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Jan 23rd 2017

Welcome to Quantitative Formal Modeling and Worst-Case Performance Analysis. In this course, you will learn about modeling and solving performance problems in a fashion popular in theoretical computer science, and generally train your abstract thinking skills.

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Jan 23rd 2017

This course will teach you how to develop an embedded systems device. In order to reduce the time to market, many pre-made hardware and software components are available today. You'll discover all the available hardware and software components, such as processor families, operating systems, boards and networks. You'll also learn how to actually use and integrate these components.

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Jan 23rd 2017

Have you ever experienced software systems failing? Websites crash, calendar not synchronising, or even a power blackout. Of course you have! But did you know that many of these errors are the result of communication errors either within a system or between systems? Depending on the system, the impact of software failures can be huge, even resulting in massive economic damage or loss of lives. Software, and in particular the communication between software-intensive systems, is very complex and very difficult to get right. However, we _need_ dependability in the systems we use, directly or indirectly, to support us in our everyday lives.

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Jan 23rd 2017

This course is intended for the Bachelor and Master's students, who like practical programming and making IoTs applications! In this course we will talk about two components of a cyber physical system, namely hardware and operating systems.

Average: 5 (2 votes)
Jan 23rd 2017

This course introduces several topics for the learners about the fundamentals of computer architecture. After completing this course, the students will have the basic knowledge of: • Computer Performance and Benchmarks • Summarizing Performance • Amdahl’s law • Introduction to Embedded Systems.

Average: 7 (1 vote)
Jan 23rd 2017

This course is intended for the Master's student and computer engineer who likes practical programming and problem solving! After completing this course, you will have the knowledge to plan and set-up a real-time system both on paper and in practice.

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Jan 23rd 2017

System Validation is the field that studies the fundamentals of system communication and information processing. It allows automated analysis based on behavioural models of a system to see if a system works correctly. We want to guarantee that the systems does exactly what it is supposed to do. The techniques put forward in system validation allow to prove the absence of errors. It allows to design embedded system behaviour that is structurally sound and as a side effect enforces you to make the behaviour simple and insightful.

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Jan 23rd 2017

If you want to earn money and be able to pay all the salaries you and your employees desperately need.
If so: Is there anything else but sales and marketing? This is also the reason why we will start of in a situation “as if” you did start up the sales process in a new company where no previous customers did exist. Gradually your sales efforts bare fruit, you get customers and market expansion becomes important to be able to handle. The course begins in the art of cold calling and analyzing the customers, then gradually move over to segmentation, positioning, closing the deal, competition, marketing strategy and market expansion.

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Jan 16th 2017

In this course you will learn how to use theories and methods to make predictions of the potential impact of new technology – in general, as well as for a specific application. This will prepare you for the changes that we are facing in society, and also help you take advantage of transformations which are driven by technology.

Average: 10 (1 vote)
Jan 16th 2017

System Validation is the field that studies the fundamentals of system communication and information processing. It is the next logical step in computer science and improving software development in general. It allows automated analysis based on behavioural models of a system to see if a system works correctly. We want to guarantee that the systems does exactly what it is supposed to do.

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Jan 16th 2017

In this course, we will explore several technologies that bring modern devices together, facilitating a network of connected things and making devices internet enabled. We will discuss rules, protocols, and standards for these devices to communicate with each other in the network. We will also go through security and privacy issues and challenges in cyber physical systems (CPS). We will explore measures and techniques for securing systems from different perspectives. Possible attack models are introduced and solutions to tackle such attacks are discussed. Moreover, some basic concepts related to privacy in cyber physical systems are presented.

Average: 8 (2 votes)
Jan 16th 2017

This Innovation and Entrepreneurship course focuses on the interconnection between entrepreneurial thinking and innovation. Specifically, we look at models used in Silicon Valley to grow both start-up companies as well as innovation inside large organizations. Bringing together top Haas School of Business, UC Berkeley faculty, this course addresses critical areas for successful growth, including design thinking, open innovation, business models, product-market fit, and financing. This course will teach you how to think like an entrepreneur and provides the models, tools and frameworks to further develop your business or idea. An emphasis will be placed on the IT space.

Average: 10 (1 vote)
Jan 9th 2017

Embedded Systems are so ubiquitous that some of us take them for granted: we find them in smartphones, GPS systems, airplanes and so on. But have you ever wondered how these devices actually work? If so, you're in the right place! In this course, you'll learn about the characteristics of embedded systems: the possibilities, dangers, complications and recipes for success.

Average: 10 (1 vote)
Jan 9th 2017

The integration of ICT (information and communications technology) in different applications is rapidly increasing in e.g. Embedded and Cyber physical systems, Communication protocols and Transportation systems. Hence, their reliability and dependability increasingly depends on software. Defects can be fatal and extremely costly (with regards to mass-production of products and safety-critical systems).

Average: 1 (2 votes)
Jan 2nd 2017

This course will teach you how to design futureproof systems that meet the requirements of IoT systems: systems that are secure, interoperable, modifiable and scalable. Moreover, you'll learn to apply best-in-class software architecture methods to help you design complex IoT and other applications. Lastly, you'll come to understand the business impact of the technical decisions that you make as an IoT system architect.

Average: 5.7 (3 votes)