical methods screening of measured data is performed; double mass analysis, residual mass, simple rainfall-runoff modelling. Detection of trends; split record tests, Spearman rank tests. Methods to fill data gaps and do filtering on data series for noise reduction. Methods of hydrological measurements and measuring equipment: To determine quantitatively the most important elements in the hydrological cycle an overview is presented of most common hydrological measurements, measuring equipment and indirect determination methods i.e. for precipitation, evaporation, transpiration, river discharge and groundwater tables. Use, purpose and measurement techniques for tracers in hydrology is discussed. Advantages and disadvantages and specific condition/application of methods are discussed. Equipment is demonstrated and discussed. Areal distributed observation: Areal interpolation techniques of point observations: inverse distance, Thiessen, contouring, Kriging. Comparison of interpolation techniques and estimation of errors. Correlation analysis of areal distributed observation of rainfall Design of measuring networks: Based on correlation characteristics from point measurements (e.g. rainfall stations) and accuracy requirements the design of a network of stations is demonstrated.
The course deals with the principles of hydrology of catchment areas, rivers …
The course deals with the principles of hydrology of catchment areas, rivers and deltas. The students will learn:
1). to understand the relations between hydrological processes in catchment areas 2?. to understand and to calculate the propagation of flood waves 3). to understand hydrological processes in deltas 4). to draft frequency analysis of extremes under different climatological conditions.
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