Related Concept Videos
Design Example: Alignment of a Road Line Using GIS
Manipulation and Analysis
Selected Data About Geographic Locations
Short-distance Transport of Resources
Introduction to GIS
Vector Algebra: Graphical Method
We use the laws of geometry to construct resultant vectors, followed by trigonometry to find vector magnitudes and directions. For a geometric construction of the sum of two vectors in a plane, we follow the parallelogram rule. Suppose two vectors are at arbitrary positions. Translate either one of...
You might also read
Related Articles
Articles linked to this work by shared authors, journal, and citation graph.
To protect, or to recover? The effect of defense resource allocation on network robustness.
Modeling and resilience analysis of multi-group supply chain network.
Topological dependence of viral mutation spread in complex host-interaction networks.
Multifractal signatures of Hamiltonian chaos in Hyperion's rotational dynamics.
Exploring mechanisms for reversal of flow in tunicate hearts.
State estimation in spatiotemporal chaos via low-rank StatFEM.
Universal response functions in driven dissipative tunneling dynamics.
A network-based approach to characterize the dynamics of the coupling field of thermoacoustic oscillators in annular geometry.
Related Experiment Video
Updated: Sep 21, 2025

Large Scale Energy Efficient Sensor Network Routing Using a Quantum Processor Unit
Published on: September 8, 2023
Efficient routing for spatial networks.
Hong Lin1, Yongxiang Xia1, Yuanyuan Liang1
1School of Communication Engineering, Hangzhou Dianzi University, Hangzhou 310018, China.
This study introduces a new degree-location (DL) routing strategy to enhance spatial network throughput. The DL strategy effectively improves network performance by optimizing load distribution in spatial networks.
Area of Science:
- Network science
- Computer science
- Spatial analysis
Background:
- Network throughput is crucial for evaluating performance in complex networks.
- Existing routing strategies are often ineffective for spatial networks.
- Spatial networks are prevalent in real-world applications.
Purpose of the Study:
- To propose a novel routing strategy for spatial networks.
- To improve the throughput of spatial networks.
- To address the limitations of current routing methods in spatial contexts.
Main Methods:
- Development of a degree-location (DL) routing strategy.
- Designing the DL strategy to bypass high-degree nodes and central nodes.
- Simulation analysis on homogeneous and heterogeneous spatial networks.
Main Results:
- The proposed DL routing strategy significantly improves network throughput.
- The strategy demonstrates effectiveness in both homogeneous and heterogeneous spatial networks.
- Bypassing central and high-degree nodes optimizes load distribution.
Conclusions:
- The DL routing strategy offers an effective solution for enhancing spatial network performance.
- This research provides valuable insights for spatial network routing design.
- The findings have potential applications in improving real-world spatial network transmission.

