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006    m     o  d
007    cr |||||||||||
008    230821s2018    nyu     o     100 0 eng d
035    (CKB)4100000007598059
035    (NjHacI)994100000007598059
035    (Association for Computing Machinery)10.1145/3233188
035    (EXLCZ)994100000007598059
040    NjHacI |beng |erda |cNjHacl
050  4 T174.7 |b.B464 2018
082 04 620.5 |223
100 1  Benediktsson, Jon Atli, |eauthor.
245 10 Proceedings of the 5th ACM International Conference on Nanoscale Computing and Communication / |cJon Atli Benediktsson.
246 30 NANOCOM '18
264  1 New York NY : |bACM, |c2018.
300    1 online resource (310 pages)
336    text |btxt |2rdacontent
337    computer |bc |2rdamedia
338    online resource |bcr |2rdacarrier
490 1  ACM Other conferences
588    Description based on publisher supplied metadata and other sources.
520    The conference is the fifth of a series that is held annually in order to develop and foster a new communication and computing paradigm based on the nanoscale. Continuing advancements in nanotechnology have led to developments of novel materials and components that can be assembled into nanomachines. These low-cost and low-power nanomachines from man-made components, integrate basic sensing, actuating and computing capabilities. However, natural cells artificially programmed through synthetic biology encompass the same capabilities in order to perform certain functionalities. While all these innovative results provide new opportunities, the miniature size of nanomachines also implies that they have limited functionalities. Integrating computing, communication as well as networking capabilities in these nanomachines can further expand their functionalities and lead to novel applications. However, traditional computing and communication paradigms are not applicable due to the challenges posed by the physical laws governing the nanoscale regime, and novel methods are required to realize nano networks. The corresponding scientific and technological advances will lead to enabling technologies supporting a more reliable and robust design of nanomachines and their integration as functional components into networks and systems. The resulting improvements in our ability to transmit information to and from nanomachines, and implement control within themselves, will open new opportunities in the field of medicine, biotechnology, pharmaceuticals, industrial applications, as well as defense and security. Therefore, the aim of ACM NanoCom is to bring together researchers with diverse background including communication engineering and networking, computer science, information theory, synthetic biology, physics, mathematics, materials science, nanotechnology, as well as nanobioscience, in order to realize this vision and further advance the field.
650  0 Nanotechnology |vCongresses.
776     |z1-4503-5711-3
710 2  Association for Computing Machinery-Digital Library, |eeditor.
830  0 ACM Other conferences
906    BOOK