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Abstract
Underground communication networks play a crucial role in today's world as they facilitate communication and data transfer between different locations, including homes, businesses, and government entities. To deploy these networks, modern methods are being used that are faster, more efficient, and more cost-effective than traditional methods. This article discusses the modern methods used for deploying underground communication networks, including microtrenching, directional boring, and horizontal directional drilling. The article also presents the results of deploying these methods and discusses their advantages and limitations.
Keywords
Underground communication networks
modern deployment methods
microtrenching
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This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.
How to Cite
Kupalov Alibek Qakhromon ogli. (2023). Modern Methods of Deployment of Underground Communication Networks. Zien Journal of Social Sciences and Humanities, 20, 7–9. Retrieved from https://zienjournals.com/index.php/zjssh/article/view/3881
References
- D. Dekker, D. Hainsworth and W. McKeague, "Requirements for UndergroundCommunications", Proc. 1996 Mining Technology Conference, Fremantle, WesternAustralia, pp. 102-109, Sep. 1996.
- K. C. Abraham and S. Roy, "A Novel High Speed PLC Communication Modem", IEEETrans. Power Delivery, vol. 7, no. 4, pp. 1760 – 1768, Oct. 1992.
- D. Radford, "Spread-Spectrum Data Leap Through AC Power Wiring", IEEE Spectrum,pp. 48 – 53, Nov. 1996.
- M. Soganish, J. Hackwood, "Successfully Implementing Mine Automation to Expand Mining Capacity and Increase Productivity", Technical Paper, EL-Equip Pacific Automation, Apr. 1997
- Private Digital Cordless PBX Adjunct System, Voxson International Pty Ltd,
- Pinkenba, Australia 1997