The Use of Neural Networks in the Cloud Computing Environment

In this research, we will address the relationship between cloud computing using neural networks, which in turn is associated with online services on the basis of cloud computing, such as the infrastructure of the system and access to Internet networks and the use of the communication network in the show cloud computing, but cloud computing for various types of services and applications which used to use the internet using neural networks. Here we will address the resource scheduling strategy, a technology key in cloud computing, which is a service that can be used to send Functions and tasks available resources such as Software and storage systems, as well as the aim is to Enlargement the utilization of The classification of the resources available and assembled together to To reach the top productivity in solving computational problems through neural networks. Introduction we are talking in this search for cloud computing, which is a glomus group of connected computers together each other representing the cloud from a variety or complex networks and cloud computing is going one direction between Most of the systems in the network with the help of some of the online networks  . he is a basis of a new model of my account because it is the next-generation technologies and is built on the high speed of the computer with the way it works on the storage and analysis of data and services offered through distributed and Technology computing working on the pooling of resources and Cloud computing is also considered a type of distributed computing

A Distributed Security Model for Cloud Computing

Security in Cloud Computing is an ongoing concern and so security mechanisms play an important role. While mechanisms for security in the Cloud exist, new vulnerabilities for Cloud is an ongoing issue. For this, we contend that a need for a new type of security mechanism and model is required. Therefore, we propose a conceptual, high-level view of a distributed security model for Cloud Computing. This paper is part of an ongoing longitudinal study in which the model is outlined and discusses how the proposed security model is distributed among Cloud servers. The distributed security model presents multiple sacrificial targets in an attack and consequently eliminates any single point of failure

CloudIDS: Cloud Intrusion Detection Model Inspired by Dendritic Cell Mechanism

Cloud Computing Security is a new era of computer technology and opens a new research area and creates a lot of opportunity of exploration. One of the new implementation in Cloud is Intrusion Detection System (IDS).There are problems with existing IDS approach in Cloud environment. Implementing traditional IDS need a lot of self-maintenance and did not scale with the customer security requirements. In addition, maintenance of traditional IDS in Cloud Computing system requires expertise and consumes more time where not each Cloud user has. A decentralized traditional IDS approach where being deployed in current Cloud Computing infrastructure will make the IDS management become complicated. Each user's IDS will not be the same in term of type and configurations and each user may have outdated signatures. Inter VM's communication also become a big concern when we implementing Cloud Computing system where communication between Clouds are not monitored and controlled by the traditional IDS. A specific IDS model for Cloud computing is required to solve these problems. In this paper, we develop a prototype of Cloud IDS inspired by Dendritic Cell mechanism. Experiment result proved that Cloud IDS was able to detect any attempt to attack the Cloud environment. The experiments show that the Cloud IDS model based on Dendritic Cell algorithm able to identify and detect novel threat that targeting Cloud environment

Intrusion detection and prevention of web service attacks for software as a service:Fuzzy association rules vs fuzzy associative patterns

Cloud computing inherits all the systems, networks as well asWeb Services’ security vulnerabilities, in particular for software as a service (SaaS), where business applications or services are provided over the Cloud as Web Service (WS). Hence, WS-based applications must be protected against loss of integrity, confidentiality and availability when they are deployed over to the Cloud environment. Many existing IDP systems address only attacks mostly occurring at PaaS and IaaS. In this paper, we present our fuzzy association rule-based (FAR) and fuzzy associative pattern-based (FAP) intrusion detection and prevention (IDP) systems in defending against WS attacks at the SaaS level. Our experimental results have validated the capabilities of these two IDP systems in terms of detection of known attacks and prediction of newvariant attacks with accuracy close to 100%. For each transaction transacted over the Cloud platform, detection, prevention or prediction is carried out in less than five seconds. For load and volume testing on the SaaS where the system is under stress (at a work load of 5000 concurrent users submitting normal, suspicious and malicious transactions over a time interval of 300 seconds), the FAR IDP system provides close to 95% service availability to normal transactions. Future work involves determining more quality attributes besides service availability, such as latency, throughput and accountability for a more trustworthy SaaS

Hosting critical infrastructure services in the cloud environment considerations

Critical infrastructure technology vendors will inevitability take advantage of the benefits offered by the cloud computing paradigm. While this may offer improved performance and scalability, the associated security threats impede this progression. Hosting critical infrastructure services in the cloud environment may seem inane to some, but currently remote access to the control system over the internet is commonplace. This shares the same characteristics as cloud computing, i.e., on-demand access and resource pooling. There is a wealth of data used within critical infrastructure. There needs to be an assurance that the confidentiality, integrity and availability of this data remains. Authenticity and non-repudiation are also important security requirements for critical infrastructure systems. This paper provides an overview of critical infrastructure and the cloud computing relationship, whilst detailing security concerns and existing protection methods. Discussion on the direction of the area is presented, as is a survey of current protection methods and their weaknesses. Finally, we present our observation and our current research into hosting critical infrastructure services in the cloud environment, and the considerations for detecting cloud attacks. © 2015 Inderscience Enterprises Ltd

State of the Art Intrusion Detection System for Cloud Computing

The term Cloud computing is not new anymore in computing technology. This form of computing technology previously considered only as marketing term, but today Cloud computing not only provides innovative improvements in resource utilisation but it also creates a new opportunities in data protection mechanisms where the advancement of intrusion detection technologies  are blooming rapidly. From the perspective of security, Cloud computing also introduces concerns about data protection and intrusion detection mechanism. This paper surveys, explores and informs researchers about the latest developed Cloud Intrusion Detection Systems by providing a comprehensive taxonomy and investigating possible solutions to detect intrusions in cloud computing systems. As a result, we provide a comprehensive review of Cloud Intrusion Detection System research, while highlighting the specific properties of Cloud Intrusion Detection System. We also present taxonomy on the key issues in Cloud Intrusion Detection System area and discuss the different approaches taken to solve the issues. We conclude the paper with a critical analysis of challenges that have not fully solved

A machine learning-based investigation of cloud service attacks

In this thesis, the security challenges of cloud computing are investigated in the Infrastructure as a Service (IaaS) layer, as security is one of the major concerns related to Cloud services. As IaaS consists of different security terms, the research has been further narrowed down to focus on Network Layer Security. Review of existing research revealed that several types of attacks and threats can affect cloud security. Therefore, there is a need for intrusion defence implementations to protect cloud services. Intrusion Detection (ID) is one of the most effective solutions for reacting to cloud network attacks. [Continues.