Sensor Networks
6th International Conference, SENSORNETS 2017, Porto, Portugal, February 19-21, 2017, and 7th International Conference, SENSORNETS 2018, Funchal, Madeira, Portugal, January 22-24, 2018, Revised Selected Papers
Published on 10. September 2019
XII, 209 pages
978-3-030-30110-1 (ISBN)
Description
This book constitutes the refereed proceedings of the 6 th International Conference, SENSORNETS 2017, Porto, Portugal, held in February 2017, and the 7 th International Conference, SENSORNETS 2018, Funchal, Madeira, Portugal, held in January 2018. The 18 full papers presented were carefully reviewed and selected from 67 submissions. The papers cover the following topics: sensor networks, including hardware of sensor networks, wireless communication protocols, sensor networks software and architectures, wireless information networks, data manipulation, signal processing, localization and object tracking through sensor networks, obstacles, applications and uses.
More details
Series
Language
English
Place of publication
Cham
Switzerland
Publishing group
Springer International Publishing
Target group
Professional and scholarly
Product notice
Reflowable
Illustrations
XII, 209 p. 127 illus., 100 illus. in color.
File size
30,78 MB
ISBN-13
978-3-030-30110-1 (9783030301101)
DOI
10.1007/978-3-030-30110-1
Schweitzer Classification
Other editions
Additional editions
César Benavente-Peces | Nancy Cam-Winget | Eric Fleury
Sensor Networks
6th International Conference, SENSORNETS 2017, Porto, Portugal, February 19-21, 2017, and 7th International Conference, SENSORNETS 2018, Funchal, Madeira, Portugal, January 22-24, 2018, Revised Selected Papers
Book
09/2019
Springer
€53.49
Shipment within 7-9 days
Content
- Intro
- Preface
- Organization
- Contents
- TinyOS-Based WSN Performance: Default Active Message Layer vs. TKN15.4
- 1 Introduction
- 2 TinyOS Protocols
- 2.1 The Active Message Protocol
- 2.2 The TKN15.4 Protocol
- 3 Related Works
- 4 Industrial Environments Wireless Channel Features
- 5 Experiments Methodology
- 6 Results
- 7 Conclusions
- References
- Sensor Networks: Enlarging the Attack Surface
- Abstract
- 1 Introduction
- 2 Evolving the Attack Surface
- 2.1 DDoS Attacks: From Mirai to a New Potential, Reaper
- 2.2 Ransomware to Shutdowns: From Wannacry to CrashOverride
- 3 Addressing Security Challenges
- 3.1 Securing IoT Devices
- 3.2 Securing Communications
- 3.3 Awareness, Management and Monitoring
- 4 Conclusion
- References
- On the Performance of Industrial Wireless Sensor Networks: Channel Hopping vs. Channel Adaptive Protocols
- 1 Introduction
- 2 Review of the IEEE 802.15.4e Standard
- 2.1 The DSME Mode
- 2.2 Related Research
- 3 Considered DSME-Based Protocols
- 3.1 CH-DSME
- 3.2 CA-DSME
- 3.3 H-DSME
- 4 Channel Properties
- 5 Evaluation Methodology
- 6 Results
- 7 Conclusions
- References
- Advanced Infrastructure for Environmental Monitoring and Early-Warning System Integration
- Abstract
- 1 Introduction
- 2 The State of the Art
- 3 RainBO Life
- 4 The Microwave Rainfall Monitoring Network
- 5 Hydrological Models
- 5.1 Medium and Large Basins: Random Forest Method
- 5.2 Small Basins: Criteria 3D Model
- 6 Meteorological Modeling Cosmo-Lami
- 7 Advanced Environmental Monitoring and Early-Warning System Integration
- 7.1 Microwave Rainfall Monitoring Network Integration
- 7.2 Water Hold Capacity Data Integration
- 7.3 Forecast Data Integration
- 7.3.1 Lami Virtual Sensor Integration
- 7.3.2 Random Forest Virtual Sensor Integration
- 7.3.3 Criteria 3D Virtual Sensor Integration
- 8 Results
- 9 Conclusions
- References
- On Update Protocols in Wireless Sensor Networks
- 1 Introduction
- 2 Background and Related Work
- 2.1 Trickle
- 2.2 Deluge
- 2.3 Deployment Support Network (DSN)
- 2.4 Four Step Update Process
- 3 Our Approach
- 4 Software and Hardware Architecture
- 5 Analysis
- 5.1 Protocol Overview
- 5.2 Calculations - Power Consumption
- 5.3 Calculations - Time
- 6 Experiments
- 6.1 Results - Static Acknowledgement
- 6.2 Results - AIMD and AIAD
- 7 Conclusion and Further Work
- References
- Indoor Localization System Using Ultra Low-Power Radio Landmarks Based on Radio Signal Strength and Travel Time
- 1 Introduction
- 2 State-of-the-Art
- 3 Concept Overview
- 4 Hardware Design
- 4.1 Handheld Device
- 4.2 Low-Power Wake-Up Landmarks
- 4.3 Micro-Inertial Measurement Unit (IMU)
- 5 Localization
- 5.1 Problem Setting
- 5.2 Range Estimation
- 5.3 Node and Standing Positions Localization
- 5.4 Handheld Device Localization. Data Fusion
- 6 Experimental Results
- 7 Conclusion and Future Work
- References
- Promoting Exercise in Wheelchairs Through Wireless Sensing and Computing in a Mobile App
- 1 Benefits of and Barriers to Exercise for Individuals in Wheelchairs
- 2 System Design Overview
- 3 Sensor Characterization and Testing
- 3.1 Standalone EMG Sensor
- 3.2 Wearable IMU Module
- 4 Exergaming
- 5 Multi-player Gaming
- 6 Fidelity of Fitness Metric
- 7 Conclusions
- References
- Bayesian Target Identification and Classification: Application of AIS, GMTI and BFT in Command and Control Systems
- Abstract
- 1 Introduction
- 2 Principles of Bayes Fusion
- 2.1 Source Processing
- 2.2 Mapping Processing
- 2.3 Conflict Recognition on Basis of Source Information
- 2.4 Fusion
- 2.5 Conflict Recognition on Basis of Combination/Fusion Result
- 2.6 Final Identity Decision Process
- 3 Novel Source Types for Identification and Classification
- 3.1 Automatic Identification System
- 3.2 Automatic Target Recognition
- 3.3 Ground Moving Target Indicator (GMTI) Radar
- 3.4 Blue Force Tracking/Friend Force Tracking Information
- 4 Conclusions
- References
- An Effective Satellite Remote Sensing Tool Combining Hardware and Software Solutions
- 1 Introduction
- 2 State of the Art
- 2.1 Satellite Communications and Signal Reception
- 2.2 Cloud Detection
- 3 Proposed Method
- 3.1 APT Signal
- 3.2 Hardware
- 3.3 High Frequency High Bandwidth Hardware
- 3.4 Software
- 3.5 New Software
- 4 Experimental Results
- 5 Conclusion and Future Works
- References
- Multi-channel Communication Analysis of Industrial Wireless Sensor Networks in Outdoor Environments
- 1 Introduction
- 2 The Wireless Channel in Industrial Environments
- 3 Experiment Methodology
- 3.1 Environment 1 - Water Treatment and Injection Station
- 3.2 Environment 2 - Solar Heating System
- 4 Results
- 4.1 Environment 1 - Water Treatment and Injection Station
- 4.2 Environment 2 - Solar Heating System
- 5 Conclusions
- References
- Design of Wireless Sensor Network in the Railway Facilities
- Abstract
- 1 Introduction
- 2 Condition Monitoring Using the WSN in the Railway
- 2.1 Condition Monitoring
- 2.2 WSN
- 2.3 Problems in Designing WSN in Railway Environment
- 3 Procedure of WSN Design [3]
- 4 The Determination Method of Relay Location [3]
- 4.1 Generation of the Adjacency Matrix Based on the Communication Distance
- 4.2 Updating the Adjacency Matrix Based on Internode of Line of Sight
- 4.3 Calculation of the Reachability Matrix Based on the Adjacency Matrix
- 5 State Transition Mode Mechanism
- 6 The Demonstration Test on Railway Slope
- 6.1 Wi-SUN
- 6.2 WSN Design on Railway Slope [3]
- 6.3 The Result of the Test
- 7 Conclusions
- References
- Author Index
