Embedded GSM/GPRS/GPS Projects
1.Human health monitoring mobile phone application by using the wireless nanosensor based embedded system
Nowadays population growth increased exponentially and health diseases also increase parallel because the persons do not give important about the body conditions due to time allocation and highly expensive medical treatment. In this paper deals with this problem by using the nano sensor based mobile phones. Nano sensor was placed in the mobile phones. It's used to monitor the human body because now most of the peoples having the mobiles phones.
This mobile phone having the in build highly sensitive TI MSP430 family microcontroller and zigbee used to transmit the health care data's. Compare to the other microcontroller, TI MSP430 was secured for the patient health. The nanosensor used to detect the minute variations in the human body without need various types of sensor. In this device used to monitor and measure the ASTHMA, CANCER, and BLOODPRESURE, ECG from the human breathing and body temperature.
In this device alert the patient and display what is the body condition, causes, how to overcome this problems without need proper physician guides' and save the money. Five are more patient combined to make one wireless network with any one of the hospital management. The hospital management continuously monitor the patient health condition if any variations occurs in below or above to the normal range immediately making call to the patient home and also call the ambulance. The location of the person detected by using the GPRS tracking system.
2.Petrol Bunk Automation with prepaid cards and GSM Communication identification (IEEE 2015).
Automated have added to the new look of the petrol bunks. A drastic change which has taken the city by storm is the petrol machines that have invoked a new look with automated systems invading this area also. Now one can get updated details on the mobile using the cutting edge GSM Technology. This makes the customers know the exact quantity of petrol that has to be filled in, getting over the perennial problem of forgoing small change which most of the times the attendants at the bunks pocket for themselves.
The traditional archaic pumps have now been replaced by more advanced EMP Petrol Pumps for proper filling of fuel. This not only ensures accuracy, but also saves a lot of time for customers and avoids misconceptions and arguments. To demonstrate this as a project we have developed a PIC Micro controller based Petrol bunk automation system.
3.Water management system using dynamic IP based Embedded Web server in real time.
Water-quality monitoring technology has been taken a great attention in aquaculture because of increasing aquatic products and impact of food safety vicious incidents. In order to meet the technology requirements of water-quality monitoring in multi-parameter, dynamic, and networked monitoring, a water-quality dynamic monitoring system was developed to monitor multi-parameter water-quality variables such as water temperature, pH, dissolved oxygen, electrical conductivity, oxidation reduction potential dynamically, and communicate with remote information servers in a high security.
As result of a two-years testing experiment in a seawater aquiculture company, relative errors of each water-quality parameter measured by the instrument were less than 5%, data lost percentage of remote communication was less than 3%, and power energy consumption was less than 13W. Therefore, the water-quality dynamic monitoring system as a node infrastructure of wireless sensor networks can be used to achieve a distributed water-quality network monitoring system in a large-scale aquaculture farm, or to construct a distributed water-quality monitoring network system in multipoint of different cities for aquaculture farm and administration section.
4.Real time vehicle monitoring and tracking system based on embedded and android application(IEEE 2015)
An advanced vehicle monitoring and tracking system based on Embedded Linux Board and android application is designed and implemented for monitoring the school vehicle from any location A to location B at real time. The proposed system would make good use of new technology that based on Embedded Linux board namely Raspberry Pi and Smartphone android application.The proposed system works on GPS/GPRS/GSM SIM900A Module which includes all the three things namely GPS GPRS GSM.
The GPS current location of the vehicle; GPRS sends the tracking information to the server and the GSM is used for sending alert message to vehicle's owner mobile. The proposed system would place inside the vehicle whose position is to be determined on the web page and monitored at real time. In the proposed system, there is comparison between the current vehicle path and already specified path into the file system of raspberry pi.Here in the proposed system the already specified path inside the raspberry pi's file system taken from vehicle owner's android smart phone using android application.
Means the selection of path from location A to B takes place from vehicle owner's android application which gives more safety and secures traveling to the traveler. Hence the driver drives the vehicle only on the vehicle owner's specified path. If the driver drives the vehicle on the wrong path then the alert message will be sent from the proposed system to the vehicle's owner mobile and also speakers alert driven using Raspberry pi's audio jack. If the vehicle's speed goes beyond the specified value of the speed, then also the warning message will be sent from system to the owner mobile. The proposed system also took care of the traveler's safety by using LPG Gas leakage sensor MQ6 and temperature sensor DS18B20.
5.Application of gprs technology in water quality monitoring system.
The method of water quality monitoring applied by XueYe reservoir is sampling in the scene and analyzing at the laboratory at present. Based on analyzing key problem of water quality monitoring, automatic water quality monitoring system based on GPRS is provided in this paper. Considering features of water quality monitoring, the general structure and network framework of the system, and the way of access to GPRS of data monitoring center are designed based on GPRS technology. Water quality parameters collected by multi-parameter water quality probe are transmitted to data processing and monitoring center through GPRS wireless communication network of mobile.
The system collects, transmits and processes water quality parameters automatically, so production efficiency and economy benefit are improved greatly. Practice has proven GPRS technology can achieve well within the complex environment of poor water quality unmonitored, and more specifically applicable to the collection point, data transmission automatically generate the field of water analysis equipment data transmission and monitoring.
6.Automated Health Alerts Using In-Home Sensor Data for Embedded Health Assessment.
We present an example of unobtrusive, continuous monitoring in the home for the purpose of assessing early health changes. Sensors embedded in the environment capture behavior and activity patterns. Changes in patterns are detected as potential signs of changing health. We first present results of a preliminary study investigating 22 features extracted from in-home sensor data. A 1-D alert algorithm was then implemented to generate health alerts to clinicians in a senior housing facility. Clinicians analyze each alert and provide a rating on the clinical relevance.
These ratings are then used as ground truth for training and testing classifiers. Here, we present the methodology for four classification approaches that fuse multi sensor data. Results are shown using embedded sensor data and health alert ratings collected on 21 seniors over nine months. The best results show similar performance for two techniques, where one approach uses only domain knowledge and the second uses supervised learning for training.
Finally, we propose a health change detection model based on these results and clinical expertise. The system of in-home sensors and algorithms for automated health alerts provides a method for detecting health problems very early so that early treatment is possible. This method of passive in-home sensing alleviates compliance issues.
7.Multi-hop WBAN Construction for Healthcare IoT Systems
It is expected that the Internet of Things (IoT) applications for medical services can be one of the most remarkable solution for taking care of aging population which is in the rapid growth. IoT consists of communications and sensors to accomplish purpose. In the diverse kinds of networks, wireless body area network (WBAN) is a highly suitable communication tool for the medical IoT devices. There are many researches about WBAN and sensor network, which are mainly focused on energy efficiency.
However, in this paper, we discuss more practical issues for implementation of WBAN to healthcare service. Therefore, we propose a multi-hop WBAN construction scheme that is consists of 4 operations, the clustered topology setup, mobility support, and transmission efficiency enhancement. As an auxiliary benefit, the proposed scheme achieves an energy efficient feature by reducing the number of total control messages. Extensive simulation shows that the proposed scheme remarkably improves the performance of WBAN.
8.Development of Android based on-line monitoring and control system for Renewable Energy Sources.
This paper describes the development of an online monitoring and control system for distributed Renewable Energy Sources (RES) based on Android platform. This method utilizes the Bluetooth interface of Android Tablet/ Mobile phone as a communication link for data exchange with digital hardware of Power Conditioning Unit (PCU). The Low Cost Android tablet can replace the graphical LCD displays and Internet modem of RES Power Conditioning Unit (PCU) with enhanced graphical visualization and touch screen interface.
9.Design and Implementation of Vehicle Tracking System Using GPS/GSM/GPRS Technology and Smartphone Application
This Project presents an automotive localization system using GPS and GSM-SMS services. The system permits localization of the automobile and transmitting the position to the owner on his mobile phone as a short message (SMS) at his request. The system can be interconnected with the car alarm system and alert the owner on his mobile phone. This tracking system is composed of a GPS receiver, Microcontroller and a GSM Modem.
GPS Receiver gets the location information from satellites in the form of latitude and longitude. The Microcontroller processes this information and this processed information is sent to the user/ owner using GSM modem. Microcontroller also gets the speed of the vehicle and sends it to user/owner. The presented application is a low cost solution for automobile position and status, very useful in case of car theft situations, for monitoring adolescent drivers by their parents as well as in car tracking system applications.
The proposed solution can be used in other types of application, where the information needed is requested rarely and at irregular period of time (when requested). This system is also can be interfaced with Vehicle airbag system. This enable it to monitor the accident situations and it can immediately alerts the police/ambulance service with the location of accident.
10.Design of Intelligent Ambulance and Traffic Control.
This paper represents the unique feature which is very useful to ambulance drivers to take an alternate route in case of congestion. The various performance evaluation criteria are average waiting time, average distance traveled by vehicles, switching frequency of green light at a junction, efficient emergency mode operation and satisfactory operation of SMS using GSM Mobile.
The performance of the Intelligent Traffic Light Controller is compared with the Fixed Mode Traffic Light Controller. It is observed that the proposed Intelligent Traffic Light Controller is more efficient than the conventional controller in respect of less waiting time, more distance traveled by average vehicles and efficient operation during emergency mode and GSM interface. Moreover, the designed system has simple architecture, fast response time, user friendliness and scope for further expansion.
11.Multi-Channel Data Acquisition and Data Logging for Green House Application.
This paper presents an overview of data acquisition, data logging and supervisory control of different parameters for green house application. In this work a Green House system is considered, where data from various parameters are needed to be acquired, logged in a database for further analysis and supervisory control. This paper acquires data of surrounding temperatures of the Green House and pH value of water in Green House and controls the parameters when an alarming situation occurs.
12.Design and Development of a Networked Health Monitoring and Control System – Just paper
This paper describes an ongoing project investigating embedded networked sensing for structural health monitoring applications. The vision is of many low-power sensor “motes” embedded throughout the structure with a smaller number of nodes that can provide local excitation. The challenge is to develop both the networking algorithms to reliably communicate within the network, and distributed algorithms to monitor the state of the structure.
A wireless data acquisition network is described, including the methods of storing and transmitting the data. A damage detection scheme is described that uses extremely low transmission bandwidth, and is shown to be effective in detecting damage in a simulated structure. Finally, a large-scale structural testbed that is being used for this project is described. The outcome of this work-in-progress is expected to be strong recommendations and algorithms for distributed wireless sensor/actuator structural health monitoring networks.
13.Surveillance System with Light Sensor
Security and safety is one of the most talked of topics in almost every facet like surveillance, industrial applications, offices, and in general, in smart environments. Traditional surveillance systems suffer from an unnecessary waste of power and the shortcomings of memory conditions in the absence of invasion. In this paper we design a home embedded surveillance system which evaluates the development of a Low-cost security system using small PIR (Pyroelectric Infrared) sensor built around a microcontroller with ultra-low alert power.
The system senses the signal generated by PIR sensor detecting the presence of individuals not at thermal equilibrium with the surrounding environment. Detecting the presence of any unauthorized person in any specific time interval, it triggers an alarm & sets up a call to a predefined number through a GSM modem. After the MCU sends the sensor signals to the embedded system, the program starts the Web camera. Our sensing experiment will show that we reduce not only memory consumption but also the system’s power consumption.
14.Wireless black box using MEMS accelerometer and GPS tracking for Accidental monitoring of vehicles
In this work, wireless black box using MEMS accelerometer and GPS tracking system is developed for accidental monitoring. The system consists of cooperative components of an accelerometer, microcontroller unit, GPS device and GSM module. In the event of accident, this wireless device will send mobile phone short massage indicating the position of vehicle by GPS system to family member, emergency medical service (EMS) and nearest hospital.
The threshold algorithm and speed of motorcycle are used to determine fall or accident in real-time. The system is compact and easy to install under rider seat. The system has been tested in real world applications using bicycles. The test results show that it can detect linear fall, non-linear fall and normal ride with high accuracy.
15.Implementation of a Web of Things based Smart Grid to remotely monitor and control Renewable Energy Sources
In recent years, electricity generation by photovoltaic (PV) or wind power (WP) has received considerable attention worldwide. The State Grid Corporation of China (SGCC) is building the National Wind/PV/battery energy storage station (BESS) and Transmission Joint demonstration project and it is located in the region of Zhangbei, Hebei, China. The Zhangbei belongs to one of the country’s 10 million kilowatts of wind power base.
The demonstration project is scheduled in three stages. Now, it is in the first stage and at the end of December, 2011, a 100-MW wind farm, a 40-MW PV farm, and 14-MW/63-MWh lithium–ion BESS have been built at Zhangbei. Development of batteries, battery energy storage systems recently have begun to be utilized for multiple applications such as frequency regulation, grid stabilization, transmission loss reduction, diminished congestion, increased reliability, wind and solar energy smoothing, spinning reserve, peak-shaving, load leveling, uninterruptible power sources, grid services, electric vehicle (EV) charging stations, and others.
The sensor’s outputs are given to Microcontroller (MC) which is connected to WSN (wireless communication network) to communicate the data between PC and MC. When the intensity of energy from the solar panel is less, then the panel can be shifted automatically upwards. If the energy from the solar panel is less, then the energy generated by the windmill is used to drive the device. The whole system is placed in the ocean.
16.Automatic Measurement and Reporting System of Water Quality Based on GSM
The traditional method of water quality testing is to collect samples manually and then send them to laboratory for analysis. However, it has been unable to meet the demands of water quality monitoring today. So a set of automatic measurement and reporting system of water quality has been developed. The system consists of multiple sensors of water quality testing, single-chip microcontroller data acquisition module, information transmission module, monitoring center and other accessories. Various parameters of water quality are automatically detected under the control of single chip micro controller all day. The single chip gets the data, and then processes and analyzes them. After that, the data are instantaneously sent to monitoring center by GSM network in the form of SMS.
If the water quality is abnormal, the data will be sent to monitoring center and management's mobile in the same way at the same time. It is convenient for management to take corresponding measures timely and be able to detect real-time situation of water quality remotely. The system has realized the automation of water quality monitoring, intelligence of data analyzing and networking of information transferring. It is characterized by advantages of shortcut, accuracy and using manpower and material resources sparingly. The system has widespread application value and can be extended and transplanted to other fields of automatic monitoring where needed.
17.Remote energy monitoring, profiling and control through GSM network
This paper presents design and development of a GSM based energy monitoring, profiling and control system. Our system integrates digital energy meters installed at consumer unit with an electric supply company's energy monitoring system. Single phase or three phase digital electric meter can be used with indigenously developed add on transmission module, which takes the meter reading and utilizes the GSM network to transmit the energy usage reading using Short Message Service (SMS) back to the energy supplier.
At the supplier end, an energy monitoring system is used to manage all received meter readings, compute the billing cost, update the database and maintain an energy consumption profile for each user. Various alerts and control can also be generated by the supplier. A simple, cost effective and reliable working prototype of complete system has been developed using digital energy meter manufactured by Micro Tech Limited, Pakistan to demonstrate an efficient and transparent means of automatic meter reading, billing and notification through the use of GSM network.
18.Application of Data Acquisition System for Superconducting Quantum Interface Devices (SQUID) at Remote Location
Together with technological developments related to the specific area, the scope of remote data acquisition systems has become widened. The usages of these kinds of systems prevent waste of time and labor. Therefore, in this work, the introduction and design of a data acquisition system that can sense and send the output of Superconducting Quantum Interface Devices (SQUID) to main lab via wireless with GPRS is aimed to be provided. The system of this design uses FPGA and MCU together within the processes of collecting, packing and sending data.
In this design, XILINX Spartan 3AN is used as a FPGA, ST Microelectronics ARM Cortex-M4 used as a MCU.The main purpose of FPGA is collecting analog data with using ADC and packing them in order. On the other hand, the main purpose of MCU is to send packed data through the GPRS. The processing load of MCU is decreased by using FSMC (Flexible static memory controller) of it while getting data from FPGA; also with parallel connection data transfer rate is increased. Also by using FSMC, first time 200Hz data collecting will actualized through the remote data acquisition systems based on GPRS.
19.Robust Mobile Device Integration of a Fingerprint Biometric Remote Authentication Scheme
Communications in the wireless environments such as GSM, CDPD, 3G, and 4G are very popular. Therefore, it is necessary to have a secure authentication scheme to protect transactions between users and servers from illegal adversaries. Especially, users are people vulnerable to attacks and there are many authentication schemes with smart cards proposed to guarantee them.
Recently, Chen et al have proposed a scheme integrated with fingerprint of users to enhance security for authentication. With this idea, Chen et al.'s scheme truly is more secure than previous ones. However, their scheme is easy to be compromised by replay attack. Furthermore, attackers can steal identity to re-register to obtain secret key to fake users and servers. In this paper, we present an improvement to their scheme in order to isolate such problems.
20.Implementation of a Web of Things based Smart Grid to remotely monitor and control Renewable Energy Sources
In recent years, electricity generation by photovoltaic (PV) or wind power (WP) has received considerable attention worldwide. The State Grid Corporation of China (SGCC) is building the National Wind/PV/battery energy storage station (BESS) and Transmission Joint demonstration project and it is located in the region of Zhangbei, Hebei, China. The Zhangbei belongs to one of the country’s 10 million kilowatts of wind power base. The demonstration project is scheduled in three stages.
Now, it is in the first stage and at the end of December, 2011, a 100-MW wind farm, a 40-MW PV farm, and 14-MW/63-MWh lithium–ion BESS have been built at Zhangbei. Development of batteries, battery energy storage systems recently have begun to be utilized for multiple applications such as frequency regulation, grid stabilization, transmission loss reduction, diminished congestion, increased reliability, wind and solar energy smoothing, spinning reserve, peak-shaving, load leveling, uninterruptible power sources, grid services, electric vehicle (EV) charging stations, and others.
The sensor’s outputs are given to Microcontroller (MC) which is connected to WSN (wireless communication network) to communicate the data between PC and MC. When the intensity of energy from the solar panel is less, then the panel can be shifted automatically upwards. If the energy from the solar panel is less, then the energy generated by the windmill is used to drive the device. The whole system is placed in the ocean.
21.Design of bio-signal based physical activity monitoring system
Conventional physical activity systems with 3-D accelerometer or global positioning system (GPS) can effectively quantize energy expenditure for aerobic exercise. However, they are limited for aerobic exercise monitoring. To overcome this limitation, we developed EMG based portable physical activity monitoring system. Proposed system extract unique features of motion based exercise and muscular motion based exercise from measured bio-signal. Experimental results showed it can clearly classify the aerobic exercise, isotonic resistance exercise, and hybrid types of exercise. Through this system, more complex types of physical activity can be recognized accurately.
22.Automated Irrigation System Using a Wireless Sensor Network and GPRS Module
The project is designed to develop an automatic irrigation system that switches a pump motor ON/OFF by sensing the moisture content of the soil using wireless technology effectively for agriculture applications through GSM Modem used in sending an SMS on the status. In the field of agriculture, use of proper method of irrigation is important. The advantage of using this method is to reduce human intervention and to ensure proper irrigation. The project uses an 8051 series microcontroller which is programmed to receive the input signal of varying moisture condition of the soil through sensing arrangement.
This is achieved by using an op-amp as comparator which acts as interface between the sensing device and the microcontroller. Once the controller receives this signal, it generates an output that drives a relay for operating the water pump. It also sends an SMS to the concerned number using GSM modem. An LCD display is also interfaced to the microcontroller to display the status of the soil and water pump ON / Off condition. The sensing arrangement is made by using two stiff metallic rods inserted to the agricultural field required to be in control. Connections from the metallic rods are interfaced to the control unit.
23.Realization of intelligence monitoring system based on remote sensor technology
With the continuous improvement of living standards, people's demands on security also grow with each passing day. In order to achieve safety monitoring on important places or valuables, a new intelligence monitoring system was designed and implemented. It took the wireless sensor technology and the embedded control technology as the foundation. At the same time, it realized the wireless remote communication with GSM mobile communication technology.
The structure, function and working principle of the wireless remote monitoring system were introduced. The hardware and software of the system were all designed and realized. It achieved wireless remote monitoring on important places and valuables finally. Experimental results show that the wireless remote monitoring system works well and has the stable data collection and transmission quality. It has a high value for practical application.
24.A multi-parameter signal monitoring system based on Cortex-M3
In order to achieve the simultaneous monitoring of multiple physiological signals and finish the real-time storage and transmission of data, this paper presents a multi-parameter physiologicalsignal monitoring system based on Cortex-M3. The system uses high-capacity SD card for data storage and USB for data transmission, which achieves synchronous storage and display. In addition, it reduces the operating frequency to achieve the goal of low power consumption .The experimental results show that the system is characterized by high-capacity, low-power and high accuracy, which meets the user's requirements for physiological signal monitoring.
25.Sensor Network Based oil well Health Monitoring and Intelligent Control
Most oil pumping units (OPUs) have been using manual control in the oilfield. This existing oil-pumping system, a high power-consuming process, has the incapability of OPU's structural health monitoring. In this paper, a sensor network based intelligent control is proposed for power economy and efficient oil well health monitoring.
The proposed sensor network consists of three-level sensors: (1) several types of basic sensors, such as load sensor, angular sensor, voltage sensor, current sensor and oil pressure sensor, which are the first level sensors (FLS), are used for oil well data sensing;
(2) our developed intelligent sensors (IS), which belong to the second level sensor, are designed mainly for an oil well's data elementary processing, main fault alarm/indication, typical data storage/indication, data/status transmission up to the third level sensor (TLS), data/status transmission between IS, and command transmission down to the OPU motor; and
(3) our developed software-defined (SD) control centers with an embedded database, i.e., the TLS, are designed for hundreds of oil wells data storage/management, data processing, malfunction detection, malfunction alarm/indication, stroke-adjustment command transmission down to a specific IS for power economy and the malfunction report to the maintenance staff via global system for mobile communications (GSM) short message service (SMS). Experiment results at the Chinese Petroleum's Changing Oilfield demonstrate our proposed sensor network based system.
26.Plantation Monitoring System Based on Internet of Things
In this work, we present a plantation monitoring system based on Internet of Things. The system combines wireless sensor network, embedded development, GPRS communication technology, web service, and Android mobile platform. The hardware design of sensor nodes, data acquisition, data transmission, together with data visualization and abnormal alarm are discussed in detail. Long-term experiment of the system shows that the scheme is feasible and reliable.
27.Distributed and Remote Control: Based on Smart House
Under technological advancement, technology allows human life to be more convenient and safer. This study used Lab View as the system development software and the computer on the server side, to develop an intelligent distributed monitoring system for monitoring household electronic appliances. Besides controlling the server-end, network and GSM system were used to construct remote control and monitoring capabilities. The communication between the server end and each control end was through ZigBee, thus achieving a wireless network.
28.Design of on-line Interactive Data Acquisition and Control System for embedded real time applications
Design of on-line embedded web server is a challenging part of many embedded and real timedata acquisition and control system applications. The World Wide Web is a global system of interconnected computer networks that use the standard Internet Protocol Suite (TCP/IP) to serve billion of users worldwide and allows the user to interface many real time embedded applications like data acquisition, Industrial automations and safety measures etc,.
This paper approached towards the design and development of on-line Interactive Data Acquisition and Control System (IDACS) using ARM based embedded web server. It can be a network, intelligent and digital distributed control system. Single chip IDACS method improves the processing capability of a system and overcomes the problem of poor real time and reliability.
This system uses ARM9 Processor portability with Real Time Linux operating system (RTLinux RTOS) it makes the system more real time and handling various processes based on multi tasking and reliable scheduling mechanisms. Web server application is ported into an ARM processor using embedded `C' language. Web pages are written by Hyper text markup language (HTML); it is beneficial for real time IDACS, Mission critical applications, ATM networks and more.
29.IOT Gateway: Bridging Wireless Sensor Networks into Internet of Things.
With the development of sensor, wireless mobile communication, embedded system and cloud computing, the technologies of Internet of Things have been widely used in logistics, Smart Meter, public security, intelligent building and so on. Because of its huge market prospects, Internet of Things has been paid close attention by several governments all over the world, which is regarded as the third wave of information technology after Internet and mobile communication network. Bridging between wireless sensor networks with traditional communication networks or Internet, IOT Gateway plays an important role in IOT applications, which facilitates the seamless integration of wireless sensor networks and mobile communication networks or Internet, and the management and control with wireless sensor networks.
In this paper, we proposed an IOT Gateway system based on Zigbee and GPRS protocols according to the typical IOT application scenarios and requirements from telecom operators, presented the data transmission between wireless sensor networks and mobile communication networks, protocol conversion of different sensor network protocols, and control functionalities for sensor networks, and finally gave an implementation of prototyping system and system validation.
30.Implementation of a remote data logging system
Eskom is in the process of collecting load profile and other data towards the NRS034 Domestic Load Research Project. Their remote data logging system annually accumulates more than 300 mill date/time stamped measurands of household load per year from 650 households around South Africa. This paper describes the latest developments of the underlying remote data logging system used for load profiling certain customers.
Over a number of years the data logging system has increased in scale, sophistication, accuracy and reliability. The elements of such a system must work smoothly to ensure availability and reliability of load data. With a constant increase in data loggers and changes to their software applications and related hardware, it is apparent logging systems are becoming increasingly more complex.
31.A Cloud Network-based Power Management Technology for Smart Home Systems
With the fast development of network infrastructure, connecting to the Internet at any time and any place has been made easy and possible. On the other hand, as our world is suffering energy crisis on oil and natural resources shortages, how to make efficient use of limited power energy has remained a major problem to be conquered so far. Aimed to facilitate the life of human being as well as to use the limited power energy more efficiently, we propose in this paper a technology that can perform remote control and monitoring of electrical appliances on the Internet.
To do this, an intelligent power socket (IPS) module that is able to control and monitoring the power of electricity is realized in this research. The IPS modules are placed in conjunction with the electrical appliances that are to be controlled from a far-end place. In addition, an embedded system-based home gateway that can be connected with the Internet is set up in which the electrical appliances are located. Moreover, the acquired power consumption information or the status of the appliances is stored in a database server in the Cloud.
With the proposed structure, authorized users or system managers can log into the web server which is connected with the database, monitoring the power status and take actions on the appliances remotely. The control command from the far-end place, i.e., from the web server on the Internet, is first sent to the home gateway and then transmitted to the IPS modules through the Zigbee wireless communication protocol so that the remote control of appliances can be achieved.
The proposed architecture can be easily applied to any kind of room space. Moreover, only a browser is needed for the client to communicate with the web server, no other application program is required. As the browser is now available almost on every information technology products, e.g., a notebook or a smart phone, the proposed architecture has been shown to be very convenient and useful for remote c- ntrol and monitoring of electrical appliances, and hence can facilitate the life of human beings.
32.Automatic ambulance rescue system
Traffic congestion and tidal flow management were recognized as major problems in modern urban areas, which have caused much thwarting for the ambulance. Moreover road accidents in the city have been incessant and to bar the loss of life due to the accidents is even more crucial. To implement this we introduce a scheme called AARS (Automatic ambulance rescue system). The main theme behind this scheme is to provide a smooth flow for the ambulance to reach the hospitals in time and thus minifying the expiration.
The idea behind this scheme is to implement a ITS which would control mechanically the traffic lights in the path of the ambulance. The ambulance is controlled by the central unit which furnishes the most scant route to the ambulance and also controls the traffic light according to the ambulance location and thus reaching the hospital safely. The server also determines the location of the accident spot through the sensor systems in the vehicle which encountered the accident and thus the server walks through the ambulance to the spot. This scheme is fully automated, thus it finds the accident spot, controls the traffic lights, helping to reach the hospital in time.
33.Home automation and security for mobile devices
As mobile devices continue to grow in popularity and functionality, the demand for advanced ubiquitous mobile applications in our daily lives also increases. This paper deals with the design and implementation of HASec, a Home Automation and Security system for mobile devices that leverages mobile technology to provide essential security to our homes and associated control operations.
In particular, with the help of mobile devices, HASec operates and controls motion detectors and video cameras for remote sensing and surveillance, streams live video and records it for future playback, and finally manages operations on home appliances, such as turning ON/OFF a television or microwave or altering the intensity of lighting around the house. The proposed home security solution hinges on our novel integration of cameras and motion detectors into a mobile application. For instance, when motion is detected, the cameras automatically initiate recording and the iOS device alerts the homeowner of the possible intrusion.
HASec has two main components interacting with each other: the iOS application that executes on the mobile device and server-side scripts that run in a cloud. Although HA-Sec is implemented for Apple's iOS devices such as iPhone, iPod Touch, and iPad, it can be easily ported to other mobile platforms. Furthermore, our application is not only limited to smart-phones but also can be used by feature phones through their browsers.
34.Automatic Meter Reading GSM for post-paid energy Meter
The technology of e-metering (Electronic Metering) has gone through rapid technological advancements and there is increased demand for a reliable and efficient Automatic Meter Reading (AMR) system. This paper presents the design of a simple low cost wireless GSM energy meter and its associated web interface, for automating billing and managing the collected data globally. The proposed system replaces traditional meter reading methods and enables remote access of existing energy meter by the energy provider.
Also they can monitor the meter readings regularly without the person visiting each house. A GSM based wireless communication module is integrated with electronic energy meter of each entity to have remote access over the usage of electricity. A PC with a GSM receiver at the other end, which contains the database acts as the billing point. Live meter reading from the GSM enabled energy meter is sent back to this billing point periodically and these details are updated in a central database.
A new interactive, user friendly graphical user interface is developed using Microsoft visual studio .NET framework and C#. With proper authentication, users can access the developed web page details from anywhere in the world. The complete monthly usage and due bill is messaged back to the customer after processing these data.
35.A survey of Internet-of-Things: Future Vision Architecture, Challenges and Services
Recently, the concept of the Internet as a set of connected computer devices is changed to a set of connected surrounding things of human’s living space, such as home appliances, machines, transportation, business storage, and goods etc. The number of things in the living space is larger than the number of world population. Research is going on how to make these things to communicate with each other like computer devices communicate through Internet.
The communication among these things is referred as Internet of Things (IoT). Till now, there is no specific definition or standard architecture of IoT. Some researchers define the IoT as a new model that contains all of wireless communication technologies such as wireless sensor networks, mobile networks, and actuators. Each element of IoT is called a thing and should have a unique address. Things communicate using the Radio-Frequency Identification (RFID) technology and work in harmony to reach a common goal.
In addition, the IoT should contain a strategy to determine its users and their privileges and restrictions. The US National Intelligence council has stated that by 2025 the IoT will connect everything in our life [1]. For this target new architectures are proposed and more research challenges are opened. Authors in [1] highlight some research challenges. Despite new architectures are proposed in the recent years, however, the future vision of IoT is still unclear. Considering the research challenges and future vision of IoT, in this paper we present a detail survey. At the end of the paper, we also present our recommendations.
36.Design & Development of a GSM Based Auto Burglary Tracking System
“Surveillance system using phone line for security and tracking”. Based on the above statement, it is targeted that this project will serve as good indication of how important it is to curb car theft in the country. Surveillance is specified to car alarm system and the means of sending the data to the owner of the vehicle using SMS when the alarm is triggered. Due to the inefficient conventional car security system, the possibility of the car can be stolen is high. The main reason is that the alarm is limited to the audible distance. Somehow if there is another way of transmitting the alarm to the car owner, tracking the vehicle, knowing the exactly that the car is been stolen at the same time that is not limited to the audible and line of sight, the system can be upgraded.
SMS is a good choice of the communication to replace the conventional alarm, because it can be done and does not require much cost. Although most of people know GPS can provide more security for the car but the main reason people does not apply it because the cost. Advance car security system is too expensive. Cost for the gadget is too high. Beside that, people also must pay for the service monthly. Tracking systems were first developed for the shipping industry because they wanted to determine where each vehicle was at any given time. Passive systems were developed in the beginning to fulfill these requirements.
For the applications which require real time location information of the vehicle, these systems can’t be employed because they save the location information in the internal storage and location information can only be accessed when vehicle is available.To achieve automatic Vehicle Location system that can transmit the location information in real time. Active systems are developed. Real time vehicular tracking system incorporates a hardware device installed in the vehicle (In Vehicle Unit) and a remote Tracking server.
The information is transmitted to Tracking server using GSM/GPRS modem on GSM network by using SMS or using direct TCP/IP connection with Tracking server through GPRS. Tracking server also has GSM/GPRS modem that receives vehicle location information via GSM network and stores this information in database. This information is available to authorized users of the system via website over the internet.
37.Application of RFID Technology and the Maximum Spanning Tree Algorithm for Solving Vehicle Emissions in Cities on Internet of Things
The proportion of air pollution which is caused by the cars is increasing. In order to solve this serious problem, many countries and regions have already presented a series of emissions standards, meanwhile some methods has been developed, include update motor engine or improve the quality of the gasoline. However, these actions have not brought about a striking effect as we expect. There are also some situations to fail implement these emissions standards.
In this paper, a wireless inspection and notification system (WINS) through the concept of Internet of Things (IoT) is proposed. By applying the system, it is possible to smoothly realize a green traffic network. In this system, Radio frequency identification (RFID) technology as a low-cost and mature wireless communication method is adopted to collect and transmit emissions information of vehicles.
Moreover, The RFID devices need to be installed on the traffic lights so that reliable reading of emissions signals from a vehicle can be interrogated when the vehicles stop in front of the red light. Taken into consideration the real environment, an efficient and innovative maximum spanning tree algorithm (MXAST) is also presented to select suitable traffic lights aim to reduce the number of RFID devices (more economy) and guaranteed the whole urban cars can be monitored (simple & safety).
38.Wireless black box using MEMS accelerometer and GPS tracking for Accidental monitoring of vehicles
In this work, wireless black box using MEMS accelerometer and GPS tracking system is developed for accidental monitoring. The system consists of cooperative components of an accelerometer, microcontroller unit, GPS device and GSM module. In the event of accident, this wireless device will send mobile phone short massage indicating the position of vehicle by GPS system to family member, emergency medical service (EMS) and nearest hospital.
The threshold algorithm and speed of motorcycle are used to determine fall or accident in real-time. The system is compact and easy to install under rider seat. The system has been tested in real world applications using bicycles. The test results show that it can detect linear fall, non-linear fall and normal ride with high accuracy.
39.Analysis and implementation of a wireless sensor network with remote access through SMS
The use of wireless sensor networks for monitoring physical and chemical parameters in large regions far from populations allows for real-time monitoring with high levels of spatial resolution. This paper presents WubiNet, a wireless network designed for monitoring large regions. Depending on the available infrastructures, the network can be operating for two years using only batteries, or its coordinator can be powered by solar cells to guarantee the transmission of the collected data by SMS using GSM/GPRS technology or satellite phones. The data are transmitted to a base station located out of the range of the node transceivers, where can be represented and analyzed.
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