For Base papers and enquiry call
M.SENTHILKUMAR – +919500090804
| CODE | PROJECT TITLE | ABSTRACT | YEAR |
| WIP01 | Environment monitoring and device control using ARM based Embedded Controlled Sensor Network | This paper mainly deals with integrating the embedded technology in the Agriculture field. It is done using the Wireless Sensor Nodes (WSN) technology with the help of microcontroller. Wireless Sensor Nodes (WSN) has become very popular technology in the recent past years. This paper describes about the one of the enhancement which can be implemented in WSN system to increase the communication distance between the nodes. In this paper, we consider applications, where sensing data are generally collected at an intermediate node which in turn sends the data to mobile using GSM technology. | 2013 |
| WIP02 | Building a Smart Home System with WSN and Service Robot | Smart home environments have evolved to the point where everyday objects and devices at home can be networked to give the inhabitants new means to control them. Advances in digital electronics have enabled the development of small in size and communicate in short distances sensor nodes. They are low-cost, low-power and multifunctional. The sensor nodes consist of sensing, data processing, and communication components, leverage the idea of Wireless Sensor Networks (WSN) based on collaborative effort of a large number of nodes. There are a large number of researches dealing with WSN applications, but it is still possible to explore in WSN development and maintenance. This paper examines the possibility of integration WSN and the service robots into a smart home application. The service robots can be considered to be mobile nodes that provide additional sensorial information, improve/repair the connectivity and collect information from wireless sensor nodes. On the other hand, the WSN can be considered as an extension of the sensorial capabilities of the robots and it can provide a smart environment for the service robots. | 2013 |
| WIP03 | Wireless Surface Acoustic Wave Pressure and TemperatureSensor With Unique Identification Based on LiNbO3 | Pressure sensor developments using SAW principles can first be distinguished in terms of substrate materials used. The majority of developments have been done on quartz substrates partially driven by the quest for a passive, wireless tire pressure monitoring system. The advantage of using quartz is the availability of temperature compensated cuts and a good sensitivity to strain. Disadvantages are its bandwidth limitations and poor coupling coefficient | 2013 |
| WIP04 | Tour Planning for Mobile Data-Gathering Mechanisms in Wireless Sensor Networks | Wireless Sensor Nodes (WSN) has become very popular technology in the recent past years. This paper describes about the one of the enhancement which can be implemented in WSN system to increase the communication distance between the nodes. In this paper, we consider applications, where sensing data are generally collected at a low rate and is not so delay sensitive that it can be accumulated into fixed-length data packets and uploaded once in a while. To provide a scalable data-gathering scheme for large-scale static sensor networks, we utilize mobile data collectors to gather data from sensors. | 2013 |
| WIP05 | Wireless Sensor Network Based Smart Home: Sensor Selection, Deployment and Monitoring | The population of the elderly people is in a steady rise throughout the world, creating the need to increase the facilities for the care of the elderly. The life expectancy of a human has increased significantly over the past decade. This means that there are more elderly people living in the world today than they were 10–20 years ago. There are many people in our community, who because of age, infirmity, memory loss or impaired judgment can no longer be totally relied upon, are having pressure put on them to leave their home to stay in monitored environment and give up their precious independence.If they prefer to live alone they do however require constant monitoring so that medical help can be provided immediately in times of dire needs. Surely, with the technology of today, there is a better way for these people to resolve this problem, so that they can live independently, rather than being forced to live in a retirement village or old people’s home. Considerable research efforts have been focused towards in-home monitoring of people, often using wireless personal area networks. | 2013 |
| WIP06 | Zigbee-assisted Power Saving Management for Mobile Devices | WiFi transmission can consume much energy on energy-constrained mobile devices. To improve energy efficiency, the Power Saving Management (PSM) has been standardized and applied. The standard PSM, however, may not deliver satisfactory energy efficiency in many cases as the wakeup strategy adopted by it cannot adapt dynamically to traffic pattern changes. Motivated by the fact that it has been more and more popular for a mobile device to have both WiFi and other low-power wireless interfaces such as Bluetooth and ZigBee, we propose a ZigBee-assisted Power Saving Management (ZPSM) scheme, leveraging the ZigBee interface to wake up WiFi interface on demand to improve energy efficiency without violating delay requirements. The simulation and prototype-based experiment results have shown that ZPSM can save energy significantly without violating delay requirements in various scenarios. | 2013 |
| WIP07 | A Zigbee Sms Alert System With Trust Mechanism In Wireless Sensor Networks | Wireless Sensor networks (WSN) are highly distributed networks of small, lightweight wireless nodes, deployed in large numbers to monitor the environment or system by measurement of physical parameters such as temperature, pressure or relative humidity. Building sensors has been made possible by the recent advances in micro – electro mechanical system (MEMS) technology. Trust between the sensor nodes is an important issue in wireless sensor network. Trust between the sensor nodes provides secure, reliable path for data packets and accurate alarm generation. | 2013 |
| WIP08 | Low Power Wireless Sensor Network for Building Monitoring | Analysis of the stability of the building is a needed measurement process for all buildings in the cities. Periodic monitoring of the structure for such damage is therefore a key step in rationally planning the maintenance needed to guarantee an adequate level of safety and serviceability. However, in order for the installation of a permanently installed sensing system in buildings to be economically viable, the sensor modules must be wireless to reduce installation costs, must operate with a low power consumption to reduce servicing costs of replacing batteries, and use low cost sensors that can be mass produced such as MEMS sensors | 2013 |
| WIP09 | Optimal Demand Response Capacity of Automatic Lighting Control | Demand response programs seek to adjust the normal consumption patterns of electric power consumers in response to incentive payments that are offered by utility companies to induce lower consumption at peak hours or when the power system reliability is at risk. While prior studies have extensively studied the capacity of offering demand response in buildings by controlling the load at air conditioners, water heaters, and various home appliances, they lack to offer methods to also utilize the full demand response capacity of automatic lighting control systems. Since lighting systems consume a large amount of the total energy used in buildings, addressing this shortcoming is an important research problem. Therefore, in this paper, we propose to take a systematic optimization-based approach to assess demand response capacity of automatic lighting control systems in commercial and office buildings. | 2013 |
| WIP10 | A System for Automatic Notification and Severity Estimation of Automotive Accidents | During the last decades, the total number of vehicles in our roads has experienced a remarkable growth, making traffic density higher and increasing the drivers’ attention requirements. The immediate effect of this situation is the dramatic increase of traffic accidents on the road, representing a serious problem in most countries. To reduce this we need a proper system which can be implemented practically. So we have designed a v2v system or an ad-hoc system for quick information transfer among the vehicle. | 2013 |
| WIP11 | Passenger BUS Alert System for Easy Navigation of Blind | In this project we propose a bus system using wireless sensor networks (WSNs).The blind people in the bus station is provided with a Zigbee unit which is recognized by the Zigbee in the bus and the indication is made in the bus that the blind people is present in the station. So the bus stops at the particular station. The desired bus that the blind want to take is notified to him with the help of speech recognition system. | 2013 |
| WIP12 | Electromyography Based Locomotion Pattern Recognition and Personal Positioning Toward Improved Context-Awareness Applications | The population of the elderly people is in a steady rise throughout the world, creating the need to increase the facilities for the care of the elderly. The life expectancy of a human has increased significantly over the past decade. This means that there are more elderly people living in the world today than they were 10–20 years ago. There are many people in our community, who because of age, infirmity, memory loss or impaired judgment can no longer be totally relied upon, are having pressure put on them to leave their home to stay in monitored environment and give up their precious independence. The ubiquitous nature of miniature wireless sensors and rapid developments in the wireless network technology has revolutionized home monitoring and surveillance systems. The new means and methods of collecting data efficiently and have led to novel applications for indoor wireless sensor networks. The applications are not limited to solely monitoring but can be extended to behavioral recognition. This can be of great value with the elderly as it can allow anomalous behavior to be detected and corrective actions taken accordingly. | 2013 |
| WIP13 | Traffic Signal Control System Based on Wireless Technology | Traffic jam is one of the important problems in big cities, it not only lead people’s travel to inconvenience, but also damage the urban environment and increased traffic accident. Intelligent traffic control system is an effective measure to solve the problem of traffic jam. Intelligent traffic control system using high-tech make traditional traffic mode become more intelligent, more security, energy saving and high efficiency. But all these equipments need power wires and control wires to ensure that the control signal and energy from signal control machine, but all these wires are buried the ground, for this reason it caused inconvenience to upgrade and maintenance | 2013 |
| WIP14 | Remote Management and control System for LED Based Plant Factory Using Zig-Bee and Internet | Recently, intelligent systems for agricultural production are being developed for safe and low cost food production. Plant factory provide high yield by growing multiple crops and making efficient use of land and resources. Plant growth is facilitated by maintaining humidity, temperature, CO2 concentration and light intensity and these factors need to be monitored and maintained for an automated system.In this paper, we have proposed a control system for a LED based plant factory consisting of ZigBee wireless mesh network, and remote monitoring via Internet. Field sensors are installed for monitoring environmental conditions and power metering and ZigBee mesh network has been deployed for data acquisition from these sensors. ZigBee nodes transfer the field data to the coordinator node which also serves as a gateway node providing interoperability between TCP/IP network and ZigBee Wireless Sensor Network (WSN).A major novelty of the system is the use of LED lighting instead of fluorescent lighting due to its low power consumption, long life and useful narrow band. LED lighting system provides an efficient and economical lighting system that facilitates plant growth by varying light intensity and frequency according to light conditions and growing requirements and also helps in reducing production costs and speeding growth. Prototype of the proposed system has been installed in a small part of greenhouse. Data acquisition and remote management of the system has shown very satisfactory performance. | 2012 |
| WIP15 | A Wireless Surveillance and safety System for Mine workers based on Zig-Bee. | This paper addresses a cost-effective, flexible solution of underground mine workers’ safety. A module of MEMS based sensors are used for underground environment monitoring and automating progression of measurement data through digital wireless communication technique is proposed with high accuracy, smooth control and reliability. A microcontroller is used for collecting data and making decision, based on which the mine worker is informed through alarm as well as voice system.The voice system with both microphone and speaker transforms into digital signal and effectively communicate wirelessly with the ground control centre computer. ZigBee, based on IEEE 802.15.4 standard is used for this short distance transmission between the hardware fitted with the mine worker and the ground control centre. | 2012 |
| WIP16 | Wireless Measurement System for Structural Health Monitoring With High Time Synchronization Accuracy | Structural health monitoring (SHM) systems have excellent potential to improve the regular operation and maintenance of structures. Wireless networks (WNs) have been used to avoid the high cost of traditional generic wired systems. The most important limitation of SHM wireless systems is time synchronization accuracy, scalability, and reliability. A complete wireless system for structural identification under environmental load is designed, implemented, deployed, and tested on three different real bridges. Our contribution ranges from the hardware to the graphical front end. System goal is to avoid the main limitations of WNs for SHM particularly in regard to reliability, scalability, and synchronization. We reduce spatial jitter to 125 ns, far below the 120 µs required for high-precision acquisition systems and much better than the 10-µs current solutions, without adding complexity.The system is scalable to a large number of nodes to allow for dense sensor coverage of real-world structures, only limited by a compromise between measurement length and mandatory time to obtain the final result. The system addresses a myriad of problems encountered in a real deployment under difficult conditions, rather than a simulation or laboratory test bed. | 2012 |
| WIP17 | Assessment of Sensing Fire Fighters Uniforms For Physiological Parameter Measurement In Harsh Environment | In the last few years, much effort has been devoted to the development of wearable sensing systems able to monitor physiological, behavioral, and environmental parameters. Less has been done on the accurate testing and assessment of this instrumentation, especially when considering devices thought to be used in harsh environments by subjects or operators performing intense physical activities.This paper presents methodology and results of the evaluation of wearable physiological sensors under these conditions. The methodology has been applied to a specific textile-based prototype, aimed at the real-time monitoring of rescuers in emergency contexts, which has been developed within a European funded project called ProeTEX.Wearable sensor measurements have been compared with the ones of suitable gold standards through Bland–Altman statistical analysis: tests were realized in controlled environments simulating typical intervention conditions, with temperatures ranging from 20 ◦C to 45◦C and subjects performing mild to very intense activities.This evaluation methodology demonstrated to be effective for the definition of the limits of use of wearable sensors. Furthermore, the ProeTEX prototype demonstrated to be reliable, since it produced negligible errors when used for up to 1 h in normal environmental temperature (20 ◦C and 35◦C) and up to 30 min in harsher environment (45 ◦C).
This project uses regulated 5V, 750mA power supply. 7805 three terminal voltage regulator is used for voltage regulation. Bridge type full wave rectifier is used to rectify the ac output of secondary of 230/12V step down transformer. |
2012 |