63 research outputs found
Menander magis orator: η πρόσληψη του Μενάνδρου και η ρητορική παιδεία κατά την πρώιμη αυτοκρατορική περίοδο
Οι κωμωδίες του Μενάνδρου ήταν οι δημοφιλέστερες στους κύκλους των πεπαιδευμένων κατά την αυτοκρατορική εποχή, καθώς χρησιμοποιούνταν ως εργαλείο για την ηθική και ρητορική εκπαίδευση των νέων, ως πρότυπο ηθοποιίας για τους ρήτορες, καθώς και ως μέσο διασκέδασης της μορφωμένης ελίτ στα συμπόσια. Διερευνάται η πρόσληψη της ρητορικής τέχνης και της ηθικοδιδακτικής αξίας του κυριότερου εκπροσώπου της νέας κωμωδίας από Έλληνες και Ρωμαίους συγγραφείς της πρώιμης αυτοκρατορικής περιόδου, οι οποίοι είναι ενεργοί ρήτορες, ρητοροδιδάσκαλοι, φιλόσοφοι, λογοτέχνες, επιστήμονες, που έχουν αφομοιώσει επιτυχώς τη ρητορική εκπαίδευση της εποχής τους, ή θεωρητικοί της ρητορικής. Πρόκειται για τον Διονύσιο Αλικαρνασσέα (c.60 π.Χ.-c.7 μ.Χ.), τον Δημήτριο (c.1ος μ.Χ.) τον Κοϊντιλιανό (c.35-96 μ.Χ.), τον Δίωνα Χρυσόστομο (c.40-c.120 μ.Χ.), τον Πλούταρχο (c.46-c.125 μ.Χ.), τον Επίκτητο (c.50-c.135 μ.Χ.), τον Αίλιο Θέωνα (c.117-c.138 μ.Χ.), τον Αίλιο Αριστείδη (117-c.189 μ.Χ.), τον Λουκιανό (c.120-c.180 μ.Χ.), τον Γαληνό (129-c.199 μ.Χ.) και τον Ερμογένη (c.160-c.225 μ.Χ.). Αρχικά, επιχειρείται να αναδειχθεί ο ρόλος της ηθικής θεματολογίας και των γνωμών του Μενάνδρου στη ρητορική παιδεία και η αξία των μενάνδρειων έργων για τη ρητορική ἠθοποιία και την επίδραση που άσκησαν στις declamations. Έπειτα αντικείμενο πραγμάτευσης αποτελούν οι υφολογικές αρετές του Μενάνδρου (πρέπον / decorum, ἑλληνισμόs / latinitas, σαφήνεια / explanatio, κόσμηση / ornatus), οι μορφές του ύφους του (γοργότης / celeritas, ἀφέλεια / simplicitas) και η ικανότητά του στην υφολογική μίμησιν και εύρεσιν. Επίσης, παρουσιάζονται τα φιλοσοφικά στοιχεία των μενάνδρειων κωμωδιών, που αξιοποιούνταν στο πλαίσιο των διατριβών, και πώς αυτά αξιολογούνται τον 1ο και 2ο αι. μ.Χ., ώστε να αποτελέσουν ένα είδος μενάνδρειας χρηστομάθειας. Τέλος, καταδεικνύεται η αξία του εκλεπτυσμένου χιούμορ της μενάνδρειας κωμωδίας για τη ρητορική. Η πρόσληψη του Μενάνδρου από Έλληνες και Ρωμαίους συγγραφείς της πρώιμης αυτοκρατορικής περιόδου δείχνει ότι οι κωμωδίες του ήταν περισσότερο διαδεδομένες για τη ρητορική και κατ’ επέκταση εκπαιδευτική τους αξία παρά για τη θεατρική ή κωμική τους διάσταση.Comedies of Menander were the most popular within the well educated people during the imperial period, since they were used as a tool for the moral and rhetorical education of young people, as a model of ethopoiia for orators and as a mean of cultivated elite’s entertainment at dinner parties. The present study investigates the reception of rhetorical art and moral value of the major representative of New Comedy from Greek and Roman authors in the early Empire, who were orators, professional teachers of rhetoric, philosophers, satirists and scientists, who had fully absorbed the rhetorical education of their age, or others who had composed rhetorical treatises. They were Dionysius Halicarnasseus (c.60 B.C. - c.7 A.D.) Demetrius (c.1st A.D.), Quintilian (c.35-96 A.D.), Dio Chrysostom (c.40-c.120 A.D.), Plutarch (c.46-c.125 A.D.), Epictetus (c.50-c.135 A.D.), Aelius Theon (c.117-c.138 A.D.), Aelius Aristides (117-c.189 A.D.), Lucian (c.120-c.180 A.D.), Galen (129-c.199 A.D.) and Hermogenes (c.160-c.225 A.D.). First of all, it is attempted to prove the role of moral content and maxims of the menandrian comedies in the rhetorical paideia, their importance about the rhetorical ethopoiia and their influence on declamationes. The next topics of the study are the stylistic virtues of Menander (propriety - πρέπον / decorum, purity - ἑλληνισμόs / latinitas, clarity -σαφήνεια / explanatio, ornament - κατασκευή / ornatus), the types of style (rapidity - γοργότης – celeritas, simplicity - ἀφέλεια / simplicitas) and the menandrian ability in the stylistic imitation (μίμησις / imitatio) and invention (εὕρεσις / inventio). Furthermore, the philosophical elements of menandrian comedies used in philosophical dissertations (diatribe - διατριβὴ) are discussed, as well as the value added to them during the 1st and 2nd century AD, in the purpose of utilizing them as a kind of menandrian chrestomathy. The study finally aims at proving the rhetorical impact of Menander’s refined humor. The reception of Menander from Greek and Roman writers in the early Empire demonstrates that his plays were widespread in the Greco-Roman world more for their rhetorical and therefore educational impact than for their theatrical and comical dimension
Online Spatio-Temporal Learning with Target Projection
Recurrent neural networks trained with the backpropagation through time
(BPTT) algorithm have led to astounding successes in various temporal tasks.
However, BPTT introduces severe limitations, such as the requirement to
propagate information backwards through time, the weight symmetry requirement,
as well as update-locking in space and time. These problems become roadblocks
for AI systems where online training capabilities are vital. Recently,
researchers have developed biologically-inspired training algorithms,
addressing a subset of those problems. In this work, we propose a novel
learning algorithm called online spatio-temporal learning with target
projection (OSTTP) that resolves all aforementioned issues of BPTT. In
particular, OSTTP equips a network with the capability to simultaneously
process and learn from new incoming data, alleviating the weight symmetry and
update-locking problems. We evaluate OSTTP on two temporal tasks, showcasing
competitive performance compared to BPTT. Moreover, we present a
proof-of-concept implementation of OSTTP on a memristive neuromorphic hardware
system, demonstrating its versatility and applicability to resource-constrained
AI devices.Comment: Accepted at AICAS 202
Dynamic Event-based Optical Identification and Communication
Optical identification is often done with spatial or temporal visual pattern
recognition and localization. Temporal pattern recognition, depending on the
technology, involves a trade-off between communication frequency, range and
accurate tracking. We propose a solution with light-emitting beacons that
improves this trade-off by exploiting fast event-based cameras and, for
tracking, sparse neuromorphic optical flow computed with spiking neurons. The
system is embedded in a simulated drone and evaluated in an asset monitoring
use case. It is robust to relative movements and enables simultaneous
communication with, and tracking of, multiple moving beacons. Finally, in a
hardware lab prototype, we demonstrate for the first time beacon tracking
performed simultaneously with state-of-the-art frequency communication in the
kHz range.Comment: 10 pages, 7 figures and 1 tabl
Biologically-inspired training of spiking recurrent neural networks with neuromorphic hardware
Recurrent spiking neural networks (SNNs) are inspired by the working principles of biological nervous systems that offer unique temporal dynamics and event-based processing. Recently, the error backpropagation through time (BPTT) algorithm has been successfully employed to train SNNs offline, with comparable performance to artificial neural networks (ANNs) on complex tasks. However, BPTT has severe limitations for online learning scenarios of SNNs where the network is required to simultaneously process and learn from incoming data. Specifically, as BPTT separates the inference and update phases, it would require to store all neuronal states for calculating the weight updates backwards in time. To address these fundamental issues, alternative credit assignment schemes are required. Within this context, neuromorphic hardware (NMHW) implementations of SNNs can greatly benefit from in-memory computing (IMC) concepts that follow the brain-inspired collocation of memory and processing, further enhancing their energy efficiency. In this work, we utilize a biologically-inspired local and online training algorithm compatible with IMC, which approximates BPTT, e-prop, and present an approach to support both inference and training of a recurrent SNN using NMHW. To do so, we embed the SNN weights on an in-memory computing NMHW with phase-change memory (PCM) devices and integrate it into a hardware-in-the-loop training setup. We develop our approach with respect to limited precision and imperfections of the analog devices using a PCM-based simulation framework and a NMHW consisting of in-memory computing cores fabricated in 14nm CMOS technology with 256×256 PCM crossbar arrays. We demonstrate that our approach is robust even to 4-bit precision and achieves competitive performance to a floating-point 32-bit realization, while simultaneously equipping the SNN with online training capabilities and exploiting the acceleration benefits of NMHW
Neuromorphic Optical Flow and Real-time Implementation with Event Cameras
Optical flow provides information on relative motion that is an important
component in many computer vision pipelines. Neural networks provide high
accuracy optical flow, yet their complexity is often prohibitive for
application at the edge or in robots, where efficiency and latency play crucial
role. To address this challenge, we build on the latest developments in
event-based vision and spiking neural networks. We propose a new network
architecture, inspired by Timelens, that improves the state-of-the-art
self-supervised optical flow accuracy when operated both in spiking and
non-spiking mode. To implement a real-time pipeline with a physical event
camera, we propose a methodology for principled model simplification based on
activity and latency analysis. We demonstrate high speed optical flow
prediction with almost two orders of magnitude reduced complexity while
maintaining the accuracy, opening the path for real-time deployments.Comment: Accepted for IEEE CVPRW, Vancouver 2023. Personal use of this
material is permitted. Permission from IEEE must be obtained for all other
uses, in any current or future media. Copyright 2023 IEE
Clinical application of a cancer genomic profiling assay to guide precision medicine decisions
AIM: Develop and apply a comprehensive and accurate next-generation sequencing based assay to help clinicians to match oncology patients to therapies.
MATERIALS and METHODS: The performance of the CANCERPLEX(R) assay was assessed using DNA from well-characterized routine clinical formalin-fixed paraffin-embedded (FFPE) specimens and cell lines.
RESULTS: The maximum sensitivity of the assay is 99.5% and its accuracy is virtually 100% for detecting somatic alterations with an allele fraction of as low as 10%. Clinically actionable variants were identified in 93% of patients (930 of 1000) who underwent testing.
CONCLUSION: The test\u27s capacity to determine all of the critical genetic changes, tumor mutation burden, microsatellite instability status and viral associations has important ramifications on clinical decision support strategies, including identification of patients who are likely to benefit from immune checkpoint blockage therapies
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An integrated clinical program and crowdsourcing strategy for genomic sequencing and Mendelian disease gene discovery.
Despite major progress in defining the genetic basis of Mendelian disorders, the molecular etiology of many cases remains unknown. Patients with these undiagnosed disorders often have complex presentations and require treatment by multiple health care specialists. Here, we describe an integrated clinical diagnostic and research program using whole-exome and whole-genome sequencing (WES/WGS) for Mendelian disease gene discovery. This program employs specific case ascertainment parameters, a WES/WGS computational analysis pipeline that is optimized for Mendelian disease gene discovery with variant callers tuned to specific inheritance modes, an interdisciplinary crowdsourcing strategy for genomic sequence analysis, matchmaking for additional cases, and integration of the findings regarding gene causality with the clinical management plan. The interdisciplinary gene discovery team includes clinical, computational, and experimental biomedical specialists who interact to identify the genetic etiology of the disease, and when so warranted, to devise improved or novel treatments for affected patients. This program effectively integrates the clinical and research missions of an academic medical center and affords both diagnostic and therapeutic options for patients suffering from genetic disease. It may therefore be germane to other academic medical institutions engaged in implementing genomic medicine programs
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