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SkyHelp: UAV Assisted Emergency Communication in Deep Open Pit Mines.

, , , and . IoPARTS@MobiSys, page 31-36. ACM, (2018)

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A Survey Report on Operating Systems for Tiny Networked Sensors., , and . CoRR, (2015)SkyHelp: Leveraging UAVs for emergency communication support in deep open pit mines., , , and . COMSNETS, page 546-548. IEEE, (2018)On the importance of link characterization for wireless sensor networks in underground mines., , and . COMSNETS, page 576-577. IEEE, (2017)Zigbee Based Wireless Data Acquisition System for Underground Mines - A Feasibility Study., , , and . ISORC, page 152-155. IEEE Computer Society, (2018)Prediction of spontaneous heating susceptibility of Indian coals using fuzzy logic and artificial neural network models., , and . Expert Syst. Appl., 38 (3): 2271-2282 (2011)Opportunities and Challenges in Health Sensing for Extreme Industrial Environment: Perspectives From Underground Mines., , , and . IEEE Access, (2019)Wireless Sensor Networks: An Emerging Solution for Underground Mines., , and . Int. J. Appl. Evol. Comput., 7 (4): 1-27 (2016)SkyHelp: UAV Assisted Emergency Communication in Deep Open Pit Mines., , , and . IoPARTS@MobiSys, page 31-36. ACM, (2018)Channel modeling of wireless communication in underground coal mines., , , and . COMSNETS, page 1-2. IEEE, (2016)RSSI or LQI: Insights from Real-Time Deployments for Underground Sensing and Applications., , , , and . INFOCOM Workshops, page 1231-1236. IEEE, (2020)