-------- Forwarded Message --------
Dear Machine Learning and Deep Neural Networks engineers,
scientists and
enthusiasts,
you are welcomed to register in this CVML Short e-course on
'Machine
Learning and Deep Neural Networks', 27-28th April 2021:
https://icarus.csd.auth.gr/spring-cvml-short-course-machine-learning-and-dee
p-neural-networks/
It will take place as a two-day e-course (due to COVID-19
circumstances),
hosted by the Aristotle University of Thessaloniki (AUTH),
Thessaloniki,
Greece, providing a series of live lectures delivered through a
tele-education platform. They will be complemented with on-line
video
recorded lectures and lecture pdfs, to facilitate international
participants
having time difference issues and to enable you to study at own
pace. You
can also self-assess your knowledge, by filling appropriate
questionnaires
(one per lecture). You will be provided programming exercises to
improve
your programming skills.
It is part of the very successful CVML short course series that
took place
in the last three years.
Course description 'Machine Learning and Deep Neural Networks'
The short e-course consists of 16 1-hour live lectures organized
in two
Parts (1 Part per day):
Part A lectures (8 hours) provide an in-depth presentation of Deep
Neural
Networks, which are at the forefront of AI advances today,
starting with
introduction to Machine Learning. Then the cornerstone DNN theory
and
technologies are presented: a) Artificial Neural Networks,
Perceptron; b)
Multilayer perceptron, Backpropagation; c) Deep neural networks.
Both data
classification and regression problems are treated. Convolutional
NNs; d)
Recurrent Neural Networks; e) Attention and Transformers.
Applications
follow in several image analysis, computer vision and autonomous
system
applications, notably: a) Deep learning for object detection and
b) Deep
Semantic Image Segmentation. Finally, Generative Adversarial
Networks are
presented that promise to revolutionize the way we create
media/arts, while
seriously threatening our democracy with fake data creation and
spread.
Part B lectures (8 hours) provide fan in-depth presentation of
Machine
Learning to complement DNNs. Unsupervised Learning (Data
Clustering) is
first detailed, allowing us to find structure and extract
concepts/knowledge
from huge high-dimensionality data. Then Supervised Learning (Data
Classification) techniques are presented, notably: a) Decision
surfaces
(whose special case is DNNs and SVMs) and b) Distance based
classification.
Dimensionality reduction techniques are overviewed, allowing us to
visualize
high-dimensionality data found in most applications, ranging from
Medicine
to Financial Engineering. Kernel methods are presented that can
boost
performance of any linear ML operation (e.g., PCA, K-means etc).
Bayesian
learning provides a unified theoretical framework that can
encompass many of
the ML approaches. Deep Reinforcement Learning is also presented,
as it is
an essential element in novel Robotics/Control and other
decision-making
application domains. Finally, CVML programming tools (e.g., DNN
frameworks,
BLAS/cuBLAS, DNN and CV libraries) are overviewed, as they allow
fast
application of all the above knowledge in almost any application
domain.
Course lectures
Part A: Deep Neural networks (first day, 8 lectures)
1. Introduction to Machine Learning
2. Artificial Neural Networks, Perceptron
3. Multilayer perceptron. Backpropagation
4. Deep neural networks. Convolutional NNs
5. Recurrent Neural Networks. LSTMs
6. Attention and Transformers
7. Deep learning for object detection
8. Deep Semantic Image Segmentation
Part B: Machine Learning. Pattern Recognition (second day, 8
lectures)
1. Generative Adversarial Networks 2. Data Clustering
3. Decision Surfaces. Support Vector Machines
4. Dimensionality Reduction
5. Kernel Methods
6. Bayesian Learning
7. Deep Reinforcement Learning
8. CVML Software Development Tools
Though independent, the attendees of this short e-course will
greatly
benefit by attending the CVML Short e-course on 'Computer Vision
for
Autonomous Systems' 5-6th May 2021:
http://icarus.csd.auth.gr/spring-cvml-short-course-computer-vision-for-auton
omous-systems/
You can use the following link for course registration:
http://icarus.csd.auth.gr/spring-cvml-short-course-machine-learning-and-deep
-neural-networks/
Lecture topics, sample lecture ppts and videos, self-assessment
questionnaires and programming exercises can be found therein.
For questions, please contact: Ioanna Koroni
<
koroniioanna@csd.auth.gr
<mailto:koroniioanna@csd.auth.gr> >
The short course is organized by Prof. I. Pitas, IEEE and EURASIP
fellow,
Chair of the IEEE SPS Autonomous Systems Initiative, Director of
the
Artificial Intelligence and Information analysis Lab (AIIA Lab),
Aristotle
University of Thessaloniki, Greece, Coordinator of the European
Horizon2020
R&D project Multidrone. He is ranked 249-top Computer Science
and
Electronics scientist internationally by Guide2research (2018). He
is head
of the EC funded AI doctoral school of Horizon2020 EU funded
R&D project
AI4Media (1 of the 4 in Europe). He has 32200+ citations to his
work and
h-index 85+.
AUTH is ranked 153/182 internationally in Computer
Science/Engineering,
respectively, in USNews ranking.
Relevant links:
1) Prof. I. Pitas:
https://scholar.google.gr/citations?user=lWmGADwAAAAJ
<https://scholar.google.gr/citations?user=lWmGADwAAAAJ&hl=el>
&hl=el
2) Horizon2020 EU funded R&D project Aerial-Core:
https://aerial-core.eu/
3) Horizon2020 EU funded R&D project Multidrone:
https://multidrone.eu/
4) Horizon2020 EU funded R&D project AI4Media:
https://ai4media.eu/
5) AIIA Lab:
https://aiia.csd.auth.gr/
Sincerely yours
Prof. I. Pitas
Director of the Artificial Intelligence and Information analysis
Lab (AIIA
Lab)
Aristotle University of Thessaloniki, Greece
Post scriptum: To stay current on CVML matters, you may want to
register in
the CVML email list, following instructions in:
https://lists.auth.gr/sympa/info/cvml
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