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''Internal note for our chair: At each time, each Ph.D. student or postdoc from our group should either supervise one B.Sc. or M.Sc. topic, or offer one.'' | ''Internal note for our chair: each of us should offer / provide 12 months of supervision every year. Each thesis or project "counts" just like it counts for the students, where #months = #ECTS / 4. That is, B.Sc. project = 6 ECTS = 1.5 months, M.Sc. project = 16 ECTS = 4 months, B.Sc. thesis = 12 ECTS = 3 months, M.Sc. thesis = 25 ECTS = 6 months.'' |
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== List of available and ongoing topics for current B.Sc. and M.Sc. projecs == | ''Internal note to thesis supervisors: you need to make sure that each supervised thesis appears on our chair homepage. For this you need to: |
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''Note to interested students: if all projects in this list are ongoing, this means our current capacity for supervising projects is reached.'' | 1) put the final PDFs of the thesis and the presentation into /nfs/raid3/publications/theses - please follow the existing naming convention!; the PDFs will be available at [[http://ad-publications.informatik.uni-freiburg.de/theses/|http://ad-publications.informatik.uni-freiburg.de/theses/]]<PDF> |
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TODO: project offered by Björn | 2) send a mail to Sabine with the following information: title of thesis, name of student, thesis abstract, link to thesis PDF, link to presentation PDF.'' |
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TODO: project offered by Elmar | == List of available and ongoing topics for current B.Sc. and M.Sc. projects and theses == |
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TODO: project offered by Florian | ''Note to interested students: if all projects in this list are ongoing, this means that our current capacity for supervising projects and theses is reached. Maybe, if you come back later, there will be an offer again. You can also propose a topic on your own.'' |
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TODO: project offered by Claudius | '''Domain Specific Semantic Full-Text Search (thesis, available)''': Our semantic search engine [[http://broccoli.cs.uni-freiburg.de|Broccoli]] answers structured, semantic queries. Queries can, in theory, be very complex and powerful. However, it is almost impossible for inexperienced users to build appropriate structured queries. There is an experimental feature to interpret queries in natural language and translate them to structured queries. Again, this is a difficult task we cannot solve perfectly (yet). With a limited vocabulary, this becomes much easier. Think of Facebook's Search and queries like "restaurants my friends like", "friends of my friends" - interpreting such queries is much easier than interpreting arbitrary questions on Wikipedia. We have created versions of Broccoli that work with medical texts, news articles, or patents. Usually, those texts introduce new challenges and make it even harder to provide a really good query experience. Goal of this thesis is to use such a domain or find a new one, solve the associated challenges as usual (with support by us), but this time also '''significantly reduce the features of our search and try to find a simple use-case and do that one thing really well'''. Ideally as a system that correctly answers a limited set of natual langauge questions. - ''supervised by [[http://ad.informatik.uni-freiburg.de/staff/buchhold|Björn Buchhold]]'' |
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TODO: project offered by Sabine | '''High Level Tests and Performance Tracking for Broccoli (project, available)''': Our semantic search engine [[http://broccoli.cs.uni-freiburg.de|Broccoli]] currently features unit tests that are automatically build and run on commits to a central repository. However, there is no way to track the effect of changes on the system's performance, both, in terms of query execution time and result quality. The task of the project is to come up (in discussions with the people invloved with Broccoli) with set of queries and a way to visualize results that can be run on a regular basis. A major challenge arises because either changes to Broccoli or downloads of new input data require new indexes to be build. This task is computationally expensive and cannot be performed as often as building and running unit tests. Apart from that, variations in response times and results are tolerated and even expected every time. Still, it would be highly beneficial to be presented with an overview of changes between builds so that unexpected differences can be examined manually if necessary. - ''supervised by [[http://ad.informatik.uni-freiburg.de/staff/buchhold|Björn Buchhold]]'' |
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== Completed B.Sc. or M.Sc. projects == | '''Value Recognition in Full-Text (thesis, ONGOING)''': Text documents contain various values of different types. Dates, weights, lengths, heights and many more can be expressed obviously like ''13kg'', less obivously, e.g., ''ten tons'', and highly obfuscated, e.g., ''for the first half of the year''. For our semantic search engine [[http://broccoli.cs.uni-freiburg.de|Broccoli]], we do not make use of this inforamtion, yet. The taks of the thesis is to produce a ([[http://uima.apache.org/|UIMA]]) component that extracts such values from text documents, that serve as input for further steps to enable semantic search that matches such values. Additionally the findings should be evaluated. Facts which kinds of values are truely hard to extract and which are relatively easy, is very valuable knowledge as well. - ''supervised by [[http://ad.informatik.uni-freiburg.de/staff/buchhold|Björn Buchhold]]'' '''Information Extraction from Noun Compounds (thesis, available)''': Noun compounds like ''US president Barack Obama'' or ''3rd century Roman writer Censorinus'' can carry a lot of valuable information. Here: ''Barack Obama is president of the US'' and ''Censorinus is a roman writer from the 3d century''. Noun compounds have been studied from a linguistic point of view, e.g. http://people.ischool.berkeley.edu/~nakov/selected_papers_list/TSLP2013.pdf , but so far they have largely been ignored in information extraction tasks (i.e. generate triples of the expressed facts like (''Barack Obama'') (''is president of'') (''the US'')). The task of this thesis will be to research current state-of-the art approaches for understanding noun compounds and implement/adapt/improve them to extract information in triple-form. Good if you know something about machine learning but not absolutely necessary ... ''supervised by [[http://ad.informatik.uni-freiburg.de/staff/haussmann|Elmar Haussmann]]'' '''Semantic Search Engine Prototype utilizing OpenIE (thesis or larger project, available)''': Open Information Extraction (OpenIE) extracts triples like (''Barack Obama'') (''is president of'') (''the US'') from natural language text. Recent OpenIE systems perform well, but it is yet to be shown that these triples can be used effectively for information retrieval tasks. First systems searching on the extracted triples already exist, e.g. http://openie.cs.washington.edu/. The task will be to investigate how to best search on OpenIE triples, implement a search engine prototype similar to the existing one and assess/evaluate it. You should be proficient in programming in C++ or Java and it is good if you heard the information retrieval lecture ... ''supervised by [[http://ad.informatik.uni-freiburg.de/staff/haussmann|Elmar Haussmann]] and TBA'' '''Distributional Semantics for a Semantic Search Engine Prototype (project, available)''': Distributional semantics is a hot topic in natural language processing right now. It allows representing words (and phrases) as vectors in a high-dimensional space such that words with similar meaning have low distance, e.g. "Friday" and "Saturday", "king" and "queen", or "Freiburg" and "Stuttgart". Tools to generate these word space modals are freely available, e.g. from Google: https://code.google.com/p/word2vec/. The task will be to generate word vectors, assess their quality, and (depending on quality) implement a prototype search engine utilizing them, e.g. for resolving synonyms. Good if you heard the information retrieval lecture, but not absolutely necessary ''... supervised by [[http://ad.informatik.uni-freiburg.de/staff/haussmann|Elmar Haussmann]]'' '''A HTML5-based PDF-annotation & -extraction tool (theses or larger projects, available)''' The goal is to implement an easy-to-use PDF-tool for [[http://ad-publications.informatik.uni-freiburg.de/WISE_icecite_BK_2013.pdf|Icecite]], that runs in browser's client side with the following features: (1) Text extraction (along with meta-informations like fontsizes, fontnames, text-positions, etc.) from PDF-documents - similar to the (Java-based) extraction-tool of [[http://pdfbox.apache.org/|PDFBox]]. (2) Annotating (i.e highlighting and commenting) PDF-documents, as provided by Adobe Professional. However, the Adobe browser plugin isn't available in all browsers and isn't quite comfortable to annotate PDF's in the browsers. For both tasks, you are allowed to use existing PDF-parsers and -renderers, e.g. [[http://mozilla.github.io/pdf.js/|PDF.js]] ... ''supervised by [[http://ad.informatik.uni-freiburg.de/staff/korzen|Claudius Korzen]]'' '''A mobile app for kitchen management (project, available)''' Our comfortable kitchen provides a lot of drinks and food. Whenever an employee consumes something, he is asked to mark it on our ''tally sheet'' and to pay the accumulated amount whenever he wants. In general, the noted amount is quite smaller than the actual amount to pay due to some uncertainties about the prices and due to the oblivion of our staff. Moreover, the payment behavior could be better in general. The goal of this project is to implement a mobile app, that can be used to manage the kitchen accounts of our staff. At least, it should be possible to scan the product before consuming and to debit the employee's account with the corresponding price. In certain intervals, a ''notice to pay'' should be sent to each employee. Can be expanded by any number of additional features ... ''supervised by [[http://ad.informatik.uni-freiburg.de/staff/korzen|Claudius Korzen]]'' '''Rounding on Paths (bachelor thesis, available)''' Given a graph and a cost function on the edges (e.g. height difference in mm), we want to reduce the precision of the cost values by rounding (saving space and computation time for algorithms to be run on that graph). The goal is to develop rounding techniques such that the rounding error on every (optimal) path can be bounded ... ''supervised by [[http://ad.informatik.uni-freiburg.de/staff/storandt|Sabine Storandt]]'' '''Learning from OSM data (theses or larger projects, available)''' OpenStreetMap(OSM) bears a lot of data that geo-search and render engines cannot use sufficiently at the moment. A variety of topics is available in that area, e.g. landscape classification based on street network data, learning classifiers for regions of interest (e.g. industrial areas), developing data structures to answer queries with specific geo-relations ('next to', 'south of', 'along'), automated tagging and classification of points of interest (e.g. lake -> place to swim), etc. ... ''supervised by [[http://ad.informatik.uni-freiburg.de/staff/storandt|Sabine Storandt]]'' '''Local Zoom (thesis, available)''' Given a street graph projected on a map and a general zoom-in functionality (think of a renderer like Google Maps). We want to allow specifying subregions of the actual view, where more detail is required. The goal is to enable local zoom, such that basic connectivity of important streets is preserved and no overlap of non-crossing streets is introduced. This functionality should be integrated in our existing render-framework ... ''supervised by [[http://ad.informatik.uni-freiburg.de/staff/storandt|Sabine Storandt]]'' '''Dynamic Ambulance Allocation (master thesis, ONGOING)''' We are given a street graph, an embedded set of hospitals, an ambulance fleet and an online stream of incoming patient requests. The goal is to develop strategies for dynamically allocating ambulances to hospitals and emergencies, such that the number of saved patients is maximized ... ''supervised by [[http://ad.informatik.uni-freiburg.de/staff/storandt|Sabine Storandt]]'' '''Compression Techniques for Shortest Path Sets (bachelor thesis, ONGOING)''' Given a large collection of shortest paths in a graph, develop techniques to store them as space-efficient as possible, while allowing fast access to single paths ... ''supervised by [[http://ad.informatik.uni-freiburg.de/staff/storandt|Sabine Storandt]]'' '''Setting up a browser for DBPedia with Broccoli (project, available)''' We derived a simplified version of the [[http://www.freebase.com/|Freebase]] ontology and set up a web application to browse the data based on our Broccoli search engine, called Freebase Easy: http://freebase-easy.cs.uni-freiburg.de . The goal of this project would be to do something similar with the [[http://dbpedia.org/|DBPedia]] ontology. This means modifying the freely downloadable dataset so that it 1) can be processed by our pipeline and 2) has a form that allows for a comfortable browsing with our user interface (e.g. providing unique and proper human readable names for instances and types) ... ''supervised by [[http://ad.informatik.uni-freiburg.de/staff/baeurlef|Florian Bäurle]]'' '''Usability study for the Broccoli user interface (bachelor thesis, available)''' We developed a special user interface for the prototype of our semantic full-text search engine Broccoli: http://broccoli.cs.uni-freiburg.de . An open taks is yet to make a thorough user study to evaluate the usability of the interface, compare it to other search interfaces and identify weak points that could be improved ... ''supervised by [[http://ad.informatik.uni-freiburg.de/staff/baeurlef|Florian Bäurle]]'' '''Structured extraction of text from scientific PDF documents (master thesis, available)''' A lot of documents are only available in the PDF format which was originally intended for platform independent uniform display and printing. To process the contained information one has to extract the contained plain text. To be able to do this correctly one has to consider the formatting structure of the documents to be able to identify the parts of the text that belong together. The goal is to create such a non-trivial structured text-extraction on top of an available PDF library like, e.g., [[http://pdfbox.apache.org/|PDFBox]] so that the contained texts can be further processed by our search engine ... ''supervised by [[http://ad.informatik.uni-freiburg.de/staff/baeurlef|Florian Bäurle]]'' '''Question Answering using Semantic Full-Text Search (thesis, available)''': Use our semantic full-text search engine Broccoli for the FACTOID and LIST questions from one of the TREC Questions Answering benchmarks, e.g. http://trec.nist.gov/data/qa/2006_qadata/QA2006_testset.xml . What is the performance of manually constructed queries, and what can be done to improve it? Good if you heard the information retrieval lecture before, but not absolutely necessary ... ''supervised by [[http://ad.informatik.uni-freiburg.de/staff/bast|Hannah Bast]] and [Elmar or Björn]'' '''Improved Transfer Patterns Routing (thesis or larger project, available)''': Public transit routing at Google currently implements the transfer patterns algorithm from this paper: http://ad-publications.informatik.uni-freiburg.de/ESA_transferpatterns_BCEGHRV_2010.pdf . The evaluation in this paper is outdated, and we know of several possible major improvements in the meantime. In particular, we know how to accelerate the pre-processing time by a factor of about 10. The goal of this thesis would we to implement a much improved version of transfer patterns and properly benchmark it ... ''supervised by [[http://ad.informatik.uni-freiburg.de/staff/bast|Hannah Bast]] and [[http://ad.informatik.uni-freiburg.de/staff/storandt|Sabine Storandt]]'' '''An easy-to-use web app for the !CompleteSearch engine (project, available)''': The !CompleteSearch engine complex search capabilities (including prefix search and faceted search) on semi-structured data (text and databases) with very fast query times. Our current software is powerful and flexible, but has quite a learning curve before it can be used. The goal of this project would be to set up a web app, where one can upload any CSV dataset, and then have a convenient search (with meaningful default settings), without having to set up anything oneself. This would be an extremely useful web application ... ''supervised by [[http://ad.informatik.uni-freiburg.de/staff/bast|Hannah Bast]]'' == Completed B.Sc. or M.Sc. projects and theses == ''[Die Liste ist noch unvollständig, insbesondere fehlen gerade noch die ganzen Projekte. Titel der Arbeit sollte da auch noch stehen und ein Link zur jeweiligen Webseite bzw. Arbeit und Präsentation. Und das Anfangs- und Enddatum.]'' B.Sc. thesis Christian Ehrenfeld (Hannah) B.Sc. thesis Philipp Bausch (Elmar) M.Sc. thesis Eugen Sawin (Hannah) M.Sc. thesis Patrick Brosi (Hannah + Sabine) B.Sc. thesis Marius Bethge (Björn) M.Sc. thesis Cynthia Jimenez (Sabine) M.Sc. thesis Jonas Sternisko (Hannah) M.Sc. thesis Ragavan Natarajan (Florian) B.Sc. thesis Benjamin Meier (Claudius) M.Sc. thesis Susanne Eichel (Hannah) B.Sc. thesis Axel Lehmann (Hannah) B.Sc. thesis Adrian Batzill (Hannah) B.Sc. thesis Anton Stepan (Björn) M.Sc. thesis Mirko Brodesser (Hannah + Sabine) M.Sc. thesis Manuel Braun (Hannah + Sabine) B.Sc. thesis Robin Schirrmeister (Hannah) B.Sc. thesis Simon Skilevic (Hannah) M.Sc. thesis Ilinca Tudose (Hannah + Elmar) B.Sc. thesis Christiane Schaffer (Florian) M.Sc. thesis Dirk Kienle (Hannah) B.Sc. thesis Ina Baumgarten (Hannah + Björn) B.Sc. thesis Niklas Meinzer (Hannah + Björn) M.Sc. thesis Claudius Korzen (Hannah) M.Sc. thesis Florian Bäurle (Hannah) M.Sc. thesis Elmar Haußmann (Hannah) M.Sc. thesis Oliver Mitevski (Hannah + Marjan) M.Sc. thesis Björn Buchhold (Hannah) Diploma thesis Johannes Schwenk (Hannah) B.Sc. thesis Mirko Brodesser (Hannah + Marjan) |
Internal note for our chair: each of us should offer / provide 12 months of supervision every year. Each thesis or project "counts" just like it counts for the students, where #months = #ECTS / 4. That is, B.Sc. project = 6 ECTS = 1.5 months, M.Sc. project = 16 ECTS = 4 months, B.Sc. thesis = 12 ECTS = 3 months, M.Sc. thesis = 25 ECTS = 6 months.
Internal note to thesis supervisors: you need to make sure that each supervised thesis appears on our chair homepage. For this you need to: 1) put the final PDFs of the thesis and the presentation into /nfs/raid3/publications/theses - please follow the existing naming convention!; the PDFs will be available at http://ad-publications.informatik.uni-freiburg.de/theses/<PDF> 2) send a mail to Sabine with the following information: title of thesis, name of student, thesis abstract, link to thesis PDF, link to presentation PDF.
List of available and ongoing topics for current B.Sc. and M.Sc. projects and theses
Note to interested students: if all projects in this list are ongoing, this means that our current capacity for supervising projects and theses is reached. Maybe, if you come back later, there will be an offer again. You can also propose a topic on your own.
Domain Specific Semantic Full-Text Search (thesis, available): Our semantic search engine Broccoli answers structured, semantic queries. Queries can, in theory, be very complex and powerful. However, it is almost impossible for inexperienced users to build appropriate structured queries. There is an experimental feature to interpret queries in natural language and translate them to structured queries. Again, this is a difficult task we cannot solve perfectly (yet). With a limited vocabulary, this becomes much easier. Think of Facebook's Search and queries like "restaurants my friends like", "friends of my friends" - interpreting such queries is much easier than interpreting arbitrary questions on Wikipedia. We have created versions of Broccoli that work with medical texts, news articles, or patents. Usually, those texts introduce new challenges and make it even harder to provide a really good query experience. Goal of this thesis is to use such a domain or find a new one, solve the associated challenges as usual (with support by us), but this time also significantly reduce the features of our search and try to find a simple use-case and do that one thing really well. Ideally as a system that correctly answers a limited set of natual langauge questions. - supervised by Björn Buchhold
High Level Tests and Performance Tracking for Broccoli (project, available): Our semantic search engine Broccoli currently features unit tests that are automatically build and run on commits to a central repository. However, there is no way to track the effect of changes on the system's performance, both, in terms of query execution time and result quality. The task of the project is to come up (in discussions with the people invloved with Broccoli) with set of queries and a way to visualize results that can be run on a regular basis. A major challenge arises because either changes to Broccoli or downloads of new input data require new indexes to be build. This task is computationally expensive and cannot be performed as often as building and running unit tests. Apart from that, variations in response times and results are tolerated and even expected every time. Still, it would be highly beneficial to be presented with an overview of changes between builds so that unexpected differences can be examined manually if necessary. - supervised by Björn Buchhold
Value Recognition in Full-Text (thesis, ONGOING): Text documents contain various values of different types. Dates, weights, lengths, heights and many more can be expressed obviously like 13kg, less obivously, e.g., ten tons, and highly obfuscated, e.g., for the first half of the year. For our semantic search engine Broccoli, we do not make use of this inforamtion, yet. The taks of the thesis is to produce a (UIMA) component that extracts such values from text documents, that serve as input for further steps to enable semantic search that matches such values. Additionally the findings should be evaluated. Facts which kinds of values are truely hard to extract and which are relatively easy, is very valuable knowledge as well. - supervised by Björn Buchhold
Information Extraction from Noun Compounds (thesis, available): Noun compounds like US president Barack Obama or 3rd century Roman writer Censorinus can carry a lot of valuable information. Here: Barack Obama is president of the US and Censorinus is a roman writer from the 3d century. Noun compounds have been studied from a linguistic point of view, e.g. http://people.ischool.berkeley.edu/~nakov/selected_papers_list/TSLP2013.pdf , but so far they have largely been ignored in information extraction tasks (i.e. generate triples of the expressed facts like (Barack Obama) (is president of) (the US)). The task of this thesis will be to research current state-of-the art approaches for understanding noun compounds and implement/adapt/improve them to extract information in triple-form. Good if you know something about machine learning but not absolutely necessary ... supervised by Elmar Haussmann
Semantic Search Engine Prototype utilizing OpenIE (thesis or larger project, available): Open Information Extraction (OpenIE) extracts triples like (Barack Obama) (is president of) (the US) from natural language text. Recent OpenIE systems perform well, but it is yet to be shown that these triples can be used effectively for information retrieval tasks. First systems searching on the extracted triples already exist, e.g. http://openie.cs.washington.edu/. The task will be to investigate how to best search on OpenIE triples, implement a search engine prototype similar to the existing one and assess/evaluate it. You should be proficient in programming in C++ or Java and it is good if you heard the information retrieval lecture ... supervised by Elmar Haussmann and TBA
Distributional Semantics for a Semantic Search Engine Prototype (project, available): Distributional semantics is a hot topic in natural language processing right now. It allows representing words (and phrases) as vectors in a high-dimensional space such that words with similar meaning have low distance, e.g. "Friday" and "Saturday", "king" and "queen", or "Freiburg" and "Stuttgart". Tools to generate these word space modals are freely available, e.g. from Google: https://code.google.com/p/word2vec/. The task will be to generate word vectors, assess their quality, and (depending on quality) implement a prototype search engine utilizing them, e.g. for resolving synonyms. Good if you heard the information retrieval lecture, but not absolutely necessary ... supervised by Elmar Haussmann
A HTML5-based PDF-annotation & -extraction tool (theses or larger projects, available) The goal is to implement an easy-to-use PDF-tool for Icecite, that runs in browser's client side with the following features: (1) Text extraction (along with meta-informations like fontsizes, fontnames, text-positions, etc.) from PDF-documents - similar to the (Java-based) extraction-tool of PDFBox. (2) Annotating (i.e highlighting and commenting) PDF-documents, as provided by Adobe Professional. However, the Adobe browser plugin isn't available in all browsers and isn't quite comfortable to annotate PDF's in the browsers. For both tasks, you are allowed to use existing PDF-parsers and -renderers, e.g. PDF.js ... supervised by Claudius Korzen
A mobile app for kitchen management (project, available) Our comfortable kitchen provides a lot of drinks and food. Whenever an employee consumes something, he is asked to mark it on our tally sheet and to pay the accumulated amount whenever he wants. In general, the noted amount is quite smaller than the actual amount to pay due to some uncertainties about the prices and due to the oblivion of our staff. Moreover, the payment behavior could be better in general. The goal of this project is to implement a mobile app, that can be used to manage the kitchen accounts of our staff. At least, it should be possible to scan the product before consuming and to debit the employee's account with the corresponding price. In certain intervals, a notice to pay should be sent to each employee. Can be expanded by any number of additional features ... supervised by Claudius Korzen
Rounding on Paths (bachelor thesis, available) Given a graph and a cost function on the edges (e.g. height difference in mm), we want to reduce the precision of the cost values by rounding (saving space and computation time for algorithms to be run on that graph). The goal is to develop rounding techniques such that the rounding error on every (optimal) path can be bounded ... supervised by Sabine Storandt
Learning from OSM data (theses or larger projects, available) OpenStreetMap(OSM) bears a lot of data that geo-search and render engines cannot use sufficiently at the moment. A variety of topics is available in that area, e.g. landscape classification based on street network data, learning classifiers for regions of interest (e.g. industrial areas), developing data structures to answer queries with specific geo-relations ('next to', 'south of', 'along'), automated tagging and classification of points of interest (e.g. lake -> place to swim), etc. ... supervised by Sabine Storandt
Local Zoom (thesis, available) Given a street graph projected on a map and a general zoom-in functionality (think of a renderer like Google Maps). We want to allow specifying subregions of the actual view, where more detail is required. The goal is to enable local zoom, such that basic connectivity of important streets is preserved and no overlap of non-crossing streets is introduced. This functionality should be integrated in our existing render-framework ... supervised by Sabine Storandt
Dynamic Ambulance Allocation (master thesis, ONGOING) We are given a street graph, an embedded set of hospitals, an ambulance fleet and an online stream of incoming patient requests. The goal is to develop strategies for dynamically allocating ambulances to hospitals and emergencies, such that the number of saved patients is maximized ... supervised by Sabine Storandt
Compression Techniques for Shortest Path Sets (bachelor thesis, ONGOING) Given a large collection of shortest paths in a graph, develop techniques to store them as space-efficient as possible, while allowing fast access to single paths ... supervised by Sabine Storandt
Setting up a browser for DBPedia with Broccoli (project, available) We derived a simplified version of the Freebase ontology and set up a web application to browse the data based on our Broccoli search engine, called Freebase Easy: http://freebase-easy.cs.uni-freiburg.de . The goal of this project would be to do something similar with the DBPedia ontology. This means modifying the freely downloadable dataset so that it 1) can be processed by our pipeline and 2) has a form that allows for a comfortable browsing with our user interface (e.g. providing unique and proper human readable names for instances and types) ... supervised by Florian Bäurle
Usability study for the Broccoli user interface (bachelor thesis, available) We developed a special user interface for the prototype of our semantic full-text search engine Broccoli: http://broccoli.cs.uni-freiburg.de . An open taks is yet to make a thorough user study to evaluate the usability of the interface, compare it to other search interfaces and identify weak points that could be improved ... supervised by Florian Bäurle
Structured extraction of text from scientific PDF documents (master thesis, available) A lot of documents are only available in the PDF format which was originally intended for platform independent uniform display and printing. To process the contained information one has to extract the contained plain text. To be able to do this correctly one has to consider the formatting structure of the documents to be able to identify the parts of the text that belong together. The goal is to create such a non-trivial structured text-extraction on top of an available PDF library like, e.g., PDFBox so that the contained texts can be further processed by our search engine ... supervised by Florian Bäurle
Question Answering using Semantic Full-Text Search (thesis, available): Use our semantic full-text search engine Broccoli for the FACTOID and LIST questions from one of the TREC Questions Answering benchmarks, e.g. http://trec.nist.gov/data/qa/2006_qadata/QA2006_testset.xml . What is the performance of manually constructed queries, and what can be done to improve it? Good if you heard the information retrieval lecture before, but not absolutely necessary ... supervised by Hannah Bast and [Elmar or Björn]
Improved Transfer Patterns Routing (thesis or larger project, available): Public transit routing at Google currently implements the transfer patterns algorithm from this paper: http://ad-publications.informatik.uni-freiburg.de/ESA_transferpatterns_BCEGHRV_2010.pdf . The evaluation in this paper is outdated, and we know of several possible major improvements in the meantime. In particular, we know how to accelerate the pre-processing time by a factor of about 10. The goal of this thesis would we to implement a much improved version of transfer patterns and properly benchmark it ... supervised by Hannah Bast and Sabine Storandt
An easy-to-use web app for the CompleteSearch engine (project, available): The CompleteSearch engine complex search capabilities (including prefix search and faceted search) on semi-structured data (text and databases) with very fast query times. Our current software is powerful and flexible, but has quite a learning curve before it can be used. The goal of this project would be to set up a web app, where one can upload any CSV dataset, and then have a convenient search (with meaningful default settings), without having to set up anything oneself. This would be an extremely useful web application ... supervised by Hannah Bast
Completed B.Sc. or M.Sc. projects and theses
[Die Liste ist noch unvollständig, insbesondere fehlen gerade noch die ganzen Projekte. Titel der Arbeit sollte da auch noch stehen und ein Link zur jeweiligen Webseite bzw. Arbeit und Präsentation. Und das Anfangs- und Enddatum.]
B.Sc. thesis Christian Ehrenfeld (Hannah)
B.Sc. thesis Philipp Bausch (Elmar)
M.Sc. thesis Eugen Sawin (Hannah)
M.Sc. thesis Patrick Brosi (Hannah + Sabine)
B.Sc. thesis Marius Bethge (Björn)
M.Sc. thesis Cynthia Jimenez (Sabine)
M.Sc. thesis Jonas Sternisko (Hannah)
M.Sc. thesis Ragavan Natarajan (Florian)
B.Sc. thesis Benjamin Meier (Claudius)
M.Sc. thesis Susanne Eichel (Hannah)
B.Sc. thesis Axel Lehmann (Hannah)
B.Sc. thesis Adrian Batzill (Hannah)
B.Sc. thesis Anton Stepan (Björn)
M.Sc. thesis Mirko Brodesser (Hannah + Sabine)
M.Sc. thesis Manuel Braun (Hannah + Sabine)
B.Sc. thesis Robin Schirrmeister (Hannah)
B.Sc. thesis Simon Skilevic (Hannah)
M.Sc. thesis Ilinca Tudose (Hannah + Elmar)
B.Sc. thesis Christiane Schaffer (Florian)
M.Sc. thesis Dirk Kienle (Hannah)
B.Sc. thesis Ina Baumgarten (Hannah + Björn)
B.Sc. thesis Niklas Meinzer (Hannah + Björn)
M.Sc. thesis Claudius Korzen (Hannah)
M.Sc. thesis Florian Bäurle (Hannah)
M.Sc. thesis Elmar Haußmann (Hannah)
M.Sc. thesis Oliver Mitevski (Hannah + Marjan)
M.Sc. thesis Björn Buchhold (Hannah)
Diploma thesis Johannes Schwenk (Hannah)
B.Sc. thesis Mirko Brodesser (Hannah + Marjan)