Description

This program will give you access to the most advanced knowledge in Geomatics and Geoinformation so that you can incorporate the best tools available into your work”

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New technological and digital tools have allowed disciplines such as Geomatics to improve their precision and efficacy. The emergence of these disruptive technologies has also led to the emergence of new professional profiles in this area such as the expert surveyor, the GIS specialist or the expert in 3D modeling focused on this sector. For this reason, professionals dedicated to this field must be aware of new innovations in order to be able to incorporate them into their work.

This professional master’s degree in Geomatics Engineering and Geoinformation provides in-depth knowledge of these innovations, focusing on areas such as photogrammetry, geopositioning, applied information in this field; especially programming and the design and management of databases, using drones to represent terrain through photographic images, and many more. In this way, professionals will integrate the most innovative techniques into their daily work, allowing them to adapt to transformations in the sector and gain access to the new job positions that have recently emerged.

And all this will be achieved through an online teaching methodology, specially designed so that the professional can combine their work with their studies, without any kind of interruption. In addition, they will be guided throughout the entire process by a first-class teaching staff with extensive experience in this field, while the student enjoys numerous multimedia contents such as interactive summaries, practical exercises or master classes.

Gain in-depth knowledge of aspects such as photogrammetry while you enjoy a teaching methodology that is adapted to you, allowing you to decide when and where to study”

This professional master’s degree in Geomatics Engineering and Geoinformation contains the most complete and up-to-date program on the market. Its most notable features are:

  • Practical cases presented by experts in Topographpy, Civil Engineering and Geomatics
  • The graphic, schematic, and practical contents with which they are created, provide scientific and practical information on the disciplines that are essential for professional practice
  • Practical exercises where the self-assessment process can be carried out to improve learning
  • Special emphasis on innovative methodologies
  • Theoretical lessons, questions to the expert, debate forums on controversial topics, and individual reflection assignments
  • Content that is accessible from any fixed or portable device with an Internet connection

In recent years, many new professional profiles have emerged in the field of Geomatics, such as the expert surveyor. This program gives you all the keys to successfully deal with this transformation”

The teaching staff of this program includes professionals from the sector, who contribute the experience of their work to this program, in addition to recognized specialists from reference societies and prestigious universities.

Thanks to multimedia content developed with the latest educational technology, you will be immersed in situated and contextual learning. In other words, a simulated environment that will provide immersive learning, programmed to train for real situations.

This program is designed around Problem-Based Learning, whereby the professional must try to solve the different professional practice situations that arise throughout the program. For this purpose, the student will be assisted by an innovative interactive video system created by renowned and experienced experts.

Thanks to this program, you will learn how to use drones map and represent the terrain by means of photographic images"

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Know the latest computer tools applied to Geomatics with this professional master’s degree"

Objectives

The main objective of this professional master’s degree in Geomatics Engineering and Geoinformation is to offer professionals the best and most up-to-date tools to be able to collect, manage and present geographic information. Therefore, upon finishing this program, they will be in possession of knowledge that will allow them to access many civil engineering and topography projects. This is because the professional will have incorporated into their daily practice the most innovative technological and computer tools to develop their work.

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Your objective is to gain the best knowledge in order to develop your work in the field of Geomatics and this program offers this to you in a simple and fast way. Don't wait any longer and enroll now"

General Objectives  

  • Gather knowledge from different disciplines of topography and focus them towards the expert environment
  • Determine expert topograhy as a branch of Geomatics
  • Analyze the particularities of the cadaster in depth in order to identify the current characteristics that define/compose it
  • Evaluate the positioning of urban and land planning within the concept of land, as well as the resources available on the Internet
  • Generate specialized knowledge on LIDAR technology
  • Analyze the impact of LIDAR data on the technology around us
  • Integrate, manage and execute building information modeling projects
  • Evaluate the different database engines and their benefits
  • Analyze the most used web servers with more projection and prestige
  • Evaluate different existing desktop, web and mobile clients
  • Analyze different live customers
  • Identify the best FrontEnd solutions for specific projects
  • Develop the predominant programming languages in Geomatics
  • Examine these languages as a means of connection to databases
  • Justify the most appropriate environment for the use of one language or the other
  • Evaluate the use of each language and its usefulness in painting maps and presenting other results

Specific Objectives

Module 1. Expert Topography

  • Analyze the elements of property-oriented surveying
  • Develop the concept of expert evidence
  • Determine the structure of an expert report
  • Establish the requirements for being an expert
  • Analyze the performance mode of an expert witness
  • Identify the different actors in an expert procedure

Module 2. Cadaster and Urban Planning

  • Evaluate the cadastral information system in the network
  • Analyze cadastral mapping services and their different download formats
  • Develop the fundamentals of cadastral value / valuation and land registry
  • Determine the basis for urban planning
  • Examine urban planning on the Internet

Module 3. Geopositioning

  • Establish the reference systems and reference frames on which geopositioning is based
  • Analyze the operation of Wlan, Wifi, celestial and underwater positioning systems, paying special attention to GNSS and mobile systems
  • Examine GNSS augmentation systems, their purpose and function
  • Develop the signal propagation from its transmission on the satellite to its reception
  • Discriminate the different GNSS observation methods and study differential GNSS systems and their protocols and standards
  • Determining the positioning per precise point (PPP)
  • Evaluate assisted positioning systems (A-GNSS) and their widespread use among mobile positioning systems

Module 4. Mapping with LIDAR Technology

  • Analyze LIDAR technology and its multiple applications in today's technology
  • Specify the importance of LIDAR technology in geomatics applications
  • Classify the different LIDAR mapping systems and their applications
  • Define the use of 3D laser scanning as part of LIDAR technologies
  • Propose the use of the 3D laser scanner for topographic surveys
  • Demonstrate the advantages of the massive Geoinformation acquisition system using 3D laser scanning, as opposed to traditional topographic surveys
  • Detail a clear and practical methodology of 3D laser scanning from the planning to a reliable delivery of results
  • Examine, by means of real case studies, the use of 3D laser scanners in various sectors: mining, construction, civil engineering, deformation control or earthworks
  • Recapitulate the impact of LIDAR technologies on current and future surveying

Module 5. 3D Modelling and BIM Technology

  • Determine how to proceed to capture with photographs the desired object to be modeled
  • Obtain and analyze point clouds from these photographs using various specific photogrammetry software
  • Process the different point clouds available, eliminating noise, georeferencing them, adjusting them and applying the mesh densification algorithms that best suit reality
  • Editing, smoothing, filtering, merging and analysis of 3D meshes resulting from the alignment and reconstruction of point clouds
  • Specify the application parameters for curvature, spacing and environmental occlusion meshes
  • Create an animation of the rendered mesh, textured and according to the set IPO curves
  • Prepare and set up the model for 3D printing
  • Identify the parts of a BIM project and present the 3D model as a base element for the BIM environment software

Module 6. Photogrammetry with Drones

  • Develop the strengths and limitations of a drone for mapping purposes
  • Identify the reality of the surface to be represented, on the ground
  • Provide topographical accuracy by means of conventional topography, prior to the photogrammetric flight
  • Identify the actual volume where we are going to work in order to minimize any risk
  • Control at all times the trajectory of the drone based on the programmed parameters
  • Ensure the correct copying of files to minimize the risk of file loss
  • Configure the best restitution of the flight according to the desired results
  • Download, filter and clean the results obtained from the flight with the required accuracy
  • Present the cartography in the most common formats according to the client's needs

Module 7. Geographical Information Systems

  • Analyze the elements, process steps and storage essential to the management of a GIS
  • Develop georeferenced cartographic maps with overlapping layers from various sources from various sources using GIS software
  • Evaluate the topological problems that occur in processes with vector models
  • Spatially analyze the different layers required for the project, developing studies of affected areas or specific space searches
  • or other working environments
  • Present projects analyzed by pixel functions and surfaces in raster layers to determine information of interest
  • Work with digital terrain models and modeling, representing and visualizing territorial information on and below the earth's surface
  • Consult routes and navigation tracks interacting in mobile device environments

Module 8. Backend for GIS

  • Generate specialized knowledge about Apache server to share results online
  • Evaluating Nginx server as an alternative to Apache server
  • Analyze the Tomcat server as an application server and other application servers
  • Browse MySQL, Postgres and SQLite database engine
  • Determine which database engine to choose for a particular project

Module 9. Clients for GIS

  • Evaluate the requirements for different clients
  • Analyze the capabilities of using different Plugins and the customization capabilities of the clients
  • Introduce the different clients and the programming languages they use
  • Examine the different options available to a user
  • Develop use cases for different customers
  • Generate a source of knowledge to discern which client to use for which project

Module 10. Programming for Geomatics

  • Configure PHP and examine its usage requirements
  • Present the stored data in an attractive way
  • Analyze control and iteration structures in different languages
  • Determine how to connect to databases located on different servers or in the Cloud
  • Examine the possibilities of using languages for web applications and mobile devices
  • Develop use cases for the different languages
  • Generate a source of knowledge to discern which language to use for which project, server or desktop client
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Gain up-to-date and specialized knowledge thanks to this professional master’s degree in Geomatics Engineering and Geoinformation”

Professional Master's Degree in Geomatics Engineering and Geoinformation

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Geomatics engineering and geoinformation is a discipline that combines the knowledge of engineering, geodesy and cartography to acquire, manage, analyze and visualize geospatial data. This discipline is responsible for capturing and processing information related to the location and distribution of features on the earth's surface. In an increasingly digitized and globalized world, the demand for professionals specialized in the field of geomatics engineering and geoinformation is constantly growing. Under this premise, TECH Technological University presents its Professional Master's Degree in Geomatics Engineering and Geoinformation, a detailed look at the multiplicity of schemes that take place in this field. Here, we propose an entirely online tour, through which you will obtain the skills and knowledge necessary to master the most advanced technologies in the capture, analysis and visualization of geospatial data. All this, without having to leave home, with the best teaching tutorials and interactive material that will give that rewarding plus to your professional profile.

Highlight in the field of geomatics engineering and geoinformation

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This complete TECH program is an investment in your professional future, as it will allow you to differentiate yourself and stand out in the labor market. You will obtain a university certificate endorsed by a prestigious institution, which will allow you to access new job opportunities. You will also have the flexibility and convenience of a online program that will allow you to adapt your learning to your needs and schedules. Here, we have ensured that we have a team of professional experts in the field, who will teach the classes online, offering an interactive and enriching learning experience. In addition, the program includes case studies and exercises that will allow you to apply the knowledge acquired in real situations, which will help you to strengthen and consolidate your academic preparation. Upon completion of the training, you will develop solid competencies in global positioning systems, remote sensing, spatial analysis and geographic information systems.