856 research outputs found
Survey on security issues in file management in cloud computing environment
Cloud computing has pervaded through every aspect of Information technology
in past decade. It has become easier to process plethora of data, generated by
various devices in real time, with the advent of cloud networks. The privacy of
users data is maintained by data centers around the world and hence it has
become feasible to operate on that data from lightweight portable devices. But
with ease of processing comes the security aspect of the data. One such
security aspect is secure file transfer either internally within cloud or
externally from one cloud network to another. File management is central to
cloud computing and it is paramount to address the security concerns which
arise out of it. This survey paper aims to elucidate the various protocols
which can be used for secure file transfer and analyze the ramifications of
using each protocol.Comment: 5 pages, 1 tabl
Your Smart Home Can't Keep a Secret: Towards Automated Fingerprinting of IoT Traffic with Neural Networks
The IoT (Internet of Things) technology has been widely adopted in recent
years and has profoundly changed the people's daily lives. However, in the
meantime, such a fast-growing technology has also introduced new privacy
issues, which need to be better understood and measured. In this work, we look
into how private information can be leaked from network traffic generated in
the smart home network. Although researchers have proposed techniques to infer
IoT device types or user behaviors under clean experiment setup, the
effectiveness of such approaches become questionable in the complex but
realistic network environment, where common techniques like Network Address and
Port Translation (NAPT) and Virtual Private Network (VPN) are enabled. Traffic
analysis using traditional methods (e.g., through classical machine-learning
models) is much less effective under those settings, as the features picked
manually are not distinctive any more. In this work, we propose a traffic
analysis framework based on sequence-learning techniques like LSTM and
leveraged the temporal relations between packets for the attack of device
identification. We evaluated it under different environment settings (e.g.,
pure-IoT and noisy environment with multiple non-IoT devices). The results
showed our framework was able to differentiate device types with a high
accuracy. This result suggests IoT network communications pose prominent
challenges to users' privacy, even when they are protected by encryption and
morphed by the network gateway. As such, new privacy protection methods on IoT
traffic need to be developed towards mitigating this new issue
Crafting a Network Plan for a Microfinancing Establishment and Its Branch Network through Virtual Private Network (VPN) Implementation
This study successfully designed a network plan incorporating a Virtual Private Network (VPN) for Kasipag Microfinancing Incorporated (KMI). Employing a developmental research design approach and following the network development life cycle stages of planning, analysis, design, and simulation, the researchers evaluated the feasibility of the network design for implementation in KMI. The findings strongly recommend KMI to proceed with the implementation of the designed network plan that includes a VPN, as it offers significant benefits and advantages. Implementing a VPN in KMI's network infrastructure will greatly enhance network security and enable secure remote access to valuable resources, which is particularly crucial in today's digital landscape emphasizing remote work and data privacy. The thorough simulation of the network plan confirms its feasibility and ensures KMI will have a reliable and efficient network infrastructure. Additionally, the implementation of the network plan will provide KMI with a competitive edge by enabling seamless communication and streamlined data transfer between branches. This will enhance collaboration, improve operational efficiency, and increase overall organizational effectiveness. The cost analysis conducted by the researchers guarantees that the project remains within budget, offering KMI a clear breakdown of expenses for informed decision-making. In conclusion, the recommended implementation of the network plan incorporating a VPN will empower KMI with improved network security, secure remote access, and a competitive advantage in the microfinancing industry. By embracing these advancements, KMI can foster growth, productivity, and success in the ever-evolving digital landscape
Information Security for BYOD in ABB
BYOD (Bring Your Own Device) is the future policy in companies that is going to replace the old UWYT (Use What You Are Told) way of thinking. This new policy has a lot of issues both security wisely and policy wisely that needs to get solved before we can fully implement this policy into larger companies. Thanks to large interest in the subject a lot of companies have already come up with solutions to this issue and started to use BYOD policy within their companies.
The main target of this Master´s Thesis “Information Security for BYOD in ABB” was to create a working information security system for future BYOD policy use in ABB. For the Thesis we used six different test users with different portable devices and statuses and tried to create a policy that fits well with their job and fulfills the security requirements of ABB. We also discuss a little about cloud computing and how it is good to be included into the final solution for the BYOD security plan.fi=Opinnäytetyö kokotekstinä PDF-muodossa.|en=Thesis fulltext in PDF format.|sv=Lärdomsprov tillgängligt som fulltext i PDF-format
Design and evaluation of a virtual private network architecture for collaborating specialist users
The expansion of communication systems is the undeniable advantage of the most contemporary digital
technologies. However, when a specialist user such as an inventor or an idea owner communicates through a
communication system, their intellects are exposed to theft. Upon the analysis of the requirements of such users,
it became evident that in order to implement a global, reliable, yet secure system for specialist users, designing a
network architecture that provides centralized private connectivity is crucial. This paper proposes a network
architecture that provides centralized private connectivity and accommodates the requirements of the network
infrastructure of such a system. The proposed virtual private network (VPN) architecture is designed to provide a
trusted environment with centralized control and distributed networking, which is different from existing VPN
models. It is entitled as Inventor-Investor Network (IINet) and the name is derived from its significant benefits for
inventor and investor sets of users. The real experimental IINet prototype is implemented using OpenVPN. For
the purpose of evaluation, round trip time (RTT) is measured and reported as the performance metric based on the
different encryption ciphers and digest ciphers as the network metrics
Practical Encryption Gateways to Integrate Legacy Industrial Machinery
Future industrial networks will consist of a mixture of old and new components, due to the very long life-cycles of industrial machines on the one hand and the need to change in the face of trends like Industry 4.0 or the industrial Internet of things on the other. These networks will be very heterogeneous and will serve legacy as well as new use cases in parallel. This will result in an increased demand for network security and precisely within this domain, this thesis tries to answer one specific question: how to make it possible for legacy industrial machines to run securely in those future heterogeneous industrial networks.
The need for such a solution arises from the fact, that legacy machines are very outdated and hence vulnerable systems, when assessing them from an IT security standpoint. For various reasons, they cannot be easily replaced or upgraded and with the opening up of industrial networks to the Internet, they become prime attack targets. The only way to provide security for them, is by protecting their network traffic.
The concept of encryption gateways forms the basis of our solution. These are special network devices, that are put between the legacy machine and the network. The gateways encrypt data traffic from the machine before it is put on the network and decrypt traffic coming from the network accordingly. This results in a separation of the machine from the network by virtue of only decrypting and passing through traffic from other authenticated gateways. In effect, they protect communication data in transit and shield the legacy machines from potential attackers within the rest of the network, while at the same time retaining their functionality. Additionally, through the specific placement of gateways inside the network, fine-grained security policies become possible. This approach can reduce the attack surface of the industrial network as a whole considerably.
As a concept, this idea is straight forward and not new. Yet, the devil is in the details and no solution specifically tailored to the needs of the industrial environment and its legacy components existed prior to this work.
Therefore, we present in this thesis concrete building blocks in the direction of a generally applicable encryption gateway solution that allows to securely integrate legacy industrial machinery and respects industrial requirements. This not only entails works in the direction of network security, but also includes works in the direction of guaranteeing the availability of the communication links that are protected by the gateways, works to simplify the usability of the gateways as well as the management of industrial data flows by the gateways
Network Access Control: Disruptive Technology?
Network Access Control (NAC) implements policy-based access control to the trusted network. It regulates entry to the network by the use of health verifiers and policy control points to mitigate the introduction of malicious software. However the current versions of NAC may not be the universal remedy to endpoint security that many vendors tout. Many organizations that are evaluating the technology, but that have not yet deployed a solution, believe that NAC presents an opportunity for severe disruption of their networks. A cursory examination of the technologies used and how they are deployed in the network appears to support this argument. The addition of NAC components can make the network architecture even more complex and subject to failure. However, one recent survey of organizations that have deployed a NAC solution indicates that the \u27common wisdom\u27 about NAC may not be correct
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