Paper Registration

1

Select Book

2

Select Paper

3

Fill in paper information

4

Congratulations

Fill in your paper information

Language (*)

Title (*)

Keywords (*)

Abstract (*)

Pages (*)

File Link

English Information

Title

Keywords

Abstract

(*) To change the order drag the item to the new position.

Authors

#	Name
1	Flaris Feller(flaris.feller@gmail.com)
2	Ronaldo Mello(r.mello@ufsc.br)

(*) To change the order drag the item to the new position.

Reference

#	Reference
1	Bogorny, V., Renso, C., Aquino, A., Siqueira, F., and Alvares, L. (2014). CONSTAnT - A Conceptual Data Model for Semantic Trajectories of MOs. Trans. GIS, 18(1):66–88.
2	Brandoli, B. et al. (2022). From Multiple Aspect Trajectories to Predictive Analysis: A Case Study on Fishing Vessels in the Northern Adriatic Sea. GeoInformatica, 26:551–579.
3	Ding, Z., Yang, B., Gu ̈ting, R., and Li, Y. (2015). Network-Matched Trajectory-Based MOD: Models and Applications. IEEE Trans. Intell. Transp. Syst., 16(4):1918–1928.
4	Feller, F. (2023). MasterMobilityDB - Uma Camada de Persistência e Manipulação para Trajetórias de Múltiplos Aspectos. Master’s Thesis, Universidade Federal de Santa Catarina.
5	Feller, F. and Mello, R. (2022). A Survey on Persistence Strategies for Semantically Enriched Trajectories. In GEOINFO 2022, pages 50–62. MCTIC/INPE.
6	Güting, R., Valdeés, F., and Damiani,M.(2015). SymbolicTrajectories. ACMTrans. Spatial Algorithms Syst., 1(2):7:1–7:51.
7	Gómez, L. et al. (2019). Analytical Queries on Semantic Trajectories using Graph Databases. Transactions in GIS, 23:1078–1101.
8	Mello, R., Bogorny, V., Alvares, L., Santana, L., Ferrero, C., Frozza, A., Schreiner, G., and Renso, C. (2019). MASTER: A Multiple Aspect View on Trajectories. Transactions in GIS, 23(4):805–822.
9	Mello, R., Schreiner, G. A., Alchini, C. A., dos Santos, G. G., Bogorny, V., and Renso, C. (2021). Dependency Rule Modeling for Multiple Aspects Trajectories. In 40th International Conference on Conceptual Modeling, ER, volume 13011 of Lecture Notes in Computer Science, pages 123–132. Springer.
10	Noureddine, H. et al. (2021). A Hierarchical Indoor and Outdoor Model for Semantic Trajectories. Transactions in GIS, 26:214–235.
11	Pelekis, N., Frentzos, E., Giatrakos, N., and Theodoridis, Y. (2015). HERMES: A Tra- jectory DB Engine for Mobility-centric Applications. Int. J. Knowl. Based Organ, 5:19–41.
12	Spaccapietra, S., Parent, C., Damiani, M. L., de Macêdo, J. A. F., Porto, F., and Vangenot, C. (2008). A Conceptual View on Trajectories. Data Knowl. Eng., 65(1):126–146.
13	Tamilmani, R. and Stefanakis, E. (2019). Modelling and Analysis of Semantically Enriched Simplified Trajectories Using Graph Databases. Advances in GIScience of the ICA, 1:1–8.
14	Torres, Y. et al. (2020). Stop-and-Move Sequence Expressions over Semantic Trajectories. International Journal of Geographical Information Science, 35:1–26.
15	Wannous, R., Malki, J., Bouju, A., and Vincent, C. (2013). Time Integration in Semantic Trajectories Using an Ontological Modelling Approach, volume 185, pages 187–198. Springer Berlin Heidelberg.
16	Xu, J., Lu, H., and Bao, Z. (2023). A Query Optimizer for Range Queries over Multi- Attribute Trajectories. ACM Trans. Intell. Syst. Technol., 14(1).
17	Zimanyi, E. et al. (2020). MobilityDB: A Mobility Database Based on PostgreSQL and PostGIS. ACM Transactions on Database Systems, 45:1–42.