Archival Literature

Papers at International, Peer-Reviewed Conferences

  1. [1] K. Amann, M. Kohlhase, F. Rabe, and T. Wiesing (2019) Integrating semantic mathematical documents and dynamic notebooks. In Intelligent computer mathematicsIntelligent Computer Mathematics (CICM) 2019, C. Kaliszyck, E. Brady, A. Kohlhase, and C. Sacerdoti Coen (Eds.), LNAI, pp. 275–290. External Links: Link Cited by: p1.
  2. [5] M. Kohlhase, D. Müller, M. Pfeiffer, F. Rabe, N. Thiéry, V. Vasilyev, and T. Wiesing (2017) Knowledge-based interoperability for mathematical software systems. In MACIS 2017MACIS 2017: Seventh International Conference on Mathematical Aspects of Computer and Information Sciences, J. Blömer, T. Kutsia, and D. Simos (Eds.), LNCS, pp. 195–210. External Links: Link Cited by: p1.
  3. [6] T. Wiesing, M. Kohlhase, and F. Rabe (2017) Virtual theories – a uniform interface to mathematical knowledge bases. In MACIS 2017MACIS 2017: Seventh International Conference on Mathematical Aspects of Computer and Information Sciences, J. Blömer, T. Kutsia, and D. Simos (Eds.), LNCS, pp. 243–257. External Links: Link Cited by: p1.
  4. [2] P. Dehaye, M. Iancu, M. Kohlhase, A. Konovalov, S. Lelièvre, D. Müller, M. Pfeiffer, F. Rabe, N. M. Thiéry, and T. Wiesing (2016) Interoperability in the OpenDreamKit project: the math-in-the-middle approach. In Intelligent computer mathematicsIntelligent Computer Mathematics 2016, M. Kohlhase, M. Johansson, B. Miller, L. de Moura, and F. Tompa (Eds.), LNAI. External Links: Link Cited by: p1.
  5. [3] D. Ginev, M. Iancu, C. Jucovshi, A. Kohlhase, M. Kohlhase, A. Oripov, J. Schefter, W. Sperber, O. Teschke, and T. Wiesing (2016) The SMGloM project and system. towards a terminology and ontology for mathematics. In Mathematical software - ICMS 2016 - 5th international congressMathematical Software - ICMS 2016 - 5th International Congress, G. Greuel, T. Koch, P. Paule, and A. Sommese (Eds.), LNCS, Vol. 9725. External Links: Link Cited by: p1.
  6. [4] M. Iancu, C. Jucovschi, M. Kohlhase, and T. Wiesing (2014) System description: MathHub.info. In Intelligent computer mathematicsIntelligent Computer Mathematics 2014, S. Watt, J. Davenport, A. Sexton, P. Sojka, and J. Urban (Eds.), LNCS, pp. 431–434. External Links: Link Cited by: p1.

Theses

  1. [2] T. Wiesing (2017-08) Enabling cross-system communication using virtual theories and QMT. Master’s Thesis, Jacobs University Bremen, Bremen, Germany. External Links: Link Cited by: p1.
  2. [1] T. Wiesing (2015) Semantic search for quantity expressions. B. Sc. Thesis, Jacobs University Bremen. External Links: Link Cited by: p1.

Gray Literature

Papers at Peer-Reviewed Workshops

  1. [1] K. Amann, M. Kohlhase, F. Rabe, and T. Wiesing (2019) Integrating semantic mathematical documents and dynamic notebooks. In Intelligent computer mathematicsIntelligent Computer Mathematics (CICM) 2019, C. Kaliszyck, E. Brady, A. Kohlhase, and C. Sacerdoti Coen (Eds.), LNAI, pp. 275–290. External Links: Link Cited by: p1.
  2. [2] D. Ginev, S. Lal, M. Kohlhase, and T. Wiesing (2015-07) KAT: an annotation tool for STEM documents. In Mathematical user interfaces workshop at CICMMathematical User Interfaces Workshop, A. Kohlhase and P. Libbrecht (Eds.), External Links: Link Cited by: p1.
  3. [3] M. Iancu, C. Jucovschi, M. Kohlhase, and T. Wiesing (2014) System description: MathHub.info. In Intelligent computer mathematicsIntelligent Computer Mathematics 2014, S. Watt, J. Davenport, A. Sexton, P. Sojka, and J. Urban (Eds.), LNCS, pp. 431–434. External Links: Link Cited by: p1.

Technical Reports

  1. [1] J. Cremona, D. Müller, M. Kohlhase, M. Pfeiffer, F. Rabe, N. M. Thiéry, and T. Wiesing (2018) Report on OpenDreamKit deliverable d6.5: gap/sage/lmfdb interface theories and alignment in omdoc/mmt for system interoperability. Deliverable Technical Report D6.5, OpenDreamKit. External Links: Link Cited by: p1.
  2. [2] J. Cremona, D. Müller, M. Kohlhase, M. Pfeiffer, F. Rabe, N. M. Thiéry, and T. Wiesing (2018) Report on OpenDreamKit deliverable d6.8: gcurated math-in-the-middle ontology and alignments for gap/sage/lmfdb. Deliverable Technical Report D6.8, OpenDreamKit. External Links: Link Cited by: p1.
  3. [5] M. Kohlhase and T. Wiesing (2017) In-place computation in active documents (context/computation). Deliverable Technical Report D4.9, OpenDreamKit. External Links: Link Cited by: p1.
  4. [6] S. L. Luca De Feo and T. Wiesing (2017) Support for the scscp interface protocol in all relevant components (sage, gap etc.) distribution. Deliverable Technical Report D3.3, OpenDreamKit. External Links: Link Cited by: p1.
  5. [3] P. Dehaye, M. Iancu, M. Kohlhase, A. Konovalov, S. Lelièvre, D. Müller, M. Pfeiffer, F. Rabe, N. M. Thiéry, and T. Wiesing (2016) Report on OpenDreamKit deliverable d6.3: design of triform (D/K/S) theories (specification/rnc schema/examples) and implementation of triform theories in the MMT API. Deliverable Technical Report D6.2, OpenDreamKit. External Links: Link Cited by: p1.
  6. [4] P. Dehaye, M. Iancu, M. Kohlhase, A. Konovalov, S. Lelièvre, D. Müller, M. Pfeiffer, F. Rabe, N. M. Thiéry, and T. Wiesing (2016) Report on OpenDreamKit deliverables d6.2: initial D/K/S base design (including base survey and requirements workshop report) and d6.3: design of triform (D/K/S) theories (specification/RNC schema/examples) and implementation of triform theories in the mmt api. Deliverable Technical Report D6.2, OpenDreamKit. External Links: Link Cited by: p1.

Unpublished

  1. [1] M. A. Dumitru, D. Ginev, M. Kohlhase, V. Merticariu, S. Mirea, and T. Wiesing (2014) System description: KAT an annotation tool for STEM documents. External Links: Link Cited by: p1.

Miscellaneous

  1. [1] A. Dumitru, D. Ginev, M. Kohlhase, V. Merticariu, S. Mirea, and T. Wiesing (2014) KAT: an annotation tool for STEM documents; manual. External Links: Link Cited by: p1.