4,864 research outputs found

    R. P. D. Corio Toletana Canonicatus pro Ill~mo, & R~mo D. Canonico Iosepho Fernandez de Iubera Inquisitore totius Regni Murtiae contra Ill~mum, R~mum Capitiulum Toletanum : facti.

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    Se ha respetado la puntuación del textoTít. tomado de colofónZinghi, & Monaldi ejercen en RomaSign.: A-B\p10\s, C\p6\sApostillas marginale

    Commento all'art. 288 del d. lgs 2.4.2006 n. 152

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    regime delle sanzioni in materia di impianti tecnici civil

    Commento all'art. 296 del d. lgs. 3.4.2006 n. 152

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    esame delle sanzioni in materia di combustibil

    commento agli artt. 278, 279 del d. lgs. del 03/04/2006, n. 152

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    Poteri di ordinanza e sanzioni in materia di emissioni nella atmosfer

    Commento agli artt. 261, 262, 263 del d. lgs. 3.4.2006 n. 152

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    regime di smaltimento degli imballaggi, competenza e giursidizione per le sanzion

    Survey techniques integrating smartphone lidar and UAV photogrammetry: the example of the anthropic underground cavities of Montefiascone (Viterbo, Central Italy)

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    Many of Latium’s small towns developed on volcanic units, such as Montefiascone, have a subsoil rich in underground cavities made by humans over millennia for multiple purposes that present a wide range of shapes and sizes. They vary from narrow tunnels, presumably connected to hydraulic works of Etruscan and Roman times, to other works made in medieval and modern times. In the contemporary ages, these cavities have often been connected, enlarged and adapted as cellars, storage rooms, etc. To reduce the risk of sinkhole opening on the surface it is crucial to have a complete knowledge of these underground cavity systems. The problem is carrying out, quickly and cost-effectively, a first census of these cavities or at least those accessible, either without restriction or with the aid of speleological techniques. Lidar Technology uses laser technology to make a 3D survey of these environments. It has been available for years on professional instruments such as Laser scanners. However, these instruments present encumbrance problems and poor transportability in underground environments, partly outdated with new generation devices (e.g., SLAM laser scanner), but their costs remain high for non-professional uses. Recently, this technology has also been implemented on some models of tablets and smartphones at a relatively low cost. This study aims to demonstrate the limits and the possibilities of using these relatively new and inexpensive tools integrated with traditional topographical surveying techniques (compass and tape) in creating 3D models of some ontefiascone underground cavities
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