In order to use our Yosnalab shopping services, you need to read carefully about our terms and conditions. If You disagree any part of terms then you cannot access our service.
I agree to pay the rental rate for the period we used the product and in transit and further agrees to promptly return the products at the end of the rental period in the same condition as received.
I will give alert to Yosnalab if my contact information changes.
I also agree to pay for any damages to, or loss of, the rented merchandise occurring during their time of possession or because of loss and or damage of the products. Upon return and inspection if any and all repairs necessary and or accessories missing that were itemized will be charged at our current rates and billed to you.
A full day rental is charged, even for a partial day use. There are absolutely no refunds for early returns.
The products can be used upto 4 weeks only, Cost will be calculated as per day of usage. We are not responsible for the damage of materials or other liability of any kind resulting from the use or malfunction of the equipment. We will not return the initial deposit of money until the product is returned back.
I am responsible for keeping track of my due dates. I understand that any notices sent out by Yosnalab are a courtesy only and failure to receive them does not excuse me from any charges.
A copy of both sides of their valid institution identification card need to be present. Depositing the money can be done only in the form of cash, not through credit/debit cards.
If you have questions or suggestions, please contact us.
Fog computing is a model of decentralized computing infrastructure in which data, compute, storage and applications are distributed in the most logical, efficient place between the source of data and the cloud. Fog consists of visible cloud water droplets of ice crystals suspended in the air at or near the earth's surface it is very closer to the earth! And fog is not cloud, it is the intermediate between cloud and earth surface, similarly fog computing is the combination of cloud + internet of things. where the fog computing extends cloud computing and services to the edge of the network. In fog computing, devices communicate peer-to-peer to efficiency share /store data and take local decisions. Fog computing has direct correlation with IOT. It provides real time interaction.
The characteristics of Fog computing like low latency, location awareness and due to its real time applications they are considered as the appropriate platform for internet of things (IOT). Fog computing is a term for placing some processes and resources at the edge of the cloud, instead of establishing channels for cloud storage and utilization. It provides Improved security of data as it stays close to the end user. Fog computing tackles an important problem in cloud computing, namely, reducing the need for bandwidth that is by not sending every bit of information over cloud channels, and instead aggregating it at certain access points. Fog computing also contributes more advantage compared to cloud computing in many ways. Fog computing goes around internet entirely by processing data locally.
Why: Problem statement
This project is being implemented in order to reduce road accidents.
How: Solution description
The main objective of vehicular ad hoc networks (VANETs) is to improve driver safety and tra?c e?ciency. Most of VANET applications are based on periodic exchange of safety messages between nearby vehicles and between vehicles and nearby road side communication units (e.g., tra?c lights, roadside lights etc.). This periodic communication generates huge amount of data that have typical storage, computation, and communication resources needs. In recent years, there have been huge developments in automotive industry, computing, and communication technologies. This has led Vehicular Cloud Computing (VCC) as a solution to satisfy the requirements of VANETs such as computing, storage, and networking resources.
Fog computing is a standard that comprehends cloud computing and related services to the proximity of a network. Since VANET applications have special mobility, low latency, and location awareness requirement. Fog computing plays a signi?cant role in VANET applications and services. In this paper, we present real-time applications of VANET that can be implemented using fog computing.
Vehicular Ad-hoc networks (VANETs) are kinds of mobile Ad-hoc networks (MANETs), which consist of mobile vehicles with on-board units (OBUs) and roadside units (RSUs). With the rapid development of computation and communication technologies, peripheral or incremental changes in VANETs evolve into a revolution in process. Cloud computing as a solution has been deployed to satisfy vehicles in VANETs which are expected to require resources (such as computing, storage and networking). Recently, with special requirements of mobility, location awareness, and low latency, there has been growing interest in research into the role of fog computing in VANETs. The merging of fog computing with VANETs opens an area of possibilities for applications and services on the edge of the cloud computing. Fog computing deploys highly virtualized computing and communication facilities at the proximity of mobile vehicles in VANET. Mobile vehicles in VANET can also demand services of low-latency and short-distance local connections via fog computing. This paper presents the current state of the research and future perspectives of fog computing in VANETs. Moreover, we discuss the characteristics of fog computing and services based on fog computing platform provided for VANETs. In this paper, some opportunities for challenges and issues are mentioned, related techniques that need to be considered have been discussed in the context of fog computing in VANETs. Finally, we discuss about research directions of potential future work for fog computing in VANETs. Within this article, readers can have a more thorough understanding of fog computing for VANETs and the trends in this domain.
How is it different from competition
Data congestion occur if we do VANET project by using cloud computing technique.
so we do this project by using fog computing technique.
Who are your customers
Used especially for driver safety.
Project Phases and Schedule
Interfacing all the peripherals
HARDWARE REQUIREMENTS PROCESSOR : PENTIUM IV PROCESSOR SPEED : 2.4 GHZ RAM : 512 MB HARD DISK : 40 GB FLOPPY DRIVE : 1.44 MB CD-ROM : SAMSUNG 52X MAX INPUT DEVICE : STANDARD KEYBOARD AND MOUSE OUTPUT DEVICE : MONITOR
SOFTWARE REQUIREMENTS OPERATING SYSTEM : WINDOWS 07 FRONT-END : JAVA BACK-END : SQL SERVER