인공지능 백서

당사의 백서에서 인트라로지스틱스의 인공지능에 대해 자세히 알아보십시오.

artificial intelligence, connection human and machine

인공지능 백서

Are machines capable of thought?

There has been a lot of excitement surrounding artificial intelligence (AI) as a branch of information technology since 2017. AI has already proved useful for a wide variety of applications: virtual assistants, applications, brain games, and much more.

But back to our original question: Are these machines really capable of thought? Immediately, we are faced with a problem: What exactly is thought? There is no single, straightforward definition of the concept.

But what distinguishes artificial intelligence from human intelligence?

The unique characteristic of humans – at least for the moment – is creative and innovative thought. Machines, however, can choose from existing decision options and process an incredibly large amount of data and information. In addition, they also have impressive reliability, accuracy, and continuity – they can work around the clock. Even complex tasks can be carried out independently, if given the correct instruction. Algorithms, high processing power, and the exponential growth of data that need to be processed form the basis of artificial intelligence.

From here alone it is clear that artificial intelligence has huge potential. The continual development of machine learning also has consequences for the workplace.

Blog Artificial Intelligence

인공 지능 (Artificial Intelligence, AI)은 단순한 유행어일까요 아니면 더 깊은 무언가가 있을까요? 인공 지능은 이미 현실에서 적용되고 있을까요 아니면 미래에 있을 그 무엇일까요? 쉐퍼시스템즈IT Solutions의 데이터 분석 및 시뮬레이션 팀 리더 Markus Klug과의 인터뷰에서 이...

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Artificial Intelligence

Basic concepts relating to artificial intelligence

Innovations and Trends in material handling and logistics

Artificial intelligence (AI) is a branch of information technology that deals with the automation of intelligent behavior. AI is the attempt to program a computer so that it is able to process problems independently, similar to the way a human with the appropriate training would. Problem solving means making decisions that constitute an appropriate response to the underlying problem within a specified time, based on data from various sources (databases, sensors, video cameras, etc.).

artificial intelligence, brain with data streams, networking

Machine learning is a collective term for various processes used to determine an unknown functional inter-relationship between input and output data. In addition to still-important traditional applications such as cluster formation, regression, factor and time series analyses, it also integrates more complex methods such as neuronal networks, evolutionary approaches and support vector machines.

Predictive Analytics

The use of Big Data technologies enables the processing of gigantic amounts of data as well as depicting the real world promptly and an accurate taking of decisions. Read in our white paper which preconditions need to be fulfilled for predictive analytics

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Simulation

Simulation plays a vital role in the planning of logistics systems. Our white paper describes how AI is used for planning and demonstrates the advantages this brings along.

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Cognitive Computing - Artificial Intelligence

Cognitive Computing - machine assistants instead of humans take over tasks or take decisions. Watch our video and learn more about the most important areas of application where machines support humans.

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Deep Learning

Deep learning is a technology which enables computers to acquire a capacity that comes natural to human beings: to learn from experience. This is used, for instance, in image and voice recognition. Learn here what deep learning is and how it evolved during the last years.

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Learning Strategies

Learning strategies - a high number of repetitions and good data quality play a vital role for learning! But which different kinds of learning strategies are applied?

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Machine Learning

Personalized on-line advertising or automated filtering of spam e-mails are enabled by machine learning. You can find out how this works in this video.

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Artificial Intelligence

Learn more about artificial intelligence.

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Artificial Intelligence in logistics

Let's talk about opportunities...

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The authors of the artificial intelligence whitepaper

... studied technical mathematics at Vienna University of Technology (TU Wien), having specialized in simulation, operations research, and statistics. After completing his studies, he spent time in Glasgow, where he researched kernel methods for use in discrete event simulation models. In 2001 he joined the Seibersdorf research center, firstly as a project manager, later becoming head of the "Process optimization" work group, where he conducted and managed national and international research projects on transport logistics, location-specific logistics, and global supply chains. Whilst still carrying out his research, he also began teaching at various higher education institutions across Austria, which later became his main profession.

Markus Klug has been part of SSI SCHÄFER IT Solutions GmbH since 2013. He was originally responsible for building up data analysis and simulation within the company, a role which later grew to encompass data science and artificial intelligence/machine learning. As a military expert for reserve force logistics with a particular focus on military operations research, he also acts as a consultant for the Austrian army, providing expert advice about the development of mathematic models and processes in the military sector. Markus Klug has extensive knowledge and experience, as demonstrated by his various academic publications, lectures, membership of academic program committees, session chairs at academic conferences, and his capacity as a reviewer for international specialist journals.

Autor Georg Rief

Georg Rief has a bachelor's degree in computational sciences and a master's degree in physics. He focused mainly on simulation and data science, as artificial intelligence was not a particularly important topic at that time and was therefore not central to his studies. He had 8 years of experience in software development in other sectors before coming to SSI SCHAEFER in March 2014. Initially he worked as a W4 developer for customer projects, before transferring to the data science/simulation department in December 2016.

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Karina Konrath studied technical mathematics at Graz University of Technology and has been working for SSI SCHAEFER since November 2017. As a data scientist, she is largely responsible for the analysis and preparation of data, which requires the intensive use of statistics and mathematics.

Innovations and Trends in material handling and logistics

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