Dr. Anagnostopoulos Christos-Nikolaos was born on 24 January 1975 in Athens. In 1998, he received his diploma in the field of Mechanical Engineering, from the National technical University of Athens. Moreover, he received his PhD diploma in the field of Computer Vision and Computational Intelligence at April of 2002 from the school of Electrical and Computer Engineering, National Technical University of Athens. He is a member of the Greek chamber of Engineers and member of IEEE. His research interests include image processing, computer vision, computer graphics and artificial intelligence aiming at the creation of intelligent applications and applications of cultural informatics. He has published more than 150 papers in scientific journals and conferences, in the above subjects as well as other related fields in informatics. He serves from 2003 the University of the Aegean. From 2015 up to 2020 he was the Head of the Cultural Technology and Communication Department in the University of the Aegean and Director of the Mixed Reality lab. Until today he has participated in 15 European and National funded Research Projects, in five of them as team and project leader.
Autonomous PV systems offer a substitute for or a safety net against the transmission and distrib... more Autonomous PV systems offer a substitute for or a safety net against the transmission and distribution companies’ rising and expanding electricity delivery fees. Across the world, delivery fees have climbed by about 3% annually while the cost of energy supply has only gone up by 5% over the past 15 years. In this paper, the drawbacks of PV system integration are highlighted while introducing a unique autonomous PV system. The system is also constructed in a reproducible way so that it can be duplicated. Replicability is showcased by the presentation of two separate PV systems that were created and evaluated using the same methodology. One system uses Si-based conventional photovoltaics, while the other uses dye-sensitized solar cells. The systems that are being offered also support remote connections, allowing all of the data from the PV system to be transmitted to a single endpoint (e.g., a visualization platform). Moreover, the system’s batteries were modified to accommodate the t...
This concept paper presents our viewpoint regarding the exploitation of cutting-edge technologies... more This concept paper presents our viewpoint regarding the exploitation of cutting-edge technologies for the delivery of smart tourism cultural tours. Specifically, the paper reports preliminary work on the design of a novel smart tourism solution tailored to a multiobjective optimization system based on factors such as the preferences and constraints of the tourist/visitor, the city’s accessibility and traffic, the weather conditions, and others. By optimizing cultural tours and delivering comfortable, easy-to-follow, green, acceptable visiting experiences, the proposed solution, namely, OptiTours, aims to become a leading actor in tourism industry transformation. Moreover, specific actions, applications, and methodologies target increasing touring acceptance while advancing the overall (smart) city impression. OptiTours aims to deliver a novel system to attract visitors and guide them to enjoy a city’s possible points of interest, achieving high visitor acceptance. Advanced technolog...
Autonomous PV systems offer a substitute for or a safety net against the transmission and distrib... more Autonomous PV systems offer a substitute for or a safety net against the transmission and distribution companies’ rising and expanding electricity delivery fees. Across the world, delivery fees have climbed by about 3% annually while the cost of energy supply has only gone up by 5% over the past 15 years. In this paper, the drawbacks of PV system integration are highlighted while introducing a unique autonomous PV system. The system is also constructed in a reproducible way so that it can be duplicated. Replicability is showcased by the presentation of two separate PV systems that were created and evaluated using the same methodology. One system uses Si-based conventional photovoltaics, while the other uses dye-sensitized solar cells. The systems that are being offered also support remote connections, allowing all of the data from the PV system to be transmitted to a single endpoint (e.g., a visualization platform). Moreover, the system’s batteries were modified to accommodate the t...
This concept paper presents our viewpoint regarding the exploitation of cutting-edge technologies... more This concept paper presents our viewpoint regarding the exploitation of cutting-edge technologies for the delivery of smart tourism cultural tours. Specifically, the paper reports preliminary work on the design of a novel smart tourism solution tailored to a multiobjective optimization system based on factors such as the preferences and constraints of the tourist/visitor, the city’s accessibility and traffic, the weather conditions, and others. By optimizing cultural tours and delivering comfortable, easy-to-follow, green, acceptable visiting experiences, the proposed solution, namely, OptiTours, aims to become a leading actor in tourism industry transformation. Moreover, specific actions, applications, and methodologies target increasing touring acceptance while advancing the overall (smart) city impression. OptiTours aims to deliver a novel system to attract visitors and guide them to enjoy a city’s possible points of interest, achieving high visitor acceptance. Advanced technolog...
Ο 21 ος αιώνας χαρακτηρίζεται από τη ραγδαία ανάπτυξη των Τεχνολογιών Πληροφορικής και Επικοινωνι... more Ο 21 ος αιώνας χαρακτηρίζεται από τη ραγδαία ανάπτυξη των Τεχνολογιών Πληροφορικής και Επικοινωνιών (ΤΠΕ), οι οποίες μεταβάλλουν σταδιακά όλες τις πτυχές της ανθρώπινης δραστηριότητας π.χ. ψυχαγωγία, εμπόριο, μετακινήσεις κλπ. Ο καλύτερος τρόπος για να επιτευχθεί η επερχόμενη ψηφιακή μετάβαση, η οποία χαρακτηρίζεται και ως η 4 η Βιομηχανική Επανάσταση, είναι η εκπαίδευση τόσο των νέων όσο και των μεγαλύτερων ηλικιών. Ειδικά όσον αφορά τα παιδιά, είναι κοινά αποδεκτό ότι ενθουσιάζονται ιδιαίτερα με τον ψηφιακό κόσμο και με τις δυνατότητες που μπορεί να τους προσφέρει. Για αυτό το λόγο, πέρα από τα ήδη εκπαιδευτικά συγγράμματα που υπάρχουν στο σχολείο σήμερα, είναι πλέον απαραίτητη η δημιουργία πρόσθετων ψηφιακών εκπαιδευτικών εγχειριδίων, που κύριο σκοπό έχουν τη διάδραση, τη ψυχαγωγία και τη μάθηση των παιδιών. Η εν λόγω εργασία στοχεύει στη δημιουργία ενός εκπαιδευτικού εγχειρίδιου ιστορίας, το οποίο λειτουργεί με τεχνολογία επαυξημένης πραγματικότητας για το χρονικό ιστορικό πλαίσιο που αφορά την Ελληνική Επανάσταση του 1821. Ο βασικός στόχος είναι η δημιουργία ενός πρόσθετου εκπαιδευτικού εγχειριδίου που θα αλληλεπιδρά με τους μαθητές, θα συναρπάζει και θα συμβάλει στη συμπληρωματική τους εκπαίδευση. Το εγχειρίδιο χωρίζεται σε τέσσερα διαφορετικά μέρη που αφορούν σπουδαίες ηγετικές, λόγιες και στρατιωτικές προσωπικότητες που συντέλεσαν καθοριστικό ρόλο στον αγώνα της χώρας προς την ανεξαρτησία. Παράλληλα, εφαρμόζονται τεχνικές φωτογραμμετρίας για τη δημιουργία τρισδιάστατων μοντέλων υφιστάμενων τεκμηρίων που διασώζονται από την ως άνω περίοδο, εμπλουτίζοντας έτσι την πολιτισμική εμπειρία του χρήστη. Για την επίτευξη αυτής της εφαρμογής ήταν απαραίτητη και πολύτιμη η συνεργασία με τους πολιτιστικούς φορείς του Ιδρύματος Ωνάση, του Μουσείου Μπενάκη και του Ιστορικού και Λαογραφικού Μουσείου Μάνου και Αναστασίας Φαλτάϊτς. ISBN: 978-618-85119-0-3
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