Saturday, June 8, 2019
Ancient Theatres in Jerash Essay Example for Free
Ancient field of forces in Jerash EssayModern engineering science has changed matters in enfranchisement signifi toilettly and promises to continue to bring change. This paper attempts to present1-How should we understand bread and butter of archaeological Sites, historic buildings and monuments according to their particularities, categories, shells, comp onenessnts of documentation, taking into account the internationally agreed standards for the documentation of the cultural hereditary pattern. 2- The potential of the application of 3D laser S thronener and Photomodeler in documentation of the immovable cultural heritage. As a case study the antiquated line of businesss of Jerash (the S awayhern and the Yankee) will be presented. epoch the purpose of employ unalike regularitys of documentation is to make similitude comparison of the advantages ,disadvantages ,the accuracy of the traditional method agree station , 3D scanner method, and Photomodeler method.1. IN TRODUCTION As cultural heritage is a unique expression of human achievement, and since this cultural heritage is continuously at risk, documentation is one of the principal ways available to give meaning, understanding, rendering and recognition of the values of the cultural heritage. As such it constitutes an important basis of taste for subsequent restoration and maintenance measures. Furthermore all interventions acquire the quotation of evidence themselves and therefore, confound to be documented. Article 16 of the Venice Charter emphasizes that in all works of preservation or excavation, there should always be precise documentation in the form of analytical and critical reports, illustrated with drawings and photographs. Every stage of the work, including technical and formal features identified during the course of the work, should be included. This record should be displace in the archives of a public institution and made available to research workers.It is recommended that the report should be published. Thus documenting the Cultural Heritage not only describes the context in which the materials were found, and their relationship in space and time to geological deposits and gargantuan architectural features, but as well as as monitoring of the remains of olden human activities. The documentation surgery, which may be undertaken as an aid to non-homogeneous CRM activities, such as protection, identification, monitoring, interpretation, registration of stolen cultural objects, can benefit tremendously from various modern techniques that ar available to us nowadays. (graphic documentation) Techniques based on conventional surveying to produce plans, summit meetings, and architectural details. Photographic e.g. photography, rectified photography,computer-rectified photography, photogrammetry, and 3D laser scanner.The photographical documentation should provide information on the important condition of a monument, i.e. earlier, during, and a fter restoration. 3. INTERNATIONAL CORE DATA INDEX There be three internationally agreed standards for the documentation of the cultural heritage a) The Core Data Index to Historic Buildings and Monuments of the Architectural Heritage (1992), b) The Core Data Standard for Archaeological Sites and Monuments (1995), and c) The determination ID (1997) which was developed to provide an international standard for the information needed to identify cultural objects, in response to the threat posed by the illicit avocation in the movable heritage. The evaluation of the documentation process can be carried out by comparison with such standards. Other devotions could be related to the particularity of the monument, the cost, the ability to benefit from modern digital techniques and the success in acting as a historical record of human activities.4. ANCIENT THEATRES OF JERASH Few ancient towns ar as well preserved and as complete as Jerash, a city abstruse that once was a thriving comm ercial partition off and part of the Decapolis. Built in the 2nd century BC the city was conquered in 63 BC by the Roman General Pompey. The grand subjects and large public squares, plazas and baths, the Roman Cardo running 700 meters north from the Oval Plaza and pass sky-piercing columns flanking from both sides in Jerash make this site truly an archaeological park. 4.1 The gray Theatre in Jerash The southern theater (Exterior Diameter 70.5m) today is one of the to the highest degree impressive of Jerashs public building. Begun at the end of the 1st century AD (during the reign of Domitian) and completed in the early 2nd century. On its completion, it became one of the most splendid civic monuments in the2. CATEGORIES AND COMPONENTS OF DOCUMENTATION Regardless of the location of the activity, it type or philosophy of art and historical conservation, the documentation should address three questions what it is, where it is, and when There are three Categories and Components of Documentation Written should comprise an architectural description, the put up of preservation , an interpretation of the results of all tests and analyses, a summary of the results of all investigations, and a report on the interventions executed.Non-photographic________CIPA 2005 XX International Symposium, 26 September 01 October, 2005, Torino, Italy________ developing city and certainly the finest of its type in the whole province. The cavea of the auditorium was divided into two percentages, with a wide terrace (diazoma) describing the full fractional circle between them. The lower half was built into the side of the hill. While the top half was built above it. Although the auditorium has survived remarkably well, the top rows of seats are missing, and one cannot be sure of the contain original number.( ascertain. 1)Figure. 2 Plan of the Northern Theatre The battleground itself probably had two main phases during its lifetime. It was dedicated, and probably completed, in A D 64/65. It was a small, probably, theatre employ for poetry readings, meetings or more modest performances than the large dramatic events that would have taken place in the citys bigger Southern Theatre. The theatre may too have been the city councils meeting hall. It was- modified several times and probably enlarged in the first quarter of the 3rd century. It finally went out of use as a theatre by the 5th to 6th centuries. On some of the seats of the lower cevea are inscribed in Grecian the names of the voting tribes (phylai) that were represented in the bouleutirium, or city council except one tribe named after the Roman Emperor Hadrian, the others are named after colossal gods. the theatre was also used as a bouleuterion, or city council meeting-hall.The theatres expansion in the first quarter of the3rd century AD included the accessory of eight rows of seats, doubling the theatres capacity to around 1600 people. The three best preserved external vomitoria, at the western end of the upper auditorium, show their original turn of three independent, semicircular arches rising towards the exterior with evidence of large wooden doors that could have been opened or closed to control access to the theatre. The original scaena mole, cladding the audience from behind the stage, was dismantled and replaced by a more coordination compound scaena composed of two parallel wal1s. The elaborate scaenae frons was probably two storeys high, and was adorned with grim marble, free-standing Corinthian columns and broken entablatures, behind which were semicircular niches decorated with mosaics.Figure. 1 Plan of the Southern Theatre The bird-scarer of the stage was divided into four sections with pedestals between them. separately section was decorated with a central pedimental niche flanked by arched niches .These elaborate architectural com lay outs are a common feature of Roman theatres. The front of the stage is decorated with pediment and arched niches. The w all rising behind the stage, the Scaenae Frons is pierced by three doors used by the performers to enter and exit the stage from the sides. The Scaenae Frons would have had second storey repeating most of the decorative and architectural elements of the lower level. Much of the outer (north) wall of the theater is a modern reconstruction.The rebuilding, however, of the rear wall behind the scaenae frons must be regretted, for we do not know what this wall was like and such suspect restorations run the risk of endangering the validity of the whole construction for how can one be sure what is genuine and what is not? Happily, the greater part of the theatre is completely genuine. (Browning. Iain/ Jerash and the Decapolis) 4.2 The Northern Theatre The North Theatre complex is composed of the North Theatre (Exterior Diameter 43, 47m, orchestra Diameter 14,33m) itself and a plaza in front of it . A great carry off smaller than the South Theatre, its orientation is determined by the nor thern decumanus upon which it opens and from which it is approached. The cavea shows the usual arrangement of four cunei in the lower half, and eight in the upper half .At the top of the upper section of the cavea there was scarcely room for passageway and colonnade.( Figure. 2 )5. METHODS OF DOCUMENTATION IN JERASH THEATRES The purpose of apply various Methods of documentation of the Southern and Northern Jerash theatres is to make comparison of the advantages ,disadvantages ,the accuracy of the traditional recording method, 3D scanner, and PhotoModeler. Accuracy is the correctness of the measurement, regardless of its clearcutness. Precision refers to the fineness of measured distinctions. Results of the case studies are presented and compared. The aim is to give (mostly nongeodetic) users recommendations, which method is suited best for what kind of application, or even if a combination of 3D see and PhotoModeler is advisable. Criteria like quality of the results, amount of c ost and time, required equipment and occurring troubles are to be considered. To investigate the advantages, disadvantages and ________CIPA 2005 XX International Symposium, 26 September 01 October, 2005, Torino, Italy________ the accuracy of these methods, we carried out some case studies for the two theatres.Different typical objects were elect and characteristically parts of them were recorded by attach, total station, PhotoModeler and 3D examine. In this research project, we have installed a number of different test targets that allow an investigation in the quality of acids recorded by laser scanners and the geometric models derived from the point bribes. 5.1 By using Total Station and AutoCAD Software Conceptually, total stations are different from most measuring systems used by archaeologists because they are effective over a great range of scales and have an accuracy that is unusual in our experience. Limits on drawing precision that were once inherent in the use of sc aled drawings have been removed by CAD systems. For example, it might be measuring the position of a point 1 km away from the total station and be completed at least to the centimeter. This is equivalent to the use a tape to measure the distance to an object a meter away with .01 mm accuracy.The total station can be used to measure archaeological structures during an excavation. The precision with which a CAD system can maintain coordinates depends on the internal information structure chosen, but all standard CAD systems maintain coordinates at levels of precision beyond the scholars capacity to measure. A surveyor collecting information using preelectronic techniques could have used the tape to take the measurements, unneurotic with cross section for elevation information and quantity estimates. Or, the survey could have been completed using such polar techniques as transit or theodolite/EDM surveys. Electronic data parade with total station instruments permits the quick acqu isition of a large amount of field data, together with the efficient and error-free transfer of the data to a computer.Once in the computer, the field data can be edited and analyzed for completeness of coverage and accuracy. For the documentation of the Southern theatre and the Northern theatre of Jerash more than 900 points were taken using the total station (Skoia). Tape measurement was conducted to record some of the dimensions of the theatre (the scene and some architectural details). The goal of these measurements was to collect more field dimensional measurement and other detail measurement for the documentation of the theatres. Full documentation for the Southern theatre of Jerash 2D and 3D was finalized with 2D documentation and reconstruction for the Northern theatre of Jerash. 5.2 By using PhotoModeler While photogrammetry and metric surveying techniques can be suitable for archaeological sites and buildings, they present certain disadvantages for smaller and more complex objects.PhotoModeler is a windows software program that helps to extract measurements and 3D models from photographs. By using cameras as an input device, photomodeler is capable to extract accurate measurements and details. It is based on using several photos ( Figure 4 ) from different angles with know focal length, using control points ( Figure. 5 ). PhotoModeler can create 3D models and export the measured data as a dxf file. ADVANTAGES Contains information about surface detail (e.g. weathering patterns).Photographs are easier to interpret and recognize than drawing. DISADVANTAGES Essential high-skilled photographers.The enlargement of images should do accurately.Photographic format (analogue).PhotoModeler is one of the methods we used in documenting, measuring, and mould the scene of the Southern theatre in Jerash. Several selected photos taken from slightly different positions were shot using digital camera. For calibration, some 3D points of the scene were obtained. For th is purpose a modern integrated total station model Sokkia to collect more than 50 points to record the 3D points. These points were carefully chosen to be very well distributed on the scene in order to use them as GCPs (Ground Control Points). ( Figure. 5 ) With these data, we produce a 3D model, Orthorectified images (Photogrammetry) and measurements (x, y, z) or lengths for the stage of the Southern theatre of Jerash. For more accuracy we produced a detailed model for the scene features- the left Gate(Figure. 3 ) and then combined these detailed models together to produce the scene of the theatre.Figure 4. Camera Stations to produce a 3D Model for the the left Gate of the stage of Jerash Southern Theatre Figure 3 3D Model for the left Gate of the scene of Jerash Southern Theatre.________CIPA 2005 XX International Symposium, 26 September 01 October, 2005, Torino, Italy________ first implementation of the new technology seems to be very useful and promising. The main advantage of scanning is the fast and direct collection of large numbers of surface object points. The measurement process needs no attendance except for the set-up required when establishing a new candidatepoint. The huge number of records formed a nice cloud of points, which very barely matches the neat 3D shape of the interested object (in our case the cavea and the scene of the two theatres). In the office there are two sophisticated softwared, which deal with the collected cloud of points.One of the software can import the clouds and get a nice three model of the object. The other software can also get the 3D model and rectify the model to get the measurements of the object. The final result can be exported to CAD software like Auto computer-aided design or Micro Station. A couple of Million of 3D points were captured from different points of view. In addition to the 3D points, a set of 2D images were also been taken. In the Southern theater three stations were sat up to capture points of the theater from different angles of view as shown in (Figures 6, 7, 9). In the north theatre we used three stations to cover the whole theater and two stations to capture the surrounding area . All these stations and the cloud of points are shown in (Figures 8, 10).Figure 4. Several photos from different angles with known focal length, using control points for the Scine of the Southern theatre 5.3 By using 3D scanner. Laser scanning technology with its automated data capture capabilities is bringing new perspectives and can satisfy most requirements of this type of applications. 3D laser scanning represents today the most advanced technology available for measuring and documenting objects. Our scanner can measure on average about 1000 points per second. Terrestrial laser scanning technology is based on active range sensors measuring directly the distance between the sensor and points over the surveyed object. Objects that can be documented by 3D scanning, range from the sizes o f coins or potsherds to whole cultural landscapes. Traditional heritage recording methods like close range photogrammetry are not suitable for all kinds of objects. specially when the objects have very irregular surfaces and not a clearly defined structure, scanning will probably yield better results than photogrammetry.In contrast to photogrammetry 3D scanners directly produce a huge number of 3D points. The resulting point cloud can be used to extract CAD elements or by using point triangulation to create a 3D surface model. Additionally, images can be mapped onto the model to get a virtual copy of the real object. While both photogrammetric and laser scanning techniques can deliver similar type of products the end users are accustomed to have, other supplementary data such as line drawings, DTM etc., A main advantage as compared to close range photogrammetry is the availability of near real time 3D coordinates for irregular surfaces. The striking capacitance of collecting hund reds or even thousands of points per second is praised by producers and operators. On the other hand, questions concerning the quality and accuracy of the recorded points receive little attention. Specifications stated by the producers are not comparable.The main difference between scanning and photogrammetry is obvious While photogrammetric surveying is an indirect data acquisition method (images are needed before measurements can be executed), scanning produces 3D points directly. As geodetic surveying instruments, scanners cannot be used when the object or the observation platform is moving. In these cases, photogrammetric images, which can be acquired with very short exposure times, are the only means of metric documentation.Although surveyors tend to see accuracy as a predominant consideration when comparing measuring equipment, for the practical use there are numerous other characteristics which may be decisive under certain project pre-conditions. quartet stages for doing th e work scanning in the field, registration ,segmentation, modeling . To build up a precise 3D model of the South theatre and the North theatre we used the 3D laser scanner model GS100 MENSI. The results weve obtained were very precise and theFigure 6. Mesh part of the Scene and the cavea of the Southern TheatreFigure 7. obnubilate Points of the Scene of the Southern Theater________CIPA 2005 XX International Symposium, 26 September 01 October, 2005, Torino, Italy________ ADVANTAGES Very precise measurements. A solution in situations where 3D measurement by other means may be difficult. Quick in data capture. On-sitescanning is possible. DISADVANTAGES Very expensive. Practical limits on the object size and height. whitethorn have difficulties on some material surfaces. May have difficulties on some Material surfaces Editing the data to produce meaningful results may be difficult. other applications. The software has the ability to export the final models and solids to Auto Cad using the solid SAD converter.2) Real Works postdate. Provides the user a set of tools for processing 3D point clouds and 2D images in order to obtain the necessary information. Generally, this processing can be divided into two modes the Registration mode and the Office Survey mode. During the registration mode we register several scans simultaneously by using data captured during target scanning. Several test fields using white spheres as targets have been installed to get information about the accuracy of distances in scanning direction and across. We also use the Geo Referencing tool to put the scanned data into a known coordinate system. During the office survey mode, we segment the point clouds into logical parts. We also extract measurements or different types of 2D drawings from the point clouds. These extracted results were exported into CAD systems.6. LASER electronic scanner DATA ACQUISITION The laser scanner MENSI GS100 was used in this project and scanning was performed fro m various positions so that the full coverage of the surface will be achieved with sufficient overlapping (Fig. 10 ). The specific scanner has a recommended range of 2-100 , with optimal range of m.. The systems horizontal and vertical field of view is 60 degrees. Reflective targets distributed over the site allowed the easy registration of the scans during data processing. Although the laser scanning software provides direct and immediate access to the scan data by visually inspecting the point cloud in situ to identify possible problem areas in the data sets, it proved that some parts of the site were excluded and larger overlap was required for the complete merging of all scans.Figure 10. North theatre Overlapping areas and gaps Starting with the question of accuracy, it must be understood that total stations have built-in limits on precision that are often ignored and that affect ultimate accuracy. Accuracy refers to the agreement of a value with the true value. Whereas the prob lem was once measuring as precisely as possible or as precisely as a scaled drawing could display, the problem is now to measure and record as precisely as required for the particular project. A comparative evaluation of the techniques in the data capture and modeling of the northern gate of the Southern theatre is shown and measurement results of the Tape measurement, PhotoModeler, 3D Laser Scanner GS 100 MENSI measurement are presented in table 1Figure 8. Mesh view of the North theatreFigure 11. Cloud Points of the Cevea of the southern TheatreFigure 9. Mesh part of the northern gate of the Southern Theatre The office work included the use of two software packages 1) 3Dipsos. Sophisticated software used to reconstruct 3D models from large sets of point cloud data captured by a 3D laser scanner. It is an intermediate data processing application between scanning and the use of environments reconstructed in ________CIPA 2005 XX International Symposium, 26 September 01 October, 2005 , Torino, Italy________ to 90 degrees as possible, 4. look that all points appear on three or more photographs, 5. Ensure all point and line markings on the images are precise, and do not guess at a point location if it cannot be seen, is not distinct, is fuzzy or is dark by some other object.Nevertheless, the precision supplied by total stations or photogrammetry software and recorded in CAD models must not make pass the limits on accuracy of the total system and must be appropriate for the job at hand. As already stated, every project has its own particularity. Those needs should be carefully determined, explicitly stated, and properly met by the survey methods and procedures. Laser scanning provides dense 3D information that can be implemented for the DEM and also for the determination of the ground coordinates of presignalized control points. The large sets of data obtained are an impediment to virtual computer visualization. Often it is very difficult to deal with the data w ithout large RAM memory of the order of two GB.7. CONCLUDING REMARKS The documentation of the Jerash theatre was implemented by a combination of photogrammetry and 3D laser scanning. Generally excrete survey is labor intensive specially in the field. Computer rectified photography is the simplest method of producing drawings. Metric cameras are no longer needed and can be substituted for with simple digital cameras. The advantage of using photogrammetry is its speed and accuracy, especially over large and complex structures. Cost will inevitably be one of the deciding factors in choosing between different recording methods, but should not be used to decide the level of survey. The effort needed to get accurate and detailed DEM models by means of photogrammetric procedures only, is considerably high.There are limits on precision based upon a different group of contributing factors, lens distortion, precision of lens focal length measurements, size of photos used. PhotoModeler is an elegant measurement method used in documentation of cultural heritage applications. The shortfalls of this method, mainly associated with limited geometry of areas in the shadow of the object, are more prominent when the object is a large complex form. However its use does not involve large costs or sophisticated equipment, as only a calibrated digital camera is needed.The recent emergence of terrestrial laser scanning has shown that it has the potential to be of major(ip) value to the cultural heritage recording professionals. While data collection in this project using the PhotoModeler and Laser scanning methods indicated a small make water in time over laser scanning, the main advantage is the fully automated data capturing process using terrestrial laser scanning. Generally, laser scanning requires viewing the surveyed object from several viewpoints to resolve shadows and occlusions. To achieve the best accuracy in PhotoModeler 1. Ensure that a well-calibrated camera is used for the project, 2. Use photos with good resolution. 3. Ensure that the angle between the camera stations is as closeJohn Coles, The Site Record and Publication Conservation on Archaeological Excavations, Ed.N.P. Sanley Price, ICCROM, pp.59-69, Rome, 1995 Photogrammetric Measurement, Object role model and Documentation in Architecture and Industry, Ed. Petros Patias, ISPRS, VOol.XXXII, Thessaloniki, 1999 Documenting the Cultural Heritage Edited by Robin Thornes and John Bold ,Getty Information Institute,1998 MENSI 2001 Mensi training materials, German training course, May 2001. WWW 2001 An extensive collection of links to laser scanner producers and reports about applications in cultural heritage is maintained by the authors at http//scanning.fh-mainz.de -www.international.icomos.org/recording_fre.htm Browning.Iain/ Jerash and the Decapolis/ Chatto Windus.London/ 1982/ (Ds154.9 G47 B76 1982). andCarl H.Kraeling/ Gerasa City of the Decapolis/ Yale University/ produce by the Americ an Schools of Oriental Research/ New Haven, Connecticut/1938. W. Boehler, M. Bordas Vicent, A. Marbs ( Investigatgn Laser Scanner Accuracy , The XIXth CIPA Symposium at Antalya, TURKEY, 2003. Harrison Eiteljorg, How Should We Measure an Ancient Structure?, Nexus entanglement Journal, vol. 4,no.4(Autumn2002),http//www.nexusjournal.com/Eiteljorg.ht ml) Boehler, W. , Heinz, G., Marbs, A. The Potential of NonContact Close Range Laser Scanners for Culture Heritage Recording,CIPA Working Group VI)2001.
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