Stephen F Bush is a scientist at GE Global Research and author of a series of books on future communication network technologies.

Quotes

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  • “A Streptichron (from the Classical Greek meaning to 'bend time') is an active packet facilitating prediction that implements any of the active mechanisms... The Streptichron can use this capability to refine its prediction as it travels through the network.”
    • Bush, Stephen F., Active Networks and Active Network Management: A Proactive Management Framework, 2001, ISBN-13: 978-0306465604.
  • “Often it seems the more ‘scholarship’ one has, the less innovative one becomes. One can increasingly rest upon their knowledge of prior art to solve what looks like a new problem.”
    • Bush, Stephen F., Keynote Speech, First IEEE International Conference on Communications 2012 Workshop on Telecommunications: From Research to Standards July 18, 2012.
  • “Academics tend to think they are each the next Einstein whose ‘creativity’ will finally be uncovered a hundred years from now. That's when society should deliver their project funding.”
    • Bush, Stephen F., Keynote Speech, First IEEE International Conference on Communications 2012 Workshop on Telecommunications: From Research to Standards July 18, 2012.
  • “I like to be innovative in everything, including innovation.”
    • Bush, Stephen F., Keynote Speech, First IEEE International Conference on Communications 2012 Workshop on Telecommunications: From Research to Standards July 18, 2012.
  • “Contrary to popular opinion, innovation without some standardized conceptual framework is tantamount to chaos.”
    • Bush, Stephen F., Keynote Speech, First IEEE International Conference on Communications 2012 Workshop on Telecommunications: From Research to Standards July 18, 2012.
  • “Let us think of standards as a way to move from publication to innovation, to move from trying to increase a meaningless impact factor to actually having an impact and fostering new ideas that people can build upon.”
    • Bush, Stephen F., Keynote Speech, First IEEE International Conference on Communications 2012 Workshop on Telecommunications: From Research to Standards July 18, 2012.
  • “In a sense, both the power grid and communications have suffered from their own respective successes – the electric power grid tends to be taken for granted and communication networks are assumed to work perfectly under almost any condition and for any application...the manner in which they are integrated will have far-reaching consequences.”
    • Bush, Stephen F., Smart Grid: Communication-Enabled Intelligence for the Electric Power Grid, ISBN: 978-1-119-97580-9, 576 pages, March 2014, Wiley-IEEE Press.
  • “...understanding information entropy in the power grid per kilowatt of power delivered or the radio frequency communication power expended within the power grid per kilowatt of power delivered will be more valuable than understanding the detailed packet structure of a half-dozen supervisory control and data acquisition protocols.”
    • Bush, Stephen F., Smart Grid: Communication-Enabled Intelligence for the Electric Power Grid, ISBN: 978-1-119-97580-9, 576 pages, March 2014, Wiley-IEEE Press.
  • “Conceptually, we would like a `Maxwell's demon' to exist within the power grid capable of capturing the geomagnetic storm energy. This could someday be a new feature of the `smart grid.'”
    • Bush, Stephen F., Smart Grid: Communication-Enabled Intelligence for the Electric Power Grid, ISBN: 978-1-119-97580-9, 576 pages, March 2014, Wiley-IEEE Press.
  • “The advantage of molecular messaging over other sorts of communication, he says, is its ability to be deployed in hard-to-reach places, such as providing in-body communications for medical applications. The body’s cellular signalling pathways have already been mapped, so these could serve as “communications channels”, says Dr Bush. Digital signals could be sent, say, to the vagal system to help moderate a patient’s blood pressure or heart rate. Data transmitted molecularly might also enable blood-sugar levels to be monitored without invasive pinpricks.”
  • “Nanotechnology has been a very promising research topic in recent years, leading to successful practical implementations. The achievements in this area have led to a growing interest in nanoscale networks. Nanoscale Communication Networks is a kind of primer which prepares the reader for the convergence of Nanotechnology and networking, providing the necessary information for further reading or self-research.”
    • Book Reviews, REVIEWER: JAKUB PALIDER, NANOSCALE COMMUNICATION NETWORKS STEPHEN F. BUSH, ARTECH HOUSE, 2010, ISBN-13: 978-1-60807-003-9, HARDCOVER, 308 PAGES, IEEE Communications Magazine, August 2011.
  • “No prior knowledge regarding quantum mechanics is expected, so one can find a really good introduction covering quantum states, measurement, entanglement together with other aspects of quantum networking, including such issues as security, teleportation, and channel swapping.”
    • Book Reviews, REVIEWER: JAKUB PALIDER, NANOSCALE COMMUNICATION NETWORKS STEPHEN F. BUSH, ARTECH HOUSE, 2010, ISBN-13: 978-1-60807-003-9, HARDCOVER, 308 PAGES, IEEE Communications Magazine, August 2011.
  • “Having presented all the relevant nanoscale mechanisms, thus laying down a firm background for the readers’ understanding, the author moves to the topic of architectural challenges in Chapter 7. This field is claimed still to be an unsolved problem so the author gives examples of currently used technologies and points out potential architectural solutions such as self-assembly, carbon nanotubes, or quantum systems. That is why it makes the book even more valuable for those who intend to involve nanonetworks in their research.”
    • Book Reviews, REVIEWER: JAKUB PALIDER, NANOSCALE COMMUNICATION NETWORKS STEPHEN F. BUSH, ARTECH HOUSE, 2010, ISBN-13: 978-1-60807-003-9, HARDCOVER, 308 PAGES, IEEE Communications Magazine, August 2011.
  • “Summing up, Nanoscale Communication Networks is a demanding but also very interesting book, an ambitious primer. It is definitely a good starting point for further reading. The author guides the reader through all the aspects of nanonetworks, giving in most cases a clear description of his thinking process within transitions between equations. There are also many cross references between chapters and sections which give a broader view of the topic and help to memorize it. One can also find many pictures, diagrams and tables throughout this book in order to systematize the presented knowledge.”
    • Book Reviews, REVIEWER: JAKUB PALIDER, NANOSCALE COMMUNICATION NETWORKS STEPHEN F. BUSH, ARTECH HOUSE, 2010, ISBN-13: 978-1-60807-003-9, HARDCOVER, 308 PAGES, IEEE Communications Magazine, August 2011.
  • “Another advantage is the existence of an exercise section at the end of each chapter which enables the reader to verify understanding and, when needed, to go back to the right section and reread desired fragments.”
    • Book Reviews, REVIEWER: JAKUB PALIDER, NANOSCALE COMMUNICATION NETWORKS STEPHEN F. BUSH, ARTECH HOUSE, 2010, ISBN-13: 978-1-60807-003-9, HARDCOVER, 308 PAGES, IEEE Communications Magazine, August 2011.
  • “...Nanoscale Communication Networks is a very good and valuable book.”
    • Book Reviews, REVIEWER: JAKUB PALIDER, NANOSCALE COMMUNICATION NETWORKS STEPHEN F. BUSH, ARTECH HOUSE, 2010, ISBN-13: 978-1-60807-003-9, HARDCOVER, 308 PAGES, IEEE Communications Magazine, August 2011.
  • “There is a gap between industry and academia. Industry views academia as publication-focused: self-centered, lacking innovation, unaware of IP. Academia views industry as money-focused: driven by the bottom-line, innovating too quickly, product-focused. I would like to see more input from industry and emphasis on understanding 'innovation' to close this gap.”