UNSW School of Surveying and Geospatial Engineering

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Design Di Quick, work done within the School

The UNSW School of Surveying and Geospatial Engineering (SAGE), part of the UNSW Faculty of Engineering, was founded in 1970 and disestablished in 2013. [1]

Contents

The School has undergraduate and postgraduate programs in Surveying and in GeoInformation Systems (GIS). The Bachelor of Engineering (Surveying) is recognised by the Surveying & Spatial Sciences Institute (SSSI) as a pathway to becoming a registered surveyor, and both undergraduate degrees are accredited by Engineers Australia. [2]

The School has strong research activity in wireless, ground-based and satellite-based positioning technology, being Australia's largest academic research concentration in these areas. [3] While the main research focus is Global Navigation Satellite Systems (GNSS) such as GPS, the School also conducts research under the broad banner of ‘Navigation and Earth Observation’ including in surveying, geodesy, inertial navigation systems, pseudolites, mobilephone positioning, integrated navigation and imaging systems, and radar remote sensing.

The School has research and teaching links with institutions in North America, Europe and Asia, and School staff hold (or have held) leadership positions in international and national scientific and professional bodies such as the International Association of Geodesy, [4] the International Society for Photogrammetry & Remote Sensing, [5] the International GNSS Service, [6] Multi-GNSS Asia, [7] Surveying & Spatial Science Institute, [8] the NSW Institution of Surveyors, [9] and others.

History

The first independent undergraduate degree in surveying was established in 1957 in the UNSW School of Civil Engineering. Significant growth in the field led in 1970 to the establishment of an independent School of Surveying under founding Professor Peter Angus-Leppan. [10]

In 1975, the School was divided into three departments, Geodesy, Photogrammetry, and Surveying, to take account of emerging technologies deriving from developments in electronics and space science, including satellite technology for geopositioning and remote sensing. A major Image Analysis Laboratory was installed in 1977 and the Centre for Remote Sensing (later known as the Centre for Remote Sensing and Geographic Information Systems (GIS)) was established in 1982, jointly with the UNSW Schools of Geography and Electrical Engineering. [11]

From 1983 to 1992, a number of the School's academics were engaged in the Thailand Land Titling Project. Funded by the Australian and Royal Thai Governments and the World Bank, this project worked to entirely remap Thailand and reform its land titling system in order to reduce poverty, overcome regional income disparities and promote economic growth. This project won The World Bank Group's Excellence Award in 1997. [12]

In 1978, the launch of the first GPS satellite saw a revolution in the way position is measured. GPS research commenced at the School in 1984 and in the early 1990s, under Professor Chris Rizos, all GPS-related research was organised under the Satellite Navigation and Positioning (SNAP) group and was expanded to encompass other navigation technologies and applications. [13]

In 1994 the School changed its name to the School of Geomatic Engineering to reflect its expansion of education and research beyond those of traditional surveying, to include remote sensing, geographic information analysis, image processing and satellite positioning. The name was never fully accepted within the NSW surveying profession, however, and there was a second name change in 2001 to Surveying and Spatial Information Systems. [14]

In 2010, two separate undergraduate degrees were launched, a Bachelor of Engineering (GeoInformation Systems) and a Bachelor of Engineering (Surveying). [15]

In 2012 the School was renamed the School of Surveying and Geospatial Engineering.

Research

Since the 1960s, the School has focused on geodesy research. Other past research areas have included photogrammetry, remote sensing, network adjustments, industrial metrology and cadastral systems.

From 1984, the School made important contributions to the development of high accuracy (centimetre-level) positioning algorithms suitable for surveying and geodesy applications. In the early 1990s, all GPS-related research was organised under the Satellite Navigation and Positioning (SNAP) group. From 2004, this also included other wireless and inertial positioning technologies, and space techniques such as Interferometric Synthetic Aperture Radar (InSAR). The School's research areas have extended to GNSS research, aspects of signal processing for the design of GNSS receivers, integrated navigation systems, new designs for terrestrial-based navigation systems and a variety of positioning/navigation applications.

The School has Australia's strongest academic research group working in the areas of positioning/navigation and satellite radar remote sensing, with research strengths in Navigation and Earth Observation. [16] This combines all the technologies and applications dealing with GNSS, inertial and wireless positioning systems, with ‘metric’ (involving precise geometry-based measurements) remote sensing techniques such as InSAR, aerial and satellite digital imagery, LiDAR and terrestrial laser scanning, and modern geodesy.

Navigation research includes GPS/GNSS receiver design, data and signal processing algorithms, inertial navigation technologies and data fusion algorithms, other wireless positioning systems including those based on telecommunications (mobile telephony, WiFi, BlueTooth, RFID, vehicle-to-vehicle) as well as dedicated systems such as Locata Corporation, and their optimal integration to support a range of applications from farm and mining machinery automation and robotics, to precise navigation, georeferencing mapping and imaging systems (terrestrial, airborne, or spaceborne), and personal navigation. [17]

The School's Earth Observation research refers to a subset of remote sensing technologies traditionally linked to geodesy, photogrammetry and surveying. These include InSAR satellite radar remote sensing; digital photogrammetry using terrestrial, aerial or satellite cameras; airborne and terrestrial laser scanning; and geodesy.

This Navigation and Earth Observation research is organised across broad research themes

Research activities and unique strengths include:

In July 2010, the Australian Government's Australian Space Research Program granted $4.6M for the SAR Formation Flying project – led by the School in a consortium of university and private sector partners and worth more than $9.6M with in-kind contributions. And in November 2010 UNSW opened the Australian Centre for Space Engineering, in which the School is a major contributor.

Rankings

Related Research Articles

<span class="mw-page-title-main">Geomatics</span> Geographic data discipline

Geomatics is defined in the ISO/TC 211 series of standards as the "discipline concerned with the collection, distribution, storage, analysis, processing, presentation of geographic data or geographic information". Under another definition, it consists of products, services and tools involved in the collection, integration and management of geographic (geospatial) data. Surveying engineering was the widely used name for geomatic(s) engineering in the past. Geomatics was placed by the UNESCO Encyclopedia of Life Support Systems under the branch of technical geography.

<span class="mw-page-title-main">Satellite geodesy</span> Measurement of the Earth using satellites

Satellite geodesy is geodesy by means of artificial satellites—the measurement of the form and dimensions of Earth, the location of objects on its surface and the figure of the Earth's gravity field by means of artificial satellite techniques. It belongs to the broader field of space geodesy. Traditional astronomical geodesy is not commonly considered a part of satellite geodesy, although there is considerable overlap between the techniques.

<span class="mw-page-title-main">Geoinformatics</span> Application of information science methods in geography, cartography, and geosciences

Geoinformatics is a scientific field primarily within the domains of Computer Science and technical geography. It focuses on the programming of applications, spatial data structures, and the analysis of objects and space-time phenomena related to the surface and underneath of Earth and other celestial bodies. The field develops software and web services to model and analyse spatial data, serving the needs of geosciences and related scientific and engineering disciplines. The term is often used interchangeably with Geomatics, although the two have distinct focuses; Geomatics emphasizes acquiring spatial knowledge and leveraging information systems, not their development. At least one publication has claimed the discipline is pure computer science outside the realm of geography.

<span class="mw-page-title-main">Satellite navigation</span> Use of satellite signals for geo-spatial positioning

A satellite navigation or satnav system is a system that uses satellites to provide autonomous geopositioning. A satellite navigation system with global coverage is termed global navigation satellite system (GNSS). As of 2023, four global systems are operational: the United States's Global Positioning System (GPS), Russia's Global Navigation Satellite System (GLONASS), China's BeiDou Navigation Satellite System, and the European Space Agency's Galileo.

A positioning system is a system for determining the position of an object in space. One of the most well-known and commonly used positioning systems is the Global Positioning System (GPS).

Augmentation of a global navigation satellite system (GNSS) is a method of improving the navigation system's attributes, such as precision, reliability, and availability, through the integration of external information into the calculation process. There are many such systems in place, and they are generally named or described based on how the GNSS sensor receives the external information. Some systems transmit additional information about sources of error, others provide direct measurements of how much the signal was off in the past, while a third group provides additional vehicle information to be integrated in the calculation process.

The American Society for Photogrammetry and Remote Sensing (ASPRS) is an American learned society devoted to photogrammetry and remote sensing. It is the United States' member organization of the International Society for Photogrammetry and Remote Sensing. Founded in 1934 as American Society of Photogrammetry and renamed in 1985, the ASPRS is a scientific association serving over 7,000 professional members around the world. As a professional body with oversight of specialists in the arts of imagery exploitation and photographic cartography. Its official journal is Photogrammetric Engineering & Remote Sensing (PE&RS), known as Photogrammetric Engineering between 1937 and 1975.

GPS/INS is the use of GPS satellite signals to correct or calibrate a solution from an inertial navigation system (INS). The method is applicable for any GNSS/INS system.

<span class="mw-page-title-main">Septentrio</span>

Septentrio N.V. is a designer and manufacturer of high-end multi-frequency GNSS receivers. Its main target is to provide GNSS receiver boards and modules for further system integration by Original Equipment Manufacturers (OEMs). Septentrio's core technology is used in various professional fields such as land and airborne surveying, mobile mapping, machine control, precision agriculture, mining, transport, offshore applications, construction, timing and geodesy etc.

<span class="mw-page-title-main">Applanix</span>

Applanix, based in Richmond Hill, Ontario, Canada, develops and manufactures a line of Inertial Navigation System products. The company's Position and Orientation Systems (POS) are used worldwide for a variety of applications such as aerial survey and mapping, remote sensing, road profiling, GIS data acquisition, and hydrographic surveying.

The Finnish Geospatial Research Institute, formerly Finnish Geodetic Institute is a research institute in Finland specializing in geodesy and geospatial information science and technology. It merged into the National Land Survey of Finland in 2015, when its name was changed. It is located in Masala, Kirkkonummi.

<span class="mw-page-title-main">Mobile mapping</span>

Mobile mapping is the process of collecting geospatial data from a mobile vehicle, typically fitted with a range of GNSS, photographic, radar, laser, LiDAR or any number of remote sensing systems. Such systems are composed of an integrated array of time synchronised navigation sensors and imaging sensors mounted on a mobile platform. The primary output from such systems include GIS data, digital maps, and georeferenced images and video.

The Faculty of Geodesy and Land Management is one of the sixteen faculties of University of Warmia and Mazury in Olsztyn and prepares students to work in the following fields: digital photogrammetry and Internet photogrammetry, close range photogrammetry, engineering geodesy, satellite geodesy, higher geodesy, geomatics and spatial information systems, land management, numerical cartography, cadastral survey and common appraisal, mathematics and mathematical statistics, spatial and archeological reconstruction, positioning and navigation systems, remote sensing and photointerpretation, theory of deterministic chaos in dynamic analyses, theory of environment and real estate evaluation. Students of land management are prepared to work in local governments in the fields of real estate management and turnover, spatial planning, property counselling and expertise. Research on application of global satellite navigation systems, improving methods of acquiring, gathering and processing geodetic and satellite data and their use in special information systems as well as optimizing methods of space management are only a few examples of scientific fields of interest of the faculty employees.

Locata Corporation is a privately held technology company headquartered in Canberra, Australia, with a fully owned subsidiary in Las Vegas, Nevada. Locata has invented a local positioning system that can either replace or augment Global Positioning System (GPS) signals when they are blocked, jammed or unreliable. Government, commercial and other organizations use Locata to determine accurate positioning as a local backup to GPS.

<span class="mw-page-title-main">Institute of Geomatics</span>

The Institute of Geomatics (IG) was a public consortium made up of the Autonomous Government of Catalonia and the Polytechnic University of Catalonia, created by Decree Law 256/1997 of the Autonomous Government of Catalonia, on September 30, 1997. It was a founding member of the Associació Catalana d'Entitats de Recerca (ACER).

<span class="mw-page-title-main">Surveying and Spatial Sciences Institute</span>

The Surveying and Spatial Sciences Institute (SSSI) is the professional association for surveyors and spatial science workers, including cartography, hydrography, remote sensing, engineering and mining surveying, photogrammetry and spatial information in Australia. The Institute's members are involved in communities of practice such as land administration, land development, natural resource management, forestry, agriculture, defence, marine environment, local government, health, education, transport, tourism, and many more. The institute deals with policy, administration, collection, measurement, analysis, interpretation, portrayal and dissemination of spatially- related land and sea information, together with associated planning, design and management.

Sisi Zlatanova is a Bulgarian/Dutch researcher in geospatial data, geographic information systems, and 3D modeling. She works as a professor in the faculty of the Built Environment, at the University of New South Wales (UNSW), and is president of Technical Commission IV (Spatial Information Science) of the International Society for Photogrammetry and Remote Sensing.

Washington Yotto Ochieng is a Kenyan academic who is Head of the Department of Civil and Environmental Engineering at Imperial College London. Previously, he was Head of the Centre for Transport Studies and Co-Director of the Institute for Security Science and Technology(ISST) together with Deeph Chana. Ochieng is a Senior Security Science Fellow in ISST. He also serves as Director of the Engineering Geomatics Group and Chair of Positioning and Navigation Systems.

Dorota A. Grejner-Brzezińska is a Polish-American geodetic engineer known for her work on the Global Positioning System. She is University Distinguished Professor and Lowber B. Strange Endowed Chair in the Department of Civil, Environmental and Geodetic Engineering at Ohio State University, and director of the Satellite Positioning and Inertial Navigation at Ohio State, where she was also the Associate Dean for Research in the College of Engineering and senior associate vice president for research of the university. She current serves as Vice President of the Office of Knowledge Enterprise, part of Ohio State University's Enterprise for Research, Innovation and Knowledge.

Clement Argwings Ogaja is a Kenyan author and research geodesist at the National Oceanic and Atmospheric Administration. Previously, he was a professor of geomatics engineering at California State University, Fresno, having also worked at Geoscience Australia in Canberra.

References

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