References

References 2017

1. Al-Sharrah, G. 2017.
   Ranking Chemicals with Respect to Accidents Frequency Pages 193-205 in M. Fattore and R. Bruggemann, eds. Partial Order Concepts in Applied Sciences. Springer, Cham. DOI: 10.1007/978-3-319-45421-4-13
2. Annoni, P., R. Bruggemann, and L. Carlsen. 2017.
   Pecularities in Multidimensional Regional Poverty.
   Pages 121-133
   in M. Fattore and R. Bruggemann, eds. Partial Order Concepts in Applied Sciences.
   DOI: 10.1007/978-3-319-45421-4-8
   
3. Arcagni, A. 2017.
   PARSEC: An R Package for Partial Orders in Socio-Economics.
   Pages 275-289
   in M. Fattore and R. Bruggemann, eds. Partial Order Concepts in Applied Sciences, Springer, Cham.
   DOI: 10.1007/978-3-319-45421-4-19
   
4. Bartel, H.-G. and H.-J. Mucha. 2017.
   Incomparability/Inequality Measures and Clustering.
   Pages 21-34
   in M. Fattore and R. Bruggemann, eds. Partial Order Concepts in Applied Sciences, Springer, Cham.
   DOI: 10.1007/978-3-319-45421-4-2
   
5. Beycan, T. and C. Suter. 2017.
   Application of Partial Order Theory to Multidimensional Poverty Analysis in Switzerland.
   Pages 135-150
   in M. Fattore and R. Bruggemann, eds. Partial Order Concepts in Applied Sciences, Springer, Cham.
   DOI: 10.1007/978-3-319-45421-4-9
   
6. Bruggemann, R., P. Koppatz, F. Fuhrmann, and M. Scholl. 2017.
   A Matching Problem, Partial Order, and an Analysis Applying the Copeland Index.
   Pages 231-238
   in M. Fattore and R. Bruggemann, eds. Partial Order Concepts in Applied Sciences, Springer, Cham.
   DOI: 10.1007/978-3-319-45421-4-16
   
7. Bruggemann, R. , L. Carlsen and P.Annoni. 2017.
   Incomparable: What now, IV. Incomparabilities: A Modelling challenge.
   Pages 35-47
   in M. Fattore and R. Bruggemann, eds. Partial Order Concepts in Applied Sciences,, Springer, Cham.
   DOI: 10.1007/978-3-319-45421-4-3
   
8. Carlsen, L. and R. Bruggemann. 2017.
   Partial Ordering and Metrology Analyzing Analytical Performance.
   Pages 49-70
   in M. Fattore and R. Bruggemann, eds. Partial Order Concepts in Applied Sciences, Springer, Cham.
   DOI: 10.1007/978-3-319-45421-4-4
   
9. Di Bella, E., M. Corsi, and L. Leporatti. 2017.
   POSET Analysis of Panel Data with Posac.
   Pages 161-176
   in Marco Fattore and R. Bruggemann, eds. Partial Order Concepts in Applied Sciences, Springer, Cham.
   DOI: 10.1007/978-3-319-45421-4-11
   
10. Fattore, M. 2017.
    Functionals and Synthetic Indicators Over Finite Posets.
    Pages 71-86
    in Marco Fattore and R. Bruggemann, eds. Partial Order Concepts in Applied Sciences, Springer, Cham.
    DOI: 10.1007/978-3-319-45421-4-5
    
11. Fattore, M. and R. Bruggemann. 2017.
    Partial Order Conepts in Applied Sciences (Editorial, Preface) , Springer, Cham
    DOI: 10.1007/978-3-319-45421-4
    
12. Guarini, G. 2017.
    Partially Ordered Set Theory and Sen's Capability Approach: A Fruitful Relationship.
    Pages 177-189
    in M. Fattore and R. Bruggemann, eds. Partial Order Concepts in Applied Sciences , Springer, Cham.
    DOI: 10.1007/978-3-319-45421-4-12
    
13. Hernandez-Perdomo, E., J. Mun, and C. M. Rocco. 2017.
    A Combined Lexicographic Average Rank Approach for Evaluating Uncertain Multi-indicator Matrices with Risk Metrics.
    Pages 105-118
    in M. Fattore and R. Bruggemann, eds. Partial Order Concepts in Applied Sciences, Springer, Cham.
    DOI: 10.1007/978-3-319-45421-4-7
    
14. Hilckmann, A., V. Bach, R. Bruggemann, R. Ackermann, and M. Finkbeiner. 2017.
    Partial Order Analysis of the Government Dependence of the Sustainable Development Performance in Germany's Federal States.
    Pages 219-228
    in M. Fattore and R. Bruggemann, eds. Partial Order Concepts in Applied Sciences, Springer, Cham.
    DOI: 10.1007/978-3-319-45421-4-15
    
15. Kerber, A. 2017. Evaluation, Considered as Problem Orientable Mathematics Over Lattices.
    Pages 87-103
    in Marco Fattore and R. Bruggemann, eds. Partial Order Concepts in Applied Sciences, Springer, Cham.
    DOI: 10.1007/978-3-319-45421-4-6
    
16. Koppatz, P. and R. Bruggemann. 2017. PyHasse and Cloud Computing.
    Pages 291-300
    in M. Fattore and R. Bruggemann, eds. Partial Order Concepts in Applied Sciences, Springer, Cham.
    DOI: 10.1007/978-3-319-45421-4-20
    
17. Owsinski, J. W. 2017.
    Endowing Posets with Flesh: If, Why and How? Pages 3-20
    in M. Fattore and R. Bruggemann, eds. Partial Order Concepts in Applied Sciences, Springer, Cham.
    DOI: 10.1007/978-3-319-45421-4-1
    
18. Pirintsos, S., M. Bariotakis, D. Laina, C. Lionis, E. Castanas, and R. Brüggemann. 2017.
    Analyzing Ethnopharmacological Data Matrices on Traditional Uses of Medicinal Plants with the Contribution of Partial Order Techniques.
    Pages 251-272
    in M. Fattore and R. Bruggemann, eds. Partial Order Concepts in Applied Sciences, Springer, Cham.
    DOI: 10.1007/978-3-319-45421-4-18
    
19. Queva, D. S. 2017.
    Analysis of Social Participation: A Multidimensional Approach Based on the Theory of Partial Ordering.
    Pages 151-160
    in M. Fattore and R. Bruggemann, eds. Partial Order Concepts in Applied Sciences, Springer, Cham.
    DOI: 10.1007/978-3-319-45421-4-10
    
20. Quintero, N. and G. Restrepo. 2017.
    Formal Concept Analysis Applications in Chemistry: From Radionuclides and Molecular Structure to Toxicity and Diagnosis.
    207-217
    in M. Fattore and R. Bruggemann, eds. Partial OrderConcepts in Applied Sciences, Springer, Cham.
    DOI: 10.1007/978-3-319-45421-4-14
    
21. Seitz, W., K. Brcic-Kostic, P. T. Mitrikeski, and P. Seitz. 2017.
    Application of the Mixing Partial Order to Genes.
    Pages 239-249
    in M. Fattore and R. Bruggemann, eds. Partial Order Concepts in Applied Sciences, Springer, Cham.
    DOI: 10.1007/978-3-319-45421-4-17