Margherita FIANI | GEOMATIC MONITORING
Margherita FIANI GEOMATIC MONITORING
cod. 0622100071
GEOMATIC MONITORING
0622100071 | |
DEPARTMENT OF CIVIL ENGINEERING | |
EQF7 | |
CIVIL ENGINEERING | |
2023/2024 |
OBBLIGATORIO | |
YEAR OF COURSE 1 | |
YEAR OF DIDACTIC SYSTEM 2022 | |
SPRING SEMESTER |
SSD | CFU | HOURS | ACTIVITY | |
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ICAR/06 | 6 | 60 | LESSONS |
Objectives | |
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EXPECTED LEARNING OUTCOMES AND COMPETENCE TO BE ACQUIRED: KNOWLEDGE OF THE THEORETICAL AND PRACTICAL BASES FOR THE DESIGN AND APPLICATION OF INNOVATIVE GEOMATIC MONITORING SYSTEMS AND THE ANALYSIS AND INTERPRETATION OF SURVEY DATA. KNOWLEDGE OF THE MONITORING SYSTEMS BASED ON TERRESTRIAL (ROBOTIC TOTAL STATIONS, LASER SCANNERS, LEVELS) AND SATELLITE (SAR) TECHNIQUES, COMBINED WITH GNSS AND UAV. BE ABLE TO PERFORM MULTI-TEMPORAL ANALYSIS FOR THE CONTROL OF STRUCTURES/INFRASTRUCTURE. KNOWLEDGE AND UNDERSTANDING SKILLS: THEORETICAL KNOWLEDGE OF THE OPERATING PRINCIPLES OF INNOVATIVE TOPOGRAPHIC INSTRUMENTATION AND SURVEYING TECHNIQUES AIMED AT MONITORING STRUCTURES/INFRASTRUCTURE. KNOWLEDGE OF THEORIES FOR THE PROCESSING OF DATA AND THEIR ANALYSIS. ABILITY TO APPLY KNOWLEDGE AND UNDERSTANDING: BEING ABLE TO CHOOSE AND DESIGN THE MOST SUITABLE MONITORING SYSTEM FOR THE ACTUAL CASE AND TO PROCESS AND ANALYZE DATA. TO APPLY THE KNOWLEDGE ACQUIRED DURING THE FRONTAL LESSONS WILL BE A KEY ELEMENT. AUTONOMY OF JUDGMENT: DEVELOP A CRITICAL SENSE AIMED AT IDENTIFYING THE MOST APPROPRIATE SURVEYING TECHNIQUES AND INSTRUMENTATION IN RELATION TO THE TYPE AND GEOMETRIC CHARACTERISTICS OF THE TEST SITE. ABILITY TO PROCESS, CALCULATE AND ANALYZE ACQUIRED DATA AND EVALUATE THE ACCURACY AND RELIABILITY OF THE RESULTS. COMMUNICATION SKILLS: BEING ABLE TO PRESENT AND DISCUSS THE MOST SUITABLE SURVEYING TECHNIQUES FOR MONITORING AN OBJECT CASE, WITH REFERENCE TO THE DESIGN, INSTRUMENTATION AND ANALYSIS OF MEASUREMENT DATA. ABILITY TO WRITE A WRITTEN REPORT ON THE CHOSEN SURVEYING TECHNIQUE, DATA PROCESSING AND ANALYSIS, AND PRESENT IT ORALLY. BEING ABLE TO USE TECHNICAL LANGUAGE. ABILITY TO LEARN: TO BE ABLE TO APPLY THE ACQUIRED KNOWLEDGE TO TO THE SURVEYING AND MONITORING OF STRUCTURES AND INFRASTRUCTURES THAT ARE DIFFERENT IN TYPE AND SPATIAL CONTEXT FROM THOSE PRESENTED IN THE COURSE. BEING ABLE TO MONITOR THE EVOLUTION OF NEW KNOWLEDGE IN THE FIELD, IN DETAILS TO BE ABLE TO SOURCE AND UNDERSTAND THE TECHNICAL AND SCIENTIFIC LITERATURE IN THE FIELD, WITH THE AIM OF OF AUTONOMOUSLY DEEPENING THE STUDY OF THE SURVEY TECHNIQUES DISCUSSED AND FOLLOWING THEIR INSTRUMENTAL AND SOFTWARE EVOLUTION. |
Prerequisites | |
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IN ORDER TO SUCCESSFULLY ATTEND THE COURSE, THE STUDENT SHOULD POSSESS BASIC KNOWLEDGE OF GEODESY AND SURVEYING. |
Contents | |
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THEORETICAL CONCEPTS AND TOPOGRAPHIC TECHNIQUES FOR DEFORMATION MONITORING. DEFINITION OF INTEGRATED LAND, STRUCTURE, AND INFRASTRUCTURE MONITORING SYSTEMS BASED ON TERRESTRIAL AND SATELLITE TECHNIQUES 0.5 CFU/5H MEASUREMENTS WITH ROBOTIC TOTAL STATIONS. GEOMETRIC HIGH AND VERY HIGH PRECISION LEVELING. POST-PROCESSING AND REAL-TIME GNSS POSITIONING. 1.5 CFU/15H AIRBORNE AND GROUND-BASED LIDAR SYSTEMS. APPLICATIONS OF LIDAR MONITORING OF GROUND, STRUCTURES, AND INFRASTRUCTURE. POINT CLOUD PROCESSING AND FILTERING TECHNIQUES, GENERATION OF DERIVED PRODUCTS. CREATION OF 3D MODELS. DSM AND DTM. 1.5 CFU/15H SATELLITE REMOTE SENSING: BASIC CONCEPTS ON THE COMPONENTS OF A REMOTE SENSING SYSTEM FOR EARTH OBSERVATION. ACTIVE MICROWAVE SENSORS: RADAR, SAR IMAGING, DIFFERENTIAL INTERFEROMETRY. APPLICATIONS OF REMOTE SENSING IN MONITORING TERRAIN, STRUCTURES, AND INFRASTRUCTURE. 1.5 CFU/15H IMPLEMENTATION OF MULTI-TEMPORAL ANALYSIS FOR MONITORING AREAS SUBJECT TO NATURAL HAZARDS (PARTICULARLY RELATED TO HYDROGEOLOGICAL HAZARDS, VOLCANIC ACTIVITY, SUBSIDENCE, AND ROCKFALLS); MONITORING OF STRUCTURES/INFRASTRUCTURE THROUGH TERRESTRIAL AND SATELLITE TOPOGRAPHIC TECHNIQUES. ANALYSIS OF THE SIGNIFICATIVENESS OF MOVEMENTS IN RELATION TO THE PHENOMENON. DESIGN, IMPLEMENTATION, PROCESSING, AND ANALYSIS OF RESULTS OF GEODETIC MONITORING NETWORKS. 1 CFU/10H |
Teaching Methods | |
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THE COURSE IS ORGANIZED INTO THEORETICAL LECTURES, CLASSROOM EXERCISES AND PRACTICAL EXERCISES. IN DETAIL: 3 CFU/30H LECTURES; 1 CFU/10H TUTORIALS; 2 CFU/20H LABORATORY. THE AIM OF THE PRACTICAL EXERCISES IS TWOFOLD: - TO FAMILIARIZE THE STUDENT WITH MONITORING INSTRUMENTATION; - TO ENABLE THE STUDENT TO DEVELOP THE ABILITY TO ADAPT MONITORING TECHNIQUES TO REAL OPERATING CONDITIONS. |
Verification of learning | |
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THE EVALUATION OF CLASS AIMS ACHIEVEMENT IS DONE AT THE END OF THE COURSE BY MEANS OF AN ORAL TEST, LASTING ONE HOUR. THE EXAM AT THE END OF THE COURSE AIMS TO ASSESS THE ACHIEVEMENT OF LEARNING OBJECTIVES, IN PARTICULAR CONCERNING THE FOLLOWING ASPECTS: - INSTRUMENTATION FOR GEOMATIC MONITORING - GEOMATIC TERRESTRIAL AND SATELLITE MONITORING TECHNIQUES. THE FINAL EXAM WILL CONSIST OF AN ORAL INTERVIEW. - GEODETIC MONITORING NETWORKS - MEASUREMENT TREATMENT THE ORAL EXAM FOCUSES ON THE CHECK OF THE SUCCESSFUL LEARNING OF THEORETICAL AND APPLICATIVE ELEMENTS PRESENTED DURING THE COURSE, JUDGING IN PARTICULAR THE CONTENTS, THE ACCURACY OF THE ORAL PRESENTATION, THE VERBAL AND TECHNICAL EXPOSITION, THE ABILITY OF CORRELATING DIFFERENT TOPICS OF THE PROGRAM. THE RESULTS OF BOTH THE EXAMS ARE GIVEN IN POINTS, WITH A MAXIMUM OF 30. THE FINAL RESULT IS AGAIN GIVEN IN POINTS WITH A MAXIMUM OF 30 AND INCLUDES THE RESULTS OF BOTH WRITTEN AND ORAL EXAM. THE RESULT “CUM LAUDE” IS OBTAINED CONSIDERING: -CLARITY OF EXPOSITION IN TERMS OF PROPER SCIENTIFIC LANGUAGE, -ABILITY TO CORRELATE DIFFERENT TOPICS OF THE CLASS, AND, IF POSSIBLE, TOPICS INCLUDED IN OTHER DISCIPLINES, -INDEPENDENCE OF JUDGEMENT. |
Texts | |
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LECTURE NOTES FROM THE COURSE TEACHER. THE EDUCATIONAL MATERIAL PRESENTED IN CLASS WILL BE MADE AVAILABLE TO THE STUDENT IN ELECTRONIC FORMAT VIA INTERNET. USERNAME AND PASSWORD ARE RESERVED FOR STUDENTS ENROLLED AT THE UNIVERSITY OF SALERNO. |
More Information | |
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DURING THE COURSE, INSTRUMENTS AND DATA FOR GEOMATIC MONITORING WILL BE DESCRIBED AND USED: TERRESTRIAL LASER SCANNERS (IN STATIC AND MOBILE MODALITY), GPS RECEIVERS, SAR IMAGERY, ETC., AND THE SOFTWARE FOR DATA PROCESSING. THE COURSE CONSISTS OF THEORETICAL LECTURES, CLASSROOM EXERCISES AND PRACTICAL EXERCISES. |
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