{"title":"Drowning prevention system-at sea level","authors":"S. Sivakami, K. Janani, R. Ranjana","doi":"10.1109/ICCCT2.2017.7972308","DOIUrl":null,"url":null,"abstract":"Drowning is usually quick and silent. Media portrayal of drowning as a loud, violent struggle have much more in common with distressed unskilled swimmers, Drowning causes the third highest number of unintentional death. Many drowning prevention systems have been proposed however they are not suitable for implementation at sea level. Our target to abide a cryptogram lapse prevents drowning at the beaches. Two sensors namely oxygen sensor and water detector are used. Water detectors are placed in the locket. This is suitable for people who play at the shore; who don't go deep into beaches. If a person gets pulled into the sea by the waves, the water detector in their locket will be submerged completely and if the detector continues to remain submerged then an alarm is triggered through which the coast guards are alerted. Oxygen sensor used for swimmers and is placed in the armbands of the swimmer. Oxygen level in the sea and the oxygen level in the atmosphere vary drastically. If a swimmer is about to drown the oxygen level will constantly be around 80 per cent (which is the normal oxygen residue in the sea); Then the sensor triggers a floating aide and simultaneously alerts the coast guards. An underwater network is deployed with a modem at each network node. The sensors communicate with these nodes. Similarly, sensors are placed on the seabed to indicate sudden increase in depth. When a user is about to cross those sensors the controller alerts the coastguards and the swimmer.","PeriodicalId":445567,"journal":{"name":"2017 2nd International Conference on Computing and Communications Technologies (ICCCT)","volume":"1 1","pages":"0"},"PeriodicalIF":0.0000,"publicationDate":"2017-02-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"4","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"2017 2nd International Conference on Computing and Communications Technologies (ICCCT)","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.1109/ICCCT2.2017.7972308","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
引用次数: 4

摘要

溺水通常是迅速而无声的。媒体对溺水的描述是一种大声的、暴力的挣扎,与痛苦的、不熟练的游泳者有更多的共同之处。溺水是导致意外死亡的第三大原因。许多溺水预防系统已被提出,但它们不适合在海平面上实施。我们的目标要遵守密码失效防止在海滩上溺水。采用氧传感器和水探测器两种传感器。水探测器被放在挂坠盒里。适合在海边玩耍的人;不深入海滩的人。如果有人被海浪卷到海里,他们吊坠里的水探测器就会被完全淹没,如果探测器一直被淹没,就会触发警报,海岸警卫队就会收到警报。氧气传感器用于游泳者,并放置在游泳者的臂章。海洋中的含氧量和大气中的含氧量差别很大。如果一个游泳者即将溺水,氧气含量将一直保持在80%左右(这是海洋中正常的氧气残留量);然后传感器触发一个漂浮的助手,同时向海岸警卫队发出警报。水下网络在每个网络节点上部署一个调制解调器。传感器与这些节点通信。类似地,传感器被放置在海床上,以指示深度的突然增加。当用户要穿过这些传感器时,控制器会向海岸警卫队和游泳者发出警报。
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Drowning prevention system-at sea level
Drowning is usually quick and silent. Media portrayal of drowning as a loud, violent struggle have much more in common with distressed unskilled swimmers, Drowning causes the third highest number of unintentional death. Many drowning prevention systems have been proposed however they are not suitable for implementation at sea level. Our target to abide a cryptogram lapse prevents drowning at the beaches. Two sensors namely oxygen sensor and water detector are used. Water detectors are placed in the locket. This is suitable for people who play at the shore; who don't go deep into beaches. If a person gets pulled into the sea by the waves, the water detector in their locket will be submerged completely and if the detector continues to remain submerged then an alarm is triggered through which the coast guards are alerted. Oxygen sensor used for swimmers and is placed in the armbands of the swimmer. Oxygen level in the sea and the oxygen level in the atmosphere vary drastically. If a swimmer is about to drown the oxygen level will constantly be around 80 per cent (which is the normal oxygen residue in the sea); Then the sensor triggers a floating aide and simultaneously alerts the coast guards. An underwater network is deployed with a modem at each network node. The sensors communicate with these nodes. Similarly, sensors are placed on the seabed to indicate sudden increase in depth. When a user is about to cross those sensors the controller alerts the coastguards and the swimmer.
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