Founder and Director of the Industrial Internet Consortium
General Electric Global Research, USA
Dr. Joseph Salvo is the founder and GE Director of the Industrial Internet Consortium (IIC). He is responsible for setting the overall direction and prioritization of IIC activities for the organization. He also manages the Complex Systems Engineering Laboratory at GE Global Research. For the past 15 years Dr. Salvo and his laboratory have developed a series of large-scale internet-based sensing arrays to manage and oversee business systems and deliver value-added services. Under Dr. Salvo’s leadership, the lab has released commercial releases of complex decision platforms such as GE Veriwise™ GE Railwise™, Global Vendor Managed Inventory, Ener.GE™, and E-Materials Management that deliver near real-time customer value through system transparency and knowledge-based computational algorithms.
Dr. Salvo holds 15 U.S. patents, with more than 15 additional patents pending. He is a member of the board at the M.I.T. Forum for Supply Chain Innovation and the IEEE Computer Society. Dr. Salvo joined the GE Global Research Center in 1988. He received his Masters and Ph.D. in Molecular Biophysics and Biochemistry at Yale University and his undergraduate degree from Harvard University.
VP of Engineering, Qualcomm Connected Experiences, USA
Technical Steering Committee Chair, AllSeen Alliance
Greg Burns is vice president of engineering at Qualcomm Connected Experiences, Inc. In this role, Burns serves as the chief software architect and one of the maintainers of the AllJoyn open source software framework, that is now hosted by the AllSeen Alliance. Burns has been the technical lead for AllJoyn since its inception in 2009 and continues to contribute code to the open source project.
Prior to Qualcomm Burns developed Bluetooth stacks as CTO of software startup Open Interface North America. He has over 30 years of experience in software fields ranging from compilers and optimizers to security, audio codecs, and network protocols.
King's College London & Worldsensing
General Motors Global R&D
Technical University of Kaiserslautern
German Research Center for Artificial Intelligence
Hans Schotten is Scientific Director and member of the Management Board of the German Research Centre for Artificial Intelligence (DFKI GmbH), full professor and head of the Institute for Wireless Communications and Navigation at the University of Kaiserslautern, and dean of the department of Electrical and Computer Engineering. In 1997, he received a Ph.D. in Electrical Engineering from the Aachen University of Technology RWTH, Germany. He held positions as senior researcher, project manager, and head of research groups at the Aachen University of Technology, Ericsson Corporate Research, and Qualcomm Corporate R&D. At Qualcomm he has also been a Director for Technical Standards and coordinator of Qualcomm's activities in European research programs. Prof. Schotten published over 200 technical papers, filed 15 patents, received several awards, served as TPC co-chair and TPC member of many international conferences, and consultant for research organizations, governmental bodies, and the ICT industry.
Andreas Mueller is a Research Engineer and Project Manager within the Corporate Research Department of Robert Bosch GmbH in Stuttgart, Germany. In line with Bosch’s ambition to actively drive and shape the emerging Internet of Things and Services, Andreas is responsible for various research activities in this exciting area, with applications in different verticals, including the industrial, consumer, building and healthcare domains. To this end, he is closely collaborating with experts from various fields and disciplines in order to make the Internet of Things and Services become reality.
Prior to joining Bosch, Andreas was a Research Staff Member at the Institute of Telecommunications of the University of Stuttgart, Germany, where he was contributing to the further development of the 3GPP Long Term Evolution towards LTE-Advanced. Besides, he was working as a Systems Engineer for Rohde & Schwarz, developing a novel software-defined radio based communication system for the German Armed Forces. Andreas holds a German Diploma degree as well as a Ph.D. degree in Electrical Engineering (with distinction) and a M.Sc. degree in Information Technology, all from the University of Stuttgart, Germany.
Gerhard Wunder studied electrical engineering at the University of Hannover and the Technical University (TU) Berlin and received his graduate degree in electrical engineering (Dipl.-Ing.) with highest honors in 1999 and the PhD degree (Dr.-Ing.) in communication engineer-ing on the PAPR problem in OFDM with distinction (Summa Cum Laude) in 2003 from TU Berlin. In 2007, he also received the habilitation degree and became a Privatdozent at the TU Berlin. Since 2003 he is heading a research group at the Fraunhofer Heinrich-Hertz-Institut in Berlin.
In 2000 and 2005, he was a visiting professor at the Georgia Institute of Technology (Prof. Jayant), and the Stanford University (Prof. Paulraj). In 2009 he was a consultant at Alcatel-Lucent Bell Labs, New Jersey (USA). Since 2011, he is an editor for the IEEE Transactions on Wireless Communications. In 2011 he received the award for outstanding scientific publication by the German communication engineering society (ITG).
The Internet of Things and Services (IoTS) will be one of the next big things. By enabling all kinds of smart objects, such as intelligent sensors and actuators, to communicate and interact with each other across different networks and domains, a plethora of new services & applications may be created, thus bearing the potential to create substantial new markets and to revolutionize existing ones. Future Smart Factories, for example, will exhibit an unprecedented degree of flexibility and versatility, Smart Homes will improve the comfort, convenience and energy-efficiency at your home and Intelligent Transportation Systems will increase traffic safety and eventually enable autonomous driving. Current forecasts predict that there will be more than 50 billion devices connected to the Internet by 2020 and this is just the beginning.
However, it is also quite clear that on the way to a fully connected cyber-physical world still numerous research challenges have to be addressed. This includes aspects like the development of new energy- and resource-efficient connectivity solutions, comprehensive support of self-management and plug-and-play mechanisms, novel (usable) security approaches, seamless interoperability across heterogeneous networks and different domains, novel semantic technologies and middlewares, and many more. Also, in order to exploit the full potential of the IoTS, a close collaboration is required between academia, the traditional telecom industry, but also industries representing the different application domains, which probably will be among the main beneficiaries of the IoTS in future.
The goal of this workshop is to bring all these players together and to foster a better common understanding, to exchange visions and latest research results, to discuss promising new technologies and to highlight open research challenges. To this end, several renowned experts from industry have been invited, who will cover the topic in keynote speeches and invited talks from different perspectives in order to provide a rather comprehensive overview of all issues that have to be considered in this respect. Besides, the workshop will include a panel discussion on open research challenges and the way forward to finally make the IoTS become reality. Furthermore, it will feature a demo session, during which latest (practical) research results will be showcased and demonstrated.You should not miss this exciting event if you want to:
IEEE GLOBECOM is one of two flagship conferences of the IEEE Communications Society, together with IEEE ICC. Each year the conference attracts about 3000 submitted scientific papers. A technical program committee of more than 1,500 experts provides more than 10,000 reviews, and from this a small fraction of the submitted papers are accepted for publication and presentation at the conference. The conference meets once a year in North America and attracts roughly 2000 leading scientists and researchers and industry leaders from all around the world. IEEE GLOBECOM is therefore one of the most significant scientific events of the networking and communications community, a must-attend event for scientists and researchers from industry and academia.
IEEE GLOBECOM is a five-day event. Two days are dedicated to tutorials and workshops, while the remaiing three days are dedicated to the IF&E program and the technical symposia. The program of the technical symposia includes oral or poster presentations of about 1000 scientific papers, grouped into 12 thematic symposia, and more than 15 parallel sessions. In addition to the technical program, IEEE GLOBECOM 2014 will feature an industry forum and exhibition (IF&E) program, including industry-focused workshops, tutorials, keynote talks from industrial leaders, panel discussions, a large exposition, and business and industrial forums.
For more information, please check the official IEEE Globecom 2014 conference website.