Hierarchical Clustering based Spatial Sampling of Particulate Matter Nodes in IoT Network
Published in 8th International Conference on Future Internet of Things and Cloud (FiCloud), Rome, Italy, 2021
For understanding an environmental variable in a given geographical space, finding the optimal number of nodes is a tedious task. For this purpose, a framework is proposed in this paper based on hierarchical agglomerative clustering along with geographical distance based cluster representation. The proposed framework helps remove the redundant nodes in a practical IoT network by choosing the optimal nodes based on the target reconstruction error in the spatially interpolated map. The approach is employed on the data collected by an IoT network of ten particulate matter (PM) nodes on the campus of IIIT Hyderabad, India. The performance of the proposed approach is also compared with that of the brute force approach, which provides the lower bound on the reconstruction error. The results show that the proposed approach performs very closely to the brute force approach in terms of the reconstruction error with much fewer computations.
Recommended citation: C. R. Reddy and S. Chaudhari, “Hierarchical Clustering based Spatial Sampling of Particulate Matter Nodes in IoT Network,” 2021 8th International Conference on Future Internet of Things and Cloud (FiCloud), Rome, Italy, 2021, pp. 198-203, doi: 10.1109/FiCloud49777.2021.00036.