Biblio

Security of data and information in servers connected to networks that provide services to user computers, is the most important thing to maintain data privacy and security in network security management mechanisms. Weaknesses in the server security system can be exploited by intruders to disrupt the security of the server. One way to maintain server security is to implement an intrusion detection system using the Intrusion Detection System. This research is experimenting to create a security system prototype, monitoring, and evaluating server security systems using Snort and alert notifications that can improve security monitoring for server security. The system can detect intrusion attacks and provide warning messages and attack information through the Intrusion Detection System monitoring system. The results show that snort and alert notifications on the security server can work well, efficiently, and can be handled quickly. Testing attacks with Secure Shell Protocol and File Transfer Protocol Brute Force, Ping of Death and scanning port attacks requires a detection time of no more than one second, and all detection test results are detected and send real-time notification alerts to the Administrator.

Geo-social applications deal with constantly sharing user's current geographic information in terms of location (Latitude and Longitude). Such application can be used by many people to get information about their surrounding with the help of their friend's locations and their recommendations. But without any privacy protection, these systems can be easily misused by tracking the users. We are proposing Error Based Transformation (ERB) approach for location transformation which provides significantly improved location privacy without adding uncertainty in to query results or relying on strong assumptions about server security. The key insight is to apply secure user-specific, distance-preserving coordinate transformations to all location data shared with the server. Only the friends of a user can get exact co-ordinates by applying inverse transformation with secret key shared with them. Servers can evaluate all location queries correctly on transformed data. ERB privacy mechanism guarantee that servers are unable to see or infer actual location data from the transformed data. ERB privacy mechanism is successful against a powerful adversary model where prototype measurements used to show that it provides with very little performance overhead making it suitable for today's mobile device.