Md Reazul Islam, Khondokar Oliullah, Mohsin Kabir, Ashifur Rahman, M. F. Mridha, Muhammed Fayyaz Khan, Nilanjan Dey
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This study presents a novel approach for real-time sexual harassment monitoring using a machine learning-based IoT system. The system incorporates nine force-sensitive resistors strategically embedded in women’s dresses to capture relevant data. It is portable and can be affixed to any type of dressing. If the user wishes to change their attire, the system can be easily removed from the current dress and attached to another dress of choice. This flexibility allows users to adapt the system to suit various clothing preferences and styles. The sensor data are transmitted to the cloud via the NodeMCU, enabling continuous monitoring. In the cloud, a pre-trained machine learning model, specifically the AdaBoost classifier, was employed to classify incoming data in real time. We applied four ML methods: RF with GridSearchCV, Bagging Classifier, XGBoost, and Adaboost Classifier. 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引用次数: 0
摘要
性骚扰是一个全方位的问题,影响着教育机构、工作场所和公共场所等各种环境中的个人。尽管人们的意识和宣传力度有所提高,但许多妇女仍然每天面临骚扰,尤其是在印度次大陆,报告不足和有罪不罚现象使问题更加严重。随着技术的进步,利用创新解决方案解决这一问题的机会越来越多。近年来,物联网(IoT)和机器学习已成为开发实时检测和预防性骚扰系统的有前途的技术。本研究提出了一种利用基于机器学习的物联网系统对性骚扰进行实时监控的新方法。该系统将九个力敏电阻器战略性地嵌入女性的裙子中,以捕捉相关数据。它便于携带,可贴在任何类型的衣服上。如果用户想更换服装,可以轻松地将系统从当前的衣服上取下,然后贴到另一件衣服上。这种灵活性使用户可以调整系统,以适应各种服装偏好和风格。传感器数据通过 NodeMCU 传输到云端,实现持续监测。在云端,我们采用了一个预先训练好的机器学习模型,特别是 AdaBoost 分类器,对接收到的数据进行实时分类。我们采用了四种 ML 方法:RF with GridSearchCV、Bagging Classifier、XGBoost 和 Adaboost Classifier。AdaBoost 分类器表现最佳,在使用我们实验室准备的数据集时,准确率达到 99.3%,该数据集由 1048 个实例组成,收集自 50 名学生。如果检测到性骚扰事件,就会通过移动应用程序发出警报,并迅速发送给相关部门,以便立即采取行动拯救受害者。通过整合可穿戴传感器、物联网技术和机器学习,该系统提供了一种积极有效的方法,尤其是在不确定的情况下,以检测和处理性骚扰事件,并加强各种环境中的安全和安保。
Machine learning-driven IoT device for women’s safety: a real-time sexual harassment prevention system
Sexual harassment is an all-encompassing problem that affects individuals in diverse environments including educational institutions, workplaces, and public areas. Despite increased awareness and advocacy efforts, many women continue to face harassment daily, especially on the Indian sub-continent, with underreporting and impunity exacerbating the problem. As technology advances, there is a growing opportunity to use innovative solutions to address this problem. In recent years, the Internet of Things (IoT) and machine learning have emerged as promising technologies for developing systems that can detect and prevent sexual harassment in real-time. This study presents a novel approach for real-time sexual harassment monitoring using a machine learning-based IoT system. The system incorporates nine force-sensitive resistors strategically embedded in women’s dresses to capture relevant data. It is portable and can be affixed to any type of dressing. If the user wishes to change their attire, the system can be easily removed from the current dress and attached to another dress of choice. This flexibility allows users to adapt the system to suit various clothing preferences and styles. The sensor data are transmitted to the cloud via the NodeMCU, enabling continuous monitoring. In the cloud, a pre-trained machine learning model, specifically the AdaBoost classifier, was employed to classify incoming data in real time. We applied four ML methods: RF with GridSearchCV, Bagging Classifier, XGBoost, and Adaboost Classifier. The AdaBoost classifier performed best with an accuracy of 99.3% using a dataset prepared by our lab, which consists of 1048 instances and was collected from 50 students. If a sexual harassment event is detected, an alert is generated through a mobile application and promptly sent to appropriate authorities for immediate action to save the victim. By integrating wearable sensors, IoT technology, and machine learning, this system offers a proactive and efficient approach, especially in uncertain situations, to detect and address sexual harassment incidents and enhance safety and security in various settings.
期刊介绍:
Multimedia Tools and Applications publishes original research articles on multimedia development and system support tools as well as case studies of multimedia applications. It also features experimental and survey articles. The journal is intended for academics, practitioners, scientists and engineers who are involved in multimedia system research, design and applications. All papers are peer reviewed.
Specific areas of interest include:
- Multimedia Tools:
- Multimedia Applications:
- Prototype multimedia systems and platforms