Shruchi Mistry scite author profile

Nowadays Cybercrimes are rapidly increasing. Systems are always vulnerable to attack due to Security misconfiguration. Most of the systems are vulnerable at client side or endpoint. The intrusion into the system can be done via violating operating systems vulnerabilities. Windows operating system has its own security functionalities and configurations. Most users not setup the security configuration properly and because of that systems are vulnerable to attacks. Today very sophisticated attacks like Ransomware, malware, Remote Admin tools etc. can be exploit throughout the system, which is securely misconfigured. Windows operating system hardening is the only solution against such threats to the system. System hardening is the technique through which users can generate a checklist according to the requirements. A ransomware like Wanncry and Petya infected almost windows system due to security misconfiguration. This project is focused on preparing the checklist for security configuration in Windows operating system as per versions and vulnerabilities related with those OS versions; also Securely Audit those systems periodical basis to maintain required security level. As result automated system audit report framework will be developed to maintain the security level of Windows based operating system.

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Human Physiological Condition Monitoring System based on Microcontrollers

Saha

Zhang

Saha³

et al. 2023

EJECE

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With the rise in living standards, people are increasingly focusing on their health, and monitoring their physiological condition has become a popular trend. Sudden illnesses or hidden chronic conditions can cause abnormal fluctuations in temperature and heart rate, which can be difficult to detect without continuous monitoring. The main objective of this project is to develop a cost-effective and efficient system to monitor vital signs such as heart rate, body temperature, and steps taken, based on systematic experimental studies. The system utilizes a pulse sensor DS18B20, and ADXL345 to monitor the heart rate, body temperature, and motion status of the human body. The circuit and the HC-05 work together to transmit the detected data from the sensor to the MCU, which further transmits it to the LCD1602 or mobile phone interface for real-time display. The system provides a user-friendly interface and real-time monitoring, making it easier for individuals to keep track of their health status. This paper presents an innovative approach to human physiological condition monitoring using a microcontroller-based system, which has significant potential for improving healthcare by enabling early detection and prevention of medical conditions, ultimately leading to better quality of life.

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Shruchi Mistry

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Human Physiological Condition Monitoring System based on Microcontrollers

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