Design and implementation of real time embeddedtele-health monitoring system

Now a day's healthcare industry is to provide better healthcare to people anytime and anywhere in the world in a more economic and patient friendly manner. In the present paper the physiological parameters such as ECG, Pulse rateand Temperature are obtained, processed using ARM7 LPC 2138 processor and displayed in a MATLAB graphical user interface. If any vital parameter goes out of normal range then alert SMS will be sent to Doctor Mobile. This system is utilizing Teamviewer software and low cost component to transmit ECG data to physicians for monitoring, diagnosisand patients care at a significantly low cost, regardless of patient's location.

Harnessing and securing cloud in patient health monitoring

 

A first proposal to use a secure open cloud architecture (OpenCloudCare) for remote patient health monitoring defines the front end and back end architecture that would integrate healthcare devices into the enterprise cloud. This service oriented architecture (SOA) uses existing open source resources for easy implementation, migration and rapid deployment. The introduction of the atlas middleware in the cloud environment enables scalable integration of devices as software services without worrying on hardware details. OpenCloudCare has the potential to enable the independent living for the aged people with minimal cost. Like Amazon EC2, OpenCloudCare can emerge as the de-facto platform, on which different vendors and developers can offer wider range of services using existing devices and enterprise applications. The benefits of migrating existing patient monitoring systems into cloud and the migrating process are also discussed. The major components required for securing the cloud infrastructure are also identified. Complying with the federal requirements on electronic health record (EHR) protection is the major challenge.

The Design of Atmospheric Environment Monitoring System Based on ARM9 Platform and GPRSTechnology

With the development of communication and embedded technology, using the mainstream of embedded platform andadvanced data communication network to achieve intelligent

monitoring has been gotten more and more attentions. In order to realize

monitor and control the multi-component pollution gases of industrial Park in real time. The paper proposes an atmospheric monitoring system which was based

on GPRS and embedded technology. The article described the design methods mainly from system component, hardware and software design and apply the embedded Windows CE as

development platform for applications. At last, the implementation method of communication between monitoring terminal and control center is introduced

The design of remote video monitoring system based on S3C2416 and GPRS

In this paper, A wireless video monitoring system based onGPRS network and ARM9 is designed. The embedded chipand the programming techniques are adopted. The central monitor which adopts S3C2416 chip as controller is the core of the whole system. First, USB camera video data are collected by the embedded Linux system, processed, compressed and transferred by the processing chip. Then, video data are sent to the monitor client by GRPS network. Tests show the presented wireless video surveillance system is reliable and stable. And it has a perfect application prospects with real-time monitor. View full abstract»

The Design of Atmospheric Environment Monitoring System Based on ARM9 Platform and GPRSTechnology

With the development of communication and embedded technology, using the mainstream of embedded platform andadvanced data communication network to achieve intelligent monitoring has been gotten more and more attentions. In order to realize monitor and control the multi-component pollution gases of industrial Park in real time. The paper proposes an atmospheric monitoring system which was based on GPRS and embedded technology. The article described the design methods mainly from system component, hardware and software design and apply the embedded Windows CE as development platform for applications. At last, the implementation method of communication between monitoring terminal and control center is introduced.

The design of remote video monitoring system based on S3C2416 and GPRS

In this paper, A wireless video monitoring system based onGPRS network and ARM9 is designed. The embedded chipand the programming techniques are adopted. The central monitor which adopts S3C2416 chip as controller is the core of the whole system. First, USB camera video data are collected by the embedded Linux system, processed, compressed and transferred by the processing chip. Then, video data are sent to the monitor client by GRPS network. Tests show the presented wireless video surveillance system is reliable and stable. And it has a perfect application prospects with real-time monitor. View full abstract»

Intelligent Monitoring and Control Rendered to Street Lighting

Intelligent Monitoring and Control Rendered to Street Lighting is a novel idea to wirelessly control street lights. Every individual streetlight i.e. node has a unique IPv6 andIEEE address through which it can be controlled from the control centre. The system is designed using a microcontroller MSP430F6636 and an RF IC CC1180. The RF IC is used for sending and receiving the monitoring andcontrol signals to and from the control centre. The microcontroller processes the signals obtained from the RF IC as well as the lamp. Messages are sent from control centre to nodes via gateway, which is a node with a GPRSmodule. The gateway passes the messages to the respective nodes by hopping the message between the nodes. The communication between nodes takes place in ISM band and that between gateway and control centre through GPRS. Automatic as well as manual remote switching on or off of individual lamps, controlling their light intensity and acquisition of status and failure is possible. Through this system we can save almost 50% of the power consumed just by strategically dimming lights. Maintenanceand patrol costs are also reduced. This paper attempts to make this system as flexible, compact and cost effective as possible, also the front end can be modified to suit any application. View full abstract»

Remote Monitoring System of ECG and Human Body Temperature Signals

The paper presents a remote monitoring system for electrocardiographic and temperature signals. The system consists of a hardware module for acquisition, a Bluetooth transmission module and finally a displaying module (PC or mobile devices). Information is sent via IP (GPRS or WiFi) to a database server containing clinical data, which can be accessed through a web application. The system was assessed by testing different patients with the support of a medical doctor, obtaining a positive performance.

Implementation of children tracking system on android mobile terminals

 

Recently, all over the world crime against children is increasing at higher rates and it is high time to offer safety support system for the children going to schools. This paper focuses on implementing children tracking system for every child attending school. However the existing systems are not powerful enough to prevent the crime against children since these systems give information about the children group andnot about each child resulting in low assurance about their child safety to parents and also does not concentrate on sensing the cry of the child and intimating the same to its parents. The proposed system includes a child module andtwo receiver modules for getting the information about the missed child on periodical basis. The child module includesARM7 microcontroller (1pc 2378) Global positioning system (GPS) Global system for mobile communication (GSM) Voice playback circuit and the receiver module includes Android mobile device in parent's hand and the other as monitoring database in control room of the school. Finally implementation results for the proposed system are provided in this paper. View full abstract»

ARM Hardware Plaform for Vehicular Monitoring andTracking

Design of Vehicular monitoring and tracking system based on ARM using GSM and GPM is proposed. The vehicular module is used to track, monitor, and surveillance and finds the accident spot and intimate to the monitoring station. The proposed design provides information regarding vehicle Identity, speed, and position on real time basis. This information are collected by the ARM7 TDMI-S core processor LPC2148 by using different module and dispatch it to the monitoring station where it stores the information in database and display it on graphical user interface (GUI) that is user friendly. GUI is built on Microsoft Visual Studio 2010. This design provides information in real time using μc/OS-II. 

GPRS-based remote sensing and teleoperation of a mobile robot

The main objective of this research was to design andimplement a remote sensing and monitoring system running on mobile robot with obstacle avoidance capability in unreachable area. A simple mobile robot prototype with onboard sensors has been designed and implemented to scan and monitor several variables in the surrounding environment. Teleoperation of such a mobile robot is a challenging task that requires an efficient interface and a reliable real-time robot control to avoid obstacles. The proposed system enables the user (base station) to send commands to the remote station (mobile robot), and receive scanned data and images from the environment through the internet and mobile DTMF signal. The proposed system hardware and software was implemented using PROTUS development software to obtain the suitable design parameters. Then, real experiments have been achieved to demonstrate the system performance

including both the ultrasonic teleoperation of mobile robot navigation to avoid obstacles, and real-time sensing and monitoring in unreachable area. View full abstract»

Toward the design of rural intelligent public transportation system rural public transportation of Iran

In order to improve the level of intelligence, availability, being on demand, convenience, information andhumanization of rural public transportation systems, they are more willing to use modern information andcommunicative technologies. In addition to management services, intelligent transportation systems can provide passengers, drivers, travel agencies and other institutions with other services such as trip planning, tracking, routingand so forth. This paper presents a comprehensive design of rural intelligent transportation system based on cloud andgrid computing, RFID, GPS, GPRS, NFC, GIS, etc. through electronic commerce and particularly mobile commerce in order to improve the rural transportation management andpresentation of user-centric services. The system designed on this paper regardless of the possible challenges could efficiently cover the problems of Iran rural transportationand it can also be connected to urban transportation systemand create numerous benefits. 

Automated Irrigation System Using a Wireless Sensor Network and GPRS  Modul e

An automated irrigation system was developed to optimize water use for agricultural crops. The system has a distributed wireless network of soil-moisture andtemperature sensors placed in the root zone of the plants. In addition, a gateway unit handles sensor information, triggers actuators, and transmits data to a web application. An algorithm was developed with threshold values of temperature and soil moisture that was programmed into a microcontroller-based gateway to control water quantity. The system was powered by photovoltaic panels and had a duplex communication link based on a cellular-Internet interface that allowed for data inspection and irrigation scheduling to be programmed through a web page. The automated system was tested in a sage crop field for 136

days and water savings of up to 90% compared with traditional irrigation practices of the agricultural zone were achieved. Three replicas of the automated system have been used successfully in other places for 18 months. Because of its energy autonomy and low cost, the system has the potential to be useful in water limited geographically isolated areas. View full abstract