 Ευχαριστώ για εσάς. Θα ευχαριστώ για τη σορσή της δεύτερας. Τώρα, όπως εγγραφωθώ στο πρόγεκτο της εξχαβείας του ΑΕΣΟΤΟΥΡΙΟΣ, είναι έναν εξχαβεία μεταισμένη θεωρά φετά Nowyap дис directionρω συγκρα あτο τον Κύριος Πριέγου που βρίεται με το Ζαμίδι. Μετα στην μέτρε με Sapus, είναι η έμευταια Πόρση της ΑΕΰΕΕΝΟΞ, ό específicιμα έχοντας πρω estéντίως παγωρα. Ε melanό της MTV Kamra,)! Από τηνλεση της Mosya, για τη Ευτ thighs αλλάψω να συγβαίνω, Ας δείξουμε τρεις σημερινές σημερινές. Η κοινωνία εργασίας σήμερα στην Ελλάδα... είναι ένα δύσκολο σημερινό για οικογένωσης, γιατί η εμφαστρακτική εργασία είναι πολύ συγκεκριμένη. Έχουν σημερινότητα στις εργασίας και εργασίας. Είναι χρειαζόμενο για την εργασία, αλλά η εργασία μας, κάτι, είναι αγιωμένη. Αγιωμένη για η χρειαζή εργασίας. Αυτό είναι ένα σημερινό. Η άλλη είναι ότι σε εξαβεσίες like αυτές, στις εργασίες, η εξαβεσίες πιστεύουν πίσω από εργασία. Έχει ένα σημερινό εργασίες. Έχει ένα σημερινό εργασίες, όπως οι εξαβεσίες της εργασίας πιστεύουν πιστήρια της εργασίας. Και ο αρχιολογικός εργασίας, η διάφορξη της εργασίας είναι να εξαβεσίσει σε αυτή τη τεχνική, ή, όπως Ιούλια Τόμας κάτι είχε πει, δεν είχα καταξύσεις εργασίας. Στην εξαβεσίες, προσπαθούσαμε να εξαβεθούμε αυτήν την εξαβεσία, και προσπαθούσαμε πρώτα να προσπαθούσε, προσπαθούσε με όλους, όλα η διεξαρμία μας δηλαδή, έρθει η εξαβεσία να έδωσες πολλές δυο εξαβεσίες τεχνικά, για να δημιουργήσει ένα πρόεδρο της συμπλείνησης πρακτήσης μεταξύ μια πραγματική συμβουλία στον παιδίδιο. Λοιπόν, θα σας δείξω κάποιες πρώτες φορές και την εξαβασία, την εξαβασία. Η εξαβασία was... We combined the conventional methodology, some model models and we provided also. We had done on the surface an underground excavation. This is from the underground excavation. And this is our finds collection system, the processing system for the finds from the fieldwork to the lab. And this is the collection of data, some procedures. This is a special data collection, photographic and video documentation. And also sample collection of all these materials for analysis of artificial and natural materials. Geological data from hydrology, in situ measurements. This is from water permeability and conservation and restoration of the finds in our lab. The final... Now, this is our database. This is where all raw data ends inside our lab. This is the artifacts registry. As soon as they enter the lab, they are registered under a code that follows them until that time. This is the code. And this is the second level of our recording system, the conservation data sheets where our conservators record their work. And this is the third level, it's the database for the artifacts and the features and context, the excavation context. And I'm going to present three different examples of our study, the next level. One of these is the built environment and particularly the houses of Piraeus. In Piraeus, until the 5th century, the principle of egalitarianism, the Athenian democracy and so on, dominated the planning of the city as we had equal houses, equal sized houses with a uniform plan. In the Hellenistic period, houses became larger as we now have private representation developed. Our data comes from two different sources. One of them is the disposal layers inside the underground water supply structures, systems and wells. The material comes mainly from a disaster in Piraeus, not a natural disaster. In 86 PC, the Roman army destroyed the whole city. When they came back and rebuilt the city, they just cleaned the surface and threw every superstructure and artifacts inside these water supply structures that were available underneath. So we tried to connect this material to the user. As we didn't want to just form a typological series of objects, we used and we formed our database in such a way that we can try to place the objects in the hypothetical representation of the original framework. This is an example where we have used, the core is the Hellenistic house. We used objects from our excavations, our finds, to parallels from the iconography or parallels from... So we have the main rooms of the house in this way. Now we try to pass a difficult passage. This is some attempt to reconstruct houses and building blocks of the city. Now we try to pass a difficult passage from 2D to 3D. We're working on this. I don't have something to present you now, but this is the next step and our next purpose from now. These water supply structures have their own history before becoming garbage like repositories. We found 130. This is our biggest excavation, the largest one, the final station of the line. They found it since the 19th century in Piraeus, the 19th century. These are the 100 of them we found. They are wells, the first attempt of the inhabitants of the city to obtain drinking water, typical wells. We also have systems that they could store water. They worked as reservists and here is a reconstruction combining systems and wells. In later stages you can see in this animation the phases of the revolution. Connection of systems of wells, bigger systems for more water, more big systems as they added these tunnels. Connection to huge systems combining by five systems and many wells. The next chronological step was the Roman aqueduct. We excavated 95 meters of the city's aqueduct. This is a photo of the aqueduct. We tried other collaborations with the water resources and environmental engineering department of the National Technical University of Athens. We tried to connect the development and the management of the systems with changes in the residential development and the improvement of materials. We did some hydrological models and then we tried to explain every feature and every detail on the structures as the hydrologists convinced us that it is connected with contemporaries such as sustainability, use of limited resources of water, use of rainwater also. The third example of our study is the landscape analysis and mapping because we have a whole city in front of us. We have maps since the 19th century. This is the first one from Taupert. But we think that they were a bit, first of all, inaccurate in today's terms. But then they were limited to capture the essential elements of the development plan. So we started to create a primary digital model of the terrain from scratch. These are versions of the urban grid of the city from these maps. So we obtained a series of orthophotos from a national agency and then we combined them to a single orthophoto map. The result was, you'll see it in a while, it was an accurate map that we could annex first our excavations, our major excavations and then try. This is an autocadding environment. We have now scanned over 300 original handmade plants and we annexed them on this map, on this accurate map, in order to start the explanation and the reconstruction of the city grid on accurate terms. In some cases we went back to excavations that today are visible. They are not under buildings and we collected points because we didn't have accurate drawings. Then we had another cooperation with the Urban Environment Lab of the National Technical Diversity of Athens that resulted in these thick maps. This is what they call it and we have no reason to doubt it. We can now filter with layers of our data, data collected from various sources just as you'll see some layers. This is the orthophoto map. This is the basic map we formed and then we start to add layers. City walls, ancient shoreline and many sites in categories, workshops, basic categories. You'll see the map filling with sites. These are the sites containing systems and you'll see the final layer. The final layer is the thick map. These are the main buildings as we know them. This is the orthophoto map and everything on a single map. Now we are forming our GIS database. We have cooperation now with the GIS expert and we are passing this passage too. We want to give the temporal aspect on our maps. So just statistical tools we believe that they are going to be very helpful.