Gunjan Mahindre scite author profile

For many important network types (e.g., sensor networks in complex harsh environments and social networks) physical coordinate systems (e.g., Cartesian), and physical distances (e.g., Euclidean), are either difficult to discern or inapplicable. Accordingly, coordinate systems and characterizations based on hop-distance measurements, such as Topology Preserving Maps (TPMs) and Virtual-Coordinate (VC) systems are attractive alternatives to Cartesian coordinates for many network algorithms. Herein, we present an approach to recover geometric and topological properties of a network with a small set of distance measurements. In particular, our approach is a combination of shortest path (often called geodesic) recovery concepts and low-rank matrix completion, generalized to the case of hop-distances in graphs. Results for sensor networks embedded in 2-D and 3-D spaces, as well as a social networks, indicates that the method can accurately capture the network connectivity with a small set of measurements. TPM generation can now also be based on various context appropriate measurements or VC systems, as long as they characterize different nodes by distances to small sets of random nodes (instead of a set of global anchors). The proposed method is a significant generalization that allows the topology to be extracted from a random set of graph shortest paths, making it applicable in contexts such as social networks where VC generation may not be possible.

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On Sampling and Recovery of Topology of Directed Social Networks – A Low-Rank Matrix Completion Based Approach

Mahindre

Jayasumana

Gajamannage

et al. 2019

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Inference in Social Networks from Ultra-Sparse Distance Measurements via Pretrained Hadamard Autoencoders

Mahindre

Karkare

Paffenroth

et al. 2020

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Network Topology Mapping from Partial Virtual Coordinates and Graph Geodesics

Jayasumana¹,

Paffenroth²,

Mahindre³

et al. 2017

Preprint

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A Pre-training Oracle for Predicting Distances in Social Networks

Mahindre

Karkare

Paffenroth

et al. 2021

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Gunjan Mahindre

Network Topology Mapping From Partial Virtual Coordinates and Graph Geodesics

On Sampling and Recovery of Topology of Directed Social Networks – A Low-Rank Matrix Completion Based Approach

Inference in Social Networks from Ultra-Sparse Distance Measurements via Pretrained Hadamard Autoencoders

Network Topology Mapping from Partial Virtual Coordinates and Graph Geodesics

A Pre-training Oracle for Predicting Distances in Social Networks

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