Frank AU (2014), "Sharing Geographic Data: How to Update Distributed or Replicated Data", In Proceedings REAL CORP 2014 Tagungsband. , pp. 959-966. Verein CORP. |
Abstract: Geographic data is expensive to collect and maintain and sharing data is crucial for its effective use in urban planning at all levels. For a few hardly ever changing themes the simple distribution of copies of data is feasible, but for other data, access to ''live'' data and updating, sometimes even distributed updating, of the data is necessary.br>The organization of sharing data can be separated into three sets of issues: (1) Interpretation: how to understand the data, (2) Authorization: is a user permitted to use the data, and (3) Access: how to achieve effective and non-disturbing use and updating of data by several users? Solutions must take threats into account: hackers may try to steal or disturb the use of data, and the revelations of Snowden's documents only emphasize the danger of others reading data not intended for their eyes.br>Effective sharing geographic data without conflicts requires integrating results from different areas of computer science research, including at least: cryptography, computer security, database management, and computer networking. |
BibTeX:
@inproceedings{frank14:959[TUW-229137], author = {Frank, Andrew U.}, editor = {Schrenk, Manfred and Popovich, Vasily and Zeile, Peter and Elisei, Pietro}, title = {Sharing Geographic Data: How to Update Distributed or Replicated Data}, booktitle = {Proceedings REAL CORP 2014 Tagungsband}, publisher = {Verein CORP}, year = {2014}, pages = {959--966}, note = {Vortrag: Real Corp 2014, Wien; 2014-05-21 -- 2014-05-23}, url = {http://publik.tuwien.ac.at/files/PubDat_229137.pdf}, file = {docs/after2010/PubDat_229137.pdf} } |
Frank AU (2009), "Simplicial Complex", In Encyclopedia of Database Systems. Springer Verlag. |
BibTeX:
@inproceedings{frank09[TUW-178799], author = {Frank, Andrew U.}, editor = {Liu, Ling and Özsu, M.}, title = {Simplicial Complex}, booktitle = {Encyclopedia of Database Systems}, publisher = {Springer Verlag}, year = {2009}, url = {http://publik.tuwien.ac.at/files/PubDat_178799.pdf}, file = {docs/after2010/PubDat_178799.pdf} } |
Medak D (2008), "Lifestyles - A Paradigm for the Description of Spatiotemporal Databases" Wien GeoInfo Series.
[BibTeX] |
BibTeX:
@book{medak08[TUW-121239], author = {Medak, Damir}, editor = {Frank, Andrew U.}, title = {Lifestyles - A Paradigm for the Description of Spatiotemporal Databases}, publisher = {GeoInfo Series}, year = {2008} } |
(2003), "Spatiotemporal Databases: The Chorochronos Approach" Beriln Springer.
[BibTeX] |
BibTeX:
@book{koubarakis03[TUW-119565], , editor = {Koubarakis, Manolis and Sellis, Timos and Frank, Andrew U. and Grumbach, Stéphane and Güting, Ralf and Jensen, Christian and Lorentzos, Nikos and Manolopoulos, Yannis and Nardelli, Enrico and Pernici, Barbara and Schek, Hans-Jörg and Scholl, Michel and Theodoulidis, Babis and Tryfona, Nectaria}, title = {Spatiotemporal Databases: The Chorochronos Approach}, publisher = {Springer}, year = {2003} } |
Müller R and Frank AU (1999), "Interoperability and workflow: multi-agency databases", In Proceedings of the 6th International Conference ond Distributed Multimedia Systems (DMS'99). Department of Geoinformation, Technical University Vienna. |
BibTeX:
@inproceedings{mueller99, author = {Müller, R. and Frank, A. U.}, title = {Interoperability and workflow: multi-agency databases}, booktitle = {Proceedings of the 6th International Conference ond Distributed Multimedia Systems (DMS'99)}, publisher = {Department of Geoinformation, Technical University Vienna}, year = {1999}, file = {docs/docs1/2963Interop_workflow_DMS99.pdf} } |
Timpf S and Frank AU (1995), "A Multi-Scale Dag for Cartographic Objects", In ACSM/ASPRS. Vol. 4, pp. 157-163. |
Abstract: Geographic Information Systems manage data with respect to spatial location and that data is presented graphically as a map or sketch. A database of objects with some geometric properties is used to render these objects graphically for different tasks. Typically these tasks require graphical presentations at different levels of detail, ranging from overview screens to detailed views [Herot et al., 1980]. Practically a base map is stored and its scale changed graphically. Without major distortions, only changes to twice or half the original scale are feasible by simple numeric scale change. A function to draw cartographic sketches quickly and in arbitrary scales is needed. We propose a multi-scale hierarchical structure where renderings of spatial objects with increasing detail are stored: a directed acyclic graph (DAG). These are used to compose a topographic map at a particular scale. We assume that the object renderings for the DAG already exist. Methods to select objects for rendering are based on the importance of the object for a particular task and on the principle of equal information density. We propose a method for determining information density, namely measuring the ink content of the map. |
BibTeX:
@inproceedings{Timpf1995a, author = {Timpf, Sabine and Frank, Andrew U.}, title = {A Multi-Scale Dag for Cartographic Objects}, booktitle = {ACSM/ASPRS}, year = {1995}, volume = {4}, pages = {157--163}, file = {docs/docsS/zoom-ac12-95.pdf} } |
Frank AU and Wallace M (1995), "Constraint Based Modeling in A GIS: Road Design as a Case Study", In Auto-Carto 12. , pp. 177-186. |
Abstract: Modeling in GIS is limited to the standard geometric data models: vector and raster. Not all problems can be expressed in these models and extensions are requested by applications. To determine precise requirements for extensions, case studies are beneficial. In this paper the focus is on the expressive power required for design applications. A significant part of the road design task is used as a case study to explore if constraint databases can contribute to the solution. Road design is a suitable example for GIS design applications, as road design in the past used topographic maps and map analysis methods.The general design task for the layout of a highway is presented: Find the technically feasible alternative road layouts between two points. Select the best for further assessment. Given are the design parameters of the road (design speed, minimal radius of curves, maximum slope) and information about the terrain (land cover, elevation, geology). The problem is sufficiently complex to pose substantial research questions, but simple enough to be tractable. Three observations result from this case study:-Constraint databases can be used to model continuos variables, and therefore space (not only discrete points in space),-Representing space with a Delaunay triangulation leads to conceptual simplifications,-The original constraint of the road design problem, which are of a higher degree, can be linearized to make the problem computationally tractable.A test implementation is underway, exploring the performance aspects of the use of constraint databases for road design. |
BibTeX:
@inproceedings{Frank1995j, author = {Frank, Andrew U. and Wallace, Mark}, title = {Constraint Based Modeling in A GIS: Road Design as a Case Study}, booktitle = {Auto-Carto 12}, year = {1995}, pages = {177--186}, file = {docs/docs1/1784.AFr.ac12.road.9.short.2.pdf} } |
Frank AU and Kuhn W (1995), "Specifying Open GIS with Functional Languages", In Advances in Spatial Databases (4th Int. Symposium on Large Spatial Databases, ssD'95, in Portland, USA). Vol. 951, pp. 184-195. Springer-Verlag. |
BibTeX:
@incollection{frank95specifying, author = {Frank, Andrew U. and Kuhn, Werner}, editor = {Egenhofer, Max J. and Herring, John R.}, title = {Specifying Open GIS with Functional Languages}, booktitle = {Advances in Spatial Databases (4th Int. Symposium on Large Spatial Databases, ssD'95, in Portland, USA)}, publisher = {Springer-Verlag}, year = {1995}, volume = {951}, pages = {184--195}, file = {docs/docs1/2012_SSD95_OGISfunctional.pdf} } |
Papadias D, Frank AU and Koubarakis M (1994), "Constraint-Based Reasoning in Geographic Databases: The Case of Symbolic Arrays", In 2nd ICLP Workshop on Deductive Databases. Publication booktitle of the GMD. |
BibTeX:
@inproceedings{Papadias1994b, author = {Papadias, D. and Frank, A. U. and Koubarakis, M.}, title = {Constraint-Based Reasoning in Geographic Databases: The Case of Symbolic Arrays}, booktitle = {2nd ICLP Workshop on Deductive Databases}, publisher = {Publication booktitle of the GMD}, year = {1994}, file = {docs/docs1/1726.iclp.paper.dimitris_af.pdf} } |
Frank AU (1992), "Beyond Query Languages for Geographic Databases: Data Cubes and Maps", In Geographic Database Management Systems Workshop Proceedings. , pp. 5-17. Springer. |
BibTeX:
@incollection{Frank1992c, author = {Frank, Andrew U.}, editor = {Gambosi, G. and Scholl, Marc H. and Six, H. W.}, title = {Beyond Query Languages for Geographic Databases: Data Cubes and Maps}, booktitle = {Geographic Database Management Systems Workshop Proceedings}, publisher = {Springer}, year = {1992}, pages = {5--17}, file = {docs/docs_afxxx/afcubes91.pdf} } |
Barrera R, Egenhofer MJ and Frank AU (1992), "Robust Evaluation of Spatial Queries", In 5th International Symposium on Spatial Data Handling. Vol. 1, pp. 241-248. IGU Commision on GIS. |
BibTeX:
@inproceedings{Barrera1992a, author = {Barrera, Renato and Egenhofer, Max J. and Frank, Andrew U.}, editor = {Bresnahan, P. and Corwin, E. and Cowen, D.}, title = {Robust Evaluation of Spatial Queries}, booktitle = {5th International Symposium on Spatial Data Handling}, publisher = {IGU Commision on GIS}, year = {1992}, volume = {1}, pages = {241--248}, file = {docs/docsH/rbmeafrobust92.pdf} } |
Frank AU (1992), "Spatial Concepts, Geometric Data Models and Geometric Data Structures", Computers & Geosciences. Vol. 18(4), pp. 409-417. Elsevier. |
Abstract: There seems to be some uncertainty in the GIS literature regarding the use of the words data model and data structure. There is a clear understanding of these notions in the database literature and it is possible to define analogous terms for GIS: geometric data model and geometric data structure. Geometric data model is used to describe a formalized abstract set of spatial object classes and the operations performed on them. Geometric data structure is then the specific implementation of a geometric data model which fixes the storage structure, utilization, and performance. Humans organize their spatial perceptions using concepts that can be defined as spatial concepts to denote an informal or not directly implementable conceptual structure used to understand space. Examples are given to clarify the theoretical discussion. |
BibTeX:
@article{Frank1992f, author = {Frank, Andrew U.}, title = {Spatial Concepts, Geometric Data Models and Geometric Data Structures}, journal = {Computers & Geosciences}, publisher = {Elsevier}, year = {1992}, volume = {18}, number = {4}, pages = {409--417}, file = {docs/docs_afxxx/afspatialcons92.pdf} } |
Frank AU (1991), "Design of Cartographic Databases", In Advances in Cartograpy. , pp. 15-45. Elsevier. |
Abstract: Before an intelligent discussion of cartographic databases can start, we have to clarify the necessaryterminology: ``What is a cartographic database and how is this notion related to other similar terms,GIS in particular?'' We stress the importance of the database concept and detail some technicalaspects. The contents of a map can be conceptualized in different forms, from a purely graphical viewpoint to a highly structured collection of data, each set of concepts carrying with it its appropriate set of operations. After establishing the differences between GIS and cartographic data base, wethen go on to explore potential relations between a GIS and a cartographic database. Of specialinterest is how a GIS and a cartographic database for the same region are related and how one canbenefit from the other by establishing links between multiple representations of the same real objects. Technically speaking, the cartographic database is a `materialized view' of the GIS; therefore methods like triggers and active database concepts need to be explored for their suitability. The majorproblems in designing cartographic data structures are a lack of understanding of the structure ofmaps and the process that produces them, and the lack of model for map reading. The linkagebetween data structures and map structure is stressed and research topics outlined. |
BibTeX:
@incollection{Frank1991b, author = {Frank, Andrew U.}, editor = {Muller, J. C.}, title = {Design of Cartographic Databases}, booktitle = {Advances in Cartograpy}, publisher = {Elsevier}, year = {1991}, pages = {15--45}, file = {docs/docs_afxxx/afcarto.pdf} } |
Frank AU (1991), "Properties of Geographic Data: Requirements for Spatial Access Methods", In Advances in Spatial Databases - 2nd Symposium on Large Spatial Databases, ssD'91 (Zurich, Switzerland). Vol. 525, pp. 225-233. Springer-Verlag. |
BibTeX:
@incollection{Frank1991c, author = {Frank, Andrew U.}, editor = {Guenther, O. and Schek, H. J. and Hartmanis, O. Goos and J.}, title = {Properties of Geographic Data: Requirements for Spatial Access Methods}, booktitle = {Advances in Spatial Databases - 2nd Symposium on Large Spatial Databases, ssD'91 (Zurich, Switzerland)}, publisher = {Springer-Verlag}, year = {1991}, volume = {525}, pages = {225--233}, file = {docs/docsA/aufprop91.pdf} } |
Al-Taha K and Frank AU (1991), "Temporal GIS Keeps Data Current", 1991-1992 International GIS Sourcebook. , pp. 384-388. |
Abstract: A GIS is not just a collection of maps stored in a computer, but a database that should correctly model a particular region of the world. Since the world is changing continuously, GIS applications require that the data collection to be updated. Every GIS is, by definition, a database that manages spatial data and includes facilities to update its data so it continues to reflect the current situation. But only a GIS that includes ``time'' and ``space'' in its model of reality is often called a ``temporal GIS,'' which contains the current information and keeps the data that describe the previous states and when they were applicable. A temporal GIS must answer ``when-and-where-'' questions, such as: ``what were the boundaries of New York City in June, 1908?'' ``Where were the forest areas in New England in 1880,'' or ``which properties owned John Doe in Baltimore from August 1981 to June 1988.'' When GIss include time, they can really demonstrate the enormous advantage of a database that models reality compared to a conventional collection of printed maps. |
BibTeX:
@article{Al-Taha1991, author = {Al-Taha, Khaled and Frank, Andrew U.}, title = {Temporal GIS Keeps Data Current}, journal = {1991-1992 International GIS Sourcebook}, year = {1991}, pages = {384--388}, file = {docs/docsA/bkaaftemporal91.pdf} } |
Frank AU and Egenhofer MJ (1990), "LOBSTER: Combining AI and Database Techniques for GIS", PE & RS. Vol. 56(6), pp. 919-926. |
BibTeX:
@article{Frank1990d, author = {Frank, Andrew U. and Egenhofer, Max J.}, title = {LOBSTER: Combining AI and Database Techniques for GIS}, journal = {PE & RS}, year = {1990}, volume = {56}, number = {6}, pages = {919--926}, file = {docs/docs_afxxx/afasprslobster90.pdf} } |
Frank AU and Barrera R (1990), "The Fieldtree: A Data Structure for Geographic Information Systems", In Symposium on the Design and Implementation of Large Spatial Databases. Vol. 409, pp. 29-44. Springer-Verlag. |
BibTeX:
@incollection{frankFieldtree, author = {Frank, Andrew U. and Barrera, R.}, editor = {Buchmann, A. and Günther, O. and Smith, T. R. and Wang, Y. F.}, title = {The Fieldtree: A Data Structure for Geographic Information Systems}, booktitle = {Symposium on the Design and Implementation of Large Spatial Databases}, publisher = {Springer-Verlag}, year = {1990}, volume = {409}, pages = {29--44}, file = {docs/docsA/Frank-jun2289.pdf}, file2 = {docs/docs_afxxx/afrbfieldtree89.pdf } } |
Egenhofer M, Frank AU and Jackson JP (1989), "A Topological Data Model for Spatial Databases", In SSD'89 - Design and Implementation of Large Spatial Databases. , pp. 271-186. Springer. |
BibTeX:
@inproceedings{Egenhofer1989a, author = {Egenhofer, M. and Frank, A. U. and Jackson, J. P.}, editor = {Goos, G. and Hartmanis J.}, title = {A Topological Data Model for Spatial Databases}, booktitle = {SSD'89 - Design and Implementation of Large Spatial Databases}, publisher = {Springer}, year = {1989}, pages = {271--186}, file = {docs/docsH/docsL/meafjjtopodm89.pdf} } |
Mark DM and Frank AU (1989), "Concepts of Space and Spatial Language", In Auto-Carto 9. , pp. 538-556. ASPRS & ACSM. |
BibTeX:
@inproceedings{Mark1989d, author = {Mark, D. M. and Frank, A. U.}, editor = {Anderson, E.}, title = {Concepts of Space and Spatial Language}, booktitle = {Auto-Carto 9}, publisher = {ASPRS & ACSM}, year = {1989}, pages = {538--556}, file = {docs/docsA/dmafconceptsssl.pdf} } |
Egenhofer MJ and Frank AU (1989), "PANDA: An Extensible DBMS Supporting Object-Oriented Software Techniques", In Datenbanksysteme in Büro, Technik und Wissenschaft, GI/SI Fachtagung. Vol. Informatik-Fachberichte 204, pp. 74-79. Springer-Verlag. |
Abstract: The PANDA database management system was designed for non- standard applications which deal with spatial data. It supports an object-oriented program design with modularization, encapsulation, and reusability, and can be easily embedded into complex applications, such as spatial information systems or cartographic expert systems. It is presented how complex objects and their operations are defined. A layered structure on top of the programmer’s interface provides object operations which include potentially complex consistency constraints. |
BibTeX:
@inproceedings{Egenhofer1989e, author = {Egenhofer, Max J. and Frank, Andrew U.}, editor = {Härder, T.}, title = {PANDA: An Extensible DBMS Supporting Object-Oriented Software Techniques}, booktitle = {Datenbanksysteme in Büro, Technik und Wissenschaft, GI/SI Fachtagung}, publisher = {Springer-Verlag}, year = {1989}, volume = {Informatik-Fachberichte 204}, pages = {74--79}, file = {docs/docsH/ReTypePANDA89.pdf}, file2 = { docs/docsH/meafpandaex89.pdf} } |
Frank AU and Egenhofer MJ (1988), "Object-Oriented Database Technology for GIS". Thesis at: GIS/LIS'88, San Antonio, Texas,. University of Maine, Department of Surveying Engineering. |
BibTeX:
@techreport{Frank1988j, author = {Frank, A. U. and Egenhofer, M. J.}, title = {Object-Oriented Database Technology for GIS}, publisher = {University of Maine, Department of Surveying Engineering}, school = {GIS/LIS'88, San Antonio, Texas,}, year = {1988}, file = {docs/docs_afxxx/afmerep95obj1_2.88.pdf} } |
Egenhofer MJ and Frank AU (1988), "MOOSE: Combining Software Engineering and Database Management Systems", In CASE '88, Second International Workshop on Computer-Aided Software Engineering, Advance Working Papers. Vol. 2, pp. 27-10. The Computer Society of the IEEE. |
BibTeX:
@inproceedings{otherconfb, author = {Egenhofer, Max J. and Frank, Andrew U.}, editor = {Chikofsky, Elliot J.}, title = {MOOSE: Combining Software Engineering and Database Management Systems}, booktitle = {CASE '88, Second International Workshop on Computer-Aided Software Engineering, Advance Working Papers}, publisher = {The Computer Society of the IEEE}, year = {1988}, volume = {2}, pages = {27--10}, file = {docs/docsH/meafmoose88.pdf} } |
Frank AU (1988), "Multiple Inheritance and Genericity for the Integration of a Database Management System in an Object-Oriented Approach", In Advances in Object-Oriented Database Systems---Proceedings of the 2nd International Workshop on Object-Oriented Database Systems, Bad Muenster am Stein-Ebernburg, F.R. Germany. , pp. 268-273. Springer-Verlag. |
BibTeX:
@inproceedings{Frank1988e, author = {Frank, Andrew U.}, editor = {Dittrich, K. R.}, title = {Multiple Inheritance and Genericity for the Integration of a Database Management System in an Object-Oriented Approach}, booktitle = {Advances in Object-Oriented Database Systems---Proceedings of the 2nd International Workshop on Object-Oriented Database Systems, Bad Muenster am Stein-Ebernburg, F.R. Germany}, publisher = {Springer-Verlag}, year = {1988}, pages = {268-273}, url = {ftp://ftp.geoinfo.tuwien.ac.at/frank/afmultiplei88.pdf}, file = {docs/docs_afxxx/afmultiplei88.pdf} } |
Frank AU (1987), "Database Management Systems for Large Database Systems", In Proceedings of the First Latin American Conference on Geographic Information. |
BibTeX:
@inproceedings{frankLatin, author = {Frank, Andrew U.}, title = {Database Management Systems for Large Database Systems}, booktitle = {Proceedings of the First Latin American Conference on Geographic Information}, year = {1987}, file = {docs/docs_afxxx/afdbmanagement87.pdf} } |
Frank AU (1987), "Databases are crucial tools for computer aided software engineering", First International Workshop on Computer-Aided Software Engineering. Vol. 2, pp. 531-532. |
BibTeX:
@article{Frank1987b, author = {Frank, A. U.}, title = {Databases are crucial tools for computer aided software engineering}, journal = {First International Workshop on Computer-Aided Software Engineering}, year = {1987}, volume = {2}, pages = {531--532}, file = {docs/docs_afxxx/afdbcrucial87.pdf} } |
Egenhofer MJ and Frank AU (1987), "Object-Oriented Databases: Database Requirements for GIS", In International Geographic Information Systems (IGIS) Symposium: The Research Agenda. Vol. II, pp. 189-212. NASA. |
BibTeX:
@inproceedings{otherconfc, author = {Egenhofer, Max J. and Frank, Andrew U.}, editor = {Aangeenbrug, Robert T. and Schiffman, Yale M.}, title = {Object-Oriented Databases: Database Requirements for GIS}, booktitle = {International Geographic Information Systems (IGIS) Symposium: The Research Agenda}, publisher = {NASA}, year = {1987}, volume = {II}, pages = {189--212}, file = {docs/docsH/meafobjordb87.pdf} } |
Egenhofer MJ and Frank AU (1987), "PANDA: An Object-Oriented Database Based on User-Defined Abstract Data Types". Thesis at: University of Maine. Department of Surveying Engineering, University of Maine; Orono, ME. |
BibTeX:
@techreport{Egenhofer1987h, author = {Egenhofer, Max J. and Frank, Andrew U.}, title = {PANDA: An Object-Oriented Database Based on User-Defined Abstract Data Types}, publisher = {Department of Surveying Engineering, University of Maine; Orono, ME}, school = {University of Maine}, year = {1987}, file = {docs/docsH/meafreppanda.pdf} } |
Frank AU (1986), "LOBSTER: Combining Database Management and Artificial Intelligence Techniques to Manage Land Information", In XVIII International Congress of the International Federation of Surveyors (FIG). Vol. 3, pp. 301.1. |
BibTeX:
@inproceedings{FrankLobster, author = {Frank, Andrew U.}, title = {LOBSTER: Combining Database Management and Artificial Intelligence Techniques to Manage Land Information}, booktitle = {XVIII International Congress of the International Federation of Surveyors (FIG)}, year = {1986}, volume = {3}, pages = {301.1}, file = {docs/docs_afxxx/aflobster86.pdf} } |
Frank AU (1986), "PANDA: An Object-Oriented Pascal Network Database Management System". Thesis at: University of Maine. Department of Civil Engineering, University of Maine at Orono. |
BibTeX:
@techreport{frankPanda, author = {Frank, Andrew U.}, title = {PANDA: An Object-Oriented Pascal Network Database Management System}, publisher = {Department of Civil Engineering, University of Maine at Orono}, school = {University of Maine}, year = {1986}, file = {docs/docs_afxxx/afpandaobj.pdf} } |
Frank AU (1986), "Requirements for Database Management Systems for Large Spatial Database", In Construction and Display of Geoscientific Maps derived from Databases. Vol. 104 (1988), pp. 75-96. E. Schweizerbart'sche Verlagsbuchhandlung, Stuttgart. |
BibTeX:
@inproceedings{frankReq, author = {Frank, Andrew U.}, editor = {Vinken, Renier}, title = {Requirements for Database Management Systems for Large Spatial Database}, booktitle = {Construction and Display of Geoscientific Maps derived from Databases}, publisher = {E. Schweizerbart'sche Verlagsbuchhandlung, Stuttgart}, year = {1986}, volume = {104 (1988)}, pages = {75--96}, file = {docs/docs_afxxx/afreqdmslsd88.pdf} } |
Frank AU (1985), "Anforderungen an Datenbanksysteme zur Verwaltung grosser raumbezogener Datenbestände (Requirements for database systems suitable to manage large spatial databases) [german translation of the paper published in the proceedings of the International Symposium on Spatial Data Handling, Zurich 1984]", VPK. Vol. 85(1 (Jan.)), pp. 5. |
BibTeX:
@article{Frank1985a, author = {Frank, A. U.}, title = {Anforderungen an Datenbanksysteme zur Verwaltung grosser raumbezogener Datenbestände (Requirements for database systems suitable to manage large spatial databases) [german translation of the paper published in the proceedings of the International Symposium on Spatial Data Handling, Zurich 1984]}, journal = {VPK}, year = {1985}, volume = {85}, number = {1 (Jan.)}, pages = {5}, file = {docs/docs_afxxx/afanforderungen85.pdf} } |
Frank AU (1985), "Combining a Network Database with Logic Programming" orig. |
BibTeX:
@book{Frank1985b, author = {Frank, A. U.}, title = {Combining a Network Database with Logic Programming}, publisher = {orig}, year = {1985}, file = {docs/docs_afxxx/afrepcomb.pdf} } |
Frank AU (1985), "Distributed Databases for Surveying", Journal of Surveying Engineering. Vol. 111(1), pp. 79-88. |
BibTeX:
@article{Frank1985g, author = {Frank, A. U.}, title = {Distributed Databases for Surveying}, journal = {Journal of Surveying Engineering}, year = {1985}, volume = {111}, number = {1}, pages = {79--88}, file = {docs/docs_afxxx/afdistrds85.pdf} } |
Frank AU (1984), "Computergestützte Planerstellung - Graphik oder Geometrie?", Vermessung, Photogrammetrie, Kulturtechnik. Vol. 84(12), pp. 385. |
BibTeX:
@article{Frank1984c, author = {Frank, A. U.}, title = {Computergestützte Planerstellung - Graphik oder Geometrie?}, journal = {Vermessung, Photogrammetrie, Kulturtechnik}, year = {1984}, volume = {84}, number = {12}, pages = {385}, file = {docs/docs_afxxx/afcomppgg84.pdf} } |
Frank AU (1984), "Extending a network database with Prolog", In Proceedings First International Workshop on Expert Database Systems. , pp. 665-676. |
BibTeX:
@inproceedings{frankProlog, author = {Frank, Andrew U.}, editor = {Kerschberg, L.}, title = {Extending a network database with Prolog}, booktitle = {Proceedings First International Workshop on Expert Database Systems}, year = {1984}, pages = {665--676}, file = {docs/docs_afxxx/afextendingnd84.pdf} } |
Frank AU (1984), "Requirements for Database Systems Suitable to Manage Large Spatial Databases", In Proceedings First International Symposium on Spatial Data Handling,. |
BibTeX:
@inproceedings{Frank1984d, author = {Frank, Andrew U.}, editor = {Duane Marble and Kurt Brassel and Dieter Steiner}, title = {Requirements for Database Systems Suitable to Manage Large Spatial Databases}, booktitle = {Proceedings First International Symposium on Spatial Data Handling,}, year = {1984}, file = {docs/docsS/SDH1984Frank.pdf}, file2 = { docs/docs_afxxx/afrequir.database84.pdf} } |
Frank AU (1982), "Application of DBMS to land information systems", In Proceedings of the7th International Conference on Very Large Databases. , pp. 448-453. |
BibTeX:
@inproceedings{Frank1982a, author = {Frank, Andrew U.}, editor = {Deloebel, C. Zaniolo and C.}, title = {Application of DBMS to land information systems}, booktitle = {Proceedings of the7th International Conference on Very Large Databases}, year = {1982}, pages = {448--453}, file = {docs/docsS/VLDB1981Frank.pdf} } |
Frank AU and Tamminen M (1982), "Management of Spatially Referenced Data" copy. |
BibTeX:
@book{Frank1982g, author = {Frank, Andrew U. and Tamminen, M.}, title = {Management of Spatially Referenced Data}, publisher = {copy}, year = {1982}, file = {docs/docs_afxxx/afmtmanagspatrd.pdf} } |
Frank AU (1982), "PANDA - Pascal Netzwerk Datenbankverwaltungssystem (Pascal network database management system)". Thesis at: Technische Hochschule Z|"urich (ETH). Swiss Federal Institute of Technology, Institute for Geodesy and Photogrammetry. |
BibTeX:
@techreport{Frank1982c, author = {Frank, A. U.}, title = {PANDA - Pascal Netzwerk Datenbankverwaltungssystem (Pascal network database management system)}, publisher = {Swiss Federal Institute of Technology, Institute for Geodesy and Photogrammetry}, school = {Technische Hochschule Z|"urich (ETH)}, year = {1982}, file = {docs/docs_afxxx/afbericht62panda82ab.pdf} } |
Frank AU (1981), "Datenspeicherung für schnellen Zugriff auf Daten räumlich benachbarter Objekte (Data storage for fast access to data of spatially near objects)", In Nachrichten aus dem Karten- und Vermessungswesen. Frankfurt a.M. Vol. 85, pp. 37-47. Institut für angewandte Geodäsie, Frankfurt a.M.. |
BibTeX:
@incollection{frankSpeicher, author = {Frank, Andrew U.}, title = {Datenspeicherung für schnellen Zugriff auf Daten räumlich benachbarter Objekte (Data storage for fast access to data of spatially near objects)}, booktitle = {Nachrichten aus dem Karten- und Vermessungswesen}, publisher = {Institut für angewandte Geodäsie, Frankfurt a.M.}, year = {1981}, volume = {85}, pages = {37--47}, file = {docs/AF_Datenspeicherung_80.pdf} } |