Wireless Sensor Networks for Civil Infrastructure Monitoring : (Record no. 37221)
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| INTERNATIONAL STANDARD BOOK NUMBER | |
|---|---|
| International Standard Book Number | 9780727761514 |
| DEWEY DECIMAL CLASSIFICATION NUMBER | |
| Call number | 681.2 RO WI |
| MAIN ENTRY--PERSONAL NAME | |
| Authors | Rodenas-Herráiz, David |
| TITLE STATEMENT | |
| Title | Wireless Sensor Networks for Civil Infrastructure Monitoring : |
| Subtitle | a best practice guide |
| Statement of responsibility, etc | David Rodenas-Herráiz |
| PUBLICATION, DISTRIBUTION, ETC. (IMPRINT) | |
| Place of publication | London : |
| Publisher | ICE Publishing, |
| Date | c2016. |
| PHYSICAL DESCRIPTION | |
| Extent | xxii, 210 p. : |
| Other Details | ill. ; |
| Size | 24 cm. |
| CONTENTS | |
| Contents | • Machine generated contents note: 01.Overview of wireless sensor network technology • 1.1.Wireless sensor node • 1.2.Wireless data sink • 1.3.Wireless sensor network • References • 02.Monitoring project requirements • 2.1.Project life cycle • 2.2.Stakeholder objectives and requirements for monitoring • 2.3.Requirements for data collection • 2.4.Sampling rate • 2.5.Data transmission rate: data throughput • 2.6.Data synchronisation and delivery • 2.7.Cost • 2.8.Deployment environment • 2.9.Distribution of monitoring • 2.10.Duration of the deployment and power requirements • 2.11.Responses to monitoring: trigger levels and alarms • 2.12.Reliability and robustness • 2.13.System maintenance • 2.14.System interoperability • 2.15.System security • 2.16.Requirements for data management • 2.17.Data presentation • 2.18.Project risk management • 03.Guidelines for monitoring system design • 3.1.Personnel, resourcing and responsibilities • Contents note continued: 3.2.Design methodology • 3.3.Monitoring system architecture • 3.4.Selection of the sensor and signal conditioning • 3.5.Selection of the wireless sensor platform • 3.6.Selection of the wireless transceiver • 3.7.Selection of the data sink • 3.8.Reliable transmission of data • 3.9.Selection of the power source and power management • 3.10.Design of the network topology • 3.11.Calibration • 3.12.Hardware packaging • 3.13.Embedded software and application design • 3.14.Network simulation • 3.15.Testbed experimentation • 04.Guidelines for monitoring system installation • 4.1.Preparation phase • 4.2.Deployment phase • 4.3.On-site testing and commissioning phases • 05.Guidelines for monitoring system operation and data management • 5.1.Planning for system operation and maintenance • 5.2.Network diagnostics and maintenance • 5.3.Battery maintenance • 5.4.Data management • 5.5.Data interpretation and review • Contents note continued: 5.6.Presentation of data to stakeholders • 06.Monitoring project completion • 6.1.Planning for monitoring system removal • 6.2.Monitoring system removal • 6.3.Final report and project review • 6.4.Data archiving • 07.Monitoring case studies • 08.London Underground railway tunnel (UK) • 8.1.Description • 8.2.Solution • 8.3.Monitoring results • 09.Humber Bridge (UK) • 9.1.Description • 9.2.Solution • 9.3.Monitoring results • 10.Ferriby Road Bridge (UK) • 10.1.Description • 10.2.Solution • 10.3.Monitoring results • 11.2nd Jindo Bridge (South Korea) • 11.1.Description • 11.2.Solution • 11.3.Monitoring results • Acknowledgements • 12.Mahomet Bridge (USA) • 12.1.Description • 12.2.Solution • 12.3.Monitoring results • 13.Little Calumet River Bridge (USA) • 13.1.Description • 13.2.Solution • Contents note continued: 13.3.Monitoring results • 14.Rock Island Arsenal Government Bridge (USA) • 14.1.Description • 14.2.Solution • 14.3.Monitoring results • 15.Ainonai pedestrian overpass (Japan) • 15.1.Description • 15.2.Solution • 15.3.Monitoring results • 16.West Bridge of Jinzhou (China) • 16.1.Description • 16.2.Solution • 16.3.Monitoring results • 17.New Carquinez suspension bridge (USA) • 17.1.Description • 17.2.Solution • 17.3.Monitoring results • 18.Telegraph Road Bridge (USA) • 18.1.Description • 18.2.Solution • 18.3.Monitoring results • 19.Full-scale, two-bay, two-storey, concrete frame structure (USA) • 19.1.Description • 19.2.Solution • 19.3.Monitoring results • 20.Basilica Santa Maria di Collemaggio (Italy) • 20.1.Description • 20.2.Solution • 20.3.Monitoring results • Contents note continued: 21.Temporary earth restraining structure (Singapore) • 21.1.Description • 21.2.Solution • 21.3.Monitoring results • 22.Tottenham Court Road station (UK) • 22.1.Description • 22.2.Solution • 22.3.Monitoring results • 23.Safety-critical railway earthworks monitoring (UK) • 23.1.Description • 23.2.Solution • 23.3.Monitoring results • 24.Track-bed monitoring at Crossrail (UK) • 24.1.Description • 24.2.Solution • 24.3.Monitoring results • 25.London Underground tunnel lining replacement monitoring (UK) • 25.1.Description • 25.2.Solution • 25.3.Monitoring results • 26.Rock towers at the Felsenbuhne Rathen (Germany) • 26.1.Description • 26.2.Solution • 26.3.Monitoring results • 27.Conclusion. |
| SUBJECT ADDED ENTRY--TOPICAL TERM | |
| Topical Heading | Wireless sensor networks |
| ADDED ENTRY | |
| Name | Soga, Kenichi |
| ADDED ENTRY | |
| Name | Fidler, Paul R. A. |
| ADDED ENTRY | |
| Name | Battista, Nicholas De |
| MAIN ENTRY--PERSONAL NAME | |
| -- | 33359 |
| SUBJECT ADDED ENTRY--TOPICAL TERM | |
| -- | 222 |
| ADDED ENTRY | |
| -- | 35632 |
| ADDED ENTRY | |
| -- | 35633 |
| ADDED ENTRY | |
| -- | 35634 |
| Lost status | Source of classification or shelving scheme | Damaged status | Not for loan | Permanent location | Current location | Shelving location | Date acquired | Source of acquisition | Full call number | Barcode | Date last seen | Price effective from | Koha item type | Public note |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| University of Wollongong in Dubai | University of Wollongong in Dubai | Main Collection | 2020-06-02 | Kinokuniya | 681.2 RO WI | T0063955 | 2019-12-09 | 2019-12-09 | REGULAR | June2020 |