Review On Foetal Position Detection Using Different Techniques

I. Jeya Daisy, G. Diyaneshwaran, K. Ravivarmaa, S. Shobana, M. Sneha, N. S. Monessha
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Abstract

Modern obstetrics places a high priority on foetal health monitoring. Although foetal movement is frequently used as a proxy for foetal health, it is difficult to accurately monitor foetal movement over an extended period of time without causing any harm. In high-risk pregnancies and in high-risk moms who have previously experienced miscarriages, it is highly helpful to determine the foetus position because, in the majority of cases, an incorrect foetal position results in both foetal and maternal mortality. Pregnant women may benefit from the design and construction of a device that can accurately identify the location of the foetus. Recent years have seen the development of a few accelerometer-based systems to address frequent problems with ultrasound measurement and allow for remote, self-managed monitoring of foetal movement throughout pregnancy. The optimum design for body-worn accelerometers, data processing, and deep learning methods used to identify foetal movement. This study will explore four alternative techniques for determining the location of the foetus. Ultrasonograms are the most popular methods for foetal position detection. The wearable ambulatory device known as Femom, which has been made available to women on home prescription, can also be used to determine the location of the foetus. Deep learning techniques and thermal imaging cameras are also utilised to determine the position of the foetus.
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胎儿体位检测技术综述
现代产科高度重视胎儿健康监测。虽然胎儿运动经常被用作胎儿健康的代表,但很难在不造成任何伤害的情况下长时间准确监测胎儿运动。在高危妊娠和高危流产母亲中,确定胎儿体位是非常有帮助的,因为在大多数情况下,不正确的胎儿体位会导致胎儿和产妇死亡。孕妇可能会受益于一种能够准确识别胎儿位置的装置的设计和构造。近年来,一些基于加速度计的系统得到了发展,以解决超声测量中经常出现的问题,并允许在整个怀孕期间对胎儿运动进行远程、自我管理的监测。用于识别胎儿运动的穿戴式加速度计、数据处理和深度学习方法的最佳设计。本研究将探讨确定胎儿位置的四种替代技术。超声检查是检测胎儿位置最常用的方法。这款名为Femom的可穿戴移动设备也可以用来确定胎儿的位置,女性可以在家里买到这种设备。深度学习技术和热成像摄像机也被用来确定胎儿的位置。
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