Towards sustainable forest management strategies with MOEAs
Author:
Affiliation:
1. Aalto University School of Business, Helsinki, Finland
2. University of Helsinki, Helsinki, Finland
3. Michigan State University
Publisher
ACM
Link
https://dl.acm.org/doi/pdf/10.1145/3377930.3389837
Reference36 articles.
1. Economics of size-structured forestry with carbon storage
2. Uneven-aged forest management in boreal Sweden: local forestry stakeholders' perceptions of different sustainability dimensions
3. Julian Blank and Kalyanmoy Deb. 2020. pymoo: Multi-objective Optimization in Python. (2020). arXiv:cs.NE/2002.04504 Julian Blank and Kalyanmoy Deb. 2020. pymoo: Multi-objective Optimization in Python. (2020). arXiv:cs.NE/2002.04504
4. V. Chankong and Y. Y. Haimes . 1978 . The Interactive Surrogate Worth Trade-Off (ISWT) Method for Multiobjective Decision-Making. In Multiple Criteria Problem Solving Lecture Notes in Economics and Mathematical Systems S. Zionts (Ed .) Vol. 155 . Berlin : Springer . V. Chankong and Y. Y. Haimes. 1978. The Interactive Surrogate Worth Trade-Off (ISWT) Method for Multiobjective Decision-Making. In Multiple Criteria Problem Solving Lecture Notes in Economics and Mathematical Systems S. Zionts (Ed.) Vol. 155. Berlin: Springer.
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