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Network Design, Observation and Adjustment

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Degree competences to which the subject contributes Coordinator: M.Amparo Rubio Cerdá

Teaching unit:

Academic year:

ECTS credits:

751 - DECA - Department of Civil and Environmental Engineering 2017

BACHELOR'S DEGREE IN GEOINFORMATION AND GEOMATICS ENGINEERING (Syllabus 2016).

(Teaching unit Compulsory)

6 Teaching languages: Spanish Degree:

Teaching staff

Basic:

Specific:

Generical:

CB1EGG. The students have demonstrated possess and comprehend knowledge in a field of study that comes from high school, and is used to a level that, while is supported in advanced textbooks, it also includes some aspects that involve knowledge from the field of study in the vanguard.

CB2EGG. The students must know how to apply their knowledge to the work or vocation in a professional way and possess the competences that are used to be demonstrated by the elaboration and defense of arguments and the resolution of problems inside their own field of study.

CE9EGG. (ENG) Coneixement, utilització i aplicació de les tècniques de tractament. Anàlisi de dades espacials. Estudi de models aplicats a l'enginyeria i arquitectura. (Mòdul común a la branca Topografia)

CE7EGG. Knowledge, using and application of instruments and appropiate topographic methods in order to carry out raisings and surveyings.

CE15EGG. Knowledge about: Security, health and labour risks inside the scope of this engineering and the sorroundings of its application and developement

CE16EGG. Knowledge and application of methods and geometric techniques inside the scope of the different engineerings

CG1EGG. Design and develope geomatic and topographic projects.

CG3EGG. Comprehend and analize the implantation problems in the field of infrastructures, constructions and buildings projected from the topographic engineering, analize the same ones and proceed to its implantation.

CG5EGG. Determine, measure, evaluate and represent the ground, tridimensional objects, points and trajectories.

CG6EGG. Reunite and interpret information of the ground and all of this geographic and economically related with the ground.

CG8EGG. Planification, project, direction, execution and management of measurements processes, information Prior skills

Have studied the subjects of "Surveying instruments and methods" and "Observation adjustment in Geomatics"

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La aplicación de los conocimientos adquiridos a situaciones reales como el levantamiento topográfico, en su vertiente observacional y en el proceso de cálculo.

available.

07 AAT. SELF-DIRECTED LEARNING. Detecting gaps in one's knowledge and overcoming them through critical self- appraisal. Choosing the best path for broadening one's knowledge.

Learning objectives of the subject

Total learning time: 150h Hours large group:

Hours medium group:

Self study:

24h 36h 90h

16.00%

24.00%

60.00%

Study load

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Redes planimétricas y altimétricas

Redes topográficas: Triangulación y Trilateración

Red intermedia

Learning time: 13h 37m

Learning time: 24h 13m

Learning time: 42h 23m Theory classes: 2h Practical classes: 2h Guided activities: 2h 30m Self study : 7h 07m

Theory classes: 4h Practical classes: 4h Guided activities: 2h Self study : 14h 13m

Theory classes: 6h Practical classes: 8h Guided activities: 3h 30m Self study : 24h 53m Redes clásicas

Redes modernas

Introducción

Diseño de una red topográfica

Clasificación de los métodos de triangulación Trilateración

Intersección directa múltiple. Observación, cálculo y compensación por mínimos cuadrados Intersección inversa múltiple. Obervación, cálculo y compensación por mínimos cuadrados Intersección mixta

Cálculo y compensación de una red

Diseño y observación de redes topográficas

Introducción.

Obervación, cálculo y compensación de poligonales por mínimos cuadrados Description:

Description:

Description:

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Red de relleno

Altimetría. Red altimétrica

Learning time: 13h 37m

Learning time: 46h 26m Theory classes: 2h Practical classes: 2h Guided activities: 2h 30m Self study : 7h 07m

Theory classes: 6h Practical classes: 10h Guided activities: 2h Self study : 28h 26m Introducción

Observación y cálculo

Error transversal. Error longitudinal. Error máximo Distancia máxima de radiación

Elección de métodos e instrumentos según la precisión, escala y extensión Elección del sistema de referencia.

Selección de equipos y métodos Análisis de errores a priori

ALTIMETRÍA Superficies de nivel

Desnivel verdadero y aparente Corrección por esfericidad Corrección por refracción

Determinación del coeficiente de refracción Reducción de visuales al terreno

Corrección conjunta por esfericidad y refracción Clasificación de los métodos altimétricos

RED ALTIMÉTRICA Introducción Malla de nivelación

Proyecto, señalización y observación Cálculo de la red por mínimos cuadrados

Nivelación geométrica compuesta.Observación, calculo y compensación por mínimos cuadrados Nivelación trigonométrica compuesta. Observación, cálculo y compensación por mínimos cuadrados Description:

Description:

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Basic:

Complementary:

Chueca Pazos, Manuel ; Herráez Boquera, José ; Berné Valero, José Luis. Tratado de topografía : 1. Teoría de errores e instrumentación. 2. Métodos topográficos. 3. Redes topográficas y locales. Microgeodesia. Madrid: Paraninfo, 1996. ISBN 8428323089.

Kuang, Shanlong. Geodetic network analysis and optimal design : concepts and applications. Chelsea: Ann Arbor Press, 1996.

ISBN 1575040441.

Sánchez Ríos, Alonso. Fundamentos teóricos de los métodos topográficos. Madrid: Bellisco, 2000.

Bannister, A. ; Raymond, S. ; Baker, R. Surveying. 7th. Harlow: Pearson, 1998. ISBN 0582302498.

Ruiz Morales, Mario. Problemas resueltos de geodesia y topografía. Granada: Comares, 1992. ISBN 8487708501.

Referencias

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