Courses tagged with "Business" (1739)

La complejidad de los problemas emanados de una rápida globalización de la economía así como  los grandes avances en la tecnología de la información (TI) han acelerado la aparición de sucesivas crisis económicas y sociales en las que tanto gobiernos de muchos países como empresas encuentran dificultades para adaptarse a esta nueva situación  y cambiar con agilidad sus modelos de  gobierno y gestión.

Por otro lado la agresión al medio ambiente y el cambio climático  y  la necesidad de atender los requerimientos  de agentes económicos y sociales reclaman su derecho a desempeñar el rol que les corresponde. Emergen tendencias como la Responsabilidad Social Corporativa, vinculada a procesos de reporte estandarizado, como el que marca Global Reporting Initiative (GRI) y a mejoras en los esquemas de Gobernanza Corporativa, necesarias para armonizar los distintos ecosistemas tanto sociales como empresariales y ambientales garantizando la legítima participación de todas las partes interesadas y equiparando la información generada a la financiera a la hora de tomar decisiones.

En este escenario, los activos utilizados tanto por gobiernos como empresas para desarrollar deben ser administrados de manera eficaz y eficiente para incrementar el valor de las organizaciones de manera incremental y continua garantizando principalmente  la sostenibilidad económico financiera de esas organizaciones. Dentro de esos activos, la información y la TI adquieren valor importantísimo para facilitar  las necesidades de transformación de las organizaciones y, especialmente gobernar y gestionar el uso adecuado de la TI tal como señala la norma ISO/IECE 38500.

En cualquier caso, la implantación de éstas  tecnologías requiere un cambio profundo en la cultura de las organizaciones, públicas y privadas y la adopción de principios y políticas internas que impidan posibles perjuicios a todas las partes interesadas en el éxito de dichas organizaciones.

La aplicación de las distintas normas mencionadas así como  renovación del concepto de Gobernanza Corporativa aplicada a los distintos activos y especialmente a la TI (dirección y control en el uso y gestión de los mismos) es uno de los grandes retos a los que se enfrenta hoy el mundo económico financiero así como la generación de conocimiento e inteligencia para resolver los graves problemas de nuestros días y en el futuro. Esta nueva forma de trabajar hará que las empresas sean más responsables, comprometidas, humanas,  productivas, y más eficaces y eficientes en el liderazgo, formación y aptitud personal así como un uso adecuado de la TI por parte de la organización.

There is no doubt that technological innovation is one of the key elements driving human progress.

However, new technologies also raise ethical questions, have serious implications for society and the environment and pose new risks, often unknown and unknowable before the new technologies reach maturity. They may even lead to radical disruptions. Just think about robots, self-driving vehicles, medical engineering and the Internet of Things.

They are strongly dependent on social acceptance and cannot escape public debates of regulation and ethics. If we want to innovate, we have to do that responsibly. We need to reflect on –and include- our societal values in this process. This course will give you a framework to do so.

The first part of the course focuses on ethical questions/framework and concerns with respect to new technologies.

The second part deals with (unknown) risks and safety of new technologies including a number of qualitative and quantitative risk assessment methods.

The last part of the course is about the new, value driven, design process which take into account our societal concerns and conflicting values.

Case studies (ethical concerns, risks) for reflection and discussions during the course include – among others- nanotechnology, self-driving vehicles, robots, AI smart meters for electricity, autonomous weapons, nuclear energy and CO2capture and coolants. Affordable (frugal) innovations for low-income groups and emerging markets are also covered in the course. You can test and discuss your viewpoint.

The course is for all engineering students who are looking for a methodical approach to judge responsible innovations from a broader – societal- perspective.

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.

Ce cours sera enseigné en français.
This course will be taught in French.

Quel lien existe-t-il entre l’exploitation des ressources naturelles (terre, eau, ressources minières, forêts, ...) et le développement durable ? Ce cours vous permettra de comprendre les opportunités mais aussi les défis que la présence de ressources naturelles offre, tant au niveau local que global. En analysant les effets socio-économiques et écologiques de la ruée actuelle vers ces ressources naturelles, vous comprendrez mieux les liens entre crise agraire, crise alimentaire et crise environnementale. A partir d’études de cas spécifiques, c’est votre regard sur les dynamiques globales contemporaines qui en sera modifié.

A la fin du cours, par rapport à des problématiques liées à la gestion des ressources naturelles (ruée sur la terre, le sous-sol, l’eau et/ou la forêt), vous serez capables de:

• comprendre, comparer et analyser des modèles théoriques qui permettent de décoder de telles problématiques
• décomposer ces problématiques en causes, conséquences, solutions et points de vue divergents sur ces trois elements
• repérer, dans votre environnement, des cas d'étude qui illustrent ces problématiques et leur appliquer le processus de décomposition vu dans le cours.

Vous serez invités à choisir deux ressources naturelles parmi les quatre proposées. Vous développerez les apprentissages annoncés au travers de présentations vidéo par la professeur et par des experts, de QCM, d’un jeu de plateau à jouer avec vos proches (Land Rush), de débats et de cas d’étude proposés par vous, que vous schématiserez et présenterez aux autres via une activité d’évaluation par les pairs.

What kind of link exists between the exploitation of natural resources (land, water, minerals, forests) and sustainable development? This course aims to understand the opportunities and challenges implied by the presence of natural resources at both local and global levels. You will be analyzing the socioeconomic and ecological effects of the contemporary natural resource rush. This will help you to gain a better understanding of the links between land, food and environmental crises. Through the analysis of specific case studies, you’ll look at contemporary global dynamics in a different way.

In this course, you will learn the basics of results-based project management. After an introduction to the results framework and its associated performance indicators, you will learn how monitoring systems and evaluations provide a crucial source of evidence for management decision-making.

This project management course is designed to address the growing demand for managers in Africa and around the world, who can use results-based approaches to design, implement and manage an ever growing range of programs and projects. Monitoring and evaluation (key results based management tools) are increasingly called upon within public service, non-governmental sectors and multi-lateral development agencies to help ensure that resources are put to optimum use and that citizens and beneficiaries are assured of receiving the benefits that are committed to them. 

The course has been developed in partnership with CLEAR Anglophone Africa and draws upon the centers experience in promoting the use of evidence-based systems across Africa to enhance development practice. 

Your skills and expertise are only as strong as your ability to sell them. To secure a job that appeals to you, you also need to know how to present yourself as an attractive potential employee. This career development course will help you highlight your skills and stand out in the crowd through your application materials, networking opportunities, and interviews. By the end of the course, you will be equipped to make a lasting impression on hiring managers and others throughout your job search.

In this course, part of the Retail Management Professional Certificate program, you will learn the four key components of the retail business:

• Demand forecasting,
• Inventory management
• Assortment planning
• Pricing decisions

You will learn about the different challenges that retailers face and have the opportunity to explore methods and techniques available to address these challenges. You will also have access to simulation tools to better internalize the concepts.

The course will take a hands-on, problem driven approach that will help you understand and put into practice the concepts you learn. At the end of the course you, will be able to make better decisions at every step of the retail process.

We have designed this course to suit a wide variety of participants, from retail owners and store managers, to undergrad business majors or specialists in retail. 

You’ll learn about today’s urban challenges focusing on developing countries, referred to as the global south. We will debate the benefits of three pathways, going beyond traditional urban strategies and policies:

1. Spatial justice

Spatial justice is undoubtedly one of the greatest challenges of urban contexts in emerging economies.

2. Housing Provision and Management

Increasing demand in the global south calls for alternative approaches in housing provision and management.

3. Urban Resilience

Understanding resilience not as a mere struggle for survival, but as an opportunity to build better urban environments.

We will discuss question such as:

• Is the just city framework applicable in cities with extreme socio-economic inequality?
• Can community-led housing initiatives provide effective solutions for households in need?
• How can resilience support development instead of perpetuating a disadvantaged condition?

In this architecture and urban planning course, academic urban planning expertise from TU Delft is used to formulate possible answers to these questions, and is applied in a range of challenging case studies from Ghana, Brazil, Malaysia, Chile, and China, among others. This course offers you a new perspective to understand and analyze the urban challenges of the global south.

Through a combination of short theoretical lessons, presentation of case studies, testimonies from practitioners and practical assignments you will also learn how to develop a critical perspective about your own urban environment and how to translate this knowledge into analytical tools and innovative urban solutions.

This course is designed for undergraduate and master level students of architecture, urban planning and disciplines related to urban themes. Nevertheless, anyone interested on debating spatial justice, urban resilience and housing provision and management are welcome.

No previous knowledge in urban planning or global south is required, just your eagerness to learn!

RETHINK THE CITY PRIZE

One participant will be selected to come to Delft to participate in the 2017 Summer School “Planning and Design with Water”. This Rethink the City prize will cover the costs of the tuition fee for the summer school, the costs of board and lodging in Delft during the period of the summer school, and the travel costs to The Netherlands. The selection criteria for this prize will be communicated upon the course start.

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.

El planeta se enfrenta al reto de alimentar a una población creciente en un escenario de limitación de recursos, mercados agroalimentarios imperfectos, crisis de alimentos, y población rural vulnerable. El curso invita a una reflexión sobre las alternativas de la agricultura y la alimentación, vistas como solución a los desafíos socio-económicos y ambientales, con énfasis en el papel de la agricultura familiar y en modos de producción sostenibles, en el marco de cadenas de valor más equilibradas.

This course is taught in Spanish with English subtitles.

Our climate is changing rapidly, and now more than ever we need to be ready to act and prepare the next generation to do the same.

This course explores the basic science behind climate change and presents the tools to teach it in a positive, engaging and participatory way. The course also introduces some of the ethical and social issues around climate change.

This is a hands-on course that makes use of videos, lesson plans and online games developed by the IDB's "Rise-Up: Education Against Climate Change" initiative with examples coming directly from Latin America and the Caribbean. It is intended to assist elementary and high-school teachers or teachers-in-training in the launch of climate change education and actions to mitigate and adapt to climate change in their school community.

In this course, you will learn to estimate the expected return of equity and debt. You will also learn to estimate the weighted average cost of capital (WACC), the opportunity cost of capital you should use when discounting the free cash flows to value a firm.

In the process, you will learn to estimate the risk of financial assets and how use this measure of risk to calculate expected returns. You will also learn how the capital structure of a firm affects the riskiness of its equity and debt. Throughout the course, you will learn how to construct Excel models to value firms using hands on activities.

Risk management is a process used for the identification, assessment and analysis of potential risks to an organization or project. This process enables you to develop the most appropriate risk response.

In the Risk Management for Projects course, you will learn the fundamentals of risk management, as well as how to apply a risk management process in a project-based setting. Risk management is an iterative process and you will learn how adopting key procedures can help you maximize opportunities and minimize negative impact on your project objectives.

In this course, you will further upskill through the application of the risk management canvas, which is a framework that enables you to manage risk within your own environment. It will immerse you in the concepts of risk management and help you to apply the key processes.

Practical activities through the course will allow you to apply the knowledge you learn as each week focuses on a key stage of the risk management process. The theories and practices taught in the course can easily be applied to any project, organization or business environment.

Risk Management for Projects is brought to you by the same team that developed the highly successful Introduction to Project Management MOOC, and builds on risk management for projects introduced in that course.

Participating in this course will ensure that you gain the know-how to reduce your project and organizational risk in the future.

Ready to start your career in Risk Management? If you’ve gained a clear, comprehensive survey of the practice of Risk Management, your next step is to complete the Risk Management Certification Exam from the New York Institute of Finance.

To earn your Professional Certificate in Risk Management from the New York Institute of Finance (NYIF), you must pass this exam.

You must complete the courses in the certificate program to sit for the exam:

• Introduction to Risk Management
• Measuring Risk: Equity, Fixed Income, Derivatives and FX
• Risk Management Tools and Practices
• Stress Testing and Regulation – Part 1
• Stress Testing and Regulation – Part 2

This economics and finance course is an introduction to risk management techniques including the use of standard hedging instruments, asset-liability management and integrated risk management.

Upon completion of this course, participants will receive a certificate bearing the New York Institute of Finance (NYIF) name. A NYIF certificate is a valuable addition to your credentials, proving that you have acquired the work-ready skills that employer’s value.

For those who wish to go further, students can enroll in the other four modules to earn the complete Risk Management Professional Certificate, backed by the New York Institute of Finance’s 93-year history. As a final option, students may also opt to sit for the NYIF Certificate of Mastery Exam, resulting in the Risk Management Certificate of Mastery upon successful completion.

In this course, we’ll review a transaction that the instructor, Jeff, worked on in his professional career. We will discuss international project finance in the context of working with multilateral banks and bilateral banks in an international environment that entails a lot of political and/or currency risk.

This course is part of the New York Institute of Finance’s popular Project Finance and the Public Private Partnership Professional Certificate program.

This course provides a mathematical introduction to the mechanics and control of robots that can be modeled as kinematic chains. Topics covered include the concept of a robot’s configuration space and degrees of freedom, static grasp analysis, the description of rigid body motions, kinematics of open and closed chains, and the basics of robot control. The emphasis is not on the latest research trends and technological innovations in robotics, but on learning the fundamental concepts and core principles that underlie robotics as a scientific discipline. The intent is to help students acquire a unified set of analytical tools for the modeling and control of robots, together with a reliable physical intuition that recognizes the unique and interdisciplinary nature of robotics—in short, content that will serve as a reliable foundation for whatever trends may appear later, and remain relevant to both the practitioner and researcher. This course is the first of two parts of “Robot Mechanics and Control.” Part II will start shortly after completion of Part I.

This course is Part II of a two-part mathematical introduction to the mechanics and control of robots that can be modeled as kinematic chains. Topics covered include the concept of a robot’s configuration space and degrees of freedom, static grasp analysis, the description of rigid body motions, kinematics of open and closed chains, and the basics of robot control. The emphasis is not on the latest research trends and technological innovations in robotics, but on learning the fundamental concepts and core principles that underlie robotics as a scientific discipline. The intent is to help students acquire a unified set of analytical tools for the modeling and control of robots, together with a reliable physical intuition that recognizes the unique and interdisciplinary nature of robotics—in short, content that will serve as a reliable foundation for whatever trends may appear later, and remain relevant to both the practitioner and researcher. NOTE: Part II will cover screw motions and the product of exponentials kinematics formula, inverse kinematics of open chains, velocity kinematics and statics, closed chain kinematics, and basics of robot control.

We think of Robotics as the science of building devices that physically interact with their environment. The most useful robots do it precisely, powerfully, repeatedly, tirelessly, fast, or some combinations of these. The most interesting robots maybe even do it intelligently. This course will cover the fundamentals of robotics, focusing on both the mind and the body.

We will learn about two core robot classes: kinematic chains (robot arms) and mobile bases. For both robot types, we will introduce methods to reason about 3-dimensional space and relationships between coordinate frames. For robot arms, we will use these to model the task of delivering a payload to a specified location. For mobile robots, we will introduce concepts for autonomous navigation in the presence of obstacles.

Class projects will make use of ROS - the open-source Robot Operating System (www.ros.org) widely used in both research and industry. Computer requirements for working on the projects will include a computer set up with Ubuntu Linux and high bandwidth internet access for downloading and installing ROS packages.

Flying drones or robot manipulators accomplish heavy-duty tasks that deal with considerable forces and torques not covered by a purely robot kinematics framework. Learn how to formulate dynamics problems and design appropriate control laws.

In this course, part of the Robotics MicroMasters program, you will learn how to develop dynamic models of robot manipulators, mobile robots, and drones (quadrotors), and how to design intelligent controls for robotic systems that can grasp and manipulate objects.

We will cover robot dynamics, trajectory generation, motion planning, and nonlinear control, and develop real-time planning and control software modules for robotic systems. This course will give you the basic theoretical tools and enable you to design control algorithms.

Using MATLAB, you will apply what you have learned through a series of projects involving real-world robotic systems.

How do you create robots that operate well in the real world? Learn the key math concepts and tools used to design robots that excel in navigating our complex, unstructured world in environments such as aerospace, automotive, manufacturing and healthcare.

In this course, part of the Robotics MicroMasters program, you will learn how to apply concepts from linear algebra, geometry and group theory and the tools to configure and control the motion of manipulators and mobile robots.

You will also learn how to use MATLAB, the standard robotics programming environment and learn step by step how to use this mathematical tool to write functions, calculate vectors and produce visualizations. You will get hands on experience applying your knowledge to projects using various simulations in MATLAB.