Infrastructure Engineering - Research Publications

Permanent URI for this collection

Search Results

Now showing 1 - 5 of 5
  • Item
    Thumbnail Image
    Marine administration and spatial data infrastructure
    Strain, L ; Rajabifard, A ; Williamson, I (ELSEVIER SCI LTD, 2006-07)
  • Item
    Thumbnail Image
    Spatial Data Infrastructure to Facilitate Coastal Zone Management
    STRAIN, LM ; RAJABIFARD, A ; WILLIAMSON, IP (Coastal CRC, 2004)
  • Item
    Thumbnail Image
    Supporting decision making and management in the marine environment
    Binns, A. ; Strain, L. ; Rajabifard, A. ; Williamson, I. P. ( 2005-08)
    The world’s oceans cover almost two thirds of the surface of the earth, regulating weather patterns and sustaining a huge variety of plant and animal life (UN, 2003). Given the diversity of this area, there is an economic, social and environmental need to effectively manage it. This management is difficult, due to the complex web of national and international government legislation, including the United Nations Convention on the Law of the Sea (UNCLOS). There are also overlapping and competing rights and responsibilities of a myriad of activities within the marine environment, often governed by separate agencies. In order to manage these rights and activities in the marine environment effectively, clear spatial certainty in relation to marine boundaries is needed (Collier et al. 2003). This can be achieved through the use of spatial information and decision support tools such as marine GIS. Historically, the marine environment has been managed secondary to the terrestrial environment through sectoral planning, with government fisheries agencies managing fisheries and historical shipwrecks managed by a separate government agency. Jurisdictional limits and marine boundaries are multiple and often unclear, there is generally no single agency managing offshore rights, and the mapping of legal boundaries is difficult due to the three-dimensional aspect and lack of physical reference. Added to this, information needed to effectively manage the marine environment is stored within silos, with no interconnection between relevant information streams. The management of the terrestrial environment evolved in a similar fashion to the marine environment, with spatial information in particular built up in silos. However the three global driver of sustainable development has created the need for greater access to environmental, economic, and social information. The introduction of Geographic Information Systems (GIS) as a tool to aid in decision making has also seen the need to break down the barriers between agencies and silos. For effective analysis within a GIS, there must be access to a wide range of interoperable spatial datasets. In order to effectively and efficiently access and disseminate such spatial data, there has been the need to develop Spatial Data Infrastructures (SDI), which aid in breaking down barriers between users and producers of spatial data. GIS is now being used to aid decision making in the Marine Environment, with interactive mapping applications, marine and coastal data download tools and associated metadata becoming readily available through various GIS systems. This paper aims to discuss the use of a SDI and marine cadastre in helping marine GIS users gain access to critical information relating to maritime boundaries and other important information used in marine management. Gaining access to such information will aid decision makers in utilising the wide range of tools offered through GIS packages in the marine environment, enabling the worlds oceans to be managed in line with current sustainable development drivers
  • Item
    Thumbnail Image
    Marine cadastre challenges and opportunities for land surveyors
    Williamson, I. P. ; Rajabifard, A. ; Strain, L. ( 2005)
    This paper describes the marine cadastre concept, and reviews both the current and future directions of international and national marine cadastre initiatives. This includes an overview of the incentives, objectives, principle tasks and results of current research as well as reporting on the outcomes of the PCGIAP-International Workshop on administering the marine environment held in Malaysia in May 2004. The paper then endeavours to briefly explore the relevance of the marine cadastre concept to land surveyors.There has been international recognition of the need to improve administration of the marine environment, in particular focussing on managing the different and overlapping maritime boundaries and the need for access to marine related spatial data. Decision-makers in both the land and marine environments will need access to this information to make effective and reliable decisions supporting marine administration.With this in mind, the Department of Geomatics at the University of Melbourne is involved in a number of national and international collaborative projects with a marine focus. One of the major projects is sponsored by the United Nations supported Permanent Committee on GIS Infrastructure for Asia and the Pacific (PCGIAP). The main objective of this project is to define the issues to be considered in developing a set of guidelines appropriate to the Asia and Pacific region for administrating the marine environment.The Department of Geomatics has also initiated research into problems relevant to the development of an Australian marine cadastre. The current project sponsored by the Australian Research Council focuses on four major research areas including resolving ambiguities in the definition of the tidal interface; using natural rather than artificial boundaries in a marine cadastre; expanding the Australian SDI to a support marine dimension; and legal and security issues intrinsic to the development of a marine cadastre. The outcomes from this res
  • Item
    Thumbnail Image
    Spatially Administering the Marine Environment
    STRAIN, LM ; BINNS, AJ ; RAJABIFARD, A ; WILLIAMSON, IP (Spatial Sciences Institute, 2005)