Institution
Capgemini
Company•Utrecht, Netherlands•
About: Capgemini is a company organization based out in Utrecht, Netherlands. It is known for research contribution in the topics: Enterprise architecture & Software development. The organization has 544 authors who have published 591 publications receiving 9931 citations. The organization is also known as: Capgemini SE.
Topics: Enterprise architecture, Software development, Software quality, Formal specification, Information system
Papers published on a yearly basis
Papers
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Eindhoven University of Technology1, Queensland University of Technology2, Capgemini3, University of Rome Tor Vergata4, Humboldt University of Berlin5, Software AG6, University of Padua7, Polytechnic University of Catalonia8, Hewlett-Packard9, Ghent University10, New Mexico State University11, IBM12, University of Milan13, University of Tartu14, University of Vienna15, Technical University of Lisbon16, Telecom SudParis17, Rabobank18, Infosys19, University of Calabria20, Fujitsu21, Pennsylvania State University22, University of Bari23, University of Bologna24, Vienna University of Economics and Business25, Free University of Bozen-Bolzano26, Stevens Institute of Technology27, Indian Council of Agricultural Research28, Pontifical Catholic University of Chile29, University of Haifa30, Ulsan National Institute of Science and Technology31, Cranfield University32, Katholieke Universiteit Leuven33, Deloitte34, Tsinghua University35, University of Innsbruck36, Hasso Plattner Institute37
TL;DR: This manifesto hopes to serve as a guide for software developers, scientists, consultants, business managers, and end-users to increase the maturity of process mining as a new tool to improve the design, control, and support of operational business processes.
Abstract: Process mining techniques are able to extract knowledge from event logs commonly available in today’s information systems. These techniques provide new means to discover, monitor, and improve processes in a variety of application domains. There are two main drivers for the growing interest in process mining. On the one hand, more and more events are being recorded, thus, providing detailed information about the history of processes. On the other hand, there is a need to improve and support business processes in competitive and rapidly changing environments. This manifesto is created by the IEEE Task Force on Process Mining and aims to promote the topic of process mining. Moreover, by defining a set of guiding principles and listing important challenges, this manifesto hopes to serve as a guide for software developers, scientists, consultants, business managers, and end-users. The goal is to increase the maturity of process mining as a new tool to improve the (re)design, control, and support of operational business processes.
1,135 citations
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Swansea University1, University of Bradford2, Loughborough University3, University of Bedfordshire4, Prin. L. N. Welingkar Institute of Management Development and Research5, Aston University6, University of Edinburgh7, Indian Institute of Technology Delhi8, Delft University of Technology9, Copenhagen Business School10, Norwich University11, Government of Tamil Nadu12, University of Greenwich13, Indian Institute of Management Tiruchirappalli14, Symbiosis International University15, University of Essex16, University of the West of England17, Capgemini18
TL;DR: This research offers significant and timely insight to AI technology and its impact on the future of industry and society in general, whilst recognising the societal and industrial influence on pace and direction of AI development.
808 citations
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TL;DR: In this paper, a conceptual model is proposed that integrates the research on the environmental perspective of service experiences with the standard satisfaction model, and an experiment was conducted to test a part of this model.
361 citations
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Douglas W. Ming, P. D. Archer, Daniel P. Glavin1, Jennifer L. Eigenbrode1 +439 more•Institutions (55)
TL;DR: Higher abundances of chlorinated hydrocarbons in the mudstone compared with Rocknest windblown materials previously analyzed by Curiosity suggest that indigenous martian or meteoritic organic carbon sources may be preserved in the Mudstone; however, the carbon source for the chlorinatedHydrocarbons is not definitively of martian origin.
Abstract: H2O, CO2, SO2, O2, H2, H2S, HCl, chlorinated hydrocarbons, NO, and other trace gases were evolved during pyrolysis of two mudstone samples acquired by the Curiosity rover at Yellowknife Bay within Gale crater, Mars. H2O/OH-bearing phases included 2:1 phyllosilicate(s), bassanite, akaganeite, and amorphous materials. Thermal decomposition of carbonates and combustion of organic materials are candidate sources for the CO2. Concurrent evolution of O2 and chlorinated hydrocarbons suggests the presence of oxychlorine phase(s). Sulfides are likely sources for sulfur-bearing species. Higher abundances of chlorinated hydrocarbons in the mudstone compared with Rocknest windblown materials previously analyzed by Curiosity suggest that indigenous martian or meteoritic organic carbon sources may be preserved in the mudstone; however, the carbon source for the chlorinated hydrocarbons is not definitively of martian origin.
349 citations
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01 Mar 2011TL;DR: This paper shows that several architectural features will play a major role in the adoption of the Cloud Computing paradigm as a mainstream commodity in the enterprise world and provides key guidelines to software architects and Cloud Computing application developers for creating future architectures.
Abstract: Cloud Computing is a model of service delivery and access where dynamically scalable and virtualized resources are provided as a service over the Internet. This model creates a new horizon of opportunity for enterprises. It introduces new operating and business models that allow customers to pay for the resources they effectively use, instead of making heavy upfront investments. The biggest challenge in Cloud Computing is the lack of a de facto standard or single architectural method, which can meet the requirements of an enterprise cloud approach. In this paper, we explore the architectural features of Cloud Computing and classify them according to the requirements of end-users, enterprises that use the cloud as a platform, and cloud providers themselves. We show that several architectural features will play a major role in the adoption of the Cloud Computing paradigm as a mainstream commodity in the enterprise world. This paper also provides key guidelines to software architects and Cloud Computing application developers for creating future architectures.
347 citations
Authors
Showing all 544 results
Name | H-index | Papers | Citations |
---|---|---|---|
Gregor Engels | 39 | 353 | 6657 |
Henderik A. Proper | 33 | 237 | 3634 |
Olivier Teste | 21 | 165 | 1593 |
Erik Proper | 19 | 49 | 2034 |
Bart Custers | 17 | 70 | 986 |
Frank Harmsen | 14 | 34 | 1238 |
Torsten Priebe | 12 | 22 | 684 |
Tobias Bürger | 12 | 42 | 534 |
Biljana Stangeland | 12 | 15 | 509 |
Bertrand K. Hassani | 11 | 68 | 420 |
Martin Op ’t Land | 11 | 21 | 904 |
Fabien Marnas | 10 | 18 | 325 |
Bernhard Humm | 10 | 59 | 376 |
Robert A. Stegwee | 10 | 33 | 501 |
Luca Mazzei | 9 | 19 | 292 |