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Author

Anurag Sachan

Bio: Anurag Sachan is an academic researcher from VIT University. The author has contributed to research in topics: Gadget & Home automation. The author has an hindex of 1, co-authored 1 publications receiving 1 citations.

Papers
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Book ChapterDOI
01 Jan 2018
TL;DR: A central control framework which utilizes a remote Bluetooth gadget and gives wireless access to smart phones is intended to control electrical gadgets all through the house with ease of installing it, ease of use, and cost-effective design and implementation.
Abstract: Smart home is a practical technique to build the simplicity of life. It can be utilized to give assistance and fulfill the necessities of the elderly and the handicapped at houses. Home automation framework will enhance the ordinary living status at houses. The aim of this paper is to implement a central control framework which utilizes a remote Bluetooth gadget and gives wireless access to smart phones. This framework is intended to control electrical gadgets all through the house with ease of installing it, ease of use, and cost-effective design and implementation.

4 citations


Cited by
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Book ChapterDOI
27 Mar 2019
TL;DR: The implementation of an automatic resource feeding system for vehicle washing using low cost devices, consisting of an Arduino Mega controller, ultrasonic sensors to measure the level of liquids, several actuators, Bluetooth communication devices and a mobile application is presented.
Abstract: Vehicle washing is a profitable business today, but it produces unwanted environmental effects that should be considered; autonomous systems are a viable solution for the optimization of resources in production processes and services. This paper presents the implementation of an automatic resource feeding system for vehicle washing using low cost devices. The system consists of an Arduino Mega controller, ultrasonic sensors to measure the level of liquids, several actuators, Bluetooth communication devices and a mobile application. The results present the consumption of resources in a month of operation, demonstrating the benefits of this proposal.

10 citations

Journal ArticleDOI
TL;DR: In this article , the authors presented a complete picture of the current smart home system (SHS) development and characteristics, providing a deep insight into latest hardware and trends, and detailed discussion of some of the important services provided by the SHS and its advantages.
Abstract: Smart home is a habitation that has been outfitted with technological solutions that are intended to provide people with services that are suited to their needs. The purpose of this article is to perform a systematic assessment of the latest smart home literature and to conduct a survey of research and development conducted in this field. In addition to presenting a complete picture of the current smart home system’s (SHS) development and characteristics, this paper provides a deep insight into latest hardware and trends. The research then moves on to a detailed discussion of some of the important services provided by the SHS and its advantages. The paper also statistically discusses the current and future research trends in the SHS, followed by a detailed portrayal of the difficulties and roadblocks in implementing them. The comprehensive overview of the SHS presented in this paper will help designers, researchers, funding agencies, and policymakers have a bird’s-eye view of the overall concept, attributes, technological aspects, and features of modern SHSs.
Proceedings ArticleDOI
16 Mar 2023
TL;DR: In this paper , the authors present a new method for redirecting traffic considering delay-sensitive data, where they distribute the traffic among several paths depending on the balance between bandwidth and delay link.
Abstract: Smart home networks are one of the important applications of the Internet of Things, and the importance of quality of service (QoS) in such networks is increasing day by day. Many studies have focused on distributing traffic fairly between several paths to improve throughput in the network, but in smart home networks, there are some applications that require a small delay such as VOIP and live broadcasting. The advent of software-defined networking through the OpenFlow protocol has made multipath routing simpler through routing frameworks that are programmable to the desire of the network operator and to the network conditions. In this paper we present a new method for redirecting traffic considering delay-sensitive data, where we distribute the traffic among several paths depending on the balance between bandwidth and delay link. Our results show that when route delay increases significantly, the bulk of traffic is transmitted through the route with the least delay, which in turn reduces delay and improves QoS for these applications.
Proceedings ArticleDOI
16 Mar 2023
TL;DR: In this article , the authors present a new method for redirecting traffic considering delay-sensitive data, where they distribute the traffic among several paths depending on the balance between bandwidth and delay link.
Abstract: Smart home networks are one of the important applications of the Internet of Things, and the importance of quality of service (QoS) in such networks is increasing day by day. Many studies have focused on distributing traffic fairly between several paths to improve throughput in the network, but in smart home networks, there are some applications that require a small delay such as VOIP and live broadcasting. The advent of software-defined networking through the OpenFlow protocol has made multipath routing simpler through routing frameworks that are programmable to the desire of the network operator and to the network conditions. In this paper we present a new method for redirecting traffic considering delay-sensitive data, where we distribute the traffic among several paths depending on the balance between bandwidth and delay link. Our results show that when route delay increases significantly, the bulk of traffic is transmitted through the route with the least delay, which in turn reduces delay and improves QoS for these applications.