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MOOC
This course is about resonating with your experience and meaningfully engaging patients to make good decisions and to address the significance of interprofessional collaborations in health care. Service users’ experience and views across all points on health promotion, management and support services are crucial to developing optimal health care practice. Join Prof Elwynis a leader committed in Shared Decision Making (SDM) practice and research to promote high quality decision making. Taking into account the best scientific evidence available, he will explain to you how this collaborative process and the use of decision-aids help eliciting patients’ beliefs and integrating patient preferences and priorities to treatment options after thorough considerations of the trade-offs. Together, we are oriented to the interprofessional collaborative initiative that synergizes the strengths among health care allies toachieve optimal clinical practice and health outcomes. Renowned experts in various health care fields share their first hand experiences, eliciting profound insights and wisdoms about interprofessional collaborations. This is aspirational in learning to reflect, decipher, interpret and construct ways in enhancing effective coordination of care to meet health needs. Making sense of the SDM and IPC concepts and recognizing the available evidences and resources is crucial to enabling good team dynamics. Using a docu-drama, it takes you through a patient’s journey having a stroke due to his hidden assumptions in receiving treatment to atrial fibrillation (an abnormal heart rhythm). His attitude and struggles point to a challenging recovery process. Contemplate on how SDM and IPC could step in at different stages to improve health outcomes. Identifying gaps in the existing scientific evidence and services will help you to pursue influential strategies and design innovative programs or products to attain better outcomes. Your understanding and participation in this course will create positive impact over time in advancing the present health system to deliver the best possible outcomes to various stakeholders. We are excited to see your passion in affecting health decisions and determination in accomplishing excellent care delivery. Get connected with a global community of learners and simply enjoy gaining new ideas about making a difference in health care.
- Subjects:
- Health Sciences
- Keywords:
- Patient participation Clinical medicine -- Decision making Medical care -- Decision making
- Resource Type:
- MOOC
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MOOC
In this course, we have incorporated up-to-date theory, multimedia, and peer-to-peer interaction to bring our own expertise together with the benefits of collaborative learning to create an engaging instructional environment. We have brought our own institutions' expertise in service-learning together with experienced teachers from around the world, and academic experts in the field to give you a range of perspectives and make the material as useful as possible.
- Course related:
- APSS2S09 Service leadership through serving children and families with special needs
- Subjects:
- Student Engagement
- Keywords:
- Student affairs services Learning Psychology of College teaching Service learning
- Resource Type:
- MOOC
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MOOC
In this course, we will introduce you to the fundamentals of sensor fusion for automotive systems. Key concepts involve Bayesian statistics and how to recursively estimate parameters of interest using a range of different sensors. The course is designed for students who seek to gain a solid understanding of Bayesian statistics and how to use it to fuse information from different sensors. We emphasize object positioning problems, but the studied techniques are applicable much more generally. The course contains a series of videos, quizzes and hand-on assignments where you get to implement many of the key techniques and build your own sensor fusion toolbox. The course is self-contained, but we highly recommend that you also take the course ChM015x: Multi-target Tracking for Automotive Systems. Together, these courses give you an excellent foundation to tackle advanced problems related to perceiving the traffic situation around an autonomous vehicle using observations from a variety of different sensors, such as, radar, lidar and camera.
- Subjects:
- Electrical Engineering, Mechanical Engineering, and Transportation
- Keywords:
- Automobiles -- Electronic equipment Automotive sensors
- Resource Type:
- MOOC
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MOOC
Although taking, sharing, and viewing photographs has become second nature for many of us, our regular engagement with images does not necessarily make us visually literate. This course aims to address the gap between seeing and truly understanding photographs by introducing a diversity of ideas, approaches, and technologies that inform their making. In this course you will look closely at photographs from the collection of The Museum of Modern Art and hear a variety of perspectives on what a photograph is and the ways that photography has been used throughout its nearly 180 year history: as a means of artistic expression, as a tool for science and exploration; as an instrument of documentation; to tell stories and record histories; and as a mode of communication and critique in our ever increasingly visual culture.
- Subjects:
- Photography
- Keywords:
- Photography Photographs Art photography
- Resource Type:
- MOOC
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MOOC
The real-life stroke scenario presented in ANA101x Human Anatomy has invited vigorous discussions on whether fully recovery from a severe stroke is possible and how it could happen. The knowledge of anatomy has arisen a series of queries on body functioning that are commonly implicated in stroke. An extension of human anatomy fundamentals towards functional anatomy has formed the basis of intervention approaches for functional recovery undertaken by different healthcare professionals, which is guiding the ultimate goals of post-stroke rehabilitation program for regaining independence and quality-of-life of the individuals. Therefore, this course is particularly designed to delineate the stroke recovery process and its underlying scientific rationales.
Continuing using the same clinical case of Mr Law, this course walks you through the recovery journey, known as stroke care pathway involving multiple healthcare professionals to compose module ONE. In module TWO, intervention approaches practiced in key healthcare disciplines underpinned by the functional anatomy will be explored. Finally, the course knowledge will be assessed using an experiential approach using a set of mini case studies derived from the mainstream scenario of Mr Law.
- Subjects:
- Health Sciences
- Keywords:
- Cerebrovascular disease -- Patients -- Rehabilitation
- Resource Type:
- MOOC
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MOOC
This course provides an introduction to rock mechanics principles including the mechanics of rock materials, rock joints and rock masses, rock mechanics characterisation and rock mass classifications. The course is prepared for students studying civil and mining engineering, and other science and engineering disciplines concerning rocks.
The course is an on-line course, with approximately 30 hours of lectures. It covers 5 parts: (a) origin of rocks and rock masses, (b) properties and mechanics of rock materials, (c) properties and mechanics of rock joints, (d) rock mass classifications and properties, and a supplement part (e) rock mechanics testing and analysis.
The lectures are given by Professor Jian Zhao, who has been teaching rock mechanics and rock engineering since 1990, first at Nanyang Technological University of Singapore, then at Ecole Polytechnique Fédérale de Lausanne of Switzerland, and currently at Monash University in Melbourne of Australia. He is a Fellow of the International Society for Rock Mechanics since 2015.
Rock Engineering, a sequential on-line course to Rock Mechanics Principles given by the same lecturer will be made available in near future.
- Subjects:
- Land Surveying and Geo-Informatics
- Keywords:
- Rock mechanics Engineering geology
- Resource Type:
- MOOC
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MOOC
This course was coordinated in 2021 by Prof. Leandro Alejano, from University of Vigo, Spain and ISRM Vice President for Europe. The course has an introduction and four parts, each opening in its own page.
Rock mass characterization and monitoring is based on information gathered at different levels that contributes to a good understanding of the rock mass behavior. Geological, geostructural and geomechanical information is needed to set up a reliable model of the rock mass. The development of advanced survey techniques, such as digital photogrammetry, laser scanning and SAR interferometry has supplied powerful instruments in several fields including rock mechanics, where some efforts have been dedicated to improve the quality and the quantity of information available. In this short course taught by relevant European experts, the basics of these techniques are briefly reviewed and a number of interesting rock mechanics applications will be shown.
Part 0 - Course Presentation (Leandro Alejano)
Part 1 - A.M. Ferrero & M.R.Migliazza - Introduction of advanced survey methods for rock mass characterization and monitoring (A.M. Ferrero & M.R.Migliazza)
Part 2 - Methods for automatic or semi-automatic discontinuity traces sampling on digital rock mass (Gessica Umili)
Part 3 - Rock Mass Characterization and Monitoring based on Advanced Remote Sensing Techniques (Adrían Riquelme)
Part 4 - SAR Interferometry in Rock Mechanics (Roberto Tomas)
- Subjects:
- Land Surveying and Geo-Informatics
- Keywords:
- Rock mechanics Engineering geology
- Resource Type:
- MOOC
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MOOC
The Rock Engineering Practice course was recorded by Professor Zhao Jian, an ISRM fellow, of Monash University in Melbourne, Australia, and contains 21 lectures divided in three parts.
Part 1. Site Investigation and Testing
Part 2. Rock Slope Engineering
Part 3. Rock Foundation Engineering
Part 4. Underground Rock Excavations
- Subjects:
- Land Surveying and Geo-Informatics
- Keywords:
- Rock mechanics Engineering geology
- Resource Type:
- MOOC
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MOOC
Engineers in the automotive industry are required to understand basic safety concepts. With increasing worldwide efforts to develop connected and self-driving vehicles, traffic safety is facing huge new challenges. This course is for students or professionals who have a bachelor's degree in mechanical engineering or similar and who are interested in a future in the vehicle industry or in road design and traffic engineering. It's also of value for people already working in these areas who wantbetter insight into safety issues. This course teaches the fundamentals of active safety (systems for avoiding crashes or reducing crash consequences) as well as passive safety (systems for avoiding or reducing injuries). Key concepts include in-crash protective systems, collision avoidance, and safe automated driving. The course will introduce scientific and engineering methodologies that are used in the development and assessment of traffic safety and vehicle safety. This includes methods to study the different components of real-world traffic systems with the goal to identify and understand safety problems and hazards. It includes methods to investigate the attitudes and behavior of drivers and other road users as well as recent solutions to improve active safety. Italso includes methods to study human body tolerance to impact and solutions to minimize the injury risk in crashes. Study topics include crash data analysis and in-situ observational studies of drivers and other road users by the use of instrumented vehicles and roadside camera systems. Solutions in active safety, such as driver alertness monitoring, driver information as well as collision avoidance and collision mitigation systems, will be described. Examples of in-crash protective systems are combinations of traditional restraints such as seat belts and airbags but with advanced functions such as automatic adaption to the individual occupant as well as pre-collision activation based on advanced integrated sensor systems and communication systems. The course will be based on recorded lectures that use videos and animations to enhance the experience. Online tutorials that access simulation models will give the participants an experience of influencing parameters in active safety and passive safety systems. As a result of support from MathWorks, students will be granted access to MATLAB/Simulink for the duration of the course.
- Subjects:
- Transportation
- Keywords:
- Traffic safety Roads -- Design construction Motor vehicles -- Safety measures Automobile industry trade
- Resource Type:
- MOOC
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MOOC
Responsive cities define the future of urbanization. They evolve from smart cities, with a fundamental difference: The citizens move from the center of attention to the center of action. Responsive citizens use smart technology to contribute to planning, design and management of their cities. Responsive cities are about bringing cities back to their citizens. Responsive cities change the way the technology of a smart city is used. The first Smart Cities were technology driven and they produced large amounts of data from fixed or centrally controlled sensors. But by now, the citizens and their mobile phones have taken the leading role in direct data generation. Rather than using data that are centrally collected and stored, you will see platforms on which the citizens place the data and the information they decide to share. With this, your own responsibility becomes a foundation of a Responsive City. Cities evolve from being smart to being responsive. To demonstrate the potential of Responsive Cities, this course will define the concept of Citizen Design Science, a combination of Citizen Design, Citizen Science and Design Science. Experts, citizens and scientists participate in Citizen Design Science. This approach is still in an early stage of development, but with the Responsive Cities Massive Open Online Course, you will be ahead in exploring and defining its possibilities. ‘Responsive cities’ is the fourth edition of the ‘Future Cities’ series on urban MOOCs. The ‘Future Cities’ series is the first and complete series of urban courses dealing with the design, management and transformation of cities for their sustainable and resilient future. With every edition, the series becomes more interactive. It increasingly empowers citizens around the world to become part of the development of their own cities, especially in those places where this knowledge is needed most. Therefore, the course is inclusive for every individual interested in the planning, construction, redevelopment and management of future cities. The course is open to anyone regardless of background, skills, knowledge, or age.
- Subjects:
- Building Services Engineering and Building and Real Estate
- Keywords:
- Smart cities Sustainable development Cities towns -- Effect of technological innovations on City planning
- Resource Type:
- MOOC
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MOOC
This self-paced online course encourages extensive reading and helps students improve their reading and overall English skills. It has activities on different English books ranging from 59 Seconds to Animal Farm. There are also materials on the READ@PolyU 2017 book, The Perks of Being a Wallflower, the READ@PolyU 2018 book, Fifteen Dogs, and the READ@PolyU 2019 book, Persepolis. Created by the English Language Centre of the Hong Kong Polytechnic University.
- Subjects:
- English Language
- Keywords:
- English language -- Reading
- Resource Type:
- MOOC
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MOOC
over the basic elements of designing and evaluating questionnaires.
- Subjects:
- Statistics and Research Methods
- Keywords:
- Social surveys Social sciences -- Research Questionnaires -- Methodology
- Resource Type:
- MOOC
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MOOC
In this course, you will obtain some insights about marketing to help determine whether there is an opportunity that actually exists in the marketplace and whether it is valuable and actionable for your organization or client. Week 1: Assess methods available for creating quantitative surveys, along with their advantages and disadvantages. Identify the type of questions that should be asked and avoid unambiguous survey questions. Week 2: Design, test, and implement a survey by identifying the target audience and maximizing response rates. You will have an opportunity to use Qualtrics, a survey software tool, to launch your own survey. Week 3: Analyze statistical models that can be applied to your marketing data, so that you can make data-driven decisions about your marketing mix. Week 4: Predict most likely outcomes from the marketing decisions and match the type of analysis needed for your business problem. Take Quantitative Research as a standalone course or as part of the Market Research Specialization. You should have equivalent experience to completing the second course in this specialization, Qualitative Research, before taking this course. By completing the third class in the Specialization, you will gain the skills needed to succeed in the full program.
- Subjects:
- Marketing and Statistics and Research Methods
- Keywords:
- Quantitative research Marketing research
- Resource Type:
- MOOC
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MOOC
Cities are becoming the predominant living and working environment of humanity, and for this reason, livability or quality of life in the city has become crucial. This urban planning course will focus on four areas that directly affect livability in a city: Urban energy, urban climate, urban ecology and urban mobility. The course begins by presenting measurable criteria for the assessment of livability, and how to positively influence the design of cities towards greater livability. We will focus on this basic topic of the human habitat in a holistic way, and introduce possibilities of participatory urban design by citizens, leading towards the development of a citizen design science. You will be able to share your experiences with the other participants in the course and also with the experts from the teaching team. In completing this course, you will better understand how to make a city more livable by going beyond the physical appearance and by focusing on different properties and impact factors of the urban system. Livability in Future Cities is the second course in a series of MOOCs under the title “Future Cities.” This series aims to bring the latest research on planning, managing and transforming cities to places where this knowledge has the highest benefit for its citizens. “Future Cities” provided an overview, and this course will focus on livability in existing and new cities.
- Subjects:
- Building Services Engineering and Building and Real Estate
- Keywords:
- Smart cities Urban ecology (Sociology) Cities towns -- Effect of technological innovations on Quality of life City planning
- Resource Type:
- MOOC
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MOOC
This short course is adapted from a semester length graduate level coursetaught at MIT covering Qualitative Research Methods. This online course will focus specifically on teaching how to prepare for and conduct a conversational interview for data gathering purposes. We will also discuss the nature of qualitative research as a methodology, how it compares and differs from other forms of research, and how qualitative and quantitative research complement each other in a research project. This isthe first in a multi-part series which will be released over the coming year, which will focus on Conversational Interviewing, Data Analysis, and Constructing Theory. You might have encountered other forms of interview techniques in your studies and training. The form that we are teaching is the preferred method of Professor Silbey's, one that she has used extensively throughout her career. The goal is to construct an interview protocol such that you will be able to guide your interviewee through topics of interest to your study without bringing them up explicitly, in order to explore experiences and accounts without pointing respondents in particular directions. Not sure what an interview protocol is? No problem! You will by the end of the course.
- Subjects:
- Statistics and Research Methods
- Keywords:
- Conversation analysis Qualitative research -- Methodology Social sciences -- Research -- Methodology Interviewing
- Resource Type:
- MOOC
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MOOC
In this course you will be introduced to the basic ideas behind the qualitative research in social science. You will learn about data collection, description, analysis and interpretation in qualitative research. Qualitative research often involves an iterative process. We will focus on the ingredients required for this process: data collection and analysis. You won't learn how to use qualitative methods by just watching video's, so we put much stress on collecting data through observation and interviewing and on analysing and interpreting the collected data in other assignments. Obviously, the most important concepts in qualitative research will be discussed, just as we will discuss quality criteria, good practices, ethics, writing some methods of analysis, and mixing methods. We hope to take away some prejudice, and enthuse many students for qualitative research.
- Subjects:
- Statistics and Research Methods
- Keywords:
- Qualitative research -- Methodology Social sciences -- Research -- Methodology
- Resource Type:
- MOOC
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MOOC
go in-depth with qualitative market research methods, from design to implementation to analysis.
- Subjects:
- Marketing and Statistics and Research Methods
- Keywords:
- Qualitative research Marketing research
- Resource Type:
- MOOC
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MOOC
This Specialization builds on the success of the Python for Everybody course and will introduce fundamental programming concepts including data structures, networked application program interfaces, and databases, using the Python programming language. In the Capstone Project, you’ll use the technologies learned throughout the Specialization to design and create your own applications for data retrieval, processing, and visualization.
- Subjects:
- Computing
- Keywords:
- Python (Computer program language)
- Resource Type:
- MOOC
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MOOC
Everyone tells stories—that’s how we build community and share ideas. However, we don’t always communicate our story as effectively as we intend to. Communication in the workplace may take the form of business writing, email communications, in-person discussions, non-verbal communication, public speaking, and even telling stories. The Communication Skills Professional Certificate program focuses on effective business communication skills employers value most, from crafting a powerful story to creating impactful presentations and using tools for public speaking. In this program, you will learn about: The elements of effective stories and communication strategies, plus how to use them in the workplace. How to use active listening and understand various communication styles to build rapport. How to tailor your messaging to a defined target audience. How to apply basic elements of the speech communication process. How to craft a clear and impactful speech. How to utilize best practices for presenting quantitative data using images. How to incorporate basics of visual design with effective presentation skills.
- Keywords:
- Listening Business communication Public speaking
- Resource Type:
- MOOC
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MOOC
"Being productive is really just about understanding the productivity equation and then figuring out which bits we need to optimise to apply to our own lives". In this first of a series of classes, I want to explore the idea of productivity in more depth - break down the concept into principles and theories as well as laws and powers to provide the foundation to enable us all to understand productivity on a more fundamental level so that we can all work towards living happier, more productive lives. The Productivity Equation The first video introduces the productivity equation that serves as a the underlying theme throughout this course. We'll look at the key components including the extra 'ingredient' that I think is often missing in discussions around productivity and I'll introduce the analogy involving the Pilot, the Plane and the Engineer. Section One - Myths Following the introduction to the productivity equation, in the first section we'll take a look at three of the key myths that often surround discussions about productivity. We'll explore issues around 'not having enough time', not being able to summon up the motivation as well as the prevalent belief in multitasking. Section Two - Laws The second section looks at a triumvirate of key laws associated with productivity. We'll begin by looking at time management linked to Parkinson's law then look at the value in understanding the Pareto Principle before finally exploring how one of the fundamental laws of physics can be usefully applied in the realm of productivity. Section Three - Powers The third section moves into the realm of powers - specifically, how we can use the power of habits as well as how we can powerfully leverage our time spent procrastinating or relaxing so that we can improve our productivity more broadly. The Fun Factor The final video explores the component of the productivity equation which I think is often missing when people discuss productivity and that is the fun factor. We'll explore how enjoyment is fundamental to our productivity and how a change in mindset towards this enjoyment can have a positive effect on our productivity immediately.
- Course related:
- SD5804 Design Research Methods and SD5803 Philosophy of Design
- Keywords:
- Time management Industrial efficiency Industrial productivity Performance
- Resource Type:
- MOOC