WIRELESS NO PRJ

TITLE

ABSTRACT DOMAIN YOP

1

Design of

Intelligent

Home

Appliance

Control

System

Based on

ARM and

ZigBee

This paper introduces the intelligent home appliance control system, the system is developed through ARM

microprocessor, embedded system, ZigBee wireless communication technology and network technology. It

gives the overall framework of hardware and software design, and describes ways to implement the system. User

can control appliances through hand-held mobile terminal

Wireless

2

Zigbee

wireless

sensor

network for

better

interactive

industrial

Automation

This paper deals with the design of a Zigbee Wireless Sensor Network “WSN” for better Interactive Industrial Automation. The protocol is embedded into Zigbee stack, providing a friendly interface to observe the

information in the wireless network efficiently and to provide the On Demand Response to the requests. It

consists of a Coordinator and the sensor nodes. The coordinator is a centralized unit which is attached to the

monitoring PC. It collects the information from all other nodes on demand and provides to the end user through

TCP/IP network. The sensor nodes are made intelligent for controlling the plant. These nodes are attached with

the Zigbee for remote controlling in case of changing the preset values and handling any issues. The coordinator

and the Sensor Nodes are implemented using the ARM7 microcontroller. coordinator and the Sensor nodes are

programmed using the Embedded C. The experimental results obtained demonstrate the usefulness of the

proposed system in terms of the low power consumption, low cost, targeted towards automation and remote

control applications

Wireless

3

Remote

managemen

t and

control

system for

LED based

plant

factory

using

ZigBee 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.

Wireless

#56, II Floor, Pushpagiri Complex, 17th Cross 8th Main, Opp Water Tank,Vijaynagar,Bangalore-560040.

Website: www.citlprojects.com, Email ID: projects@citlindia.com,hr@citlindia.com

MOB: 9886173099 / 9986709224, PH : 080 -23208045 / 23207367

EMBEDDED PROJECTS

(Automotive, Biomedical, RFID, Eco Friendly, Robotics, Security, SPI, Wireless

(Zigbee,Ethernet,TCP,Bluetooth), Artificial Intelligence, Vanet, Ad-Hoc Network)

4

A Reliable

Transmissi

on Protocol

for ZigBee-

Based

Wireless

Patient

Monitoring.

This project is based on LPC2129 Controller. In this Zigbee is considered to be a new method for short range

wireless communication.. The requirement to support very low data rates for sensor and medical healthcare

applications, while meeting cost and power consumption targets, is probably the most demanding. The main

objective of this project is to monitor the patient health conditions like heart beat rate, ECG status and body

temperature using different sensors and transferring data to a remote place using Zigbee technology network

Wireless

5

ZigBee

based

energy

efficient

outdoor

lighting

control

system

This paper presents user-centric energy efficient lighting control architecture for street lamps. The system

utilizes ZigBee technology to implement wireless mesh network of street lamps. The coordinator, serving as

gateway between ZigBee nodes and internet, relays information of interests to remote user. The proposed system

comprises of LED lamps, gateway node, and management software that offer remote monitoring and control of

the lamps. Each LED lamp is integrated with ZigBee node, sensors and the Controller module along with ballast

actuator. To realize effectiveness of proposed system, prototype has been installed inside University

Wireless

6

Bus

Monitoring

System

Based on

ZigBee and

GPRS

Bus data acquisition and remote monitoring system combines the installation of an electronic device in a Bus,

with purpose-designed computer software to enable the owner or a third party to track the Bus location,

collecting data in the process. Modern vehicle tracking systems commonly use Global Positioning System (GPS)

technology for locating the Vehicle, but other types of automatic vehicle location technology can also be used.

Vehicle information can be viewed on electronic maps via the Internet or specialized software. In the main they

are easy to steal, and the average motorist has very little knowledge of what it is all about. Paper proposes an

supervisory system based on GPRS and ZigBee technology, to improve the operation efficiency of bus

monitoring system and realize intelligent transportation system. Paper introduces the bus monitoring system

from the aspect of both hardware design and software design. System takes it into accounts for the respective

advantages and disadvantages of GPRS and ZigBee, and designs a feasible solution successfully, of practically

significant

Wireless

7

System

architecture

challenges

in the home

M2M

network

This project demonstrates the concept of IR and M2M(Machine to Machine) Device control scheme for single

media multiple devices, in which there are home appliances like air-conditioner, electric fan, audio, display

device, electric lamp, curtain, electro motion chair, fragrance generator, flash light, fan heater and heater, etc.

devices which are not in the line of sight and will present in different room in a home cannot be controlled

simply by using IR whose distance will be short distance and line of sight only. This can be solved by the

combination of IR and ZigBee. In our proposed system we will give the control signals from the remote

controller which is again given to ZigBee then to another Zigbee which may present out of line of sight. The

second ZigBee will be connected to the different devices through Relays.

Wireless

8

Wireless

Monitoring

System

Design

based on

Embedded

uclinux

System

In this paper, ZigBee technology is used to build a home network, _Clinux system platform is used to build an

embedded Web server, Boa, so that the remote PC can access to the embedded Web through a browser, to

achieve remote monitoring. This paper is mainly to achieve the software design of home monitoring system,

including the operating system migration, the embedded Web server configuration, HTTP protocol design, and

CGI technology implementation.

Wireless

9

Intelligent

Sensor Hub

Benefits for

Wireless

Sensor

Networks

An innovative product type is enabling wireless sensor networks (WSNs) to become pervasive: The intelligent

sensor hub. This device type integrates one or more sensor die with a 32-bit microcontroller and memory in an

architecture optimized to manage, process and fusion a cluster of different sensor types. Integrated analog and

digital interfaces allow connections to a wide spectrum of external sensors and systems. Sensor networks can be

efficiently managed at system and sub-system levels, allowing very low-power consumption, high flexibility

through software, and adaptability by managing new kinds of sensors. An implementation proposal for a WSN

demonstrates the key benefits of this concept at the node and system levels. This includes minimizing data

transfers and intelligent interaction between the different nodes. Interfaces within a wireless network, like

ZigBee, are also becoming seamless and modular. Moreover, the small size – 3 by 3 millimeter – and the low-

cost of such new solutions are required for WSNs to become widely adopted in many applications

Wireless

10

Design of

Monitor-

and-control

System for

Supermarke

t Fresh

Area Based

on ZigBee

According to the status that most of supermarkets can’t effectively monitor the temperature and humidity

around Food of fresh area in our country currently, the thesis designs a Hierarchical topology central

monitoring system based on ZigBee Wireless sensor network (WSN). Automatically monitored and

controlled. The monitoring nodes, with the CC2430 chip and THS11 can collect and upload temperature

and humidity data to The Management Centre, which displays and processes the Data, through the central

node and the RS-232 interface. If the Collected data exceeds the threshold, it automatically starts the Alarm

system and the regulating system; while the data is lower than the standard value, regulating system could

be automatically shut down. Nodes work in the regular query power saving mode. Power is obtained from

button cells conversion Through MAX687.The results reveal that this WSN system has the potential for

field applications due to its low cost, low power and flexible networking construction

Wireless

11

Design and

implementa

tion of

landslide

warning

system

using

zigbee and

GSM

technology

In recent years, the frequent occurrence of landslide disasters caused great harm to people’s lives and

properties. The paper designs some wireless sensor monitoring nodes distributed on the hill side, they

construct a wireless data collection network based on the zigbee protocol. This design combines GSM

wireless communication technology and wireless sensor network, it have completed the work from the

system solution to the whole process of software and hardware design. The result proves that each node

works stably and the status of network communication is good. This design can collects the depth of water

in the mountain and the slope angle of the hill side, and provides the monitoring center with warning

information in time, so related departments can take effective measures rapidly to protect people’s lives and

properties

Wireless

12

Implementa

tion of

Embedded

Web Server

for Mobile

Robot

System

With the rapid growth of the Internet¸ the interest for connecting small devices such as sensors or embedded

system appliances into an existing network infrastructure has increased. Web browser is used by remote

operator to control and monitor the devices via Internet and these applications are widely utilized in tele-

operation, space exploration and tele-training systems, Such devices often have very limited CPU and

memory resources and may not be able to run a complete TCP/IP protocol suite. This project described an

implementation of embedded Web server for a mobile robot using minimal TCP/IP stack. The minimal

TCP/IP stack has to minimize the standard TCP/IP, in terms of code size and resources to be embedded into

minimal systems such as small mobile robots. The performance of the embedded Web server for tele-

control of a mobile robot was evaluated and presented

Wireless