LEADER 02456nam0 2200445 i 450 001 BVEE032040 005 20170908093215.0 012 $atae- ioa- *-*- **** (3) 1671 (R)$2fei$9Caratteri greci 100 $a20170612d1671 ||||0itac50 ba 101 | $alat$agrc 102 $agb 181 1$6z01$ai $bxxxe 182 1$6z01$an 200 1 $a˜Nemesiou ... œPeri physeōs anthrōpou biblion en. Nemesii philosophi & episcopi De natura hominis liber unus, denuo recognitus, & manuscriptorum codicum collatione in integrum restitutus, annotationibusque insuper illustratus 210 $aOxonii$ce Theatro Sheldoniano$d1671 215 $a\16!, 345, \5!, 42 \i.e. 50! p.$d8º 300 $aCon il testo in greco 300 $aA cura di John Fell (cfr. NUC pre-1956, vol. 410, p. 259 300 $aSegn.: A-2C⁸ 300 $aL'ultima p. erroneamente numerata 42 anzichè 50. 316 $a1 v.; Sul frontespizio, in basso a destra, timbro direzione degli scavi e monumenti$5IT-NA0226, SALA TERZA32. G 24 317 $aPossessore: *Museo Archeologico Nazionale di Napoli. $5IT-NA0226 SALA TERZA 32. G 24 500 10$aDe natura hominis$3BVEE032041$9VIAV085778$952397 620 $aGB$dOxford$3MUSL002585 700 0$aNemesius$c $3VIAV085778$4070$0486081 702 1$aFell$b, John$f <1625-1686>$3BVEV071471 712 02$aTheatrum Sheldonianum$3UBOV122132$4650 712 02$aMuseo Archeologico Nazionale di Napoli$3NAPP001851$4390$5IT-NA0226 SALA TERZA 32. G 24 790 0$aJoannem : Oxoniensis$3TO0V561062$zFell, John <1625-1686> 790 0$aNemesius : Emesenus$3BVEV024821$zNemesius 790 0$aNemesios Emesaci$3UBOV441368$zNemesius 791 02$aTheatro Sheldoniano$3BVEV070974$zTheatrum Sheldonianum 791 02$aSheldonian Theatre$c $3MILV315870$zTheatrum Sheldonianum 801 3$aIT$bIT-NA0079$c20170612 850 $aIT-NA0226 912 $aBVEE032040 950 0$aBiblioteca del Museo Archeologico Nazionale di Napoli$b1 esemplare$c1 v.$d NCSALA TERZA32. G 24$e NC 0000056385 B 1 v.; Sul frontespizio, in basso a destra, timbro direzione degli scavi e monumenti$fZ $h20100211$i20100211$lSul frontespizio, in basso a destra, timbro direzione degli scavi e monumenti$mTimbri di enti laici e persone 977 $a NC 996 $aDe natura hominis$952397 997 $aUNISANNIO LEADER 03089nam 2200349 450 001 9910375688003321 005 20230821152833.0 035 $a(CKB)4100000007598059 035 $a(NjHacI)994100000007598059 035 $a(EXLCZ)994100000007598059 100 $a20230821d2018 uy 0 101 0 $aeng 135 $aur||||||||||| 181 $ctxt$2rdacontent 182 $cc$2rdamedia 183 $acr$2rdacarrier 200 10$aProceedings of the 5th ACM International Conference on Nanoscale Computing and Communication /$fJon Atli Benediktsson 210 1$aNew York NY :$cACM,$d2018. 215 $a1 online resource (310 pages) 311 $a1-4503-5711-3 330 $aThe 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. 606 $aNanotechnology$vCongresses 615 0$aNanotechnology 676 $a620.5 700 $aBenediktsson$b Jon Atli$0941121 712 02$aAssociation for Computing Machinery-Digital Library, 801 0$bNjHacI 801 1$bNjHacl 906 $aBOOK 912 $a9910375688003321 996 $aProceedings of the 5th ACM International Conference on Nanoscale Computing and Communication$92122610 997 $aUNINA